CN116890135A - Horizontal hydraulic shearing machine for table processing - Google Patents

Abstract

The invention discloses a horizontal hydraulic shearing machine for table processing, which belongs to the technical field of table processing equipment and particularly comprises: a shearer body; the driving assembly is arranged in the shearing machine body; the three transmission components positioned at the upper part, the middle part and the lower part are respectively and movably connected with three transmission parts of the driving component, and the transmission parts of the three transmission components are respectively and movably connected with the conveying component, the compressing component and the blanking guide component; the conveying assembly is arranged in the shearing machine body, and the conveying part of the conveying assembly is positioned on the surface of the shearing machine body; and the compaction assembly is arranged at the upper part of the shearing machine body, and the compaction part of the compaction assembly is positioned above the conveying assembly. This horizontal hydraulic pressure cutter is used in desk processing can carry the raw materials that waits to cut automatically to compress tightly the raw materials when shearing, improve the efficiency of shearing, can adjust the height of unloading after shearing simultaneously, the storage interface of adaptation not co-altitude.

Description

Horizontal hydraulic shearing machine for table processing

Technical Field

The invention relates to the technical field of table processing equipment, in particular to a horizontal hydraulic shearing machine for table processing.

Background

The shearing machine is one kind of machine tool, and is hydraulically driven, and has reliable safety and convenient operation. The shearing force is in eight grades from 63 tons to 400 tons, and the shearing force is suitable for users with different requirements on different scales. The shearing machine is suitable for metal recovery processing factories, scrapped automobile disassembly fields and smelting and casting industries, and is used for carrying out cold shearing, pressing and flanging on section steel in various shapes and various metal materials and pressing and forming of powdery products, plastics, glass fiber reinforced plastics, insulating materials and rubber. Production is also accomplished by a horizontal hydraulic shear during the processing of the table.

However, the existing horizontal hydraulic shearing machine often needs a worker to manually finish feeding work, raw materials are easy to tilt during shearing, meanwhile, the feeding height is fixed, and different storage components cannot be adapted.

Disclosure of Invention

The invention mainly aims to provide a horizontal hydraulic shearing machine for table processing, and aims to solve the technical problems that the existing horizontal hydraulic shearing machine often needs workers to manually finish feeding work, raw materials are easy to tilt during shearing, meanwhile, the feeding height is fixed, and different storage components cannot be adapted.

In order to solve the technical problems, according to one aspect of the present invention, the following technical solutions are provided:

a horizontal hydraulic shear for table processing, comprising:

a shearer body;

the driving assembly is arranged in the shearing machine body;

the three transmission components positioned at the upper part, the middle part and the lower part are respectively and movably connected with three transmission parts of the driving component, and the transmission parts of the three transmission components are respectively and movably connected with the conveying component, the compressing component and the blanking guide component;

the conveying assembly is arranged in the shearing machine body, and the conveying part of the conveying assembly is positioned on the surface of the shearing machine body;

the compaction assembly is arranged at the upper part of the shearing machine body, and the compaction part of the compaction assembly is positioned above the conveying assembly;

the blanking guide assembly is arranged in the shearing machine body, and the blanking part of the blanking guide assembly is positioned at one side of the shearing machine body;

the driving assembly comprises a driving motor, a first bevel gear, a second bevel gear, a driving shaft, a second bevel gear and a third bevel gear, wherein the driving motor is connected to one side of the shearing machine body through a bolt, the output end of the driving motor is connected with the first bevel gear through a bolt, one side of the first bevel gear is vertically meshed with the second bevel gear, the second bevel gear is embedded and connected to the lower portion of the driving shaft, a limiting sliding groove is formed in the middle of the driving shaft, the third bevel gear is connected to the limiting sliding groove in a sliding mode, a first limiting groove is formed in the bottom end of the third bevel gear, a first limiting rod is connected to the bottom end of the first limiting rod through a bolt, and a fourth bevel gear is embedded and connected to the upper portion of the driving shaft.

