CN117302995B

CN117302995B - Spinning paper tube vertical stacking storage device with limiting and dimensional stabilizing structure

Info

Publication number: CN117302995B
Application number: CN202311360622.0A
Authority: CN
Inventors: 黄继春; 龚杰; 冷勇明
Original assignee: Conitex Sonoco Suzhou Paper Co ltd
Current assignee: Conitex Sonoco Suzhou Paper Co ltd
Priority date: 2023-10-20
Filing date: 2023-10-20
Publication date: 2024-04-12
Anticipated expiration: 2043-10-20
Also published as: CN117302995A

Abstract

The invention provides a vertical stacking storage device for spinning paper tubes with a limiting dimensionally stable structure, which relates to the technical field of vertical stacking of spinning paper tubes, and comprises the following components: the conveying base, be provided with two supporting frame pieces directly over the conveying base, the equal slidable mounting of inside casing region of two supporting frame pieces has spacing auxiliary member, and spacing auxiliary member quantity can increase and decrease, can select the spacing auxiliary member of corresponding quantity according to the quantity of required transport spinning paper tube, when the spinning paper tube is placed perpendicularly between two adjacent groups of spacing auxiliary members, can realize the spacing fixed to the spinning paper tube through these two groups of spacing auxiliary members, when guaranteeing the follow-up transportation, the phenomenon of toppling over can not take place for the spinning paper tube, has solved the vertical pile up neatly mode of spinning paper tube now, the transport of the spinning paper tube of being inconvenient for is carried, and when receiving thrust, very easily takes place to empty the phenomenon, causes the problem of spinning paper tube collision deformation.

Description

Spinning paper tube vertical stacking storage device with limiting and dimensional stabilizing structure

Technical Field

The invention relates to the technical field of vertical stacking of spinning paper tubes, in particular to a vertical stacking storage device for spinning paper tubes with a limiting and dimensionally stable structure.

Background

The spinning paper tube is a tubular object processed by paper, when the spinning paper tube is stored for a long time, the spinning paper tube needs to be vertically piled up to prevent the spinning paper tube from deforming, but the vertical piling mode is inconvenient for carrying and conveying the spinning paper tube, and when the spinning paper tube is pushed, the phenomenon of toppling easily occurs, so that the collision deformation of the spinning paper tube is caused, and the quality is influenced, so that a spinning paper tube conveying device which is convenient for storing the spinning paper tube for a long time and is beneficial to carrying and conveying the spinning paper tube is needed at present, and the requirement is met.

Disclosure of Invention

In view of this, the invention provides a vertical stacking storage device for spinning paper tubes with a spacing maintenance structure, the number of the spacing auxiliary pieces can be increased and decreased, the corresponding number of the spacing auxiliary pieces can be selected according to the number of the required spinning paper tubes to be conveyed, when the spinning paper tubes are vertically placed between two adjacent groups of spacing auxiliary pieces, firstly, the spacing fixation of the positions of one group of spacing auxiliary pieces is realized, then the other group of spacing auxiliary pieces can slide along a spacing chute and a spacing through opening, so that nylon belts in the two adjacent groups of spacing auxiliary pieces in a tight state jointly clamp and limit the spinning paper tubes positioned between the two groups of spacing auxiliary pieces, and the position of the group of spacing auxiliary pieces is fixed, and the spacing fixation of the spinning paper tubes can be realized through the two groups of spacing auxiliary pieces, so that the phenomenon of toppling of the spinning paper tubes can not happen when the spinning paper tubes are transported later.

The invention provides a spinning paper tube vertical stacking storage device with a limiting dimensionally stable structure, which specifically comprises: the conveying base is provided with two supporting frame blocks right above the conveying base, the supporting frame blocks are of rectangular frame block structures, and four edge included angle parts of the bottom end face of the supporting frame block positioned at the lower side are fixedly connected with four edge included angle parts of the top end face of the conveying base through a short connecting column; the four edge included angle parts of the bottom end surface of the supporting frame block positioned at the upper side are fixedly connected with the four edge included angle parts of the top end surface of the supporting frame block positioned at the lower side through a long connecting column; the inside casing region of two supporting frame pieces all slidable mounting has spacing auxiliary member, and spacing auxiliary member is through nylon belt, connecting slider, spacing slider, rotation block, spacing double-screw bolt, embedded slot, accomodate cell body, reset spring, rotate and accomodate recess and screw thread transmission through-hole and constitute jointly, and spacing auxiliary member quantity can increase and decrease.

