CN220974957U - Pressure sensitive adhesive tape storage and transportation device - Google Patents

Abstract

The utility model discloses a pressure-sensitive adhesive tape storage and transportation device, which comprises a movable carrier and a storage unit; the storage unit comprises a penetrating pipe, a top plate and a fixing assembly; the first end of the penetrating pipe is fixedly connected with the movable carrier, and the second end forms a penetrating end; a plurality of openings are formed in the peripheral surface of the penetrating pipe at intervals; the top plate is arranged in the penetrating pipe and can be close to or far away from the opening; the top plate is provided with a butt bulge corresponding to the opening; the fixed component comprises a connecting rope, a counterweight body and a driving body; the connecting rope is movably arranged in the penetrating pipe along the length direction of the penetrating pipe and is provided with a connecting end and a pulling end; the counterweight body is arranged at the connecting end of the connecting rope; the driving body is connected with the connecting rope; and a matching structure for driving the top plate to move towards the direction close to the opening is arranged between the driving body and the top plate. The utility model can realize orderly storage of the pressure-sensitive adhesive tape, and the storage and transportation processes are stable, stable and reliable, thereby effectively meeting the transfer and transportation requirements of the pressure-sensitive adhesive tape.

Description

Pressure sensitive adhesive tape storage and transportation device

Technical Field

The utility model relates to the technical field of pressure-sensitive adhesive tape manufacturing and processing devices, in particular to a pressure-sensitive adhesive tape storage and transportation device.

Background

In the manufacturing and processing process of the pressure-sensitive adhesive tape, the pressure-sensitive adhesive tape is cut and rolled onto the hollow paper tube. After the slitting and winding are finished, the pressure-sensitive adhesive tape is required to be stored, and is generally placed on a tray, and then is transferred to the next station through lifting equipment such as a forklift, a crane and the like so as to be packaged. In the transferring process, the adhesive tapes are not well fixed, and a certain amount of pressure-sensitive adhesive tapes are mutually extruded and collided, so that the defects of pressure-sensitive adhesive tape breakage, surface depression and the like are easily caused, and the quality of the pressure-sensitive adhesive tapes is influenced. Therefore, a storage and transportation device is urgently needed to be designed so as to realize stable and reliable storage and transportation of the pressure-sensitive adhesive tape and meet the requirements of transferring and transportation of the pressure-sensitive adhesive tape at each station.

Disclosure of utility model

Aiming at the technical problems, the utility model aims at: the pressure-sensitive adhesive tape storage and transportation device can realize orderly storage of the pressure-sensitive adhesive tape, and the storage and transportation processes are stable, stable and reliable, so that the transfer and transportation requirements of the pressure-sensitive adhesive tape are effectively met.

The technical solution of the utility model is realized as follows: a pressure sensitive adhesive tape storage and transportation device comprises a movable carrier and at least one storage unit arranged on the movable carrier;

The storage unit comprises a penetrating pipe, a top plate and a fixing assembly;

the first end of the penetrating pipe is fixedly connected with the movable carrier, and the second end of the penetrating pipe forms a penetrating end; a plurality of openings are formed in the outer peripheral surface of the penetrating pipe at intervals along the length direction of the penetrating pipe;

The top plate is arranged in the penetrating pipe and can be close to or far away from the opening; an abutting bulge is arranged on the top plate corresponding to the opening;

The fixing component comprises a connecting rope, a counterweight body and a driving body;

The connecting rope is movably arranged in the penetrating pipe along the length direction of the penetrating pipe and is provided with a connecting end exposed out of the first end of the penetrating pipe and a pulling end extending towards the second end of the penetrating pipe;

the counterweight body is arranged at the connecting end of the connecting rope;

The driving body is arranged in the penetrating pipe and fixedly connected with the connecting rope; and a matching structure for driving the top plate to move towards the direction close to the opening is arranged between the driving body and the top plate.

