CN211567038U - Extrusion device for recycling bottles - Google Patents

Abstract

The utility model discloses an extrusion device for retrieving bottle relates to environmental protection equipment technical field. The utility model comprises a box body and a driving mechanism; a feed inlet is formed in the top of the box body; a blanking hopper is fixedly arranged in the box body; the bottom of the blanking hopper is communicated with a material passing box, the bottom of the material passing box is fixedly provided with an extrusion mechanism, and a recovery barrel is arranged below the extrusion mechanism; a plurality of material clamping ports which are linearly arranged are formed in one side surface of the bottom of the material passing box; the extrusion mechanism comprises a rectangular frame, a semi-cylindrical shell, a spring, a movable plate and an ejector rod. The utility model drives the rotating column to drive the supporting plate to rotate in a reciprocating way through the driving mechanism, thereby enabling the supporting plate to support and fall the beverage bottle to be extruded, and realizing the liquid release, extrusion forming and recovery of the beverage bottle by matching with the movement of the extrusion plate, the elasticity of the spring and the bursting action of the ejector rod; the extrusion recovery efficiency of the beverage bottle is effectively improved, and the labor pressure of people is reduced.

Description

Extrusion device for recycling bottles

Technical Field

The utility model belongs to the technical field of the environmental protection equipment, especially, relate to an extrusion device for retrieving bottle.

Background

Along with the gradual increase of environmental awareness of people, more and more people begin to carry out classification treatment to rubbish to reach the maximum recovery of rubbish. After the beverage bottles are classified by people, in order to ensure the storage efficiency of the beverage bottles, such as pop cans, plastic beverage bottles and the like, need to be squeezed to ensure that more beverage bottles are stored in a recycling bin or a garbage bag, so that the single transportation cost of people is saved;

people mostly press the plastic bottle or the pop can by feet to extrude the beverage bottle, and for the bottle body containing the beverage, the beverage needs to be poured out and pressed; however, the process needs people to bend over frequently, the labor pressure of people is increased, time and labor are consumed, and the working efficiency of people is reduced; therefore, a pressing apparatus for recycling bottles has been studied to improve the efficiency of recycling bottles by pressing.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an extrusion device for recovering bottles, which drives a rotating column to drive a supporting plate to rotate in a reciprocating way through a driving mechanism, so that the supporting plate supports and falls a beverage bottle to be extruded, and the beverage bottle is released, extruded and recovered by matching with the movement of an extrusion plate, the elasticity of a spring and the bursting action of an ejector rod; the problem of the extrusion recovery efficiency of current beverage bottle slow, increased people's labor pressure is solved.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to an extrusion device for recovering bottles, which comprises a box body and a driving mechanism; a side door is arranged on the side face of the bottom of the box body, and a feeding hole is formed in the top of the box body;

a blanking hopper is fixedly arranged in the box body; the bottom of the blanking hopper is communicated with a material passing box, the bottom of the material passing box is fixedly provided with an extrusion mechanism, and a recovery barrel is arranged below the extrusion mechanism;

a plurality of material clamping ports which are linearly arranged are formed in one side surface of the bottom of the material passing box;

the extrusion mechanism comprises a rectangular frame, a semi-cylindrical shell, a spring, a movable plate and an ejector rod; a semi-cylindrical shell is fixedly arranged in the rectangular frame; a supporting mechanism is fixedly arranged on the rectangular frame; a discharge port is formed in the inner surface of the semi-cylindrical shell; one side surface of the semi-cylindrical shell is connected with a movable plate through a spring, and the movable plate is in sliding fit with the side edge of the semi-cylindrical shell; the other side surface of the semi-cylindrical shell is fixedly provided with an air cylinder; the end part of a piston rod of the cylinder is provided with an extrusion plate; the extrusion plate is in sliding fit with the side edge of the semi-cylindrical shell;

a top rod is fixed on the side surface of the semi-cylindrical shell and penetrates through the moving plate; the feed opening is positioned between the moving plate and the extrusion plate;

the supporting mechanism comprises a rotating column and a supporting plate; a plurality of rotating columns are rotatably connected between the upper surface of the rectangular frame and the lower surface of the discharging hopper; a fixing ring is fixed on the rotating column, and a supporting plate is fixed on the fixing ring; the supporting plate corresponds to the material clamping opening;

the driving mechanism drives the plurality of rotating columns to reciprocate.