As a preferable scheme of the horizontal hydraulic shearing machine for table processing, the invention comprises the following steps: the transmission assembly comprises a fifth bevel gear, a limiting transmission rod, a transmission shaft, a shaft connecting plate, a sixth bevel gear and a transmission connecting assembly, wherein the fifth bevel gear is slidably connected to the limiting transmission rod, one end of the limiting transmission rod is welded with the transmission shaft, the transmission shaft is rotatably connected to the shaft connecting plate, the shaft connecting plates on the upper portion, the middle portion and the lower portion are respectively connected with a shell, a mounting frame and a shearing machine body through bolts, one end of the transmission shaft is embedded and connected with the sixth bevel gear, and one side of the fifth bevel gear is connected with the transmission connecting assembly.

As a preferable scheme of the horizontal hydraulic shearing machine for table processing, the invention comprises the following steps: the transmission connecting assembly comprises a second limiting groove, a driving rod and a linear motor, wherein the second limiting groove is formed in one side of a fifth bevel gear, one end of the driving rod is slidably connected in the second limiting groove, and the other end of the driving rod is connected with an output end of the linear motor through a bolt.

As a preferable scheme of the horizontal hydraulic shearing machine for table processing, the invention comprises the following steps: the conveying assembly comprises a conveying transmission assembly, a conveying shaft, conveying rollers and a resetting assembly, wherein a driving part of the conveying transmission assembly is movably connected with a sixth bevel gear in the middle, a movable part of the conveying transmission assembly is connected with the conveying shaft, one end of the conveying shaft is connected with the conveying rollers in an embedded mode, one side of the conveying rollers is connected with a plurality of conveying rollers through a conveying belt, and the conveying rollers are movably connected to the resetting assembly.

As a preferable scheme of the horizontal hydraulic shearing machine for table processing, the invention comprises the following steps: the conveying transmission assembly comprises a seventh bevel gear, a first transmission wheel, a first transmission belt, a second transmission wheel, a third transmission wheel, a second transmission belt and a fourth transmission wheel, wherein a sixth bevel gear is vertically meshed and connected to one side of the seventh bevel gear, the front end of the seventh bevel gear is connected with the first transmission wheel through a shaft, the first transmission wheel is connected with the second transmission wheel through the first transmission belt, the rear end of the second transmission wheel is connected with the third transmission wheel through a shaft, the third transmission wheel is connected with the fourth transmission wheel through the second transmission belt, and the rear end of the fourth transmission wheel is connected with a conveying shaft in an embedded mode.

As a preferable scheme of the horizontal hydraulic shearing machine for table processing, the invention comprises the following steps: the automatic feeding and discharging device comprises a shearing machine body and is characterized in that the resetting assembly comprises a movable groove, a mounting frame and a resetting elastic piece, the movable groove is formed in the discharging part of the shearing machine body, an opening is formed in the top end of the movable groove, the mounting frame is connected to the inside of the movable groove in a sliding mode, the bottom end of the mounting frame is welded with the bottom end of the movable groove through a plurality of resetting elastic pieces, and a plurality of conveying rollers are connected to the mounting frame through shafts.

As a preferable scheme of the horizontal hydraulic shearing machine for table processing, the invention comprises the following steps: the pressing assembly comprises an eighth bevel gear, a connecting shaft, a fifth driving wheel, a third driving belt, a threaded sleeve, a threaded rod, a pressing plate and a shell, wherein a sixth bevel gear is vertically meshed with one side of the eighth bevel gear and connected with the upper portion, the connecting shaft is embedded and connected with one side of the eighth bevel gear, the fifth driving wheel is connected with the threaded sleeve through the third driving belt, a third limit groove is formed in the bottom end of the threaded sleeve, a second limit rod is connected with the third limit groove in a sliding mode, the second limit rod is connected with the bottom end of the shell through a bolt, the threaded rod is connected with the inner side of the threaded sleeve through a threaded rod, the top end of the threaded rod is connected with a limit guide rod through a bolt, the bottom end of the threaded rod penetrates through the outer side of the shell and is connected with the pressing plate through the bolt, the pressing plate is located above the conveying roller, the outer side of the shell is connected with the upper portion of the shearing machine body through the bolt, and the inside of the shell is connected with a transmission shaft on the upper portion through a mounting plate.

