CN117382983A - Shrink cup blanking device of double-ladle machine - Google Patents

Abstract

The invention discloses a shrink cup blanking device of a double-ladle machine, which comprises: the frame is provided with: the turntable mechanism can rotate to convey materials; the material pressing mechanism can extrude materials; the poking mechanism can send out materials from the turntable mechanism. The single-station single-bag packaging mode of the traditional vacuum packaging machine is changed, single-station double-bag loading packaging is realized, and the production speed of single equipment is greatly increased.

Description

Shrink cup blanking device of double-ladle machine

Technical Field

The invention belongs to the technical field of food packaging machines, and particularly relates to a shrink cup blanking device of a double-packaging machine.

Background

In carrying out the invention, the inventors have found that the prior art has at least the following problems:

the traditional vacuum packaging machine adopts a single-station single-bag packaging mode, and the poking mechanism correspondingly adopts a single-station structure, so that the working efficiency is low.

CN 205837280U-full-automatic rotary table bag feeding type vacuum packaging machine, a full-automatic rotary table bag feeding type vacuum packaging machine is disclosed. The technical proposal is as follows: the utility model provides a full-automatic carousel gives pocket type vacuum packaging machine, including rotatable package carousel, package carousel's edge equipartition has a plurality of gripper jaw of being connected with the package carousel, package carousel's edge be equipped with can with last gripper jaw complex send bag mechanism, open bag mechanism and packing mechanism, one side of package carousel is equipped with rotatable evacuation carousel, the edge of evacuation carousel has set firmly a plurality of evacuation mechanism rotatory along with the evacuation carousel, also can't solve above-mentioned technical problem.

Disclosure of Invention

The invention aims to solve the technical problem of providing a shrinkage cup blanking device of a double-packaging machine, which changes the single-station single-bag packaging mode of the traditional vacuum packaging machine, realizes single-station double-packaging material packaging and greatly accelerates the production speed of single equipment.

In order to solve the technical problems, the invention adopts the following technical scheme: a shrink cup blanking device of a double-ladle machine, comprising:

the frame, be equipped with in the frame:

the turntable mechanism can rotate to convey materials;

the material pressing mechanism can extrude materials;

the poking mechanism can send out materials from the turntable mechanism.

The turntable mechanism has:

a chassis;

the cam disc is fixedly arranged on the chassis and is provided with a slideway;

the turntable is rotatably arranged on the chassis; the rotary table driving mechanism is also arranged for driving the rotary table to rotate;

a series of material grooves are formed in the circumferential direction of the turntable, and the material grooves are arranged in pairs;

the pushing slide block is slidably arranged in the trough; the bottom plate of the pushing slide block is slidably arranged in the slideway of the cam disc;

the feed bin is fixedly connected with the upper end of the rotary table, and a feed inlet matched with the trough is formed in the feed bin.

The poking mechanism comprises:

poking a material base;

a poking shell which is arranged on the poking base;

a poking rotating shaft rotatably mounted on the poking shell and provided with a poking driving mechanism for driving the poking rotating shaft to rotate;

the material poking rotary shaft is provided with two groups of material poking belt mechanisms;

the first end of the poking rod is fixedly arranged on the poking belt mechanism, and the second end of the poking rod is a poking end.

The pressing mechanism is provided with:

the material pressing upright posts are arranged on the rack, and the number of the material pressing upright posts is two;

the material pressing lifting rod is slidably arranged in the material pressing upright post;

the material pressing connecting seat is fixedly arranged on the material pressing lifting rod;

the pressing plate is arranged on the pressing connecting seat;

the pressing rods are fixedly arranged on the pressing plates, and two pressing rods are matched with the material grooves arranged in pairs;

the stirring installation seat is fixedly installed on the pressing upright post;

the motor supporting seat is arranged on the stirring installation seat;

and the stirring motor is arranged on the motor supporting seat, and a stirring blade is arranged on a rotating shaft of the stirring motor.