Further, the fixed component comprises a movable piece arranged at the pulling end of the connecting rope; the movable member has an extended state in which the movable member can move in a longitudinal direction of the insertion tube and a contracted state in which the movable member is contracted into an inner space of the insertion tube; in the extended state, the movable piece is provided with a limiting end exposed out of the outer peripheral surface of the penetrating pipe; in the contracted state, the movable piece is in limit fit with the penetrating pipe to limit the movable piece to move towards the first end of the penetrating pipe.

Further, the movable piece comprises a base body, a telescopic rod movably arranged on the base body, and a spring connected between the base body and the telescopic rod; the matrix is movably arranged in the inner space of the penetrating pipe; a guide groove is formed in the penetrating pipe along the length direction of the penetrating pipe; a sinking groove is formed in the end face of the second end of the penetrating pipe; in the stretching state, the telescopic rod is movably arranged in the guide groove and is exposed out of the outer peripheral surface of the penetrating pipe; in the contracted state, the telescopic rod is limited in the sinking groove.

Further, the movable piece is provided with a first position and a second position which move along the length direction of the penetrating pipe; in the first position, the moveable member is switchable from the extended state to a contracted state; in the second position, the top plate is moved to a position adjacent the aperture.

Further, the matching structure comprises an inclined plane arranged on the driving body and a contact position which is arranged on the top plate and can be in sliding fit with the inclined plane.

Further, the penetrating pipe is horizontally arranged; the movable carrier is provided with a turning wheel for changing the extending direction of the connecting end of the connecting rope.

Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

1. According to the utility model, through the matched use of the storage unit, the pressure-sensitive adhesive tape can be orderly placed on the penetrating pipe in a penetrating way. Under the action of gravity of the counterweight body, the counterweight body can drive the connecting rope and the driving body to move towards one side of the length direction of the penetrating pipe so as to drive the top plate to move towards the direction close to the opening, and further the abutting bulge can abut against the hollow paper cylinder of each pressure-sensitive adhesive tape on the penetrating pipe, so that the pressure-sensitive adhesive tapes can be limited to rotate and shift in position on the penetrating pipe, and mutual collision among the pressure-sensitive adhesive tapes is effectively prevented. The combination of the modes ensures that the pressure-sensitive adhesive tape is orderly stored, and the storage and transportation processes are stable, stable and reliable, thereby effectively meeting the transfer and transportation requirements of the pressure-sensitive adhesive tape.

2. According to the utility model, through the matched use of the movable piece, when the movable piece is in the contracted state, the penetrating end of the pipe can be penetrated, so that the pressure-sensitive adhesive tape can be smoothly penetrated onto the penetrating pipe through the penetrating end. When the movable piece is in an extending state, the pressure-sensitive adhesive tape on the penetrating pipe can be prevented from accidentally separating from the penetrating pipe from the penetrating end, so that the safety of the storage and transportation processes is effectively improved, and the practicability is high.

Drawings

The technical scheme of the utility model is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic three-dimensional structure of the overall structure of the present utility model;

FIG. 2 is a schematic three-dimensional structure of another view of FIG. 1;

FIG. 3 is a schematic diagram of a three-dimensional structure of a memory cell according to the present utility model;

FIG. 4 is a schematic side view of the structure of FIG. 3;

FIG. 5 is a cross-sectional view taken at A-A of FIG. 4;

FIG. 6 is a schematic view of the three-dimensional structure of the penetrating cannula of the present utility model;

FIG. 7 is a schematic three-dimensional view of the top plate and securing assembly of the present utility model;

FIG. 8 is a schematic three-dimensional structure of a movable member according to the present utility model;

FIG. 9 is a schematic three-dimensional view of the movable member of the present utility model in a contracted state;

Wherein: 1. moving the carrier; 2. a storage unit; 3. a penetrating pipe; 31. opening holes; 32. a guide groove; 33. sinking grooves; 4. a top plate; 41. the abutting bulge; 42. a contact position; 5. a connecting rope; 6. a counterweight body; 61. a direction-changing wheel; 7. a driving body; 71. an inclined plane; 8. a movable member; 81. a base; 82. a telescopic rod; 83. a spring; 9. pressure sensitive adhesive tape.

