CN112277544B

CN112277544B - Tire mounting equipment for chemical production

Info

Publication number: CN112277544B
Application number: CN202011139190.7A
Authority: CN
Inventors: 卢颜
Original assignee: Nanjing Yuzhi Intelligent Technology Co Ltd
Current assignee: Nanjing Yuzhi Intelligent Technology Co Ltd
Priority date: 2020-10-22
Filing date: 2020-10-22
Publication date: 2022-06-21
Anticipated expiration: 2040-10-22
Also published as: CN112277544A

Abstract

The invention relates to tire mounting equipment, in particular to tire mounting equipment for chemical production. The invention provides a tire mounting device for chemical production, which can reduce the labor intensity, improve the mounting efficiency, reduce the structural damage of a tire hub, and realize automatic tire discharging and automatic tire assembly discharging. A tire mounting apparatus for chemical production, comprising: the bottom plate is provided with a profile frame; the bottom plate is provided with an upright rack; the pressing mechanism is used for mounting the wheel hub on the tire; the pushing mechanism is arranged on the expanding mechanism and is used for automatically discharging materials. The first push rod is driven by the rotation of the cam to move up and down, the effect of up-and-down reciprocating motion of the pinch roller block is realized, and the wheel hub can be installed on the tire in a pressing mode when the first fixing frame moves down.

Description

Tire mounting equipment for chemical production

Technical Field

The invention relates to tire mounting equipment, in particular to tire mounting equipment for chemical production.

Background

The tire is widely used in chemical production, the used tire is generally an assembly product formed by mounting a tire hub, most tires on the market are generally mounted by using a crowbar when assembling a tire body and the tire hub, and the mounting mode has the advantages of high labor intensity, low efficiency and easiness in causing structural damage to the tire hub and the tire.

Patent application CN209159311U, it is 20190726 to disclose a tire erection equipment and system thereof, be used for assembling matrix and wheel hub, including the mounting groove, first snap ring, the second snap ring, a machine support, actuating mechanism and piece etc. of impressing, through placing wheel hub in the frame, make wheel hub can rotate relative to the frame, drive the part of impressing and the card income part of first snap ring to support and hold through actuating mechanism, so that in the rotatory in-process of wheel hub, first snap ring can block into the mounting groove completely, convenient installation between wheel hub and the matrix has been realized, and avoided wheel hub and matrix to damage in assembling process, however this erection equipment still need manual tire and manual unloading, can not realize the streamlined installation.

Therefore, the development of a tire mounting apparatus that can effectively solve the above-mentioned problems is a technical problem that needs to be urgently solved at present.

Disclosure of Invention

In order to overcome the defects of high labor intensity, low installation efficiency, easy structural damage and manual loading and unloading of the conventional tire installation mode, the invention provides the tire installation equipment for the chemical production, which can reduce the labor intensity, improve the installation efficiency, reduce the structural damage of a tire hub, automatically unload the tire and automatically unload a tire assembly.

A tire mounting apparatus for chemical production, comprising: the bottom plate is provided with a profile frame; the bottom plate is provided with an upright rack; the pressing mechanism is used for mounting the wheel hub on the tire; the bottom plate is provided with an expanding mechanism for expanding the tire, the expanding mechanism is meshed with the upright post rack, and the expanding mechanism is meshed with the die holder; the pushing mechanism is arranged on the expanding mechanism and is used for automatically discharging materials.

In one embodiment, the pressing mechanism comprises: the motor is arranged on the bottom plate; the output shaft of the motor is connected with a first transmission shaft which is rotatably connected with the bottom plate; the upper part of the die frame is rotatably provided with a second transmission shaft; the belt pulley assembly is connected between the second transmission shaft and the first transmission shaft; the middle part of the second transmission shaft is provided with a cam; the outer side of the cam is provided with a first push rod in a sliding manner; the bottom of the first push rod is provided with a first fixed frame; the bottom of the first fixed frame is provided with a pinch roller block.

In one embodiment, the expansion mechanism comprises: the middle of the bottom plate is provided with a first supporting frame; the middle of the bottom plate is rotatably provided with a third transmission shaft; the upper part of the third transmission shaft is provided with a rotating frame; the outer side of the rotating frame is uniformly provided with five hollow rotating shafts in a rotating mode; the top of each hollow rotating shaft is provided with a gear disc, and each gear disc is meshed with the fixture; the top of each gear disc is provided with five first sliding rails; expand the board outward, all the internal slip formula is equipped with and expands the board outward on every first slide rail.

