CN221114570U - Discharging device of strip cap packaging machine - Google Patents

Abstract

The utility model discloses a discharging device of a strip cap packaging machine, which comprises: the transfer bin assembly at least comprises a transfer bottom plate and a transfer cover plate which is positioned above the transfer bottom plate and is adjustable up and down, and a plurality of discharge tanks are arranged on the transfer bottom plate at intervals; the stacking bin assembly comprises two stacking side plates and a stacking bottom plate positioned between the two stacking side plates, and the stacking bottom plate can slide up and down along the stacking side plates in a reciprocating manner; the feeding assembly comprises a discharging frame, a plurality of discharging rods and a plurality of discharging convex blocks, one end of each discharging rod is connected to the discharging frame, each discharging convex block is correspondingly arranged on each discharging rod, the discharging frame can slide in a left-right reciprocating manner along the transfer bottom plate, and the discharging frame can also slide in an up-down reciprocating manner along the transfer bottom plate; and the discharging assembly at least comprises a discharging push plate and is used for pushing out the strip-shaped caps between the stacking side plates.

Description

Discharging device of strip cap packaging machine

Technical Field

The utility model relates to the technical field of packaging machines, in particular to a discharging device of a strip cap packaging machine.

Background

The existing strip cap packaging machine can be only used for producing strip caps with the width of 21cm when in use, so that the problems of poor compatibility and relatively few specifications of the strip caps which can be produced and used exist.

Disclosure of utility model

In order to solve the problems, a discharging device of a strip cap packaging machine is provided.

The specific technical scheme is as follows:

a strip cap packaging machine discharge device comprising:

The transfer bin assembly at least comprises a transfer bottom plate and a transfer cover plate which is positioned above the transfer bottom plate and is adjustable up and down, and a plurality of discharge tanks are arranged on the transfer bottom plate at intervals;

The stacking bin assembly comprises two stacking side plates and a stacking bottom plate positioned between the two stacking side plates, and the stacking bottom plate can slide up and down along the stacking side plates in a reciprocating manner;

the feeding assembly comprises a discharging frame, a plurality of discharging rods and a plurality of discharging convex blocks, one end of each discharging rod is connected to the discharging frame, each discharging convex block is correspondingly arranged on each discharging rod, the discharging frame can slide in a left-right reciprocating manner along the transfer bottom plate, and the discharging frame can also slide in an up-down reciprocating manner along the transfer bottom plate; and

The discharging assembly at least comprises a discharging push plate and is used for pushing out the strip-shaped caps between the stacking side plates;

Wherein, when the discharging frame slides upwards, the discharging rod and the discharging convex block can correspondingly penetrate out of the discharging groove; when the discharging frame slides forwards, the discharging rod and the discharging convex block can load and push the strip-shaped cap to the space between the stacking side plates.

Further, a plurality of first transfer sand grip are equipped with at the top interval of transfer bottom plate, and first transfer sand grip extends along transfer bottom plate left and right side and sets up.

Further, a plurality of second transfer convex strips are arranged at intervals at the bottom of the transfer cover plate, and the second transfer convex strips are correspondingly positioned above the first transfer convex strips.

Further, the feeding assembly further comprises a stacking slide rail, a stacking seat and a first driving part for driving the discharging frame, the stacking seat is embedded on the stacking slide rail and can slide left and right in a reciprocating manner along the stacking slide rail, the first driving part is arranged on the stacking seat, and the discharging frame is rotatably arranged on an output shaft of the first driving part through a connecting rod.

Further, the feeding assembly further comprises a feeding guide cylinder and a feeding guide rod, the feeding guide cylinder is arranged on the stacking seat, the feeding guide rod is arranged on the discharging frame, and the bottom of the feeding guide rod is arranged in the feeding guide cylinder in a penetrating mode.

Further, the discharging assembly further comprises a second driving part for driving the stacking base plate to slide up and down in a reciprocating manner, and an output shaft of the second driving part penetrates through one stacking side plate and is connected to the stacking base plate.