As a preferable scheme of the horizontal hydraulic shearing machine for table processing, the invention comprises the following steps: the blanking guide assembly comprises a rotary adjusting assembly, a rotary shaft, a blanking plate, a supporting rod and a buffer rod, wherein a driving part of the rotary adjusting assembly is movably connected with a sixth bevel gear at the lower part, a movable part of the rotary adjusting assembly is movably connected with the rotary shaft, the blanking plate is connected to the rotary shaft in an embedded mode, the supporting rod is connected to the bottom end of the blanking plate through a bolt, the supporting rod is slidably connected into a buffer groove formed in one end of the buffer rod, and one end of the supporting rod is welded with the tail end of the buffer groove through a buffer elastic piece.

As a preferable scheme of the horizontal hydraulic shearing machine for table processing, the invention comprises the following steps: the rotary adjusting assembly comprises a ninth bevel gear, a sixth transmission wheel, a fourth transmission belt, a seventh transmission wheel, an eighth transmission wheel, a fifth transmission belt, a ninth transmission wheel, a tenth transmission wheel and a sixth transmission belt, wherein one side of the ninth bevel gear is vertically meshed with the sixth bevel gear at the lower part, the front end of the ninth bevel gear is connected with the sixth transmission wheel through a shaft, the sixth transmission wheel is connected with the seventh transmission wheel through the fourth transmission belt, the rear end of the seventh transmission wheel is connected with the eighth transmission wheel through a shaft, the eighth transmission wheel is connected with the ninth transmission wheel through the fifth transmission belt, the front end of the ninth transmission wheel is connected with the tenth transmission wheel through a shaft, and the tenth transmission wheel is connected with a rotary shaft through the sixth transmission belt.

The beneficial effects of the invention are as follows: the table raw material to be sheared is placed on the shearing machine body, the raw material is placed between the pressing component and the conveying component, the transmission component in the middle is connected with the driving component, the conveying component is driven to work and convey the raw material to move forwards, after the table raw material moves to a proper position, the transmission component in the upper part is connected with the driving component, the pressing component is driven to work and press the raw material, meanwhile, the shearing machine body shears the raw material, after shearing, the sheared raw material is guided into an external storage component through the blanking guide component, and the transmission component in the lower part is connected with the driving component, so that the blanking guide component is driven to rotate to adjust the blanking height, and the table raw material shearing machine is suitable for storage interfaces with different heights;

this horizontal hydraulic pressure cutter is used in desk processing can carry the raw materials that waits to cut automatically to compress tightly the raw materials when shearing, improve the efficiency of shearing, can adjust the height of unloading after shearing simultaneously, the storage interface of adaptation not co-altitude.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a front view of the present invention;

FIG. 2 is an internal view of the present invention;

FIG. 3 is a schematic diagram of a driving assembly according to the present invention;

FIG. 4 is a schematic view of the structure of the transmission assembly of the present invention;

FIG. 5 is a schematic view of the structure of the conveyor drive assembly of the present invention;

FIG. 6 is a schematic diagram of a reset assembly of the present invention;

FIG. 7 is a schematic view of the connection of the conveyor rolls and the conveyor belt of the present invention;

FIG. 8 is a schematic view of the structure of the compression assembly of the present invention;

fig. 9 is a schematic structural view of the blanking guide assembly of the present invention.

Reference numerals illustrate:

the achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. 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.