Also provided is an adjustment mechanism having:

the adjusting cylinder is arranged on the bracket;

the adjusting connecting plate is connected with a piston rod of the adjusting cylinder;

the two adjusting rods are arranged in total, the first ends of the two adjusting rods are connected with the adjusting connecting plate, and the second ends of the adjusting rods can extend into the trough;

the connecting cylinder is detachably connected with the chassis, and the adjusting rod is slidably arranged in the connecting cylinder.

The turntable driving mechanism is a divider, and a rotating shaft of the divider penetrates through the chassis and is fixedly connected with the turntable; the device is characterized by also comprising a cover plate, wherein the cover plate is fixedly connected with the storage bin.

The series of material grooves are uniformly distributed in the circumferential direction of the turntable; the chassis is provided with a blanking nozzle which is matched with a poking rod of the poking mechanism.

The material poking belt mechanism comprises a material poking driving wheel, a material poking driven wheel and a material poking synchronous belt, and two material poking driving wheels are arranged on the material poking rotating shaft; two poking driven wheels are rotatably arranged on the poking shell; the material poking synchronous belts are two, and one material poking synchronous belt is matched with a group of material poking driving wheels and material poking driven wheels.

The poking driving mechanism is a poking servo motor, and a rotating shaft of the poking servo motor is connected with the poking rotating shaft; the material poking synchronous belt is fixedly provided with a material poking clamping plate, and the first end of the material poking rod is fixedly arranged on the material poking clamping plate; the poking end penetrates through the poking base and can slide on the poking base; the poking driven wheel is rotatably arranged at the upper ends of the two side walls of the poking shell; the poking shell is provided with a poking cover plate for sealing the poking belt mechanism.

The pressing driving mechanism comprises:

the material pressing motor is arranged on the frame;

the first end of the material pressing crank is connected with a rotating shaft of the material pressing motor;

the first end of the buffer cylinder is hinged with the second end of the material pressing crank;

and the first end of the pressing connector is connected with the second end of the buffer cylinder, and the second end of the pressing connector is hinged with the pressing connecting rod.

One of the technical schemes has the following advantages or beneficial effects, changes the single-station single-bag packaging mode of the traditional vacuum packaging machine, realizes single-station double-bag filling packaging, and greatly accelerates the production speed of single equipment.

Drawings

FIG. 1 is a schematic diagram of a shrink cup feeder of a double-ladle machine according to an embodiment of the present invention;

FIG. 2 is a schematic view of the structure of the shrink cup feeder of the dual ladle machine of FIG. 1;

FIG. 3 is a schematic view of a turntable mechanism of the shrink cup feeder of the dual ladle machine of FIG. 1;

FIG. 4 is a schematic structural view of a turntable mechanism of the shrink cup feeder of the dual ladle machine of FIG. 1;

FIG. 5 is a schematic view of a turntable mechanism of the shrink cup feeder of the dual ladle machine of FIG. 1;

FIG. 6 is a schematic structural view of a turntable mechanism of the shrink cup feeder of the dual ladle machine of FIG. 1;

FIG. 7 is a schematic view of a poking mechanism of the shrink cup feeder of the dual ladle machine of FIG. 1;

FIG. 8 is a schematic view of a poking mechanism of the shrink cup feeder of the dual ladle machine of FIG. 1;

FIG. 9 is a schematic view of a poking mechanism of the shrink cup feeder of the dual ladle machine of FIG. 1;

FIG. 10 is a schematic structural view of an adjustment mechanism of the shrink cup feeder of the dual ladle machine of FIG. 1;

the labels in the above figures are:

1. the machine frame is provided with a machine frame,

2. the rotary table mechanism 201, the chassis 202, the cam plate 2021, the slideway 203, the rotary table 2031, the trough 2032, the pushing slide block 205, the stock bin 2051, the feed inlet 206 and the material blocking cutter;

3. the device comprises a poking mechanism, 301, a poking base, 302, a poking servo motor, 303, a poking rotating shaft, 304, a poking driving wheel, 305, a poking synchronous belt, 306, a poking clamping plate, 307, a poking rod, 308 and a poking shell;

4. the device comprises a pressing mechanism 401, a pressing upright post 402, a pressing lifting rod 403, a pressing connecting rod 404, a pressing joint 405, a buffer cylinder 406, a pressing crank 407, a pressing motor 408, a pressing connecting seat 409, a pressing plate 410, a pressing rod 411, a stirring mounting seat 412, a motor supporting seat 413, a stirring motor 414 and stirring blades;

5. the device comprises an adjusting mechanism 501, an adjusting cylinder 502, an adjusting connecting plate 503, an adjusting rod 504 and a connecting cylinder.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 10, a shrink cup blanking device of a double-ladle machine has: the frame 1, be equipped with in the frame: the turntable mechanism 2 can rotate to convey materials; the material pressing mechanism 4 can press materials; the poking mechanism 3 can send out materials from the turntable mechanism.