In one embodiment, the push-up mechanism comprises: the top of each gear disc is provided with five second sliding rails; the hollow rotating shaft is internally provided with a first telescopic component in a sliding manner; the top of the first telescopic assembly is provided with a second fixed frame; each second sliding rail is provided with a wedge block in a sliding manner; the inner side of each wedge-shaped block and the outer wall of the second fixing frame are respectively provided with the third fixing frame, and the number of the third fixing frames on the outer wall of the second fixing frame is five; the second push rods are rotatably connected between the third fixed frame on each wedge-shaped block and the corresponding third fixed frame on the second fixed frame; two second telescopic assemblies are arranged on the outer side of each second sliding rail in a sliding manner; and the object lifting blocks are arranged between the tops of the two second telescopic assemblies which are close to each other, and are matched with the wedge-shaped blocks.

In one of them embodiment, still include rotary mechanism, be equipped with rotary mechanism on the bottom plate, rotary mechanism includes: the middle of the bottom plate is provided with a supporting plate; the upper part of the supporting plate is rotatably provided with a fourth transmission shaft; a bevel gear set is arranged between the lower part of the fourth transmission shaft and the first transmission shaft; the upper part of the fourth transmission shaft is provided with a gear lack; the upper part of the third transmission shaft is provided with a full gear which is meshed with the gear lacking.

In one of them embodiment, still including unloading mechanism, be equipped with unloading mechanism on the bottom plate, unloading mechanism includes: the bottom plate is provided with a second supporting frame; the upper part of the second support frame is provided with a storage frame; the second support frame is provided with a limiting frame; the third push rod is arranged on the second support frame in a sliding mode and is connected with the limiting frame in a sliding mode, and the third push rod is matched with the hollow rotating shaft; the pushing plate is arranged at the lower part of the storage frame in an inward sliding manner; the third push rod is rotatably connected with the rotating fixing rod; the bottom of the material pushing plate is provided with a fourth fixed frame; the upper part of the swing telescopic rod is rotatably connected with the fourth fixed frame; a third telescopic assembly is connected between the material pushing plate and the upper part of the second supporting frame and is connected with the second supporting frame in a sliding manner; and the second support frame is wound with a torsion spring which is connected with the swing telescopic rod.

Compared with the prior art, the invention has the following advantages: 1. the first push rod is driven to move up and down through the rotation of the cam, the effect of up-and-down reciprocating motion of the pinch roller block is realized, and the wheel hub can be installed on the tire in a pressing mode when the first fixing frame moves down;

2. the gear disc is driven to rotate along with the hollow rotating shaft by rotating to be meshed with the profile frame, so that the outward expansion plate on the gear disc is driven to slide outwards along the first sliding rail, and the effect of expanding the tire is achieved;

3. the wedge-shaped block slides outwards along the second sliding rail to be in contact fit with the object lifting block, so that the object lifting block is driven to move upwards, the second telescopic assembly is stretched, the effect of ejecting the mounted tire upwards and automatically discharging the tire is achieved, and manual discharging operation is reduced;

4. the third transmission shaft intermittently rotates seventy-two degrees by driving the full gear to intermittently rotate through the intermittent meshing of the missing gear and the full gear, so that the effect that the rotating frame drives the gear disc to intermittently rotate is achieved, and the rotation of the manually controlled gear disc is reduced;

5. the fourth fixing frame moves forwards to drive the material pushing plate to slide forwards, so that the third telescopic assembly slides forwards and stretches, and the effect that the material pushing plate automatically pushes a tire forwards for blanking is achieved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic perspective view of the bottom plate, the fixture and the vertical column rack of the present invention.

Fig. 3 is a schematic perspective view of the pressing mechanism according to the present invention.

Fig. 4 is a schematic perspective view of the present invention.

Fig. 5 is a perspective view of the expanding mechanism of the present invention.

Fig. 6 is a schematic perspective view of a first viewing angle of the push-up mechanism according to the present invention.

Fig. 7 is a schematic perspective view of a second perspective view of the push-up mechanism of the present invention.

Fig. 8 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 9 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 10 is a schematic perspective view of the blanking mechanism with the storage frame removed.