It should be noted that, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present invention, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

The invention provides a horizontal hydraulic shearing machine for table processing, which can automatically convey raw materials to be sheared, compress the raw materials during shearing, improve shearing efficiency, adjust blanking height after shearing and adapt to storage interfaces with different heights;

please refer to fig. 1-9.

Example 1

A shearer body 100;

a driving assembly 200 installed inside the cutter body 100;

the transmission assembly 300 is characterized in that three transmission assemblies 300 positioned at the upper part, the middle part and the lower part are respectively and movably connected with three transmission parts of the driving assembly 200, and the transmission parts of the three transmission assemblies 300 are respectively and movably connected with the conveying assembly 400, the pressing assembly 500 and the blanking guide assembly 600;

a conveying assembly 400 installed inside the cutter body 100, and a conveying part of the conveying assembly 400 is positioned on the surface of the cutter body 100;

the compressing assembly 500 is installed at the upper part of the shearer body 100, and the compressing part of the compressing assembly 500 is positioned above the conveying assembly 400;

the blanking guide assembly 600 is installed inside the cutter body 100, and the blanking portion of the blanking guide assembly 600 is located at one side of the cutter body 100;

the driving assembly 200 comprises a driving motor 210, a first bevel gear 220, a second bevel gear 230, a driving shaft 240, a second bevel gear 230 and a third bevel gear 250, wherein the driving motor 210 is connected to one side of the shearing machine body 100 through a bolt, the output end of the driving motor 210 is connected with the first bevel gear 220 through a bolt, one side of the first bevel gear 220 is vertically meshed with the second bevel gear 230, the second bevel gear 230 is embedded and connected to the lower part of the driving shaft 240, a limit sliding chute 241 is formed in the middle part of the driving shaft 240, the third bevel gear 250 is connected to the limit sliding chute 241 in a sliding manner, a first limit groove 251 is formed in the bottom end of the third bevel gear 250, a first limit rod 252 is connected to the first limit groove 251 in a sliding manner, a mounting frame 442 is connected to the bottom end of the first limit rod 252 through a bolt, and a fourth bevel gear 260 is embedded and connected to the upper part of the driving shaft 240 in a sliding manner.

The shearing machine body 100 is used for providing a hydraulic shearing function, the driving assembly 200 is used for driving the operation of the transmission assemblies 300, the three transmission assemblies 300 are used for respectively and controllably connecting the driving assemblies 200, so that the operation of the conveying assembly 400, the pressing assembly 500 and the blanking guide assembly 600 is respectively controlled, the conveying assembly 400 is used for conveying raw materials to be sheared, the pressing assembly 500 is used for pressing the raw materials to be sheared, the shearing is prevented from being influenced by the tilting of the raw materials, and the blanking guide assembly 600 is used for guiding the sheared raw materials to slide into an external storage part;

the driving motor 210 is used for driving the first bevel gear 220 to rotate, the first bevel gear 220 is used for driving the second bevel gear 230 to rotate, the second bevel gear 230 is used for driving the driving shaft 240 and the lower fifth bevel gear 310 to rotate, the driving shaft 240 is used for driving the third bevel gear 250 and the fourth bevel gear 260 to rotate, the limiting sliding chute 241 is used for enabling the third bevel gear 250 to slide up and down along the limiting sliding chute 241 and enabling the limiting sliding chute 241 to enable the third bevel gear 250 to rotate, the third bevel gear 250 is used for driving the middle fifth bevel gear 310 to rotate, the first limiting groove 251 is used for providing a sliding channel for the first limiting rod 252, the first limiting rod 252 is used for limiting the position of the third bevel gear 250 and enabling the third bevel gear 250 to rotate along the first limiting rod 252, and the fourth bevel gear 260 is used for driving the upper fifth bevel gear 310 to rotate;

when the shearing machine is specifically used, the table raw material to be sheared is placed on the shearing machine body 100, the raw material is placed between the pressing component 500 and the conveying component 400, the transmission component 300 in the middle is connected with the driving component 200, the conveying component 400 is driven to work and convey the raw material to move forwards, after the table raw material moves to a proper position, the transmission component 300 in the upper part is connected with the driving component 200, the pressing component 500 is driven to work and press the raw material, meanwhile, the shearing machine body 100 shears the raw material, after shearing, the sheared raw material is guided into an external storage component through the blanking guide component 600, and the transmission component 300 in the lower part is connected with the driving component 200, so that the blanking guide component 600 is driven to rotate to adjust the blanking height, and the shearing machine is suitable for storage interfaces with different heights.