Further, the discharging frame, the discharging rod and the discharging convex block are integrally formed.

Further, the height of one stacking side plate relatively far away from the transfer bin assembly is larger than that of the other stacking side plate relatively close to the transfer bin assembly, and a plurality of through grooves are formed in the upper portion of the other stacking side plate relatively close to the transfer bin assembly at intervals.

The beneficial effect of above-mentioned scheme is:

According to the utility model, the transfer bin structure is designed to meet the production requirements of various specification strip caps.

Drawings

Fig. 1 is a schematic structural view of a discharging device of a strip cap packing machine provided in an embodiment of the present utility model;

FIG. 2 is a schematic structural diagram of an assembly structure of a transfer bin assembly and a feeding assembly according to an embodiment of the present utility model;

fig. 3 is a schematic structural view of a feeding assembly according to an embodiment of the present utility model.

In the accompanying drawings: 1. a transfer base plate; 2. a transit cover plate; 3. a discharge chute; 4. a stacking side plate; 5. a stacking base plate; 6. a discharging frame; 7. a discharging rod; 8. discharging convex blocks; 9. a discharging push plate; 10. a first transfer convex strip; 11. a stacking slide rail; 12. a stacking seat; 13. a first driving section; 14. a connecting rod; 15. a feeding guide cylinder; 16. a feeding guide rod; 17. and a second driving part.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described in the following in conjunction with the embodiments of the present utility model, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

The utility model will be further illustrated, but is not limited, by the following examples.

As shown in fig. 1 to 3, the discharging device of the strip cap packaging machine provided by the embodiment of the utility model comprises a transfer bin assembly, a stacking bin assembly, a feeding assembly and a discharging assembly, wherein the transfer bin assembly at least comprises a transfer bottom plate 1 and a transfer cover plate 2 positioned above the transfer bottom plate 1, and a plurality of discharging grooves 3 are arranged on the transfer bottom plate 1 at intervals; the stacking bin assembly comprises two stacking side plates 4 and a stacking bottom plate 5 positioned between the two stacking side plates 4, and the stacking bottom plate 5 can slide up and down along the stacking side plates 4 in a reciprocating manner; the feeding assembly comprises a discharging frame 6, a plurality of discharging rods 7 and a plurality of discharging convex blocks 8, one end of each discharging rod 7 is connected to the corresponding discharging frame 6, each discharging convex block 8 is correspondingly arranged on each discharging rod 7, each discharging frame 6 can slide back and forth left and right along the transfer bottom plate 1, and each discharging frame 6 can also slide back and forth up and down along the transfer bottom plate 1; the discharging assembly at least comprises a discharging push plate 9 for pushing out the strip-shaped caps between the stacking side plates 4.

In the utility model, when 25 matched push rods are used as a batch (only as an illustrative example), the strip caps are pushed into the transfer bottom plate 1 and the transfer cover plate 2 one by one. When the last cap in the same batch is pushed in by the push rod and retreated to reset, the discharging frame 6 moves upwards, the discharging rod 7 penetrates out of the discharging groove 3 and loads the cap, then the discharging frame 6 moves leftwards along the transfer bottom plate 1, the cap slides along the top of the transfer bottom plate 1 and is conveyed between the two stacking side plates 4 under the pushing of the discharging convex block 8, then the discharging frame 6 moves downwards and moves rightwards along the transfer bottom plate 1, so that the cap on the discharging rod 7 slides onto the stacking bottom plate 5 by forming a baffle plate by the stacking side plates 4, then the stacking bottom plate 5 moves downwards by a certain height, and the discharging frame 6 resets to the initial position. The above steps are repeated, when the stacking base plate 5 moves downwards to the lowest position, the discharging push plate 9 pushes out the caps once, and the workers bag the pushed caps.