Further, the conveying base is of a rectangular block structure, two forklift matching grooves are formed in the bottom end of the conveying base in a bilateral symmetry mode, the forklift matching grooves are of a rectangular groove structure, and the forklift matching grooves penetrate through the front end face and the rear end face of the conveying base; a sponge cushion pad is embedded and installed on the top end face of the conveying base.

Furthermore, the front end face and the rear end face of the supporting frame block are provided with a limiting chute, and the limiting chute is of a rectangular groove structure; a limiting through opening communicated with the inner frame area of the supporting frame block is formed in the upper half area of the limiting chute positioned at the front side, and the limiting through opening is of a rectangular opening structure; the lower half area of the limiting chute positioned at the rear side is also provided with a limiting through opening communicated with the inner frame area of the supporting frame block.

Further, a connecting sliding block is fixedly arranged in the lower half area of the front end face of the nylon belt, the connecting sliding block is of a rectangular block structure, a limiting sliding block is arranged on the top end face of the connecting sliding block, and the limiting sliding block is of a square block structure; a connecting sliding block is fixedly arranged in the upper half area of the front end surface of the nylon belt, and a limiting sliding block is arranged at the bottom end surface of the connecting sliding block; the two connecting sliding blocks are respectively and slidably connected in the two limiting through openings, and the two limiting sliding blocks are respectively and slidably connected in the two limiting sliding grooves, so that the nylon belt is in a tight state.

Further, a rotary storage groove is formed in the front end face of the limiting slide block located on the front side, the rotary storage groove is of a circular groove structure, and a thread transmission through hole penetrating through the rear end face of the limiting slide block is formed in the axis position of the rotary storage groove; the rear end face of the limit sliding block positioned at the rear side is also provided with a rotary storage groove, and the axis part of the rotary storage groove is provided with a threaded transmission through hole penetrating through the front end face of the limit sliding block.

Further, two rotating block bodies are arranged in the rotating storage grooves, the rotating block bodies are of round block structures, the diameters of the rotating block bodies are consistent with those of the rotating storage grooves, and the thickness of the rotating block bodies is smaller than the depth of the rotating storage grooves; the axle center of the rear end face of the rotary block body is provided with a limit stud which is in threaded connection with the threaded transmission through hole.

Further, an embedded slot is formed in the axial center of the front end face of the rotary block body, and the embedded slot is of an oval slot structure; the embedded slot is internally inserted with an embedded block matched with the embedded block in structure size, and the axis position of the front end surface of the embedded block is provided with a matched slot which is in a hexagonal slot structure.

Furthermore, a storage groove body is formed in the axis position of the embedded slot, the storage groove body is of a circular groove structure, a reset spring is fixedly arranged on the plane inside the storage groove body, and the front end of the reset spring and the front end face of the rotating block are located on the same vertical plane in the extending state of the reset spring.

Advantageous effects

According to the invention, the number of the limiting auxiliary pieces can be increased or decreased, the corresponding number of the limiting auxiliary pieces can be selected according to the number of the required spinning paper tubes to be conveyed, when the spinning paper tubes are vertically placed between two adjacent groups of limiting auxiliary pieces, firstly, the limiting fixation of the positions of one group of limiting auxiliary pieces is realized, then the other group of limiting auxiliary pieces can slide along the limiting sliding groove and the limiting through opening, so that nylon belts in the two adjacent groups of limiting auxiliary pieces in a tight state jointly clamp and limit the spinning paper tubes positioned between the two groups of limiting auxiliary pieces, the positions of the group of limiting auxiliary pieces are limited and fixed, the limiting fixation of the spinning paper tubes can be realized through the two groups of limiting auxiliary pieces, and the phenomenon that the spinning paper tubes fall down can not happen during subsequent transportation is ensured.