Part names and serial numbers in the figure: 1_ base plate, 2_ type frame, 3_ column rack, 4_ pressing mechanism, 41_ motor, 42_ first transmission shaft, 43_ second transmission shaft, 44_ belt pulley component, 45_ cam, 46_ first push rod, 47_ press wheel block, 48_ first fixed frame, 5_ expansion mechanism, 51_ first support frame, 52_ third transmission shaft, 53_ rotating frame, 54_ hollow rotating shaft, 55_ gear disc, 56_ first slide rail, 57_ outer expanding plate, 6_ pushing mechanism, 61_ second slide rail, 62_ second fixed frame, 63_ first telescopic component, 64_ third fixed frame, 65_ second push rod, 66_ wedge block, 67_ second telescopic component, 68_ lifting block, 7_ rotating mechanism, 71_ support plate, 72_ fourth transmission shaft, 73_ bevel gear set, 74_ gear lack, 75_ full gear, 8_ blanking mechanism, 81_ second support frame, 82_ storage frame, 83_ limit frame, 84_ third push rod, 85_ push plate, 86_ rotary fixing rod, 87_ fourth fixing frame, 88_ swing telescopic rod, 89_ third telescopic component and 810_ torsion spring.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Example 1

The utility model provides a tire erection equipment for chemical production, as shown in fig. 1 and 2, including bottom plate 1, type frame 2, stand rack 3, pushing down mechanism 4, expanding mechanism 5 and push-up mechanism 6, the rear portion is equipped with type frame 2 on bottom plate 1, the rear portion right side is equipped with stand rack 3 on bottom plate 1, be equipped with pushing down mechanism 4 between bottom plate 1 and type frame 2, be equipped with expanding mechanism 5 on bottom plate 1, expanding mechanism 5 and the meshing of stand rack 3, expanding mechanism 5 and the meshing of type frame 2 are equipped with push-up mechanism 6 on expanding mechanism 5.

When a chemical industry worker needs to install a wheel hub on a tire, the chemical industry worker can use the installation equipment, firstly, the plurality of tires are manually placed on the expansion mechanism 5 one by one, the wheel hubs are placed on the push-up mechanism 6 one by one, then the push-down mechanism 4 is started, the push-down mechanism 4 linearly reciprocates up and down, the expansion mechanism 5 is manually rotated, the expansion mechanism 5 is meshed with the moulding frame 2, so that the expansion mechanism 5 props up one tire, the propped tire rotates to the position below the push-down mechanism 4, the push-up mechanism 6 below the push-down mechanism 4 is driven to operate when the push-down mechanism 4 pushes down, the wheel hub is installed on the tire, the installed tire is pushed up to be unloaded, the expansion mechanism 5 is continuously rotated, the next tire can be installed, the push-down mechanism 4 is closed when the installation is not needed, the next tire installation is needed, and the steps are repeated.

Example 2

On the basis of embodiment 1, as shown in fig. 3, 4, 5, 6 and 7, the pressing mechanism 4 includes a motor 41, a first transmission shaft 42, a second transmission shaft 43, a belt pulley assembly 44, a cam 45, a first push rod 46, a pressing wheel block 47 and a first fixing frame 48, the motor 41 is installed on the front side of the bottom plate 1, the output shaft of the motor 41 is connected with the first transmission shaft 42, the first transmission shaft 42 is rotatably connected with the bottom plate 1, the second transmission shaft 43 is rotatably installed on the upper portion of the mold frame 2, the belt pulley assembly 44 is connected between the rear portion of the second transmission shaft 43 and the rear portion of the first transmission shaft 42, the cam 45 is installed in the middle portion of the second transmission shaft 43, the first push rod 46 is slidably installed on the outer side of the cam 45, the first fixing frame 48 is installed on the bottom of the first push rod 46, and the pressing wheel block 47 is installed on the bottom of the first fixing frame 48.

Starting the motor 41, the output shaft of the motor 41 rotates to drive the first transmission shaft 42 to rotate, so as to drive the belt pulley assembly 44 to transmit, further drive the second transmission shaft 43 to rotate, further drive the cam 45 to rotate, so that the first push rod 46 moves up and down, the effect of the up-and-down reciprocating motion of the pinch roller block 47 is realized, and the wheel hub can be pressed down and installed on the tire when the first fixing frame 48 moves down.