Further, the driving mechanism comprises a chain wheel, a transmission chain, a driven gear, a steering engine and a driving gear; chain wheels are fixed on the rotating columns, and the chain wheels on two adjacent rotating columns are connected through a transmission chain; and one driven gear is fixed on the rotating column and is in meshed transmission with a driving gear fixedly installed on an output shaft of the steering engine.

Furthermore, first sliding grooves are symmetrically formed in the axial direction of the two side edges of the semi-cylindrical shell; first sliding blocks which are in sliding fit with the first sliding grooves are symmetrically fixed on the arc-shaped surface of the moving plate; and second sliding blocks which are in sliding fit with the first sliding grooves are symmetrically fixed on the arc-shaped surface of the extrusion plate.

Furthermore, a second sliding groove is formed in the inner surface of the bottom of the semi-cylindrical shell along the axial direction, and the second sliding groove is in sliding fit with a third sliding block fixed to the bottom of the cambered surface of the moving plate.

Furthermore, a water leakage port is formed in the end part, close to the side face of the semi-cylindrical shell, of the second sliding chute.

Furthermore, a through hole is formed on the moving plate; a puncture convex body is fixed at the end part of the ejector rod, a plurality of water guide holes are formed in the puncture convex body, and the puncture convex body is positioned in the through hole.

The utility model discloses following beneficial effect has:

1. the utility model pushes the extrusion plate to extrude the beverage bottle through the cylinder, thereby leading the movable plate to continuously extrude the spring for energy storage, further leading the ejector rod to penetrate through the through hole and puncture the beverage bottle, and realizing the liquid release in the beverage bottle; finally, under the extrusion force between the extrusion plate and the moving plate, the beverage bottle is extruded and falls into the recovery barrel from the feed opening; the process can realize the extrusion and recovery of the beverage bottles, improve the recovery efficiency of the beverage bottles and reduce the labor pressure of people.

2. The utility model discloses a actuating mechanism drives and rotates the reciprocal rotation of post to make the backup pad advance in the intraoral pendulum of card material and put out, realize treating the support and the whereabouts of extrusion beverage bottle, prevent to treat that the beverage bottle causes the influence to extrusion mechanism extrusion beverage bottle, improved extrusion mechanism's extrusion effect.

3. The utility model discloses a puncture convex body of ejector pin tip runs through the through hole and realizes puncturing the beverage bottle to utilize the water guide hole to realize the release of liquid in the beverage bottle, reduce the resistance that liquid brought to extrusion mechanism extrusion beverage bottle in-process, improve the efficiency and the extrusion effect of extrusion mechanism extrusion beverage bottle, and alleviateed the labor pressure that people transported the beverage bottle after the extrusion.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is an enlarged view of the structure at B in FIG. 1;

fig. 4 is a schematic view of the installation among the driving mechanism, the supporting machine and the extruding mechanism of the present invention;

fig. 5 is a schematic structural view of a semi-cylindrical shell according to the present invention;

fig. 6 is a schematic view of the mounting of the driving mechanism on the supporting mechanism according to the present invention;

fig. 7 is a schematic structural view of the moving plate of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1-box body, 2-blanking hopper, 3-material passing box, 4-extrusion mechanism, 5-recycling bin, 6-supporting mechanism, 7-cylinder, 8-driving mechanism, 101-feeding port, 301-material clamping port, 401-rectangular frame, 402-semi-cylindrical shell, 403-spring, 404-moving plate, 405-ejector rod, 601-rotating column, 602-supporting plate, 701-extrusion plate, 801-chain wheel, 802-driving chain, 803-driven gear, 804-steering engine, 805-driving gear, 4021-blanking port, 4022-first sliding chute, 4023-second sliding chute, 4024-water leaking port, 4041-first sliding block, 4042-third sliding block, 4043-through hole, 4051-piercing convex body and 4052-water guiding hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "disposed," "open," "bottom," "top," "center," "axial," "inner," and the like are used merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the referenced components or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the present invention.

The utility model discloses a squeeze to categorised beverage bottle, especially to easy open can and plastics beverage bottle, after the beverage bottle is categorised by beverage bottle classification equipment (artificial classification beverage bottle is also feasible), enter into and carry out in the box 1 beverage bottle in the beverage release and extrude, collect.