Example 2

The transmission assembly 300 comprises a fifth bevel gear 310, a limit transmission rod 320, a transmission shaft 330, a shaft connecting plate 331, a sixth bevel gear 340 and a transmission connecting assembly 350, wherein the fifth bevel gear 310 is slidably connected to the limit transmission rod 320, one end of the limit transmission rod 320 is welded with the transmission shaft 330, the transmission shaft 330 is rotatably connected to the shaft connecting plate 331, the shaft connecting plates 331 at the upper part, the middle part and the lower part are respectively connected with a shell 580, an installation frame 442 and the shearer body 100 through bolts, one end of the transmission shaft 330 is embedded and connected with the sixth bevel gear 340, and one side of the fifth bevel gear 310 is connected with the transmission connecting assembly 350;

the transmission connection assembly 350 comprises a second limiting groove 351, a driving rod 352 and a linear motor 353, wherein the second limiting groove 351 is formed on one side of the fifth bevel gear 310, one end of the driving rod 352 is slidably connected in the second limiting groove 351, and the other end of the driving rod 352 is connected with an output end of the linear motor 353 through a bolt;

the fifth bevel gear 310 is used for driving the limit transmission rod 320 to rotate, the limit transmission rod 320 is used for enabling the fifth bevel gear 310 to slide left and right along the limit transmission rod 320 and driving the transmission shaft 330 to rotate along with the rotation of the fifth bevel gear 310, the transmission shaft 330 is used for driving the sixth bevel gear 340 to rotate, the shaft connecting plate 331 is used for connecting the upper transmission shaft 330 with the shell 580, the middle transmission shaft 330 with the mounting frame 442, the lower transmission shaft 330 with the shearer body 100, and the three sixth bevel gears 340 are respectively used for driving the seventh bevel gear 411, the eighth bevel gear 510 and the ninth bevel gear 611 to rotate;

the second limiting groove 351 is configured to provide a sliding path for the driving rod 352, so that the fifth bevel gear 310 can rotate on the driving rod 352, the driving rod 352 is configured to drive the fifth bevel gear 310 to move laterally along the limiting transmission rod 320, and the linear motor 353 is configured to drive the driving rod 352 to move.

Example 3

The conveying assembly 400 comprises a conveying transmission assembly 410, a conveying shaft 420, conveying rollers 430 and a reset assembly 440, wherein a driving part of the conveying transmission assembly 410 is movably connected with a sixth bevel gear 340 in the middle, a movable part of the conveying transmission assembly 410 is connected with the conveying shaft 420, one end of the conveying shaft 420 is connected with the conveying rollers 430 in an embedded manner, one side of the conveying rollers 430 is connected with the four conveying rollers 430 through a conveying belt 431, and the conveying rollers 430 are movably connected to the reset assembly 440;

the conveying transmission assembly 410 comprises a seventh bevel gear 411, a first transmission wheel 412, a first transmission belt 413, a second transmission wheel 414, a third transmission wheel 415, a second transmission belt 416 and a fourth transmission wheel 417, wherein one side of the seventh bevel gear 411 is vertically meshed with the sixth bevel gear 340, the front end of the seventh bevel gear 411 is connected with the first transmission wheel 412 through a shaft, the first transmission wheel 412 is connected with the second transmission wheel 414 through the first transmission belt 413, the rear end of the second transmission wheel 414 is connected with the third transmission wheel 415 through a shaft, the third transmission wheel 415 is connected with the fourth transmission wheel 417 through the second transmission belt 416, and the rear end of the fourth transmission wheel 417 is embedded and connected with the conveying shaft 420;

