CN222642425U - Gluing equipment - Google Patents

Abstract

The utility model discloses a gluing device. The gluing device comprises a gluing device and a gluing assembly, the gluing device comprises a metering cylinder body and a glue outlet valve assembly, an inlet of the glue outlet valve assembly is communicated with a cylinder body outlet, the metering cylinder body comprises a first metering cylinder body and a second metering cylinder body, and the glue outlet valve assembly selectively enables a cylinder body outlet of the first metering cylinder body or a cylinder body outlet of the second metering cylinder body to be communicated with an outlet of the glue outlet valve assembly. Therefore, after the colloid stored in the first metering cylinder body is used, the colloid stored in the second metering cylinder body can be used for gluing, meanwhile, the colloid stored in the first metering cylinder body and the colloid stored in the second metering cylinder body are used alternately, the colloid stored in the first metering cylinder body and the colloid stored in the second metering cylinder body do not need to wait for gluing after the colloid stored in the first metering cylinder body is used, the processing beat is fast, the processing efficiency is high, and the processing time is short.

Description

Gluing equipment

Technical Field

The utility model relates to the field of battery processing, in particular to gluing equipment.

Background

Existing gluing equipment has only one metering cylinder. Colloid is stored in the metering cylinder. The metering cylinder is used for outputting colloid to finish gluing work. After the use of the gel in the metering cylinder is completed, it is necessary to suck a new gel (return gel) into the metering cylinder. In the process of glue return, the metering cylinder cannot output glue, and then glue coating work cannot be performed. Therefore, the gluing work can be performed only after the glue return is completed by the metering cylinder, the working beat is slow, and the processing efficiency is low.

To this end, the present utility model provides a gluing device to at least partially solve the above-mentioned problems.

Disclosure of utility model

In the summary, a series of concepts in simplified form are introduced, which will be further described in detail in the detailed description. The summary of the utility model is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

To at least partially solve the above technical problems, the present utility model provides a glue spreading device, which includes a glue spreading device and a glue spreading assembly, the glue spreading device includes:

The metering cylinder body is provided with a containing cavity, a cylinder body inlet and a cylinder body outlet, wherein the cylinder body inlet and the cylinder body outlet are communicated with the containing cavity, and the cylinder body inlet is used for being communicated to a container for containing colloid;

The inlet of the glue outlet valve assembly is communicated with the outlet of the cylinder body;

Wherein the metering cylinder body comprises a first metering cylinder body and a second metering cylinder body, the glue outlet valve assembly selectively enables the cylinder body outlet of the first metering cylinder body or the cylinder body outlet of the second metering cylinder body to be communicated with the outlet of the glue outlet valve assembly,

The inlet of the gluing component is communicated with the outlets of the glue outlet valve components of at least two gluing devices so as to output the glue respectively output by the at least two gluing devices.

According to the gluing equipment, for the gluing equipment for smearing the colloid on the battery, after the colloid stored in the first metering cylinder body is used, the colloid stored in the second metering cylinder body can be used for gluing by each gluing device, meanwhile, the colloid stored in the first metering cylinder body and the colloid stored in the second metering cylinder body are used alternately, the colloid stored in the first metering cylinder body and the colloid stored in the second metering cylinder body do not need to wait for gluing of one metering cylinder body, the gluing is continued, the processing beat is fast, the processing efficiency is high, and the processing time is short.

Optionally, the glue spreading device further comprises a glue outlet assembly, the glue outlet assembly is provided with a glue outlet and a glue outlet, and the glue outlet is communicated with the outlet of the glue outlet valve assembly;

the inlet of the gluing component is communicated with the glue outlet of the glue outlet component of at least two gluing devices.

Optionally, the glue outlet valve assembly comprises a first glue outlet valve and a second glue outlet valve, the cylinder body outlet of the first metering cylinder body is communicated to the inlet of the first glue outlet valve, the cylinder body outlet of the second metering cylinder body is communicated to the inlet of the second glue outlet valve, and the outlet of the first glue outlet valve and the outlet of the second glue outlet valve are both communicated to the glue outlet inlet.