The turntable mechanism 2 has:

a chassis 201, the chassis 201 being a fixed structure; the cam plate 202 is fixedly arranged on the chassis 201, and a slideway is arranged on the cam plate 202; the cam plate 202 is also a fixed mechanism, and the turntable 203 is rotatably mounted on the chassis 201; a turntable 203 driving mechanism for driving the turntable 203 to rotate is also arranged; in operation, the turntable 203 is rotated.

A series of material grooves 2031 are arranged on the circumference of the turntable 203; the material tanks 2031 are arranged in pairs, and can complete the conveying of two materials at a time. A pushing slide block 2032 which is slidably arranged in the material tank 2031; the bottom plate of the pushing slide block 2032 is slidably arranged in the slideway of the cam plate 202; during the rotation of the turntable 203, the bottom plate of the pushing slider 2032 slides in the slideway of the cam disc 202, and the slideway of the cam disc 202 is not regular round, and is cam-shaped, so that the position of the pushing slider 2032 in the diameter direction of the turntable 203 is driven to change, and the position of the pushing slider 2032 in the material tank 2031 is changed, so that the material in the material tank 2031 is extruded. After the material in the material tank 2031 is compressed to a certain density, the discharging device controls the size of the volume of the material in the material tank 2031 and the mode of cutting off redundant materials by the material blocking cutter 206 seat to realize an accurate automatic metering function, and the accuracy can reach 0.5 g.

The feed bin 205 is fixedly connected with the upper end of the turntable 203, and a feed inlet 2051 matched with the trough 2031 is formed in the feed bin 205. The bin 205 functions to contain material that enters the trough 2031 of the turntable 203 through the feed inlet 2051.

The chassis 201 is also provided with a poking mechanism, the poking mechanism is provided with a blocking cutter 206, and the blocking cutter 206 is close to the upper surface of the storage bin 205. The precise automatic metering function is achieved by cutting off excess material by the stop knife 206.

The driving mechanism of the turntable 203 is a divider, and a rotating shaft of the divider penetrates through the chassis 201 and is fixedly connected with the turntable 203 to drive the turntable 203 to intermittently rotate. And a cover plate fixedly connected with the bin 205.

A series of material grooves 2031 are uniformly distributed on the circumference of the turntable 203, and the purpose of uniformly working each station is met.

The chassis 201 is provided with a blanking nozzle which is matched with a poking rod of the poking mechanism, and plays a role in blanking.

The blanking device is an automatic blanking bagging device matched with a vacuum packaging machine. The turntable, the cover plate and the sliding block are driven to intermittently rotate by a servo motor, a planetary reducer, a gear, a cam divider and a central shaft. In the rotation process, materials contained in the rotary table automatically enter a trough of the rotary table through a stirring and pressing device, the rotary table and the cover plate jointly control the sliding block to compress the materials in the trough to a certain density through a cam plate, and then the discharging device controls the size of the volume of the materials in the trough and a mode of cutting off redundant materials through a blocking cutter seat to achieve an accurate automatic metering function, and the accuracy can reach 0.5 gram. And in the process that the turntable is stopped at a designated station, the material pressing device presses the materials in the turntable into the material groove which is not filled with the materials. The servo poking material is used for feeding the material in the material tank which is already measured into the prefabricated bag which is nearly prepared by the vacuum machine in a poking mode, so that the purpose of automatic bagging is achieved.