the reset assembly 440 comprises a movable groove 441, a mounting frame 442 and reset elastic members 443, the movable groove 441 is formed at the discharging position of the shearing machine body 100, the top end of the movable groove 441 is provided with an opening, the inside of the movable groove 441 is slidably connected with the mounting frame 442, the bottom end of the mounting frame 442 is welded with the bottom end of the movable groove 441 through nine reset elastic members 443, and the mounting frame 442 is connected with five conveying rollers 430 through shafts;

the conveying shaft 420 is used for driving the conveying roller 430 to rotate, the conveying roller 430 is used for driving the raw materials above to move, the conveying belt 431 is used for driving other conveying rollers 430 which are not connected with the conveying shaft 420 to rotate, the seventh bevel gear 411 is used for driving the first driving wheel 412 to rotate, the first driving wheel 412 is used for driving the first driving belt 413 to rotate, the first driving belt 413 is used for driving the second driving wheel 414 to rotate, the second driving wheel 414 is used for driving the third driving wheel 415 to rotate, the third driving wheel 415 is used for driving the second driving belt 416 to rotate, the second driving belt 416 is used for driving the fourth driving wheel 417 to rotate, and the fourth driving wheel 417 is used for driving the conveying shaft 420 to rotate;

the movable groove 441 is used to provide a passage through which the mounting frame 442 slides, the mounting frame 442 is used to mount other devices above and the conveying roller 430, and the restoring elastic member 443 is used to restore the mounting frame 442 after it moves.

Example 4

The pressing assembly 500 comprises an eighth bevel gear 510, a connecting shaft 520, a fifth driving wheel 530, a third driving belt 540, a threaded sleeve 550, a threaded rod 560, a pressing plate 570 and a shell 580, wherein one side of the eighth bevel gear 510 is vertically meshed with the sixth bevel gear 340 at the upper part, one side of the eighth bevel gear 510 is embedded and connected with the connecting shaft 520, the connecting shaft 520 is embedded and connected with the fifth driving wheel 530, the fifth driving wheel 530 is connected with the threaded sleeve 550 through the third driving belt 540, the bottom end of the threaded sleeve 550 is provided with a third limit groove 551, the third limit groove 551 is in sliding connection with a second limit rod 552, the second limit rod 552 is connected with the bottom end of the shell 580 through a bolt, the inner side of the threaded sleeve 550 is in threaded connection with the threaded rod 560, the top end of the threaded rod 560 is in sliding connection with a limit guide 561, the top end of the limit guide 561 is connected with the top end of the shell 580 through a bolt, the bottom end of the threaded rod 560 is penetrated to the outside of the shell 580 through the pressing plate 570 is positioned above the conveying roller 430, the bottom of the shell 580 is in sliding connection with the second limit rod 570 through the second limit rod 561, the second limit rod is in the second limit rod 552 and is connected with the second limit rod 552 through the shearing machine 100 on the inner side of the shell 100 through the shell 100;

eighth bevel gear 510 is used for driving connecting shaft 520 to rotate, connecting shaft 520 is used for driving fifth drive wheel 530 to rotate, fifth drive wheel 530 is used for driving third drive belt 540 to rotate, third drive belt 540 is used for driving threaded sleeve 550 to rotate, threaded sleeve 550 is used for exerting rotatory power for threaded rod 560, third spacing groove 551 is used for providing the gliding passageway of second gag lever post 552, second gag lever post 552 is used for limiting the position of threaded sleeve 550, make threaded sleeve 550 rotate along second gag lever post 552, threaded rod 560 is used for driving pinch plate 570 to reciprocate, limit guide 561 is used for limiting the rotation of threaded rod 560, the rotatory power that threaded rod 560 received is converted into the power of reciprocating, pinch plate 570 is used for pushing down the raw materials that awaits the cutting, casing 580 is used for holding inside device, mounting plate 581 is used for connecting upper portion's transmission shaft 330, thereby install upper portion's drive assembly 300.