According to the invention, the sponge buffer cushion is embedded in the top end surface of the conveying base, so that when the spinning paper tube is vertically placed in the inner frame areas of the two supporting frame blocks, the sponge buffer cushion can buffer the bottom of the spinning paper tube, and the phenomenon that the bottom of the spinning paper tube deforms due to hard collision of the bottom of the spinning paper tube is avoided, so that the quality condition of the spinning paper tube is affected.

According to the invention, the embedded slot in the limiting auxiliary piece adopts an oval slot structure, and the oval slot structure is designed, so that under the splicing fit of no embedded piece, the rotating block cannot be rotated through a common tool, thereby effectively avoiding the situation that a non-staff rotates the rotating block to influence the limiting fixation of the limiting auxiliary piece, and further leading the spinning paper tube to topple.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is an isometric view of an embodiment of the invention.

Fig. 2 is a schematic diagram illustrating a detachment structure of the limiting auxiliary member in fig. 1 according to an embodiment of the present invention.

Fig. 3 is a schematic view illustrating a structure of the stop assist member of fig. 1 in a removed state according to an embodiment of the present invention.

Fig. 4 is a schematic cross-sectional structural view of a delivery base of an embodiment of the present invention.

Fig. 5 is an isometric view of a spacing aid according to an embodiment of the present invention.

Fig. 6 is a schematic cross-sectional view of a spacing aid according to an embodiment of the present invention.

Fig. 7 is a partially enlarged structural schematic diagram of fig. 6B in accordance with an embodiment of the present invention.

Fig. 8 is a schematic view showing a structure in a state in which the rotating block is removed in fig. 7 according to an embodiment of the present invention.

Fig. 9 is a partially enlarged schematic construction view of fig. 1 at a in accordance with an embodiment of the present invention.

Fig. 10 is a schematic view of the slug in fig. 9 in a disassembled state in accordance with an embodiment of the invention.

List of reference numerals

1. A conveying base; 101. a fork truck matching groove; 102. a sponge cushion pad; 103. a support frame block; 104. a short connecting column; 105. a long connecting column; 106. limiting sliding grooves; 107. limiting the through opening; 2. a limit auxiliary member; 201. a nylon belt; 202. the connecting slide block; 203. a limit sliding block; 204. rotating the block; 205. a limit stud; 206. an embedded slot; 207. a storage tank; 208. a return spring; 209. a rotation receiving groove; 2010. a threaded transmission through hole; 3. an insert; 301. and matching with the slot.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention.

Examples: please refer to fig. 1 to 10:

the invention provides a vertical stacking storage device for spinning paper tubes with a limiting and dimensionally stable structure, which comprises a conveying base 1, wherein two supporting frame blocks 103 are arranged right above the conveying base 1, the supporting frame blocks 103 are of rectangular frame block structures, and four edge included angle parts of the bottom end surface of the supporting frame block 103 positioned at the lower side are fixedly connected with four edge included angle parts of the top end surface of the conveying base 1 through a short connecting column 104; the four edge included angle parts of the bottom end surface of the supporting frame block 103 positioned at the upper side are fixedly connected with the four edge included angle parts of the top end surface of the supporting frame block 103 positioned at the lower side through a long connecting column 105; the inner frame areas of the two supporting frame blocks 103 are respectively provided with a limiting auxiliary piece 2 in a sliding mode, the limiting auxiliary pieces 2 are composed of nylon belts 201, connecting sliding blocks 202, limiting sliding blocks 203, rotating blocks 204, limiting studs 205, embedded slots 206, containing groove bodies 207, reset springs 208, rotating containing grooves 209 and threaded transmission through holes 2010 in a combined mode, the number of the limiting auxiliary pieces 2 can be increased or decreased, and accordingly the corresponding number of the limiting auxiliary pieces 2 can be selected according to the number of required spinning paper tubes.

