CN218892800U - Thermal contraction processing equipment - Google Patents

Abstract

The utility model discloses a heat shrinkage processing device, which comprises a heat shrinkage box, wherein a feeding conveyer belt is arranged at the inlet of the heat shrinkage box, and a discharging conveyer belt is arranged at the outlet of the heat shrinkage box, and is characterized in that: the outside of thermal contraction case is provided with the intermediate conveyer belt, has placed a plurality of briquetting on the intermediate conveyer belt interval. The utility model provides a thermal shrinkage processing device, which can eliminate a gap between an upper paper disc and a lower paper disc in the thermal shrinkage process of a thermal shrinkage film and ensure that the paper disc has smaller volume after thermal shrinkage packaging.

Description

Thermal contraction processing equipment

Technical Field

The utility model relates to a heat shrinkage processing device.

Background

After processing hard-shell paper into paper trays, it is necessary to stack the paper trays by a certain amount and heat shrink film-wrap the stacked paper trays. However, in the existing paper disc heat shrinkage film processing process, after the paper discs are mutually overlapped, due to the reasons of relatively high component content, partial bulge, elasticity and the like of the single paper disc, gaps exist between the upper paper disc and the lower paper disc and the paper discs after the paper discs are overlapped together, after the heat shrinkage film is subjected to heat shrinkage, the whole volume of the paper disc is overlarge, so that the product is not compact enough, and meanwhile, the occupied space is large during transportation.

Disclosure of Invention

Aiming at the current state of the art, the utility model provides a thermal shrinkage processing device, which can eliminate the gap between the upper paper tray and the lower paper tray in the thermal shrinkage process of a thermal shrinkage film and ensure that the paper tray has smaller volume after thermal shrinkage packaging.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a thermal contraction processing equipment, includes the thermal contraction case, and the import department of thermal contraction case is provided with feeding conveyer belt, and the exit of thermal contraction case is provided with ejection of compact conveyer belt, its characterized in that: the outside of thermal contraction case is provided with the intermediate conveyer belt, has placed a plurality of briquetting on the intermediate conveyer belt interval.

As an improvement, a pressing pad is arranged at the bottom of the pressing block.

Further improved, the pressing block is provided with a handle.

And further improved, lines are formed on the outer side wall of the handle.

And the handle is fixedly provided with a drawstring.

Still improve, the feeding conveyer belt is close to and is provided with the piece mechanism between the one end of heat shrink case and the one end of middle conveyer belt, goes up the piece mechanism and includes the piece support, and the top of going up the piece support transversely is provided with a horizontal branch, and it is provided with a slider to go up the piece to slide on the horizontal branch, vertically on last slider to be provided with a lift jar, and the output of going up the lift jar is provided with a electro-magnet, the briquetting adopts iron material to make.

And the upper block transverse supporting rod is provided with an upper block motor, the output end of the upper block motor is provided with an upper block screw, the upper block screw is provided with an upper block nut fixedly connected with an upper block sliding block, and the upper block nut and the upper block screw are mutually screwed.

And a block unloading mechanism is arranged between one end of the discharging conveying belt, which is close to the heat shrinkage box, and the other end of the middle conveying belt, and comprises a block unloading support, a block unloading transverse strut is transversely arranged at the top of the block unloading support, a block unloading sliding block is arranged on the block unloading transverse strut in a sliding manner, a block unloading lifting cylinder is vertically arranged on the block unloading sliding block, a block unloading electromagnet is arranged at the output end of the block unloading lifting cylinder, and the block is made of an iron material.

And the unloading block transverse strut is provided with an unloading block motor, the output end of the unloading block motor is provided with an unloading block screw, the unloading block screw is provided with an unloading block nut fixedly connected with the unloading block sliding block, and the unloading block nut and the unloading block screw are mutually screwed.

And in addition, a group of guide plates which are oppositely arranged are respectively arranged on the feeding conveyor belt and the discharging conveyor belt, the distance between the group of guide plates which are oppositely arranged is gradually reduced along the conveying direction, and the smallest end only allows to pass through one paper disc.

Compared with the prior art, the utility model has the advantages that: when the thermal shrinkage paper disc packaging machine is used, the paper discs which are stacked are placed into thermal shrinkage bags and are arranged on a feeding conveyer belt at intervals, a pressing block on an intermediate conveyer belt is taken before the paper discs enter a thermal shrinkage box, the pressing block is arranged at the top of the paper discs, the paper discs which are stacked are tightly pressed by the pressing block under the action, the conveyer belt in the thermal shrinkage box feeds the paper discs together to carry out thermal shrinkage, the thermal shrinkage bags are tightly wrapped outside the paper discs, when the pressing block and the paper discs which are stacked are discharged from the thermal shrinkage box enter a discharging conveyer belt, the pressing block at the top of the paper discs after thermal shrinkage is taken down at the position of the discharging conveyer belt and is placed on the intermediate conveyer belt again, and the pressing block is conveyed to the direction of the feeding conveyer belt by the intermediate conveyer belt again, so that the paper discs can be recycled next time.