According to the utility model, the transfer cover plate 2 is arranged on the frame in an up-and-down adjustable manner through the screw rod (specifically, the screw rod can be screwed after the transfer cover plate 2 is lifted, so that the transfer cover plate 2 is fastened on the frame through the screw rod), and the size of the strip cap can be adjusted from 19 cm to 25cm by utilizing the transfer bin under the structure, so that the compatibility of equipment is enhanced, and the requirements of customers are met.

As a specific example, as shown in fig. 1, the feeding assembly of the present utility model further includes a stacking slide rail 11, a stacking seat 12, and a first driving portion 13 for driving the discharging frame 6, where the stacking seat 12 is embedded on the stacking slide rail 11, the stacking seat 12 can slide back and forth along the stacking slide rail 11, the first driving portion 13 is mounted on the stacking seat 12, and the discharging frame 6 is rotatably mounted on an output shaft of the first driving portion 13 through a connecting rod 14; under the structure, when the last cap in the same batch is pushed in by the push rod and is returned to reset, the output shaft of the first driving part 13 rotates positively so as to jack the discharging frame 6 by the connecting rod 14, the discharging rod 7 penetrates out of the discharging groove 3 and loads the cap, then the stacking base 12 slides leftwards along the stacking slide rail 11, and the cap slides along the top of the transit bottom plate 1 and is conveyed between the two stacking side plates 4 under the pushing of the discharging convex block 8; when the output shaft of the first driving part 13 is reversed to pull down the discharging frame 6 by means of the connecting rod 14, then the stacking base 12 slides rightward along the stacking slide rail 11, and the discharging rod 7 correspondingly passes through the through groove at the upper part of the right stacking side plate 4, so that the baffle plate is formed by the stacking side plate 4, and the cap on the discharging rod 7 slides onto the stacking bottom plate 5.

It should be noted that, in order to further enhance structural stability under the above structure, in the present utility model, two feeding guide cylinders 15 may be further installed on the stacking seat 12, and two feeding guide rods 16 may be correspondingly installed on the discharging frame 6, and then the bottom of the feeding guide rod 16 is correspondingly inserted into the feeding guide cylinder 15, so that the feeding guide rod 16 is constrained and guided to act by means of the feeding guide cylinder 15.

As a specific example, as shown in fig. 1, the discharging assembly of the present utility model further includes a second driving part 17 (recommended as a lifting slide bar in the present utility model) for driving the stacking base plate 5 to reciprocate up and down, and an output shaft of the second driving part 17 passes through one of the stacking side plates 4 and is connected to the stacking base plate 5, so that the stacking base plate 5 is driven to move down by a certain distance after a batch of caps are received on the stacking base plate 5 by means of the second driving part 17, and the discharging push plate 9 pushes out the caps once after repeating until the stacking base plate 5 moves down to the lowest position, and a worker bags the pushed caps.

On the basis of the above technical solution, further, as shown in fig. 1 and 2, in this embodiment, to reduce the friction force when the top of the cap edge middle rotating bottom plate 1 slides, a plurality of first middle rotating convex strips 10 extending left and right along the middle rotating bottom plate 1 may be arranged at intervals on the top of the middle rotating bottom plate 1, so that when the cap is loaded on two adjacent discharging rods 7, the bottom of the cap slides along the first middle rotating convex strips 10, and the sliding resistance is reduced by reducing the contact area.

Correspondingly, in this embodiment, a plurality of second transfer convex strips (not shown) may be disposed at intervals at the bottom of the transfer cover 2, so that the friction between the cap and the transfer cover 2 can be reduced by the second transfer convex strips. Furthermore, in this embodiment, the second transfer protruding strip can be further optimized to be correspondingly located above the first transfer protruding strip 10, so that a constraint force can be symmetrically applied to the top and bottom of the strip cap by the protruding transfer protruding strip inside the transfer bin, thereby reducing or even avoiding the strip cap tilting phenomenon when the push rod and the discharging frame 6 act.