The conveying base 1 is of a rectangular block structure, two forklift matching grooves 101 are formed in the bottom end surface of the conveying base 1 in a bilateral symmetry mode, the forklift matching grooves 101 are of a rectangular groove structure, the forklift matching grooves 101 penetrate through the front end surface and the rear end surface of the conveying base 1, when the spinning paper tubes are required to be conveyed, the forklift fork is matched with the two forklift matching grooves 101, and therefore conveying and conveying of the spinning paper tubes are achieved, and the purpose of conveying the spinning paper tubes is achieved; the sponge cushion pad 102 is embedded to be installed in the conveying base 1 top end face, can play the buffering effect to spinning paper tube bottom through the sponge cushion pad 102, avoids spinning paper tube bottom to take place hard collision, leads to spinning paper tube bottom to take place to warp to influence spinning paper tube quality condition's emergence.

Wherein, the front end face and the rear end face of the supporting frame block 103 are provided with a limit chute 106, and the limit chute 106 is in a rectangular groove structure; a limiting through opening 107 communicated with the inner frame region of the supporting frame block 103 is formed in the upper half region of the limiting chute 106 positioned at the front side, and the limiting through opening 107 is of a rectangular opening structure; the lower half area of the limit chute 106 positioned at the rear side is also provided with a limit through opening 107 communicated with the inner frame area of the supporting frame block 103, the lower half area of the front end surface of the nylon belt 201 is fixedly provided with a connecting slide block 202, the connecting slide block 202 is in a rectangular block structure, the top end surface of the connecting slide block 202 is provided with a limit slide block 203, and the limit slide block 203 is in a square block structure; a connecting sliding block 202 is fixedly arranged in the upper half area of the front end surface of the nylon belt 201, and a limiting sliding block 203 is arranged on the bottom end surface of the connecting sliding block 202; the two connecting sliding blocks 202 are respectively and slidably connected in the two limiting through openings 107, and the two limiting sliding blocks 203 are respectively and slidably connected in the two limiting sliding grooves 106, so that the nylon belt 201 is in a tight state.

Wherein, a rotation accommodating groove 209 is provided on the front end surface of the limit slider 203 at the front side, the rotation accommodating groove 209 is in a circular groove structure, and a thread transmission through hole 2010 is provided on the axial center of the rotation accommodating groove 209 and penetrates through the rear end surface of the limit slider 203; the rear end surface of the limit sliding block 203 positioned at the rear side is also provided with a rotary storage groove 209, the axis part of the rotary storage groove 209 is provided with a thread transmission through hole 2010 penetrating through the front end surface of the limit sliding block 203, two rotary storage grooves 209 are internally provided with a rotary block 204, the rotary block 204 is in a circular block structure, the diameter of the rotary block 204 is consistent with the diameter of the rotary storage groove 209, and the thickness of the rotary block 204 is smaller than the depth of the rotary storage groove 209; the axial center of the rear end surface of the rotary block 204 is provided with a limit stud 205, the limit stud 205 is in threaded connection with the threaded transmission through hole 2010, and when the limit stud 205 is in limit fixation, the limit stud 205 can rotate along the threaded transmission through hole 2010 until the limit stud 205 is closely attached to the vertical surface at the inner end of the limit chute 106, so that the limit fixation of the position of the limit auxiliary part 2 is realized.

Wherein, the axial center of the front end surface of the rotary block 204 is provided with an embedded slot 206, and the embedded slot 206 has an elliptic slot structure; the embedded slot 206 is internally inserted with an embedded block 3 matched with the embedded block 3 in structural size, the axial center part of the front end surface of the embedded block 3 is provided with a matched slot 301, the matched slot 301 is of a hexagonal slot structure, under the inserted matching of no embedded block 3, the rotating block 204 cannot be rotated through a common tool, so that the situation that a non-working person rotates the rotating block 204 and the limiting fixing of the limiting auxiliary piece 2 is influenced is effectively avoided, the spinning paper tube is caused, the embedded block 3 can be carried by a working person, the axial center part of the embedded slot 206 is provided with a containing slot body 207, the containing slot body 207 is of a circular slot structure, the inner plane of the containing slot body 207 is fixedly provided with a reset spring 208, the front end of the reset spring 208 is in the same vertical plane with the front end surface of the rotating block 204 under the stretching state of the reset spring 208, when the embedded block 3 is inserted into the embedded slot 206, the reset spring 208 is compressed under the external force pressure, and when the external force is not applied, the reset spring 208 is reset to rebound, so that the embedded block 3 is automatically extruded out of the embedded block 206, and the embedded block 3 is automatically separated from the embedded slot 3.