The expanding mechanism 5 comprises a first supporting frame 51, a third transmission shaft 52, a rotating frame 53, a hollow rotating shaft 54, a gear disc 55, first sliding rails 56 and an outer expanding plate 57, the first supporting frame 51 is arranged in the middle of the bottom plate 1, the third transmission shaft 52 is rotatably arranged in the middle of the bottom plate 1, the rotating frame 53 is arranged on the upper portion of the third transmission shaft 52, five hollow rotating shafts 54 are uniformly arranged on the outer side of the rotating frame 53 in a rotating mode, the gear disc 55 is arranged at the top of each hollow rotating shaft 54, each gear disc 55 is meshed with the frame 2, five first sliding rails 56 are arranged at the top of each gear disc 55, and the outer expanding plate 57 is arranged on each first sliding rail 56 in an inner sliding mode.

A worker places a plurality of tires on each gear disc 55 one by one, the rotating frame 53 is manually rotated along with the third transmission shaft 52, so that the gear discs 55 and the tires are driven to rotate, when one gear disc 55 rotates to be meshed with the fixture 2, the gear disc 55 rotates along with the hollow rotating shaft 54, further, the outer expanding plate 57 on the gear disc 55 is driven to slide outwards along the first sliding rail 56, the tire expanding effect is achieved, and when the gear disc 55 rotates to be meshed with the upright rack 3, the outer expanding plate 57 slides inwards to reset.

The push-up mechanism 6 comprises a second slide rail 61, a second fixed frame 62, a first telescopic assembly 63, a third fixed frame 64, a second push rod 65, wedge blocks 66, a second telescopic assembly 67 and a material lifting block 68, wherein the top of each gear disc 55 is provided with five second slide rails 61, the hollow rotating shaft 54 is internally provided with the first telescopic assembly 63 in a sliding manner, the top of the first telescopic assembly 63 is provided with the second fixed frame 62, each second slide rail 61 is provided with the wedge block 66 in a sliding manner, the inner side of each wedge block 66 and the outer wall of the second fixed frame 62 are provided with the third fixed frame 64, the number of the third fixed frames 64 on the outer wall of the second fixed frame 62 is five, the second push rod 65 is rotatably connected between the third fixed frame 64 on each wedge block 66 and the corresponding third fixed frame 64 on the second fixed frame 62, and the outer side of each second slide rail 61 is provided with two second telescopic assemblies 67 in a sliding manner, and an object lifting block 68 is arranged between the tops of the two adjacent second telescopic assemblies 67, and the object lifting block 68 is matched with the wedge block 66.

People put a plurality of wheel hubs on every fixed frame 62 one by one, when a gear plate 55 rotates to pinch roller 47 below, pinch roller 47 pushes down wheel hubs to make second fixed frame 62 on this gear plate 55 move down, thereby drive first flexible subassembly 63 gliding and compression, and second push rod 65 swings outwards expanding, and then drive wedge 66 along second slide rail 61 outside to slide to with lift thing piece 68 contact cooperation, then lift thing piece 68 and shift up, second flexible subassembly 67 is stretched, realize the effect of upwards ejecting out the self-propelled material of unloading of the tire of accomplishing the installation, reduce the operation of artifical material of unloading, when pinch roller 47 moves up, first flexible subassembly 63 resets and drives second fixed frame 62 to move up, thereby second push rod 65 resets to the formula swing of gathering together inwards, and then wedge 66 slides inwards, second flexible subassembly 67 resets, it moves down to lift thing piece 68.

Example 3

On the basis of embodiment 2, as shown in fig. 8, 9 and 10, the present invention further includes a rotating mechanism 7, the rotating mechanism 7 is disposed on the bottom plate 1, the rotating mechanism 7 includes a supporting plate 71, a fourth transmission shaft 72, a bevel gear set 73, a missing gear 74 and a full gear 75, the supporting plate 71 is disposed in the middle of the bottom plate 1, the fourth transmission shaft 72 is rotatably disposed on the upper portion of the supporting plate 71, the bevel gear set 73 is disposed between the lower portion of the fourth transmission shaft 72 and the first transmission shaft 42, the missing gear 74 is disposed on the upper portion of the fourth transmission shaft 72, the full gear 75 is disposed on the upper portion of the third transmission shaft 52, and the full gear 75 is engaged with the missing gear 74.