Optionally, the gluing device further comprises a glue inlet valve assembly, an inlet of the glue inlet valve assembly is communicated with the container, an outlet of the glue inlet valve assembly is communicated with an inlet of the cylinder body,

The glue inlet valve assembly selectively communicates the cylinder inlet of the first metering cylinder or the cylinder inlet of the second metering cylinder to the receptacle.

Optionally, the glue inlet valve assembly comprises a first glue inlet valve and a second glue inlet valve, the inlet of the cylinder body of the first metering cylinder body is communicated to the outlet of the first glue inlet valve, the inlet of the cylinder body of the second metering cylinder body is communicated to the outlet of the second glue inlet valve, and the inlet of the first glue inlet valve and the inlet of the second glue inlet valve are both communicated to the container.

Optionally, the glue spreading device further comprises a control valve assembly, an outlet of the control valve assembly is communicated with a control end of the glue inlet valve assembly, an inlet of the control valve assembly is used for being communicated with a control air source,

The control valve assembly selectively communicates the inlet of the first glue valve or the inlet of the second glue valve to the container.

Optionally, the control valve assembly includes a first control valve and a second control valve,

The inlet of the first control valve is used for being communicated with a control air source, the outlet of the first control valve is communicated with the control end of the first glue inlet valve,

The inlet of the second control valve is used for being communicated with a control air source, and the outlet of the second control valve is communicated with the control end of the second glue inlet valve.

Optionally, the glue application apparatus further comprises a controller electrically connected to the glue outlet valve assembly, the controller controlling the operation of the glue outlet valve assembly to enable the second metering cylinder to suck glue into the container, or to enable the first metering cylinder to supply glue to the glue application assembly

The controller controls the operation of the glue outlet valve assembly to control the first metering cylinder to suck the glue in the container under the condition that the second metering cylinder provides the glue to the glue coating assembly.

Optionally, a piston is disposed in the metering cylinder, and the glue spreading device further includes a driving member connected to the piston to drive the piston to move.

Optionally, the drive member comprises a first drive member connected to the piston of the first metering cylinder and a second drive member connected to the piston of the second metering cylinder.

Optionally, the gluing device further comprises a bracket to which the at least two gluing means are connected.

Drawings

In order that the advantages of the utility model will be readily understood, a more particular description of the utility model briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings. Understanding that these drawings depict only typical embodiments of the utility model and are not therefore to be considered to be limiting of its scope, the utility model will be described and explained with additional specificity and detail through the use of the accompanying drawings.

Fig. 1 is an exploded schematic view of a perspective view of a gumming device according to a preferred embodiment of the present utility model.

Description of the reference numerals

110: First gumming device 111

112, Second glue coating device 113, glue outlet assembly

120 Metering cylinder 121 first metering cylinder

122 Second metering cylinder 130 glue outlet valve assembly

131, A first glue outlet valve 132 and a second glue outlet valve

140 Glue inlet valve assembly 141 first glue inlet valve

142, A second glue inlet valve 150 and a control valve assembly

151 First control valve 152 second control valve

160 Drive member 161 first drive member

162 Second driving member 170 glue supply assembly

180:190:Support

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present utility model. It will be apparent, however, to one skilled in the art that embodiments of the utility model may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the embodiments of the utility model.

Preferred embodiments of the present utility model will be described below with reference to the accompanying drawings. It should be noted that the terms "upper," "lower," and the like are used herein for purposes of illustration only and not limitation.

Herein, ordinal words such as "first" and "second" cited in the present utility model are merely identifiers and do not have any other meaning, such as a particular order or the like.

In the following description, a detailed structure will be presented for a thorough understanding of embodiments of the present utility model. It will be apparent that embodiments of the utility model may be practiced without limitation to the specific details that are set forth by those skilled in the art. Preferred embodiments of the present utility model are described in detail below, however, the present utility model may have other embodiments in addition to these detailed descriptions.