Specific use and action of the embodiment:

the number of the limiting auxiliary pieces 2 can be increased or decreased, so that the corresponding number of the limiting auxiliary pieces 2 is selected according to the number of the required spinning paper tubes;

the spinning paper tube is vertically arranged in the inner frame area of the two supporting frame blocks 103 and is positioned between the two adjacent groups of limiting auxiliary pieces 2, and the sponge buffer cushion 102 is embedded in the top end face of the conveying base 1, so that when the spinning paper tube is vertically arranged in the inner frame area of the two supporting frame blocks 103, the sponge buffer cushion 102 can play a buffering effect on the bottom of the spinning paper tube, and the bottom of the spinning paper tube is prevented from being rigidly collided, so that the bottom of the spinning paper tube is deformed, and the quality condition of the spinning paper tube is influenced;

when the spinning paper tube is vertically placed between two adjacent groups of limiting auxiliary pieces 2, firstly, the embedded block 3 is inserted into the embedded slot 206 in one group of limiting auxiliary pieces 2, and the block 204 is rotated by the insertion fit of the socket wrench and the matching slot 301, so that the limiting stud 205 rotates along the threaded transmission through hole 2010 until the limiting stud 205 is closely attached to the vertical surface at the inner end of the limiting chute 106, thereby realizing the limiting fixation of the position of the group of limiting auxiliary pieces 2, and after the position of one group of limiting auxiliary pieces 2 is limited and fixed, the other group of limiting auxiliary pieces 2 can slide along the limiting chute 106 and the limiting through opening 107 at the moment, so that the nylon belt 201 in the state of being in tension in the two adjacent groups of limiting auxiliary pieces 2 clamps and limits the spinning paper tube positioned between the limiting auxiliary pieces together, thereby realizing the limiting fixation, and ensuring that the spinning paper tube does not topple during subsequent transportation;

furthermore, the embedded slot 206 in the limiting auxiliary piece 2 adopts an oval slot structure, and by the design of the oval slot structure, the rotating block 204 cannot be rotated through a common tool under the insertion fit of the no-insert 3, so that the phenomenon that the non-staff rotates the rotating block 204 to influence the limiting fixation of the limiting auxiliary piece 2 and cause the phenomenon that the spinning paper tube falls down is effectively avoided, and the insert 3 can be carried by the staff;

according to the invention, the axle center part of the embedded slot 206 is provided with a storage slot body 207, the inner plane of the storage slot body 207 is fixedly provided with a reset spring 208, the front end of the reset spring 208 and the front end surface of the rotating block 204 are positioned on the same vertical plane in the state that the reset spring 208 is stretched, through the arrangement of the reset spring 208, when an embedded block 3 is inserted into the embedded slot 206, the reset spring 208 is compressed under the external force pressure, and when no external force pressure exists, the reset spring 208 returns back, so that the embedded block 3 is automatically extruded out of the embedded slot 206, and the automatic separation operation of the embedded block 3 is realized;

according to the invention, the bottom end of the conveying base 1 is provided with two fork truck matching grooves 101 with rectangular groove structures in a bilateral symmetry mode, and when the spinning paper tubes are required to be conveyed, the two fork truck matching grooves 101 are matched with the fork truck, so that the conveying of the invention is realized, and the purpose of conveying the spinning paper tubes is achieved.

The above is only an exemplary embodiment of the present invention and is not intended to limit the scope of the present invention, which is defined by the appended claims.