First transmission shaft 42 rotates and drives bevel gear set 73 and rotate to drive fourth transmission shaft 72 and rotate, and then drive and lack gear 74 and rotate, lack gear 74 and full gear 75 intermittent type nature meshing and drive full gear 75 intermittent type nature and rotate seventy two degrees, thereby third transmission shaft 52 intermittent type nature rotates seventy two degrees, and then realizes that swivel mount 53 takes gear disc 55 intermittent type nature pivoted effect, reduces the rotation of manual control gear disc 55.

The blanking mechanism 8 is further included, the blanking mechanism 8 is arranged on the right side of the upper front portion of the bottom plate 1, the blanking mechanism 8 comprises a second supporting frame 81, a placing frame 82, a limiting frame 83, a third push rod 84, a material pushing plate 85, a rotating fixing rod 86, a fourth fixing frame 87, a swinging telescopic rod 88 and a third telescopic component 89, the second supporting frame 81 is arranged on the right side of the upper front portion of the bottom plate 1, the placing frame 82 is arranged on the upper portion of the second supporting frame 81, the limiting frame 83 is arranged in the middle of the front side of the second supporting frame 81, the third push rod 84 is arranged in the middle of the front side of the second supporting frame 81 in a sliding mode, the third push rod 84 is connected with the limiting frame 83 in a sliding mode, the third push rod 84 is matched with the hollow rotating shaft 54, the material pushing plate 85 is arranged in the inner sliding mode on the lower portion of the placing frame 82, the rotating fixing rod 86 is rotatably connected with the rear portion of the third push rod 84, the fourth fixing frame 87 is arranged at the bottom of the front side of the material pushing plate 85, the fourth fixing frame 87 is connected with the rotating fixing rod 88, the swinging telescopic rod 88 is connected with the rotating fixing rod 86, the upper portion of the swing telescopic rod 88 is rotatably connected with the fourth fixing frame 87, a third telescopic assembly 89 is connected between the material pushing plate 85 and the upper portion of the second supporting frame 81, the third telescopic assembly 89 is slidably connected with the second supporting frame 81, a torsion spring 810 is wound on the second supporting frame 81, and the torsion spring 810 is connected with the swing telescopic rod 88.

When the hollow rotating shaft 54 rotates to contact with the third push rod 84, the third push rod 84 slides backwards along the limiting frame 83, so that the rotating fixing rod 86 rotates to drive the swinging telescopic rod 88 to swing around the second supporting frame 81 and deform at appropriate time, the torsion spring 810 is torsionally deformed, the fourth fixing frame 87 moves forwards, the material pushing plate 85 is driven to slide forwards, the third telescopic assembly 89 slides forwards and stretches, the effect that the material pushing plate 85 automatically pushes one tire forwards to discharge is realized, the rest tires are sequentially stacked on the material pushing plate 85, when the hollow rotating shaft 54 is not in contact with the third push rod 84, the torsion spring 810 and the third telescopic assembly 89 are reset, the third telescopic assembly 89 slides backwards, the swinging telescopic rod 88 swings to reset, the third push rod 84 slides forwards, the material pushing plate 85 slides backwards, the fourth fixing frame 87 moves backwards, the tires in the storage frame 82 can be pushed to the gear plate 55 one by one to the left by repeating the process until the blanking is finished.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that various changes, modifications and substitutions may be made by those skilled in the art without departing from the spirit of the invention, and all are intended to be included within the scope of the invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims

1. The utility model provides a tire erection equipment for chemical production, characterized by includes:

the device comprises a bottom plate (1), wherein a forming frame (2) is arranged on the bottom plate (1);

the vertical column rack (3) is arranged on the bottom plate (1);

the pressing mechanism (4) is arranged between the bottom plate (1) and the fixture (2) and used for mounting the hub on a tire;

the tire expanding mechanism is characterized by comprising an expanding mechanism (5), wherein the expanding mechanism (5) used for expanding a tire is arranged on the bottom plate (1), the expanding mechanism (5) is meshed with the upright post rack (3), and the expanding mechanism (5) is meshed with the fixture (2);

the extension mechanism (5) is provided with a push-up mechanism (6) for automatic discharging;

the pressing mechanism (4) includes:

the motor (41), the motor (41) is installed on the bottom plate (1);

the output shaft of the motor (41) is connected with a first transmission shaft (42), and the first transmission shaft (42) is rotatably connected with the bottom plate (1);