Detailed Description

The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present utility model.

Fig. 1 to 8 show a pressure-sensitive adhesive tape storage and transport device according to the present embodiment, which is generally disposed beside a tape processing station so as to be able to store the pressure-sensitive adhesive tape 9 after processing. The device comprises a mobile carrier 1, at least one storage unit 2 arranged on the mobile carrier 1. The mobile carrier 1 is movable to enable transport of the storage units 2. In this embodiment, the mobile carrier 1 is welded from structural members, the bottom of which is equipped with rollers to enable movement on the ground. The number of the memory cells 2 depends on the actual requirements. The storage unit 2 comprises a penetrating pipe 3, a top plate 4, a fixing assembly and the like. Wherein the penetration tube 3 has a designed length. The penetrating pipe 3 is horizontally arranged, a first end of the penetrating pipe 3 is fixedly connected with the mobile carrier 1 through a bolt connection or welding mode, and a second end of the penetrating pipe 3 forms a penetrating end. The hollow paper tube of the pressure-sensitive adhesive tape 9 can be inserted onto the insertion tube 3 via the insertion end. A plurality of openings 31 are arranged at intervals along the length direction on both sides of the outer peripheral surface of the penetrating pipe 3. The opening 31 is a waist line hole, and the opening 31 is communicated with the inside of the perforating tube. The top plate 4 has the length of design, and two top plates 4 relatively arrange in penetrating pipe 3, and top plate 4 can pass through guide structure such as spout or slide rail and penetrating pipe 3 swing joint to can follow the radial round trip movement of penetrating pipe 3, thereby can be close to or keep away from trompil 31. In the present embodiment, the top plate 4 moves in the horizontal direction. The top plate 4 is provided with an abutment projection 41 corresponding to each opening 31. With the above-described structure, when the top plate 4 moves toward the position close to the opening 31, the abutment projection 41 can be exposed to the outer peripheral surface of the insertion tube 3.

The fixing assembly comprises a connecting rope 5, a counterweight body 6, a driving body 7 and other parts. The connecting rope 5 is a steel wire rope having a designed length. The connecting rope 5 is movably mounted in the penetrating pipe 3 along the length direction of the penetrating pipe 3 and is located between the two top plates 4, and the connecting rope 5 has a connecting end exposed at the first end of the penetrating pipe 3 and a pulling end extending toward the second end of the penetrating pipe 3. The counterweight body 6 is fixedly connected to the connecting end of the connecting rope 5. The weight body 6 provides gravity so that the connecting rope 5 can move toward the first end of the penetration tube 3. By pulling the pulling end of the connecting cord 5, the connecting cord 5 can be driven to move towards the second end close to the penetrating tube 3. A driving body 7 is arranged in the penetrating pipe 3 between the two top plates 4, which driving body 7 is fixedly connected with the connecting rope 5. When the connecting rope 5 moves, the driving body 7 follows the movement. A matching structure for driving the top plate 4 to move towards the direction close to the opening 31 is arranged between the driving body 7 and the top plate 4, so that when the connecting rope 5 moves towards the first end of the penetrating pipe 3, the top plate 4 is driven to move towards the direction close to the opening 31 by the matching structure, and then the abutting protrusion 41 is driven to be exposed out of the penetrating pipe 3 from the opening 31. When the connection cord 5 moves toward the second end of the insertion tube 3, the top plate 4 moves away from the opening 31 by an external force so that the abutment protrusion 41 is retracted into the interior of the insertion tube 3.

A deflecting wheel 61 for changing the direction of extension of the connecting end of the connecting string 5 is mounted on the mobile carrier 1 or on the insertion tube 3. The connection end of the connection rope 5 can be changed from the horizontal extending direction to the vertical extending direction by the turning of the turning wheel 61.