Claims

1. Vertical pile up neatly storage device of spinning paper tube that possesses spacing dimension steady structure, its characterized in that includes: the conveying base (1), two supporting frame blocks (103) are arranged right above the conveying base (1), the supporting frame blocks (103) are of rectangular frame block structures, and four edge included angle positions of the bottom end surface of the supporting frame block (103) positioned at the lower side are fixedly connected with four edge included angle positions of the top end surface of the conveying base (1) through a short connecting column (104); the four edge included angle parts of the bottom end surface of the supporting frame block (103) positioned at the upper side are fixedly connected with the four edge included angle parts of the top end surface of the supporting frame block (103) positioned at the lower side through a long connecting column (105); the inner frame areas of the two supporting frame blocks (103) are respectively provided with a limiting auxiliary piece (2) in a sliding manner, the limiting auxiliary pieces (2) are composed of nylon belts (201), connecting sliding blocks (202), limiting sliding blocks (203), rotating blocks (204), limiting studs (205), embedded slots (206), containing groove bodies (207), reset springs (208), rotating containing grooves (209) and threaded transmission through holes (2010), and the number of the limiting auxiliary pieces (2) can be increased or decreased;

the front end face and the rear end face of the supporting frame block (103) are provided with a limiting chute (106), and the limiting chute (106) is of a rectangular groove structure; a limiting through opening (107) communicated with the inner frame region of the supporting frame block (103) is formed in the upper half region of the limiting chute (106) positioned at the front side, and the limiting through opening (107) is of a rectangular opening structure; the lower half area of the limit chute (106) positioned at the rear side is also provided with a limit through opening (107) communicated with the inner frame area of the support frame block (103); a connecting sliding block (202) is fixedly arranged in the lower half area of the front end face of the nylon belt (201), the connecting sliding block (202) is of a rectangular block structure, a limiting sliding block (203) is arranged on the top end face of the connecting sliding block (202), and the limiting sliding block (203) is of a square block structure; a connecting sliding block (202) is fixedly arranged in the upper half area of the front end surface of the nylon belt (201), and a limiting sliding block (203) is arranged on the bottom end surface of the connecting sliding block (202); the two connecting sliding blocks (202) are respectively and slidably connected in the two limiting through openings (107), the two limiting sliding blocks (203) are respectively and slidably connected in the two limiting sliding grooves (106), and the nylon belt (201) is in a tight state at the moment;

a rotary accommodating groove (209) is formed in the front end face of the limiting slide block (203) positioned at the front side, the rotary accommodating groove (209) is of a circular groove structure, and a thread transmission through hole (2010) penetrating through the rear end face of the limiting slide block (203) is formed in the axial center of the rotary accommodating groove (209); the rear end face of the limit sliding block (203) positioned at the rear side is also provided with a rotary accommodating groove (209), and the axis part of the rotary accommodating groove (209) is provided with a thread transmission through hole (2010) penetrating through the front end face of the limit sliding block (203);

a rotating block body (204) is arranged in each rotating storage groove (209), the rotating block body (204) is of a circular block structure, the diameter of the rotating block body (204) is consistent with that of the rotating storage grooves (209), and the thickness of the rotating block body (204) is smaller than the depth of the rotating storage grooves (209); a limit stud (205) is arranged at the axial center of the rear end surface of the rotary block (204), and the limit stud (205) is in threaded connection with a threaded transmission through hole (2010);

an embedded slot (206) is formed in the axial center of the front end surface of the rotary block (204), and the embedded slot (206) is of an oval slot structure; an embedded block (3) matched with the structure size of the embedded slot (206) is inserted in the embedded slot, a matching slot (301) is formed in the axial center position of the front end face of the embedded block (3), and the matching slot (301) is in a hexagonal slot structure;

the embedded slot (206) axle center position has offered one and has been accomodate cell body (207), accomodates cell body (207) and is circular groove structure, accomodates cell body (207) internal plane fixed mounting and has a reset spring (208), and reset spring (208) under the extended state, reset spring (208) front end is in same perpendicular with the preceding terminal surface of rotation block (204).

2. The spinning paper tube vertical stacking storage device with a limiting and stabilizing structure as claimed in claim 1, wherein: the conveying base (1) is of a rectangular block structure, two forklift matching grooves (101) are formed in the bottom end surface of the conveying base (1) in a bilateral symmetry mode, the forklift matching grooves (101) are of a rectangular groove structure, and the forklift matching grooves (101) penetrate through the front end surface and the rear end surface of the conveying base (1); a sponge cushion pad (102) is embedded and installed on the top end face of the conveying base (1).