Example 5

The discharging guiding assembly 600 comprises a rotary adjusting assembly 610, a rotary shaft 620, a discharging plate 630, a supporting rod 640 and a buffer rod 650, wherein a driving part of the rotary adjusting assembly 610 is movably connected with a sixth bevel gear 340 at the lower part, a movable part of the rotary adjusting assembly 610 is movably connected with the rotary shaft 620, the rotary shaft 620 is embedded and connected with the discharging plate 630, the bottom end of the discharging plate 630 is connected with the supporting rod 640 through a bolt, the supporting rod 640 is slidably connected in a buffer groove 651 formed at one end of the buffer rod 650, and one end of the supporting rod 640 is welded with the tail end of the buffer groove 651 through a buffer elastic piece 652;

the rotation adjusting assembly 610 comprises a ninth bevel gear 611, a sixth transmission wheel 612, a fourth transmission belt 613, a seventh transmission wheel 614, an eighth transmission wheel 615, a fifth transmission belt 616, a ninth transmission wheel 617, a tenth transmission wheel 618 and a sixth transmission belt 619, wherein one side of the ninth bevel gear 611 is vertically meshed with the sixth bevel gear 340 at the lower part, the front end of the ninth bevel gear 611 is connected with the sixth transmission wheel 612 through a shaft, the sixth transmission wheel 612 is connected with the seventh transmission wheel 614 through the fourth transmission belt 613, the rear end of the seventh transmission wheel 614 is connected with the eighth transmission wheel 615 through a shaft, the eighth transmission wheel 615 is connected with the ninth transmission wheel 617 through the fifth transmission belt 616, the front end of the ninth transmission wheel 617 is connected with the tenth transmission wheel 618 through a shaft, and the tenth transmission wheel 618 is connected with the rotation shaft 620 through the sixth transmission belt 619;

the rotating shaft 620 is used for driving the blanking plate 630 to rotate, the blanking plate 630 is used for enabling raw materials to roll into an external storage component along the blanking plate 630, the supporting rod 640 is used for supporting the blanking plate 630, the buffer rod 650 is used for connecting the supporting rod 640 and the shearing machine main body, the buffer groove 651 is used for providing a sliding channel for the supporting rod 640, and the buffer elastic piece 652 is used for jacking the supporting rod 640 so as to prevent the raw materials from rotating after falling onto the blanking plate 630;

the ninth bevel gear 611 is used for driving the sixth driving wheel 612 to rotate, the sixth driving wheel 612 is used for driving the fourth driving belt 613 to rotate, the fourth driving belt 613 is used for driving the seventh driving wheel 614 to rotate, the seventh driving wheel 614 is used for driving the eighth driving wheel 615 to rotate, the eighth driving wheel 615 is used for driving the fifth driving belt 616 to rotate, the fifth driving belt 616 is used for driving the ninth driving wheel 617 to rotate, the ninth driving wheel 617 is used for driving the tenth driving wheel 618 to rotate, the tenth driving wheel 618 is used for driving the sixth driving belt 619 to rotate, and the sixth driving belt 619 is used for driving the rotating shaft 620 to rotate.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, and all equivalent structural changes made by the description of the present invention and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the invention.