The utility model provides a gluing device. The glue applicator can store glue in the later metering cylinder 120 and then spread the glue in the metering cylinder 120 on the battery (glue application work). The gluing device comprises a first metering cylinder 121 and a second metering cylinder 122. When the gel in the first metering cylinder 121 is used, the gel in the second metering cylinder 122 can be used to be smeared on the battery, and the first metering cylinder 121 is sucked in with new gel (gel return). In this way, the first metering cylinder 121 and the second metering cylinder 122 are used alternately, so that glue can be applied through one metering cylinder 120 in the glue return process of the other metering cylinder 120, waiting is not needed, and the glue applying working time is saved.

Referring to fig. 1, the glue application apparatus includes at least two glue application devices 110 and a glue application assembly 180. The glue application device 110 includes a glue supply assembly 170 and a glue discharge assembly 113. Wherein the glue supply assembly 170 includes a first glue supply assembly and a second glue supply assembly.

The glue supply assembly 170 includes a metering cylinder 120. The metering cylinder 120 may be a block of a hydraulic cylinder. The metering cylinder 120 has a receiving cavity, a cylinder inlet and a cylinder outlet. The cylinder inlet and the cylinder outlet are both communicated to the accommodating cavity. The cylinder inlet is adapted to communicate with a container containing the gel through a later gel inlet valve assembly 140, a fitting and a conduit. A piston is arranged in the accommodating cavity. Along the length of the metering cylinder 120 (up-down direction of fig. 1), the cylinder inlet and the cylinder outlet are located on both sides of the piston, respectively. The piston is movably disposed along the length of the metering cylinder 120.

In this way, during the movement of the piston, the gel can be sucked from the reservoir into the receiving chamber via the cylinder inlet or can be discharged from the receiving chamber through the cylinder outlet. The arrangement of the metering cylinder 120 and the piston is prior art and will not be described in detail here.

The glue supply assembly 170 also includes a glue outlet valve assembly 130. The glue outlet valve assembly 130 has an inlet and an outlet. The inlet of the glue out valve assembly 130 communicates to the cylinder outlet. The glue outlet assembly 113 has a glue outlet and a glue outlet. The glue outlet inlet communicates with the outlet of the glue outlet valve assembly 130.

As shown in fig. 1, specifically, the first glue supply assembly includes a first metering cylinder 121, a first glue outlet valve 131, a first glue inlet valve 141, a first control valve 151 and a first driving member 161. The second glue supply assembly includes a second metering cylinder 122, a second glue outlet valve 132, a second glue inlet valve 142, a second control valve 152, and a second drive member 162. The glue outlet valve assembly 130 includes two inlets and two outlets in a one-to-one correspondence. The inlet and outlet are correspondingly arranged to form a group of ports. That is, the glue outlet valve assembly 130 includes two sets of ports. The inlet of the glue outlet valve assembly 130 can be connected or disconnected from the corresponding outlet. The glue outlet assembly 113 includes two glue outlet inlets and one glue outlet. The two glue outlet inlets are separated and are communicated to the glue outlet.

One inlet of the glue out valve assembly 130 communicates to the cylinder outlet of the first metering cylinder 121. The other inlet of the glue valve assembly 130 communicates to the cylinder outlet of the second metering cylinder 122. An outlet of the glue outlet valve assembly 130 communicates with a glue outlet inlet. The other outlet of the glue outlet valve assembly 130 communicates to the other glue outlet inlet.

The glue outlet valve assembly 130 is capable of selectively communicating the inlet and outlet of two sets of ports. That is, the glue outlet valve assembly 130 can communicate the inlet and outlet of the first set of ports, thereby communicating the cylinder outlet of the first metering cylinder 121 to the glue outlet. At this time, the inlet and outlet of the second group of ports are disconnected.

