CN106830641A - 3D glass bending machine - Google Patents

Abstract

The invention discloses a 3D glass hot bending forming machine which comprises a pushing device, wherein the pushing device comprises a linear sliding table, a pushing mechanism, a rotating mechanism and a sliding bracket, the pushing mechanism comprises a poking connecting rod and a plurality of poking plates which are fixedly arranged on the poking connecting rod and are arranged at intervals, the linear sliding table is rotatably connected to one end of the poking connecting rod and drives the poking connecting rod to move along the axis direction of the poking connecting rod, the other end of the poking connecting rod penetrates through the rotating mechanism and does reciprocating motion along the axis direction of the rotating mechanism, the rotating mechanism drives the poking connecting rod to rotate around the axis direction of the rotating mechanism, and the sliding bracket is supported below the poking connecting rod and is movably connected with the poking connecting rod. According to the 3D glass hot bending forming machine provided by the invention, the plurality of 3D glasses are moved along the axial direction of the poking and conveying connecting rod by the plurality of poking and conveying plates, so that the pushing mechanism can work at a plurality of stations at the same time, and the productivity of the 3D glass hot bending forming machine is improved.

Description

3D glass bending machine

technical field

The invention relates to the technical field of glass processing equipment, in particular to a 3D glass hot bending forming machine.

Background technique

With the continuous advancement of science and technology, the replacement cycle of various electronic equipment is getting shorter and shorter, and the manufacture of electronic equipment is also facing huge challenges as people's higher and higher requirements for it. As a new type of glass product, 3D glass has become an indispensable component in electronic equipment. According to the increasing demand, its manufacturing requirements, quality and output need to be improved urgently.

3D glass is widely used in various electronic devices, such as watches, mobile phones and driving recorders, etc., especially in the glass cover and tempered film of the smart terminal touch screen.

In related technologies, the 3D glass hot bending machine uses the traditional single-station processing method when producing 3D glass, that is, each process uses one station for processing, which cannot achieve the purpose of multi-station and automatic processing, which seriously affects its processing. efficiency and quality.

Therefore, it is necessary to provide a new 3D glass hot bending forming machine to solve the above problems.

Contents of the invention

In order to solve the above technical problems, the present invention provides a 3D glass hot bending machine with high processing efficiency.

The invention provides a 3D glass hot-bending forming machine, which includes a pushing device, the pushing device includes a linear slide table, a pushing mechanism, a rotating mechanism and a sliding bracket, and the pushing mechanism includes a dialing connecting rod and a plurality of The dialing connecting rod and the dialing plate arranged at intervals, the linear slide table is rotatably connected to one end of the dialing connecting rod and drives the dialing connecting rod to move along its axis direction, the dialing connecting rod The other end passes through the rotating mechanism and reciprocates along its axis. The rotating mechanism drives the dialing connecting rod to rotate around its axis. The sliding bracket is supported under the dialing connecting rod and It is flexibly connected with the dialing connecting rod.

Preferably, the sliding bracket includes a support portion with a groove on a side close to the dialing connecting rod, and a supporting block embedded in the groove and supporting the dialing connecting rod.

Preferably, every two adjacent transfer plates are arranged at equal intervals, and the 3D glass to be processed is sandwiched between two adjacent transfer plates.

Preferably, the dialing plate includes a collar sheathed on the dialing connecting rod and a dialing plate connected to the collar.

Preferably, the linear slide table includes a slide table body and a connecting piece connected to the slide table body and capable of moving laterally along the slide table body, and the dialing connecting rod is fixedly connected to the connecting piece.

Preferably, the rotating mechanism includes a cylinder fixedly connected to the dial connecting rod, and the cylinder drives the dial connecting rod to rotate around its axis.

Preferably, the rotation angle of the dialing connecting rod is 90°.

Preferably, the rotating mechanism further includes a coupling sleeve, and the cylinder and the dialing connecting rod are connected and fixed through the coupling sleeve.

Compared with related technologies, the 3D glass hot-bending forming machine provided by the present invention includes a pushing device, and the pushing device includes a pushing mechanism, a linear slide, a rotating mechanism and a sliding bracket. By connecting the linear slide to the One end of the dialing connecting rod of the pushing mechanism, and drives the dialing connecting rod to move along its axis direction; at the same time, the rotating mechanism is movably connected to the other end of the dialing connecting rod and drives the dialing The sending connecting rod rotates around its axial direction, and the dialing connecting rod reciprocates relative to the rotating mechanism along its axial direction, so that the pushing mechanism can work on a plurality of glass processing stations at the same time, Thereby, the production capacity of the glass hot bending forming machine is improved.