the upper part of the fixture (2) is rotatably provided with a second transmission shaft (43);

a belt pulley assembly (44), wherein the belt pulley assembly (44) is connected between the second transmission shaft (43) and the first transmission shaft (42);

the cam (45) is arranged in the middle of the second transmission shaft (43);

the first push rod (46) is arranged on the outer side of the cam (45) in a sliding manner;

the bottom of the first push rod (46) is provided with a first fixed frame (48);

the bottom of the first fixed frame (48) is provided with a pinch roller block (47);

the expanding mechanism (5) includes:

the middle of the bottom plate (1) is provided with a first supporting frame (51);

a third transmission shaft (52), wherein the middle of the bottom plate (1) is rotatably provided with the third transmission shaft (52);

the rotating frame (53) is arranged at the upper part of the third transmission shaft (52);

five hollow rotating shafts (54) are uniformly arranged on the outer side of the rotating frame (53) in a rotating mode;

the top of each hollow rotating shaft (54) is provided with a gear disc (55), and each gear disc (55) is meshed with the fixture (2);

the top of each gear disc (55) is provided with five first sliding rails (56);

each first sliding rail (56) is internally provided with an external expansion plate (57) in a sliding manner;

the push-up mechanism (6) includes:

the top of each gear disc (55) is provided with five second sliding rails (61);

the first telescopic component (63) is arranged in the hollow rotating shaft (54) in a sliding manner;

the top of the first telescopic component (63) is provided with a second fixed frame (62);

the wedge-shaped blocks (66) are arranged on each second sliding rail (61) in a sliding manner;

the inner side of each wedge-shaped block (66) and the outer wall of the second fixed frame (62) are provided with the third fixed frames (64), and the number of the third fixed frames (64) on the outer wall of the second fixed frame (62) is five;

the second push rods (65) are rotatably connected between the third fixed frames (64) on each wedge-shaped block (66) and the corresponding third fixed frames (64) on the second fixed frame (62);

the upper outer side of each second sliding rail (61) is provided with two second telescopic assemblies (67) in a sliding manner;

and the object lifting blocks (68) are arranged between the tops of the two second telescopic assemblies (67) close to each other, and the object lifting blocks (68) are matched with the wedge-shaped blocks (66).

2. The tire mounting apparatus for chemical production according to claim 1, further comprising a rotating mechanism (7), wherein the rotating mechanism (7) is provided on the base plate (1), and the rotating mechanism (7) comprises:

a support plate (71), wherein the middle of the bottom plate (1) is provided with the support plate (71);

the upper part of the supporting plate (71) is rotatably provided with a fourth transmission shaft (72);

a bevel gear set (73), wherein the bevel gear set (73) is arranged between the lower part of the fourth transmission shaft (72) and the first transmission shaft (42);

a gear lack (74) is arranged at the upper part of the fourth transmission shaft (72);

the upper part of the third transmission shaft (52) is provided with a full gear (75), and the full gear (75) is meshed with the gear lack (74).

3. The tire mounting device for chemical production according to claim 2, further comprising a blanking mechanism (8), wherein the bottom plate (1) is provided with the blanking mechanism (8), and the blanking mechanism (8) comprises:

the bottom plate (1) is provided with a second supporting frame (81);

the article placing frame (82) is arranged at the upper part of the second supporting frame (81);

the second supporting frame (81) is provided with a limiting frame (83);

the third push rod (84) is arranged on the second supporting frame (81) in a sliding mode, the third push rod (84) is connected with the limiting frame (83) in a sliding mode, and the third push rod (84) is matched with the hollow rotating shaft (54);

the pushing plate (85) is arranged at the lower part of the storage frame (82) in an inward sliding manner;

the third push rod (84) is rotatably connected with the rotary fixing rod (86);

the fourth fixed frame (87) is arranged at the bottom of the material pushing plate (85);

the swing telescopic rod (88) is connected between the fourth fixed frame (87) and the rotating fixed rod (86), and the upper part of the swing telescopic rod (88) is rotatably connected with the fourth fixed frame (87);

a third telescopic assembly (89) is connected between the material pushing plate (85) and the upper part of the second supporting frame (81), and the third telescopic assembly (89) is connected with the second supporting frame (81) in a sliding manner;

the torsion spring (810) is wound on the second supporting frame (81), and the torsion spring (810) is connected with the swinging telescopic rod (88).