Example one

As shown in fig. 1, 2 and 4, the utility model relates to an extrusion device for recovering bottles, which comprises a box body 1 and a driving mechanism 8; a side door is arranged on the side face of the bottom of the box body 1, the side door can be used for conveniently taking the recovery barrel 5 from the box body 1, a feed inlet 101 is formed in the top of the box body 1, and classified beverage bottles, such as all pop-top cans or all plastic beverage bottles, are placed from the feed inlet 101 of the box body 1; the beverage bottle will then enter the lower hopper 2;

a blanking hopper 2 is fixedly arranged in the box body 1; the bottom of the blanking hopper 2 is communicated with a material passing box 3 through a connecting flange, the material passing box 3 is larger than a plastic bottle in size, but the beverage bottles can be ensured to pass through the material passing box 3 one by one, a plurality of beverage bottles are prevented from entering the extrusion mechanism 4, the bottom of the material passing box 3 is fixedly provided with the extrusion mechanism 4 through bolts, a recovery barrel 5 is arranged below the extrusion mechanism 4, and the recovery barrel 5 is used for receiving the extruded beverage bottles;

two material clamping ports 301 which are linearly arranged are formed in one side face of the bottom of the material passing box 3;

as shown in fig. 1-2 and 4-7, the pressing mechanism 4 includes a rectangular frame 401, a semi-cylindrical housing 402, a spring 403, a moving plate 404, and a jack 405; a semi-cylindrical shell 402 is fixedly arranged in the rectangular frame 401, the rectangular frame 401 and the semi-cylindrical shell 402 can be welded into a whole or connected through bolts, and the rectangular frame 401 mainly plays a role in fixing and supporting the semi-cylindrical shell 402; a supporting mechanism 6 is fixedly arranged on the rectangular frame 401; a feed opening 4021 is formed in the inner surface of the semi-cylindrical shell 402, and the beverage bottle after extrusion molding enters the recovery barrel 5 from the feed opening 4021; one side surface of the semi-cylindrical shell 402 is connected with a moving plate 404 through a spring 403, and the moving plate 404 and the side edge of the semi-cylindrical shell 402 form sliding fit; the other side surface of the semi-cylindrical shell 402 is fixedly provided with a cylinder 7; the end of the piston rod of the cylinder 7 is provided with a squeezing plate 701; the extrusion plate 701 forms a sliding fit with the side of the semi-cylindrical housing 402;

wherein, a top rod 405 is fixed on the side surface of the semi-cylindrical shell 402, and the top rod 405 penetrates through the moving plate 404; the feed opening 4021 is positioned between the moving plate 404 and the extrusion plate 701;

when a pop can or a plastic bottle falls into the semi-cylindrical shell 402 between the squeezing plate 701 and the moving plate 404, the air cylinder 7 is started and pushes the squeezing plate 701 to slide along the axial direction of the semi-cylindrical shell 402, the squeezing plate 701 pushes the beverage bottle, the beverage bottle pushes the spring 403 through the moving plate 404, along with the gradual action of the air cylinder 7 and the continuous sliding fit of the moving plate 404 along the semi-cylindrical shell 402, the ejector rod 405 gradually penetrates through the through hole 4043 on the moving plate 404, the puncturing convex body 4051 pushes against the end of the beverage bottle, under the action of the squeezing force, the beverage bottle is punctured, the liquid in the beverage bottle flows out from the water guide hole 4052 on the puncturing convex body 4051, finally, the liquid in the beverage bottle is removed and the beverage bottle is squeezed, after the piston rod of the air cylinder 7 moves to a designated position, the beverage bottle is squeezed and the piston rod of the air cylinder 7 contracts, under the, therefore, the top rod 405 is separated from the end of the beverage bottle, and the beverage bottle enters the recycling bin 5 from the feed opening 4021 under the pushing of the moving plate 404; the process can realize the release of the liquid in the beverage bottle and the squeezing and recycling of the beverage bottle.

The support mechanism 6 includes a rotation column 601 and a support plate 602; a plurality of rotating columns 601 are rotatably connected between the upper surface of the rectangular frame 401 and the lower surface of the lower hopper 2; a fixed ring is fixed on the rotating column 601, and a supporting plate 602 is fixed on the fixed ring; the supporting plate 602 corresponds to the material clamping port 301;

the driving mechanism 8 drives the two rotation columns 601 to reciprocate.