The poking mechanism 4 has:

a poking base 301; a poking shell 308 mounted on the poking base 301; a poking rotary shaft 303 rotatably mounted on the poking housing 308 and provided with a poking driving mechanism for driving the poking rotary shaft 303 to rotate; the material poking belt mechanism is provided with two groups of material poking belt mechanisms on the material poking rotating shaft 303; the first end of the poking rod 307 is fixedly arranged on the poking belt mechanism, and the second end of the poking rod 307 is a poking end. The poking rotating shaft 303 rotates to drive the poking belt mechanism to move, so that a poking rod 307 on the poking belt mechanism is driven to stretch and poke materials. Two groups of poking belt mechanisms and poking rods 307 are arranged on one rotating shaft, so that the traditional single-station single-bag packaging mode of the vacuum packaging machine can be changed, single-station double-bag filling packaging is realized, and the working efficiency is improved.

The material poking belt mechanism comprises a material poking driving wheel 304, a material poking driven wheel and a material poking synchronous belt 305, and two material poking driving wheels 304 are arranged on a material poking rotating shaft 303; two poking driven wheels are rotatably arranged on the poking shell 308; there are two poking synchronous belts 305, and one poking synchronous belt 305 is matched with a group of poking driving wheels 304 and poking driven wheels. The material poking rotating shaft 303 drives the driving wheel to rotate, so that the belt is driven to move, the first end of the material poking rod 307 is arranged on the belt, and the movement of the belt drives the material poking rod 307 to move, so that the material poking action is realized.

The poking driving mechanism is a poking servo motor 302, and a rotating shaft of the poking servo motor 302 is connected with a poking rotating shaft 303. The poking servo motor 302 is connected with the speed reducer and then connected with the rotating shaft to drive the rotating shaft to rotate.

A poking clamping plate 306 is fixedly arranged on the poking synchronous belt 305, and a first end of a poking rod 307 is fixedly arranged on the poking clamping plate 306. The clamping plates connect the synchronous belt and the poking rod 307 together to realize a mechanism for converting rotary motion into linear motion.

The poking end penetrates through the poking base 301 and can slide on the poking base 301, so that the poking base 301 can play a role in guiding by sliding the poking vertically.

The poking driven wheel is rotatably arranged at the upper ends of the two side walls of the poking shell 308; the material poking shell 308 is provided with a material poking cover plate for closing the material poking belt mechanism, and two material poking rods 307 are arranged separately, so that the stable installation of the two material poking rods 307 is facilitated.

The mechanism is a blanking poking mechanism matched with a blanking device of the double-bag vacuum packaging machine. The servo motor, the planetary reducer and the transmission shaft drive two groups of synchronous wheels and synchronous belts simultaneously for transmission. The clamping plate connects the two synchronous belts and the two poking rods together to realize a mechanism which converts rotary motion into linear motion. The advantages are that: the double-bag vacuum packaging machine is matched with a blanking device matched with a double-bag vacuum machine to be used, so that the single-station single-bag packaging mode of the traditional vacuum packaging machine is changed, and single-station double-bag filling packaging is realized.

The material pressing mechanism is provided with:

the material pressing upright posts are arranged on the frame and are two; the material pressing lifting rod is slidably arranged in the material pressing upright post; the pressing connecting seat is fixedly arranged on the pressing lifting rod; the pressing plate is arranged on the pressing connecting seat; the pressing rods are fixedly arranged on the pressing plates, two pressing rods are arranged, and the two pressing rods are matched with the material grooves arranged in pairs; through the lift of pressure material lifter in the pressure material stand, drive the lift of pressure material connecting seat, pressure flitch and pressure material pole, the material in the material silo is extruded to pressure material pole, compacts the material.

The stirring installation seat is fixedly installed on the pressing upright post; the motor supporting seat is arranged on the stirring installation seat; stirring motor 413 is installed on the motor supporting seat, is equipped with stirring leaf 414 in stirring motor 413's the pivot. The stirring motor 413 drives the stirring blade 414 to rotate so as to stir the materials in the material bin, so that the materials are more uniform.