Description of drawings

Fig. 1 is a schematic diagram of the three-dimensional structure of the 3D glass hot-bending forming machine provided by the present invention.

detailed description

The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

Please refer to FIG. 1 , which is a schematic three-dimensional structure diagram of a 3D glass hot-bending forming machine provided by the present invention. The 3D glass hot bending forming machine is used for processing 3D glass (not shown), which includes a frame (not shown) and a pushing device 1 fixed on the frame, and the pushing device 1 pushes the 3D glass The 3D glass to be processed at the preheating forming station on the glass hot bending forming machine 100 is transferred to the preheating and reheating forming station.

The pushing device 1 includes a pushing mechanism 11, a linear slide 13 connected to one end of the pushing mechanism 11, a rotating mechanism 15 connected to the other end of the pushing mechanism 11, and a sliding bracket 17 arranged below the pushing mechanism 11 .

The push mechanism 11 includes a dialing connecting rod 111 fixedly connected to the linear slide 13 and a plurality of dialing plates 113 fixed on the dialing connecting rod 111, and every two adjacent dialing plates 113 are set at equal intervals.

The dialing plate 113 includes a collar 1131 sleeved on the dialing connecting rod 111 and a dialing plate 1133 connected to the collar 1131 .

The distance between each adjacent shifting plate 1133 is equal to the outer dimension of the 3D glass. Specifically, the moving distance of each shifting plate 1133 is equal to the distance between adjacent shifting plates 1133 .

The linear slide table 13 includes a slide table body 131 and a connecting piece 133 that is connected to the slide table body 131 and can move laterally along the slide table body 131, and the dialing connecting rod 111 is fixedly connected with the connecting piece 133 .

Specifically, the slide body 131 is electrically connected to the servo motor. After the servo motor is energized, the slide body 131 moves to drive the connecting piece 133 to move, and then the connecting piece 133 drives the dialing connecting rod 111 move along its axis.

The rotating mechanism 15 includes a mounting frame 151 fixed on the frame, a cylinder 153 fixed in the mounting frame 151 and one end sleeved on the end of the dialing connecting rod 111 away from the linear sliding table 13. part, and the other end is fixedly connected to the coupling sleeve 155 of the cylinder 153 . The cylinder 153 is connected and fixed to the dialing connecting rod 111 through the coupling sleeve 155 .

The slide body 131 drives the dialing connecting rod 111 to reciprocate relative to the mounting bracket 151 .

Specifically, the action of the cylinder 153 drives the coupling sleeve 155 to rotate around its axis, and the coupling sleeve 155 drives the dialing connecting rod 111 to rotate around its axis.

Specifically, each rotation angle of the dialing connecting rod 111 is 90 degrees.

Specifically, the dial 1133 is driven by the dial connecting rod 111 to rotate in one state parallel to the 3D glass, and in another state perpendicular to the 3D glass. When parallel to the 3D glass, the dial 1133 is embedded between the two 3D glasses to move the 3D glass; when perpendicular to the 3D glass, the dial 1133 avoids The 3D glass.

The sliding bracket 17 includes a sliding bracket 17 arranged below the dialing connecting rod 111 for supporting the dialing connecting rod 111, and the sliding bracket 17 includes a support portion 171 fixed to the frame. And the supporting block 173 fixed on the support portion 171 .

The support part 171 defines a groove 1711, one end of the holding block 173 is embedded in the groove 1711, and the other end is matched with the dialing connecting rod 111 to support the dialing connecting rod 111.

The supporting block 173 is an arc-shaped block structure, and its inner surface matches the outer shape of the dialing connecting rod 111 . The supporting block 173 supports the movement of the dial connecting rod 111 along the axial direction of the dial connecting rod 111 .

Specifically, the dialing connecting rod 111 is supported by the sliding bracket 17 to move along its axis, and is used to dial the 3D glass forward.