The driving mechanism 8 drives the two rotating columns 601 to rotate in a reciprocating manner, so that the supporting plate 602 swings in a reciprocating manner; before the squeezing mechanism 4 squeezes the beverage bottles, the top of the beverage bottles to be squeezed accumulates a plurality of beverage bottles to be squeezed; the supporting plate 602 swings and enters the material clamping opening 301, the supporting plate 602 supports beverage bottles to be squeezed above the beverage bottles to be squeezed, and therefore the beverage bottles are prevented from entering the semi-cylindrical shell 402 and causing squeezing errors; and after the extrusion of the beverage bottle to be extruded is finished, the beverage bottle enters the recycling bin 5 from the feed opening 4021, the supporting plate 602 swings again, swings out of the material clamping opening 301, and the beverage bottle to be extruded descends into the semi-cylindrical shell 402 to form the beverage bottle to be extruded.

The driving mechanism 8 comprises a chain wheel 801, a transmission chain 802, a driven gear 803, a steering gear 804 and a driving gear 805; the chain wheel 801 is fixed on the rotating columns 601, and the chain wheels 801 on two adjacent rotating columns 601 are connected through a transmission chain 802; a driven gear 803 is fixed on one rotating column 601, and the driven gear 803 is in meshing transmission with a driving gear 805 fixedly arranged on an output shaft of the steering engine 804;

the steering gear 804 drives the driven gear 803 to rotate back and forth through the driving gear 805, and the rotating columns 601 drive the adjacent rotating columns 601 to rotate back and forth through the transmission chain 802, so that the supporting plate 602 can swing in and out of the material clamping opening 301, and the supporting and falling of the beverage bottle are further enhanced.

As shown in fig. 7, first sliding grooves 4022 are symmetrically formed in the axial direction at both side edges of the semi-cylindrical housing 402; first sliding blocks 4041 which are in sliding fit with the first sliding groove 4022 are symmetrically fixed on the arc-shaped surface of the moving plate 404; through the sliding fit of the first chute 4022 and the first sliding block 4041, the moving plate 404 can be ensured to integrally slide along the axial direction of the semi-cylindrical shell 402, and the moving plate 404 is prevented from inclining; second sliding blocks which are in sliding fit with the first sliding grooves 4022 are symmetrically fixed on the arc-shaped surface of the extrusion plate 701; the sliding fit of the first sliding groove 4022 and the second sliding block can ensure that the whole extrusion plate 701 slides along the axial direction of the semi-cylindrical shell 402, and the extrusion plate 701 is prevented from being inclined.

As shown in fig. 7, a second sliding groove 4023 is formed in the inner surface of the bottom of the semi-cylindrical housing 402 along the axial direction, the second sliding groove 4023 is in sliding fit with a third slider 4042 fixed to the bottom of the arc surface of the moving plate 404, and the second sliding groove 4023 is in sliding fit with the third slider 4042, so that the whole moving plate 404 can slide along the axial direction of the semi-cylindrical housing 402, and the moving plate 404 is prevented from being inclined.

The end of the second chute 4023 close to the side of the semi-cylindrical housing 402 is provided with a water leaking port 4024.

As shown in fig. 3, the moving plate 404 has a through hole 4043; a puncture convex body 4051 is fixed at the end part of the mandril 405, and both ends of the puncture convex body 4051 are in arc transition, so that the puncture convex body 4051 is prevented from generating resistance when being separated from the beverage bottle, and the beverage bottle can be conveniently and rapidly burst by the puncture convex body 4051; the puncture convex body 4051 is provided with six water guide holes 4052, and the puncture convex body 4051 is positioned in the through hole 4043; with the moving plate 404 continuously pressing the spring 403, the push rod 405 will push out from the through hole 4043 and abut against the end of the beverage bottle, under the pressing force, the beverage bottle will be broken by the piercing protrusion 4051, and the completely or incompletely piercing protrusion 4051 enters the interior of the beverage bottle, and the liquid in the beverage bottle will flow out of the beverage bottle from the gap broken by the piercing protrusion 4051 or the water guiding hole 4052, and flow out of the squeezing mechanism 4 from the water leaking port 4024, so that the barrel for receiving the beverage can be stored in the box 1, and the like, thereby preventing the liquid from flowing around, realizing the release of the liquid in the beverage bottle, and the liquid in the beverage bottle will affect the squeezing of the beverage bottle.