Drawings

FIG. 1 is a schematic view of a heat shrinkage processing apparatus according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the upper block mechanism of FIG. 1;

fig. 3 is a schematic view showing an arrangement of a guide plate on a feed conveyor belt in an embodiment of the present utility model.

Description of the embodiments

The utility model is described in further detail below with reference to the embodiments of the drawings.

As shown in fig. 1 to 3, the heat shrinkage processing apparatus in the present embodiment includes a heat shrinkage box 1, a feed conveyor 2, a discharge conveyor 3, an intermediate conveyor 4, a briquette 5, a briquette loading mechanism 6, and a briquette unloading mechanism.

Wherein, the import department of heat shrink case 1 is provided with feeding conveyer belt 2, and the exit of heat shrink case 1 is provided with ejection of compact conveyer belt 3, and the outside of heat shrink case 1 is provided with middle conveyer belt 4, has placed a plurality of briquetting 5 on middle conveyer belt 4 interval.

Further, in order to enhance the pressing effect of the pressing block 5, a pressing pad 51 is provided at the bottom of the pressing block 5, and by providing the pressing pad 51, the pressure of the pressing block 5 can be uniformly spread to the respective areas of the tray.

In addition, in order to facilitate manual transfer of the pressing block 5, a handle 52 is formed on the pressing block 5. Also, a grain may be formed on the outer sidewall of the handle 52. Alternatively, a pull strap is further fixedly provided on the handle 52.

When the thermal shrinkage box is used, the paper discs which are stacked are placed into thermal shrinkage bags and are arranged on a feeding conveyor belt 2 at intervals, a pressing block on an intermediate conveyor belt 3 is taken before the paper discs enter a thermal shrinkage box 1, the pressing block is arranged at the top of the paper discs, the paper discs which are stacked are tightly pressed by the pressing block 5 under the action, the conveying belts in the thermal shrinkage box 1 convey the paper discs together to carry out thermal shrinkage, the thermal shrinkage bags are tightly wrapped outside the paper discs which are stacked, when the pressing block 5 and the paper discs which are stacked are discharged from the thermal shrinkage box 1 enter a discharging conveyor belt 3, the pressing block 5 at the top of the paper discs after thermal shrinkage is taken down at the position of the discharging conveyor belt 3 and is placed on an intermediate conveyor belt 4 again, and the pressing block 5 is conveyed to the feeding conveyor belt 2 again by the intermediate conveyor belt 4 so as to be convenient for the next cycle use.

In addition, in order to be able to realize the automatic transfer of briquetting 5, be provided with the upper block mechanism 6 between the one end that the feeding conveyer belt 2 is close to heat shrink box 1 and the one end of intermediate conveyer belt 4, upper block mechanism 6 includes upper block support 61, and the top of upper block support 61 transversely is provided with upper block horizontal pole 62, and upper block horizontal pole 62 is last to slide and is provided with upper block slider 63, is provided with upper block lift cylinder 64 on upper block slider 63 vertically, and the output of upper block lift cylinder 64 is provided with upper block electro-magnet 65, briquetting 5 adopts the iron material to make.

Further, an upper block motor is arranged on the upper block transverse strut 62, an upper block screw rod is arranged at the output end of the upper block motor, an upper block nut fixedly connected with the upper block sliding block 63 is arranged on the upper block screw rod, and the upper block nut and the upper block screw rod are mutually screwed.

When the pressing block 5 on the middle conveying belt 4 needs to be transferred onto the feeding conveying belt 2, the upper block motor rotates, the upper block screw rod drives the upper block sliding block 63 to move above the middle conveying belt 4, the upper block lifting cylinder 64 moves downwards, the upper block electromagnet 65 is electrified, the pressing block 5 on the middle conveying belt 4 is adsorbed by the upper block electromagnet 65, the upper block lifting cylinder 64 moves upwards, the upper block motor rotates reversely, the upper block screw rod drives the pressing block 5 to move above the feeding conveying belt 2, the upper block lifting cylinder 64 moves downwards, the upper block electromagnet 65 loses electricity, the pressing block 5 is arranged at the top of a superposed paper disc on the feeding conveying belt 2, the pressing block 5 compresses the superposed paper disc, and then the upper block electromagnet moves to the upper part of the middle conveying belt 4 again to enter the circulation of the next transferring pressing block 5.