The glue outlet valve assembly 130 communicates the inlet and outlet of the second set of ports, which in turn communicates the cylinder outlet of the second metering cylinder 122 to the glue outlet inlet. At this time, the inlet and outlet of the first group of ports are disconnected. In this way, the glue outlet valve assembly 130 selectively communicates the cylinder outlet of the first metering cylinder 121 or the cylinder outlet of the second metering cylinder 122 to the glue outlet inlet.

After the colloid stored in the first metering cylinder 121 is used, the colloid stored in the second metering cylinder 122 may be used to glue, and at the same time, the colloid in the first metering cylinder 121 is returned. The colloid stored in the first metering cylinder 121 and the colloid stored in the second metering cylinder 122 are used alternately, the glue is not required to be continuously coated after one metering cylinder 120 returns, the processing beat is fast, the processing efficiency is high, and the processing time is short.

As shown in fig. 1, the inlet of the glue application assembly 180 is connected to the glue outlet of the glue application assembly 113 of at least two glue application devices 110 to output different glue from each of the at least two glue application devices 110. For example, different colloids respectively output by at least two glue coating devices 110 are mixed to form a mixed colloid, and the mixed colloid is coated at a preset position of the battery.

It will be appreciated that in an embodiment not shown, the glue assembly may sequentially apply different glue from each of the at least two glue applicators to the battery.

Specifically, the at least two glue devices 110 comprise a first glue device 111 and a second glue device 112. The inlet of the glue spreading assembly 180 is connected to the glue outlet of the glue spreading assembly 113 of the first glue spreading device 111 and the glue outlet of the glue spreading assembly 113 of the second glue spreading device 112. In this way, at least two glue applicators 110 each feed a different glue to the glue assembly 180. The different gels are mixed within the glue assembly 180 to form a mixed gel. The glue assembly 180 applies the mixed glue to the predetermined locations of the battery.

It will be appreciated that in an embodiment not shown, the glue applicator may not include a glue dispensing assembly. At this time, the outlet of the glue valve assembly is directly connected to the inlet of the glue assembly 180. Thus, the outlet of the glue outlet valve assembly is the outlet of the glue spreading device.

In this embodiment, for the glue coating device that coats the glue on the battery, after the glue stored in the first metering cylinder 121 is used up, each glue coating device 110 can use the glue stored in the second metering cylinder 122 to coat the glue, and at the same time, make the first metering cylinder 121 return the glue, alternately use the glue stored in the first metering cylinder 121 and the glue stored in the second metering cylinder 122, and need not to wait for the glue to be coated continuously after the glue returned by one metering cylinder 120, so that the processing beat is fast, the processing efficiency is high, and the processing time is short.

Preferably, as shown in fig. 1, the glue valve assembly 130 includes a first glue valve 131 and a second glue valve 132. The cylinder outlet of the first metering cylinder 121 is connected to the inlet of the first glue valve 131. The cylinder outlet of the second metering cylinder 122 communicates to the inlet of the second glue valve 132. The outlet of the first glue outlet valve 131 is connected to a glue outlet. The outlet of the second glue outlet valve 132 is connected to another glue outlet. Thus, the first glue outlet valve 131 and the second glue outlet valve 132 are controlled respectively, so that the cylinder outlet of the first metering cylinder 121 or the cylinder outlet of the second metering cylinder 122 can be selectively communicated to the glue outlet. Thus, the glue valve assembly 130 is simple in structure.

Further preferably, the first glue outlet valve 131 and the second glue outlet valve 132 may be electromagnetic check valves. Therefore, the first glue outlet valve 131 and the second glue outlet valve 132 are convenient to select.

It will be appreciated that in an embodiment not shown, the first glue outlet valve and the second glue outlet valve may also be electromagnetic shut-off valves. In another embodiment, not shown, the glue valve assembly may be an electromagnetic directional valve.