Also has adjustment mechanism, adjustment mechanism has: an adjusting cylinder 501 mounted on the bracket; an adjusting connection plate 502 connected with a piston rod of the adjusting cylinder 501; two adjusting rods 503 are arranged in total, the first ends of the two adjusting rods 503 are connected with the adjusting connecting plate 502, and the second ends of the adjusting rods 503 can extend into the trough; a coupling barrel 504 detachably coupled to the chassis, and an adjusting lever 503 slidably mounted in the coupling barrel 504. This part is equivalent to say that the gram weight is adjusted, that is to say the material in the material bin is slightly more than what is designed, say 30 g is needed, and after the trough is filled up to 40 g, the material in the trough is ejected out by the device, and after the ejection, the material in the trough is 30 g. Also in the middle is a chuck, which clamps the connecting cylinder 504 by the middle of the two discs up and down, which is convenient to disassemble and then convenient to clean.

The pressing driving mechanism comprises: the material pressing motor is arranged on the frame; the first end of the material pressing crank is connected with a rotating shaft of the material pressing motor; the first end of the buffer cylinder is hinged with the second end of the material pressing crank; the first end of the material pressing connector is connected with the second end of the buffer cylinder, and the second end of the material pressing connector is hinged with the material pressing connecting rod. The middle of the pressing material is added with a buffer cylinder to buffer the pressing material, so that the pressing material of the hole in the tray is not tightly pressed under the buffer condition of the cylinder, and then the pressing material is not poked when the pressing material is poked before. Because some of the material is relatively hard, such as fried material, if it is pressed to a very tight front, the later poked material will not be poked, where it is buffered, such as by a cylinder, to a certain extent, and then buffered, such material is not so tight.

The blanking device is automatic blanking bagging equipment matched with a double-bag vacuum packaging machine. The turntable, the cover plate and the sliding block are driven to intermittently rotate by a servo motor, a planetary reducer, a gear, a cam divider and a central shaft. In the rotation process, materials contained in the rotary table automatically enter a trough of the rotary table through a stirring and pressing device, the rotary table and the cover plate jointly control the sliding block to compress the materials in the trough to a certain density through a cam plate, and then the discharging device controls the size of the volume of the materials in the trough and a mode of cutting off redundant materials through a blocking cutter seat to achieve an accurate automatic metering function, and the accuracy can reach 0.5 gram. And in the process that the turntable is stopped at a designated station, the material pressing device presses the materials in the turntable into the material groove which is not filled with the materials. The servo poking material is used for feeding the material in the material tank which is already measured into the prefabricated bag which is nearly prepared by the vacuum machine in a poking mode, so that the purpose of automatic bagging is achieved.

Wherein the material pressing device is driven by a servo motor, a planetary reducer and an eccentric wheel mechanism to drive the guide rod and the material pressing component to do linear motion. The discharging device is driven by a servo motor and an electric cylinder mechanism to drive the discharging head to do linear motion in the discharging seat.

The advantages are that: realizing automatic metering and automatic discharging and bagging. The double-bag vacuum packaging machine is matched with a double-bag vacuum machine for use, the single-station single-bag packaging mode of the traditional vacuum packaging machine is changed, single-station double-bag filling packaging is realized, and the production speed of single equipment is greatly increased.

After the scheme is adopted, the single-station single-bag packaging mode of the traditional vacuum packaging machine is changed, single-station double-bag filling packaging is realized, and the production speed of single equipment is greatly increased.

In the description of the present invention, it should be understood that the terms "coaxial," "bottom," "one end," "top," "middle," "another end," "upper," "one side," "top," "inner," "front," "center," "two ends," etc. indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "configured," "connected," "secured," "screwed," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intermediaries, or in communication with each other or in interaction with each other, unless explicitly defined otherwise, the meaning of the terms described above in this application will be understood by those of ordinary skill in the art in view of the specific circumstances.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A shrink cup blanking device of a double-ladle machine, which is characterized by comprising:

the frame, be equipped with in the frame:

the turntable mechanism can rotate to convey materials;

the material pressing mechanism can extrude materials;

the poking mechanism can send out materials from the turntable mechanism.