In this embodiment, the driving body 7 is arranged with two groups, and the aforementioned mating structure includes a slope 71 arranged on the driving body 7, and a contact position 42 formed on the top plate 4 and capable of sliding mating with the slope 71. The inclined upper and lower ends of the inclined surface 71 of the driving body 7 penetrate both sides in the longitudinal direction of the insertion tube 3. When the driving body 7 moves toward the first end of the penetration tube 3, the inclined surface 71 moves relatively to the contact position 42 so as to be able to lift up the contact position 42. The contact point 42 may be a point or a bevel adapted to the drive body 7. In this embodiment, the driving body 7 has a cone structure.

In this embodiment, the aforementioned fixed assembly includes a movable member 8 fixedly connected to the pulling end of the connecting rope 5. The movable piece 8 is pulled to move so as to drive the connecting rope 5 to move. The movable member 8 includes a base 81, a telescopic rod 82, a spring 83, and the like. The outer diameter of the base 81 is smaller than the inner diameter of the insertion tube 3, so that the base 81 can be movably arranged in the inner space of the insertion tube 3, i.e. the base 81 can be rotated as well as moved in the longitudinal direction of the insertion tube 3. A guide hole is provided in the base 81, and the telescopic rod 82 is mounted in the guide hole so as to be movable in the radial direction of the base 81. A spring 83 is connected between the base 81 and the telescopic rod 82, the spring 83 providing a resilient force to urge the telescopic rod 82 to move in a direction away from the base 81. The insertion tube 3 is provided with a guide groove 32 along its longitudinal direction. A countersink 33 is machined on the end face of the second end of the penetrating pipe 3. The movable member 8 is made to have an extended state and a contracted state by the telescopic action of the telescopic rod 82. In the extended state, the telescopic rod 82 is movably located in the guide groove 32 and has a limiting end exposed to the outer circumferential surface of the insertion tube 3, so that the movable member 8 can move along the length direction of the insertion tube 3. The pressure-sensitive adhesive tape 9 on the penetrating pipe 3 is limited by the stop limit of the telescopic rod 82 and cannot move towards the second end of the penetrating pipe 3. By moving the movable member 8 to the position corresponding to the sinking groove 33 and moving the telescopic rod 82 towards the direction close to the base 81 to retract by a certain length, the base 81 is rotated to clamp the telescopic rod 82 into the sinking groove 33, so that in the contracted state, the movable member 8 can be in limit fit with the penetrating pipe 3 to limit the movable member 8 to move towards the first end of the penetrating pipe 3. In this contracted state, the movable member 8 integrally avoids the penetration tube 3, so that the pressure-sensitive adhesive tape 9 can be smoothly penetrated onto the penetration tube 3 via the penetration end.

The movable member 8 is moved by pulling the movable member 8 so that the movable member 8 moves in the longitudinal direction of the insertion tube 3 to have a first position and a second position. In this first position, the telescopic rod 82 corresponds to the sink 33, so that the movable member 8 can be switched from the extended state to the contracted state. When the movable member 8 is in the unfolded state and moves to the second position, the driving member drives the top plate 4 to move the top plate 4 to a position close to the opening 31, so as to drive the abutting protrusion 41 to expose the insertion tube 3.