One specific application of this embodiment is:

after the beverage bottles are classified by beverage bottle classification equipment (artificially classifying beverage bottles are also feasible), the beverage bottles enter a discharging hopper 2 in a box body 1, and the beverage bottles pass through a material passing box 3 one by one under the size limitation of the material passing box 3; a plurality of beverage bottles are stacked on the semi-cylindrical housing 402 in a vertical direction; an electromagnetic vibrator or an air knocking hammer can be arranged on the lower surface of the blanking hopper 2 to enable the beverage bottles to descend rapidly, so that the beverage bottles are prevented from descending due to interaction force among the beverage bottles, and the electromagnetic vibrator or the air knocking hammer is controlled by a microprocessor;

before the beverage bottles to be squeezed on the semi-cylindrical shell 402 are squeezed, the steering engine 804 drives the driven gear 803 to rotate through the driving gear 805, the rotating columns 601 drive the adjacent rotating columns 601 to rotate through the transmission chain 802, so that the supporting plate 602 can be swung into the clamping opening 301, and in the process that the supporting plate 602 is swung into the clamping opening 301, the supporting plate 602 supports the beverage bottles to be squeezed above the beverage bottles to be squeezed, so that a plurality of beverage bottles are prevented from entering the semi-cylindrical shell 402 to cause squeezing errors; the air cylinder 7 is started and pushes the squeezing plate 701 to slide along the axial direction of the semi-cylindrical shell 402, the squeezing plate 701 pushes the beverage bottle, the beverage bottle squeezes the spring 403 through the moving plate 404, along with the gradual action of the air cylinder 7 and the continuous sliding fit of the moving plate 404 along the semi-cylindrical shell 402, the ejector rod 405 gradually penetrates through the through hole 4043 on the moving plate 404, the puncturing convex body 4051 pushes against the end of the beverage bottle, the beverage bottle is punctured under the action of squeezing force, the liquid in the beverage bottle flows out from the water guide hole 4052 on the puncturing convex body 4051 or the gap punctured by the puncturing convex body 4051, finally the liquid in the beverage bottle is removed and the beverage bottle is squeezed, after the piston rod of the air cylinder 7 moves to a specified position, the beverage bottle is squeezed and formed, the piston rod of the air cylinder 7 is contracted, under the action of the moving plate 403, the beverage bottle is pushed by, under the promotion of movable plate 404, the beverage bottle also will enter into recycling bin 5 from feed opening 4021 in, and backup pad 602 swings once more, swings out in calorie feed opening 301, waits that the beverage bottle of extrudeing will descend and enter into in the semi-cylindrical casing 402 and become the beverage bottle that is about to be extruded, so reciprocal can realize the extrusion of beverage bottle, improves the extrusion efficiency of beverage bottle, reduces people's labor pressure, improves the capacity of the storage beverage in recycling bin 5, improves the recovery efficiency of beverage bottle.

In addition, the lower hopper 2 can be set to be of a wavy structure, the lower hopper 2 is communicated with the material passing box 3 in the valley, the extruding mechanism 4 is installed at the bottom of the material passing box 3, the supporting mechanism 6, the cylinder 7, the driving mechanism 8 and the like are arranged on the extruding mechanism 4, the beverage bottles in the lower hopper 2 are simultaneously discharged, the extrusion is synchronously performed, and the extrusion efficiency of the beverage bottles is improved.

Example two

The cylinder 7 and the steering engine 804 are controlled by a microprocessor, the microprocessor supplies power through a storage battery, a solar cell module can be arranged on the box body 1, and the power generated by the solar cell module is stored in the storage battery through a controller to supply power for the storage battery; a first correlation type photoelectric switch can be arranged on one opposite side wall of the material passing box 3 to judge whether the beverage bottle enters the material passing box 3 or not, an electric signal sent to the microprocessor according to the first correlation type photoelectric switch is used as a trigger switch for starting the whole extrusion device, and after a piston rod of the air cylinder 7 is contracted, the microprocessor controls the steering engine 804 to rotate so as to enable the beverage bottle to descend into the semi-cylindrical shell 402; a second correlation type photoelectric switch can be arranged on one opposite side surface of the box body 1, whether the beverage in the recovery barrel 5 is fully collected or not is detected by the second correlation type photoelectric switch, when the beverage bottle in the recovery barrel 5 is fully collected, the second correlation type photoelectric switch is triggered and sends an electric signal to the microprocessor, the microprocessor sends a signal to a monitoring platform such as a mobile phone and a computer through the communication module, people collect the beverage bottle in the recovery barrel 5, the labor pressure of people can be relieved in the process, people can conveniently and effectively recover the beverage bottle squeezed in the recovery barrel 5 in time, and the recovery efficiency of the beverage bottle is improved; the first correlation type photoelectric switch and the second correlation type photoelectric switch can adopt correlation type photoelectric switches with models S186E and S18SP6R, the microprocessor can adopt an STC15F2K60S2 single chip microcomputer, and the steering engine 804 adopts a steering engine with model S135G; on the premise of meeting the use condition, people can select models according to actual use requirements.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. An extrusion device for recovering bottles comprises a box body (1) and a driving mechanism (8); a side door is arranged on the side surface of the bottom of the box body (1), and a feeding hole (101) is formed in the top of the box body (1); the method is characterized in that:

a blanking hopper (2) is fixedly arranged in the box body (1); the bottom of the blanking hopper (2) is communicated with a material passing box (3), an extrusion mechanism (4) is fixedly arranged at the bottom of the material passing box (3), and a recovery barrel (5) is arranged below the extrusion mechanism (4);

a plurality of material clamping ports (301) which are linearly arranged are formed in one side surface of the bottom of the material passing box (3);

the extrusion mechanism (4) comprises a rectangular frame (401), a semi-cylindrical shell (402), a spring (403), a moving plate (404) and a push rod (405); a semi-cylindrical shell (402) is fixedly arranged in the rectangular frame (401); a supporting mechanism (6) is fixedly arranged on the rectangular frame (401); a discharge opening (4021) is formed in the inner surface of the semi-cylindrical shell (402); one side surface of the semi-cylindrical shell (402) is connected with a moving plate (404) through a spring (403), and the moving plate (404) is in sliding fit with the side edge of the semi-cylindrical shell (402); a cylinder (7) is fixedly arranged on the other side surface of the semi-cylindrical shell (402); the end part of a piston rod of the cylinder (7) is provided with an extrusion plate (701); the extrusion plate (701) is in sliding fit with the side edge of the semi-cylindrical shell (402);

wherein, a top rod (405) is fixed on the side surface of the semi-cylindrical shell (402), and the top rod (405) penetrates through the moving plate (404); the feed opening (4021) is positioned between the moving plate (404) and the extrusion plate (701);

the supporting mechanism (6) comprises a rotating column (601) and a supporting plate (602); a plurality of rotating columns (601) are rotatably connected between the upper surface of the rectangular frame (401) and the lower surface of the lower hopper (2); a fixing ring is fixed on the rotating column (601), and a supporting plate (602) is fixed on the fixing ring; the supporting plate (602) corresponds to the material clamping opening (301);

the driving mechanism (8) drives the plurality of rotating columns (601) to reciprocate.

2. A squeezing device for bottles recovery according to claim 1 characterised in that said driving mechanism (8) comprises a sprocket (801), a transmission chain (802), a driven gear (803), a steering engine (804) and a driving gear (805); chain wheels (801) are fixed on the rotating columns (601), and the chain wheels (801) on two adjacent rotating columns (601) are connected through a transmission chain (802); and a driven gear (803) is fixed on the rotating column (601), and the driven gear (803) is in meshing transmission with a driving gear (805) fixedly installed on an output shaft of the steering engine (804).

3. The squeezing device for recovery bottles of claim 1, characterized in that said semi-cylindrical shell (402) is symmetrically opened with first chutes (4022) in the axial direction along both side edges thereof; first sliding blocks (4041) which are in sliding fit with the first sliding grooves (4022) are symmetrically fixed on the arc-shaped surface of the moving plate (404); and second sliding blocks which are in sliding fit with the first sliding grooves (4022) are symmetrically fixed on the arc-shaped surface of the extrusion plate (701).

4. A squeezing device for a recovery bottle according to claim 3, characterized in that the bottom inner surface of said semi-cylindrical housing (402) is provided with a second sliding groove (4023) along the axial direction, said second sliding groove (4023) is slidably engaged with a third sliding block (4042) fixed to the bottom of the arc surface of the moving plate (404).

5. A squeezing device for recovery bottles, according to claim 4 characterized in that said second chute (4023) has a weep hole (4024) at the end close to the side of the semi-cylindrical housing (402).

6. A squeezing device for bottles recovery according to claim 4, characterized in that said moving plate (404) has a through hole (4043); a puncture convex body (4051) is fixed at the end part of the ejector rod (405), a plurality of water guide holes (4052) are formed in the puncture convex body (4051), and the puncture convex body (4051) is located in the through hole (4043).

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