Preferably, referring to fig. 1, the glue application device 110 further includes a glue inlet valve assembly 140. Glue valve assembly 140 has an inlet and an outlet. The inlet of the glue valve assembly 140 is connected to the container by a joint and a pipe which will be described later. The outlet of the glue inlet valve assembly 140 communicates with the cylinder inlet.

The glue valve assembly 140 can selectively communicate the cylinder inlet of the first metering cylinder 121 or the cylinder inlet of the second metering cylinder 122 to the receptacle.

Specifically, the glue valve assembly 140 enables the cylinder inlet of the first metering cylinder 121 to communicate to the receptacle. At this time, the communication between the cylinder inlet of the second metering cylinder 122 and the reservoir is disconnected.

The glue valve assembly 140 enables the cylinder inlet of the second metering cylinder 122 to communicate to the reservoir. At this time, the communication between the cylinder inlet of the second metering cylinder 122 and the reservoir is disconnected.

When the cylinder inlet of the first metering cylinder 121 is connected to the reservoir, the first metering cylinder 121 may return the glue. When the cylinder inlet of the second metering cylinder 122 is connected to the reservoir, the second metering cylinder 122 may return glue. Thereby, the first metering cylinder 121 or the second metering cylinder 122 can be selectively reworked.

Further, the glue valve assembly 140 includes a first glue valve 141 and a second glue valve 142. The cylinder inlet of the first metering cylinder 121 communicates to the outlet of the first glue inlet valve 141. The cylinder inlet of the second metering cylinder 122 communicates to the outlet of the second glue valve 142. The inlet of the first glue valve 141 and the inlet of the second glue valve 142 are both connected to the container. Thus, the first glue inlet valve 141 and the second glue inlet valve 142 are controlled respectively, so that the glue of the first metering cylinder 121 or the glue of the second metering cylinder 122 can be selectively returned. Thus, the glue valve assembly 140 is simple in structure.

Preferably, the first glue inlet valve 141 and the second glue inlet valve 142 may be air-controlled reversing valves. Thereby, the selection of the first glue valve 141 and the second glue valve 142 is facilitated.

It will be appreciated that in an embodiment not shown, the first glue valve and the second glue valve may also be electromagnetic shut-off valves. In a further embodiment, not shown, the first glue inlet valve and the second glue inlet valve may also be electromagnetic one-way valves or electromagnetic directional valves.

As shown in fig. 1, the glue valve assembly 140 also includes a control end. Communication between the inlet and outlet of the glue valve assembly 140 may be controlled by a control port. The gumming device 110 also includes a control valve assembly 150. The control valve assembly 150 has an inlet and an outlet. The outlet of the control valve assembly 150 is connected to the control end of the glue valve assembly 140. The inlet of the control valve assembly 150 is adapted to communicate with a control gas source (not shown). In this manner, control gas may be introduced to the control end of the glue valve assembly 140 when the inlet and outlet of the control valve assembly 150 are in communication. At this time, the control gas acts on the control end of the glue inlet valve assembly 140, so that the inlet and the outlet of the glue inlet valve assembly 140 are communicated, and the inlet of the metering cylinder 120 is communicated to the container, so that the metering cylinder 120 can return glue.

The control valve assembly 150 selectively communicates the inlet of the first glue valve 141 or the inlet of the second glue valve 142 to the container.

Specifically, the control valve assembly 150 enables communication between the inlet and outlet of the first glue valve 141, thereby enabling communication of the cylinder inlet of the first metering cylinder 121 to the receptacle. At this time, the communication between the inlet and the outlet of the second glue valve 142 is disconnected.

The control valve assembly 150 enables communication of the inlet and outlet of the second glue valve 142 and thus the cylinder inlet of the second metering cylinder 122 to the reservoir. At this time, the communication between the inlet and the outlet of the first glue valve 141 is disconnected.

Thus, the operation of the glue valve assembly 140 can be more accurately determined by the control valve.