In specific use, the movable member 8 is pulled to move and the movable member 8 is switched to the contracted state. The pressure-sensitive adhesive tapes 9 are sequentially inserted onto the insertion tube 3 through the insertion ends, so that the pressure-sensitive adhesive tapes 9 can be orderly placed on the insertion tube 3 in an insertion manner. The movable piece 8 is switched to be in an extending state and is loosened, under the action of gravity of the counterweight body 6, the counterweight body 6 can drive the connecting rope 5 and the driving body 7 to move towards one side of the length direction of the penetrating pipe 3 so as to drive the top plate 4 to move towards the direction close to the opening 31, and then the abutting bulge 41 can abut against the hollow paper cylinder of each pressure-sensitive adhesive tape 9 on the penetrating pipe 3, so that the pressure-sensitive adhesive tapes 9 can be limited to rotate and shift in position on the penetrating pipe 3, and mutual collision among the pressure-sensitive adhesive tapes 9 can be effectively prevented. The combination of the modes ensures that the pressure-sensitive adhesive tape 9 is orderly stored, and the storage and transportation processes are stable, stable and reliable, thereby effectively meeting the transfer and transportation requirements of the pressure-sensitive adhesive tape 9. When the movable piece 8 is in an extending state, the limiting effect can be achieved, the pressure-sensitive adhesive tape 9 on the penetrating pipe 3 is prevented from being accidentally separated from the penetrating pipe 3 from the penetrating end, and the safety in the storage and transportation processes is effectively improved.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related arts are included in the scope of the present utility model.

Claims (6)

1. A pressure sensitive adhesive tape storage and transportation device comprises a movable carrier and at least one storage unit arranged on the movable carrier; the method is characterized in that:

The storage unit comprises a penetrating pipe, a top plate and a fixing assembly;

the first end of the penetrating pipe is fixedly connected with the movable carrier, and the second end of the penetrating pipe forms a penetrating end; a plurality of openings are formed in the outer peripheral surface of the penetrating pipe at intervals along the length direction of the penetrating pipe;

The top plate is arranged in the penetrating pipe and can be close to or far away from the opening; an abutting bulge is arranged on the top plate corresponding to the opening;

The fixing component comprises a connecting rope, a counterweight body and a driving body;

The connecting rope is movably arranged in the penetrating pipe along the length direction of the penetrating pipe and is provided with a connecting end exposed out of the first end of the penetrating pipe and a pulling end extending towards the second end of the penetrating pipe;

the counterweight body is arranged at the connecting end of the connecting rope;

The driving body is arranged in the penetrating pipe and fixedly connected with the connecting rope; and a matching structure for driving the top plate to move towards the direction close to the opening is arranged between the driving body and the top plate.

2. The pressure sensitive adhesive tape storage and transportation device according to claim 1, wherein: the fixed component comprises a movable piece arranged at the pulling end of the connecting rope; the movable member has an extended state in which the movable member can move in a longitudinal direction of the insertion tube and a contracted state in which the movable member is contracted into an inner space of the insertion tube; in the extended state, the movable piece is provided with a limiting end exposed out of the outer peripheral surface of the penetrating pipe; in the contracted state, the movable piece is in limit fit with the penetrating pipe to limit the movable piece to move towards the first end of the penetrating pipe.

3. The pressure sensitive adhesive tape storage and transportation device according to claim 2, wherein: the movable piece comprises a base body, a telescopic rod movably arranged on the base body, and a spring connected between the base body and the telescopic rod; the matrix is movably arranged in the inner space of the penetrating pipe; a guide groove is formed in the penetrating pipe along the length direction of the penetrating pipe; a sinking groove is formed in the end face of the second end of the penetrating pipe; in the stretching state, the telescopic rod is movably arranged in the guide groove and is exposed out of the outer peripheral surface of the penetrating pipe; in the contracted state, the telescopic rod is limited in the sinking groove.

4. The pressure sensitive adhesive tape storage and transportation device according to claim 2, wherein: the movable piece is provided with a first position and a second position which move along the length direction of the penetrating pipe; in the first position, the moveable member is switchable from the extended state to a contracted state; in the second position, the top plate is moved to a position adjacent the aperture.

5. The pressure sensitive adhesive tape storage and transportation device according to claim 1, wherein: the matching structure comprises an inclined plane arranged on the driving body and a contact position which is arranged on the top plate and can be in sliding fit with the inclined plane.

6. The pressure sensitive adhesive tape storage and transportation device according to claim 1, wherein: the penetrating pipe is horizontally arranged; the movable carrier is provided with a turning wheel for changing the extending direction of the connecting end of the connecting rope.