2. The shrink cup feeder of claim 1, wherein said turntable mechanism has:

a chassis;

the cam disc is fixedly arranged on the chassis and is provided with a slideway;

the turntable is rotatably arranged on the chassis; the rotary table driving mechanism is also arranged for driving the rotary table to rotate;

a series of material grooves are formed in the circumferential direction of the turntable, and the material grooves are arranged in pairs;

the pushing slide block is slidably arranged in the trough; the bottom plate of the pushing slide block is slidably arranged in the slideway of the cam disc;

the feed bin is fixedly connected with the upper end of the rotary table, and a feed inlet matched with the trough is formed in the feed bin.

3. A shrink cup feeder for a double-wrapping machine as set forth in claim 2 wherein said poking mechanism has:

poking a material base;

a poking shell which is arranged on the poking base;

a poking rotating shaft rotatably mounted on the poking shell and provided with a poking driving mechanism for driving the poking rotating shaft to rotate;

the material poking rotary shaft is provided with two groups of material poking belt mechanisms;

the first end of the poking rod is fixedly arranged on the poking belt mechanism, and the second end of the poking rod is a poking end.

4. A shrink cup feeder as claimed in claim 3 wherein said press mechanism comprises:

the material pressing upright posts are arranged on the rack, and the number of the material pressing upright posts is two;

the material pressing lifting rod is slidably arranged in the material pressing upright post;

the material pressing connecting seat is fixedly arranged on the material pressing lifting rod;

the pressing plate is arranged on the pressing connecting seat;

the pressing rods are fixedly arranged on the pressing plates, and two pressing rods are matched with the material grooves arranged in pairs;

the stirring installation seat is fixedly installed on the pressing upright post;

the motor supporting seat is arranged on the stirring installation seat;

and the stirring motor is arranged on the motor supporting seat, and a stirring blade is arranged on a rotating shaft of the stirring motor.

5. The shrink cup feeder of claim 4, further comprising an adjustment mechanism having:

the adjusting cylinder is arranged on the bracket;

the adjusting connecting plate is connected with a piston rod of the adjusting cylinder;

the two adjusting rods are arranged in total, the first ends of the two adjusting rods are connected with the adjusting connecting plate, and the second ends of the adjusting rods can extend into the trough;

the connecting cylinder is detachably connected with the chassis, and the adjusting rod is slidably arranged in the connecting cylinder.

6. The shrink-cup feeder of double-wrapping machine as set forth in claim 5, wherein said rotary disk driving mechanism is a divider, and a rotary shaft of said divider passes through said chassis and is fixedly connected with said rotary disk; the device is characterized by also comprising a cover plate, wherein the cover plate is fixedly connected with the storage bin.

7. The shrink cup feeder of claim 6, wherein the series of slots are uniformly distributed around the circumference of the turntable; the chassis is provided with a blanking nozzle which is matched with a poking rod of the poking mechanism.

8. The shrink cup feeder of the double-wrapping machine according to claim 7, wherein the material poking belt mechanism comprises a material poking driving wheel, a material poking driven wheel and a material poking synchronous belt, and two material poking driving wheels are arranged on the material poking rotating shaft; two poking driven wheels are rotatably arranged on the poking shell; the material poking synchronous belts are two, and one material poking synchronous belt is matched with a group of material poking driving wheels and material poking driven wheels.

9. The shrink cup feeder of the double-wrapping machine according to claim 8, wherein the poking driving mechanism is a poking servo motor, and a rotating shaft of the poking servo motor is connected with a poking rotating shaft; the material poking synchronous belt is fixedly provided with a material poking clamping plate, and the first end of the material poking rod is fixedly arranged on the material poking clamping plate; the poking end penetrates through the poking base and can slide on the poking base; the poking driven wheel is rotatably arranged at the upper ends of the two side walls of the poking shell; the poking shell is provided with a poking cover plate for sealing the poking belt mechanism.

10. The shrink cup unloader of a double-bag machine of claim 9 wherein the nip drive mechanism has:

the material pressing motor is arranged on the frame;

the first end of the material pressing crank is connected with a rotating shaft of the material pressing motor;

the first end of the buffer cylinder is hinged with the second end of the material pressing crank;

and the first end of the pressing connector is connected with the second end of the buffer cylinder, and the second end of the pressing connector is hinged with the pressing connecting rod.