It should be noted that, in the present utility model, the first and second transfer protruding strips 10 and 2 may be formed integrally with the transfer base plate 1 and the transfer cover plate 2, or the first and second transfer protruding strips 10 and 2 may be mounted on the transfer base plate 1 and the transfer cover plate 2 correspondingly by means of a mounting structure or manner in the prior art such as bolts, binding or welding. Of course, the first transfer protruding strip 10 and the second transfer protruding strip may be made of materials known in the prior art, such as wood or metal materials.

The foregoing is merely illustrative of the preferred embodiments of the present utility model and is not intended to limit the embodiments and scope of the present utility model, and it should be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the teachings of the present utility model, which are intended to be included within the scope of the present utility model.

Claims (8)

1. A strip cap packagine machine discharging device, characterized by comprising:

The transfer bin assembly at least comprises a transfer bottom plate and a transfer cover plate which is positioned above the transfer bottom plate and is adjustable up and down, and a plurality of discharge grooves are arranged on the transfer bottom plate at intervals;

The stacking bin assembly comprises two stacking side plates and a stacking bottom plate positioned between the two stacking side plates, and the stacking bottom plate can slide up and down along the stacking side plates in a reciprocating manner;

the feeding assembly comprises a discharging frame, a plurality of discharging rods and a plurality of discharging convex blocks, one end of each discharging rod is connected to the discharging frame, each discharging convex block is correspondingly arranged on each discharging rod, the discharging frame can slide left and right along the transfer bottom plate in a reciprocating manner, and the discharging frame can also slide up and down along the transfer bottom plate in a reciprocating manner; and

The discharging assembly at least comprises a discharging push plate and is used for pushing out the strip-shaped caps between the stacking side plates;

When the discharging frame slides upwards, the discharging rod and the discharging convex block can correspondingly penetrate out of the discharging groove; when the discharging frame slides forwards, the discharging rod and the discharging convex block can load and push the strip-shaped cap to the space between the stacking side plates.

2. The discharging device of the cap packaging machine according to claim 1, wherein a plurality of first transfer convex strips are arranged at intervals at the top of the transfer bottom plate, and the first transfer convex strips extend left and right along the transfer bottom plate.

3. The discharging device of the cap packaging machine according to claim 2, wherein a plurality of second transfer convex strips are arranged at intervals at the bottom of the transfer cover plate, and the second transfer convex strips are correspondingly positioned above the first transfer convex strips.

4. The discharging device of the cap packing machine according to claim 1, wherein the feeding assembly further comprises a stacking slide rail, a stacking seat and a first driving part for driving the discharging frame, the stacking seat is embedded on the stacking slide rail, the stacking seat can slide left and right in a reciprocating manner along the stacking slide rail, the first driving part is mounted on the stacking seat, and the discharging frame is rotatably mounted on an output shaft of the first driving part through a connecting rod.

5. The discharge device of a cap packing machine of claim 4, wherein the feeding assembly further comprises a feeding guide cylinder and a feeding guide rod, the feeding guide cylinder is mounted on the stacker, the feeding guide rod is mounted on the discharge frame, and the bottom of the feeding guide rod is arranged in the feeding guide cylinder in a penetrating manner.

6. The discharge device of a cap packing machine according to claim 1, wherein the discharge assembly further comprises a second driving part for driving the stacking base plate to reciprocate up and down, and an output shaft of the second driving part passes through one of the stacking side plates and is connected to the stacking base plate.

7. The discharge device of a cap packaging machine of claim 1, wherein the discharge rack, the discharge rod, and the discharge bump are integrally formed.

8. The discharge device of a cap packing machine according to claim 1, wherein a height of one of the stacking side plates relatively far from the transfer bin assembly is greater than a height of another one of the stacking side plates relatively close to the transfer bin assembly, and a plurality of through grooves are formed in an upper portion of another one of the stacking side plates relatively close to the transfer bin assembly at intervals.