The working principle of the 3D glass hot bending forming machine 100:

When the 3D glass bending forming machine 100 transports a plurality of 3D glasses arranged at intervals along the length direction of the pushing device 1, the dial 1133 of the dialing mechanism is parallel to the 3D glass and makes the two phases The shifting plate 1133 is embedded between adjacent to the 3D glass, the action of the slide body 131 drives the connecting piece 133 to move laterally, and the connecting piece 133 drives the moving connecting rod 111 to move along its axis direction, so The dial 1133 moves the 3D glass along the axial direction of the dial connecting rod 111; after the dialing is completed, the cylinder 153 drives the dialing connecting rod 111 to rotate 90 degrees around its axis to avoid the The 3D glass, the slide body 131 drives the dialing connecting rod 111 to move back, the cylinder 153 drives the connecting sleeve 155 to move, and the connecting sleeve 155 simultaneously drives the dialing connecting rod 111 to rotate The axial direction moves 90 degrees, and at the same time, each of the dials 1133 is embedded between two adjacent 3D glasses and then dialed, repeating the above actions.

Compared with related technologies, the 3D glass hot-bending forming machine 100 provided by the present invention includes a pushing device 1, and the pushing device 1 includes a pushing mechanism 11, a linear slide table 13, a rotating mechanism 15 and a sliding bracket 17. The linear slide table 13 is rotatably connected to one end of the dialing connecting rod 111 of the pushing mechanism 11, and drives the dialing connecting rod 111 to move along its axis direction. At the same time, the rotating mechanism 15 is movably connected to the Dial the other end of the connecting rod 111 and drive the dialing connecting rod 111 to rotate around its axis, and the dialing connecting rod 111 reciprocates relative to the rotating mechanism 15 along its axis, so that the The pushing mechanism 11 can simultaneously work on multiple 3D glass processing stations, thereby increasing the productivity of the 3D glass hot bending forming machine 100 .

The above is only an embodiment of the present invention, and does not limit the patent scope of the present invention. Any equivalent structure or equivalent process transformation made by using the description of the present invention and the contents of the accompanying drawings, or directly or indirectly used in other related technologies fields, are all included in the scope of patent protection of the present invention in the same way.

Claims (8)

1. a kind of 3D glass bendings forming machine, including pusher, it is characterised in that the pusher include straight line slide unit, Delivery device, rotating mechanism and sliding pallet frame, the delivery device includes pulling over connecting rod and multiple is fixedly arranged on the connection of pulling over Bar and spaced plate of pulling over, the straight line slide unit are rotationally connected with described in one end of the connecting rod of pulling over and driving and pull over Connecting rod is moved along its axis direction, and the connecting rod other end of pulling over through the rotating mechanism and does past along its axis direction Multiple to move, connecting rod of being pulled over described in the rotating mechanism driving is rotated around its axis direction, and the sliding pallet frame is supported in described dialling Send the lower section of connecting rod and be flexibly connected with the connecting rod of pulling over.

2. 3D glass bendings forming machine according to claim 1, it is characterised in that the sliding pallet frame includes being dialled near described Send connecting rod side open up reeded supporting part and be embedded in the groove and connecting rod of pulling over described in supporting picking-up block.

3. 3D glass bendings forming machine according to claim 2, it is characterised in that per between two neighboring described plate etc. of pulling over Away from setting, 3D glass clamps to be processed are between plate of being pulled over described in adjacent two.

4. 3D glass bendings forming machine according to claim 1, it is characterised in that the plate of pulling over includes being sheathed on described The collar of connecting rod of pulling over and the plate of the connection collar.

5. 3D glass bendings forming machine according to claim 1, it is characterised in that the straight line slide unit includes slide unit body And connect the slide unit body and can be along the connector of the slide unit body transverse shifting, pull over connecting rod and the connection Part is fixedly connected.

6. 3D glass bendings forming machine according to claim 1, it is characterised in that the rotating mechanism includes and described group Send the cylinder that connecting rod is fixedly connected, connecting rod of being pulled over described in the air cylinder driven is rotated around its axis direction.

7. 3D glass bendings forming machine according to claim 6, it is characterised in that the rotational angle of the connecting rod of pulling over It is 90 °.

8. 3D glass bendings forming machine according to claim 6, it is characterised in that the rotating mechanism also includes connection Set, the cylinder is connected with the connecting rod of pulling over by the coupling sleeve.