Further, as shown in fig. 1, the control valve assembly 150 includes a first control valve 151 and a second control valve 152. The inlet of the first control valve 151 is for communication to a control gas source via a conduit. The outlet of the first control valve 151 is connected to the control end of the first glue valve 141. The inlet of the second control valve 152 is for communication to a control gas source. The outlet of the second control valve 152 is connected to the control end of the second glue valve 142. Thus, the first control valve 151 and the second control valve 152 are controlled respectively, so that the inlet of the first glue valve 141 or the inlet of the second glue valve 142 can be selectively communicated to the container. Thus, the control valve assembly 150 is simple in structure.

Preferably, the first control valve 151 and the second control valve 152 may each be an electromagnetic directional valve. Thereby, the selection of the first control valve 151 gate and the second control valve 152 gate is facilitated.

It will be appreciated that in an embodiment not shown, the first control valve 151 and the second control valve 152 may also be solenoid shut-off valves. In another embodiment, not shown, the first control valve 151 and the second control valve 152 may also be electromagnetic check valves.

The gumming device also comprises a controller (not shown). The controller is electrically connected to the glue outlet valve assembly 130, the glue inlet valve assembly 140, the control valve assembly 150 and the following driving member 160 to control the operation of the glue outlet valve assembly 130, the glue inlet valve assembly 140, the control valve assembly 150 and the following driving member 160.

The controller is configured to control the second metering cylinder 122 to draw in the glue in the container with the first metering cylinder 121 providing glue to the glue out assembly 113.

In an embodiment not shown, the controller is configured to control the first metering cylinder to aspirate the gel in the container, with the second metering cylinder providing the gel to the dispensing assembly.

After the colloid stored in the first metering cylinder 121 is used, the controller can use the colloid stored in the second metering cylinder 122 to glue, and at the same time, make the first metering cylinder 121 return the colloid. The controller controls the first metering cylinder 121 and the second metering cylinder 122 to alternately glue back and glue. Therefore, the colloid stored in the first metering cylinder 121 and the colloid stored in the second metering cylinder 122 are alternately used, the glue is not required to be continuously coated after one metering cylinder 120 returns, the processing beat is fast, the processing efficiency is high, and the processing time is short.

Referring to fig. 1, a piston is disposed in the metering cylinder 120. The gumming device 110 further comprises a driving member 160. The drive member 160 may produce a linear motion. The driving member 160 may be a linear motor. A drive member 160 is connected to the piston to drive the piston in movement. Therefore, the piston is conveniently controlled to move so as to return or glue.

Preferably, the driving member 160 includes a first driving member 161 and a second driving member 162. The first driving member 161 is connected to the piston of the first metering cylinder 121 to drive the movement of the piston of the first metering cylinder 121. The second drive member 162 is connected to the piston of the second metering cylinder 122 to drive movement of the piston of the second metering cylinder 122. Thereby, the driving member 160 has a simple structure.

Preferably, as shown in fig. 1, the gluing device comprises a support 190. At least two glue devices 110 are connected to the bracket 190. Therefore, the gluing device is simple in structure.

The present utility model has been illustrated by the above-described embodiments, but it should be understood that the above-described embodiments are for purposes of illustration and description only and are not intended to limit the utility model to the embodiments described. In addition, it will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that many variations and modifications are possible in light of the teachings of the utility model, which variations and modifications are within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model pertains. The terminology used herein is for the purpose of describing particular implementations only and is not intended to be limiting of the utility model. Terms such as "component" as used herein may refer to either a single part or a combination of parts. Terms such as "mounted," "disposed," and the like as used herein may refer to one component being directly attached to another component or to one component being attached to another component through an intermediary. Features described herein in one embodiment may be applied to another embodiment alone or in combination with other features unless the features are not applicable or otherwise indicated in the other embodiment.