Meanwhile, a block unloading mechanism is arranged between one end of the discharging conveying belt 3, which is close to the heat shrinkage box 1, and the other end of the middle conveying belt 4, the block unloading mechanism comprises a block unloading support, a block unloading transverse supporting rod is transversely arranged at the top of the block unloading support, a block unloading sliding block is arranged on the block unloading transverse supporting rod in a sliding manner, a block unloading lifting cylinder is vertically arranged on the block unloading sliding block, a block unloading electromagnet is arranged at the output end of the block unloading lifting cylinder, and the pressing block 5 is made of iron materials.

Further, a block unloading motor is arranged on the block unloading transverse strut, a block unloading screw rod is arranged at the output end of the block unloading motor, a block unloading nut fixedly connected with the block unloading slide block is arranged on the block unloading screw rod, and the block unloading nut and the block unloading screw rod are mutually screwed. In particular, the manner in which the compacts 5 are transferred from the outfeed conveyor belt 3 onto the intermediate conveyor belt 4 is similar and again not cumbersome.

Finally, in order to facilitate positioning of the trays, it is ensured that the briquettes 5 can be accurately placed on top of the corresponding trays, a set of oppositely arranged guide plates 21 are respectively arranged on the feeding conveyor belt 2 and the discharging conveyor belt 3, the distance between the set of oppositely arranged guide plates 21 is gradually reduced along the conveying direction, the smallest end only allows to pass through one tray, and a position sensor is arranged at the smallest end, and the actions of the loading mechanism 6 and the unloading mechanism are triggered by the position sensor.

Claims (10)

1. The utility model provides a thermal contraction processing equipment, includes thermal contraction case (1), and the import department of thermal contraction case (1) is provided with feeding conveyer belt (2), and the exit of thermal contraction case (1) is provided with ejection of compact conveyer belt (3), its characterized in that: the outer side of the heat shrinkage box (1) is provided with a middle conveying belt (4), and a plurality of pressing blocks (5) are arranged on the middle conveying belt (4) at intervals.

2. The heat shrinkage processing equipment according to claim 1, wherein: the bottom of the pressing block (5) is provided with a pressing pad (51).

3. The heat shrinkage processing equipment according to claim 1, wherein: the pressing block (5) is provided with a handle (52).

4. A heat shrinkage processing apparatus according to claim 3, wherein: the outer side wall of the handle (52) is provided with grains.

5. A heat shrinkage processing apparatus according to claim 3, wherein: a drawstring is fixedly arranged on the handle (52).

6. The heat shrinkage processing equipment according to claim 1, wherein: feeding conveyer belt (2) are close to and are provided with between the one end of thermal contraction case (1) and the one end of middle conveyer belt and go up piece mechanism (6), go up piece mechanism (6) including last piece support (61), go up the top of piece support (61) and transversely be provided with on piece horizontal branch (62), go up piece horizontal branch (62) and go up sliding and be provided with on piece slider (63), vertically on last piece slider (63) be provided with on piece lift jar (64), go up the output of piece lift jar (64) and be provided with on piece electro-magnet (65), briquetting (5) adopt iron material to make.

7. The heat shrinkage processing equipment according to claim 6, wherein: an upper block motor is arranged on the upper block transverse strut (62), an upper block screw rod is arranged at the output end of the upper block motor, an upper block nut fixedly connected with an upper block sliding block (63) is arranged on the upper block screw rod, and the upper block nut and the upper block screw rod are mutually screwed.

8. The heat shrinkage processing equipment according to claim 7, wherein: the discharging conveyor belt (3) is provided with a discharging block mechanism between one end, close to the heat shrinkage box (1), and the other end of the middle conveyor belt, the discharging block mechanism comprises a discharging block support, a discharging block transverse supporting rod is transversely arranged at the top of the discharging block support, a discharging block sliding block is arranged on the discharging block transverse supporting rod in a sliding mode, a discharging block lifting cylinder is vertically arranged on the discharging block sliding block, a discharging block electromagnet is arranged at the output end of the discharging block lifting cylinder, and the pressing block (5) is made of iron materials.

9. The heat shrinkage processing equipment according to claim 8, wherein: the unloading block transverse strut is provided with an unloading block motor, the output end of the unloading block motor is provided with an unloading block screw, the unloading block screw is provided with an unloading block nut fixedly connected with the unloading block sliding block, and the unloading block nut and the unloading block screw are mutually screwed.

10. The heat shrinkage processing equipment according to claim 9, wherein: a group of guide plates (21) which are oppositely arranged are respectively arranged on the feeding conveyor belt (2) and the discharging conveyor belt (3), the distance between the group of guide plates (21) which are oppositely arranged is gradually reduced along the conveying direction, and the smallest end only allows to pass through one paper disc.

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