Claims (11)

1. A glue coating device, characterized in that the glue coating device comprises a glue coating device and a glue coating component, and the glue coating device comprises: A metering cylinder, the metering cylinder having a containing cavity, a cylinder inlet and a cylinder outlet connected to the containing cavity, the cylinder inlet being used to connect to a container containing the colloid; A glue discharging valve assembly, the inlet of which is connected to the cylinder outlet; The metering cylinder includes a first metering cylinder and a second metering cylinder, and the glue discharging valve assembly selectively connects the cylinder outlet of the first metering cylinder or the cylinder outlet of the second metering cylinder to the outlet of the glue discharging valve assembly. The inlet of the glue coating component is connected to the outlet of the glue outlet valve component of at least two of the glue coating devices, so as to output the glue respectively output by at least two of the glue coating devices. 2. The glue coating device according to claim 1, characterized in that the glue coating device further comprises a glue discharging component, the glue discharging component has a glue discharging inlet and a glue discharging outlet, and the glue discharging inlet is connected to the outlet of the glue discharging valve component; The inlet of the glue coating component is connected to the glue outlet of the glue discharging component of at least two of the glue coating devices. 3. The glue coating equipment according to claim 2 is characterized in that the glue discharge valve assembly includes a first glue discharge valve and a second glue discharge valve, the cylinder outlet of the first metering cylinder is connected to the inlet of the first glue discharge valve, the cylinder outlet of the second metering cylinder is connected to the inlet of the second glue discharge valve, and the outlet of the first glue discharge valve and the outlet of the second glue discharge valve are both connected to the glue discharge inlet. 4. The glue coating equipment according to claim 1, characterized in that the glue coating device further comprises a glue feeding valve assembly, the inlet of the glue feeding valve assembly is connected to the container, and the outlet of the glue feeding valve assembly is connected to the cylinder inlet, The glue injection valve assembly selectively connects the cylinder inlet of the first metering cylinder or the cylinder inlet of the second metering cylinder to the container. 5. The glue coating equipment according to claim 4 is characterized in that the glue injection valve assembly includes a first glue injection valve and a second glue injection valve, the cylinder inlet of the first metering cylinder is connected to the outlet of the first glue injection valve, the cylinder inlet of the second metering cylinder is connected to the outlet of the second glue injection valve, and the inlet of the first glue injection valve and the inlet of the second glue injection valve are both connected to the container. 6. The glue coating equipment according to claim 5, characterized in that the glue coating device further comprises a control valve assembly, the outlet of the control valve assembly is connected to the control end of the glue inlet valve assembly, and the inlet of the control valve assembly is used to be connected to a control air source. The control valve assembly selectively connects the inlet of the first glue injection valve or the inlet of the second glue injection valve to the container. 7. The glue coating device according to claim 6, characterized in that the control valve assembly comprises a first control valve and a second control valve, The inlet of the first control valve is used to be connected to the control air source, and the outlet of the first control valve is connected to the control end of the first glue injection valve. The inlet of the second control valve is used to be connected to a control gas source, and the outlet of the second control valve is connected to a control end of the second glue injection valve. 8. The glue coating device according to claim 1, characterized in that the glue coating device further comprises a controller, wherein the controller is electrically connected to the glue discharging valve assembly. The controller controls the operation of the glue discharging valve assembly so as to control the second metering cylinder to absorb the glue in the container when the first metering cylinder provides glue to the glue coating assembly, or The controller controls the operation of the glue discharging valve assembly so as to control the first metering cylinder to absorb the glue in the container when the second metering cylinder provides glue to the glue coating assembly. 9. The glue coating equipment according to claim 1, characterized in that a piston is arranged in the metering cylinder, and the glue coating device further comprises a driving member, and the driving member is connected to the piston to drive the piston to move. 10 . The glue coating device according to claim 9 , wherein the driving member comprises a first driving member and a second driving member, the first driving member is connected to the piston of the first metering cylinder, and the second driving member is connected to the piston of the second metering cylinder. 11. The gluing equipment according to claim 1, characterized in that the gluing equipment further comprises a bracket, and at least two of the gluing devices are connected to the bracket.