Claims (9)

1. Horizontal hydraulic shear for desk processing, characterized by comprising:

a cutter body (100);

a drive assembly (200) mounted inside the shear body (100);

the three transmission components (300) positioned at the upper part, the middle part and the lower part are respectively and movably connected with three transmission parts of the driving component (200), and the transmission parts of the three transmission components (300) are respectively and movably connected with the conveying component (400), the pressing component (500) and the blanking guide component (600);

a conveying assembly (400) which is installed inside the shearing machine body (100), wherein a conveying part of the conveying assembly (400) is positioned on the surface of the shearing machine body (100);

the pressing assembly (500) is arranged at the upper part of the shearing machine body (100), and the pressing part of the pressing assembly (500) is positioned above the conveying assembly (400);

the blanking guide assembly (600) is arranged in the shearing machine body (100), and the blanking part of the blanking guide assembly (600) is positioned at one side of the shearing machine body (100);

the utility model provides a drive assembly (200) includes driving motor (210), first bevel gear (220), second bevel gear (230), drive shaft (240), second bevel gear (230) and third bevel gear (250), driving motor (210) are through bolted connection in one side of cutter body (100), the output of driving motor (210) has first bevel gear (220) through bolted connection, one side vertically meshing of first bevel gear (220) is connected with second bevel gear (230), the lower part at drive shaft (240) is connected in second bevel gear (230) embedding, limit chute (241) have been seted up at the middle part of drive shaft (240), sliding connection has third bevel gear (250) on limit chute (241), first limit groove (251) have been seted up to the bottom of third bevel gear (250), first limit groove (251) sliding connection has first gag lever (252), the bottom of first gag lever (252) is through bolted connection there is mounting bracket (442), the upper portion embedding of drive shaft (240) is connected with fourth bevel gear (260).

2. The horizontal hydraulic shear for table processing according to claim 1, wherein the transmission assembly (300) comprises a fifth bevel gear (310), a limit transmission rod (320), a transmission shaft (330), a shaft connection plate (331), a sixth bevel gear (340) and a transmission connection assembly (350), the fifth bevel gear (310) is slidably connected to the limit transmission rod (320), one end of the limit transmission rod (320) is welded with the transmission shaft (330), the transmission shaft (330) is rotatably connected to the shaft connection plate (331), the upper, middle and lower shaft connection plates (331) are respectively connected with a housing (580), a mounting frame (442) and a shear body (100) through bolts, one end of the transmission shaft (330) is embedded and connected with the sixth bevel gear (340), and one side of the fifth bevel gear (310) is connected with the transmission connection assembly (350).

3. The horizontal hydraulic shear for table processing according to claim 2, wherein the transmission connection assembly (350) comprises a second limiting groove (351), a driving rod (352) and a linear motor (353), the second limiting groove (351) is formed on one side of the fifth bevel gear (310), one end of the driving rod (352) is slidably connected in the second limiting groove (351), and the other end of the driving rod (352) is connected with an output end of the linear motor (353) through a bolt.

4. The horizontal hydraulic shearing machine for table processing according to claim 1, wherein the conveying assembly (400) comprises a conveying transmission assembly (410), a conveying shaft (420), conveying rollers (430) and a reset assembly (440), a driving part of the conveying transmission assembly (410) is movably connected with a sixth bevel gear (340) in the middle, a movable part of the conveying transmission assembly (410) is connected with the conveying shaft (420), one end of the conveying shaft (420) is connected with the conveying rollers (430) in an embedded mode, one side of the conveying rollers (430) is connected with a plurality of conveying rollers (430) through a conveying belt (431), and the conveying rollers (430) are movably connected to the reset assembly (440).

5. The horizontal hydraulic shear for table processing according to claim 4, wherein the conveying transmission assembly (410) comprises a seventh bevel gear (411), a first transmission wheel (412), a first transmission belt (413), a second transmission wheel (414), a third transmission wheel (415), a second transmission belt (416) and a fourth transmission wheel (417), wherein a sixth bevel gear (340) is vertically engaged and connected to one side of the seventh bevel gear (411), the front end of the seventh bevel gear (411) is connected with the first transmission wheel (412) through a shaft, the first transmission wheel (412) is connected with the second transmission wheel (414) through the first transmission belt (413), the rear end of the second transmission wheel (414) is connected with a third transmission wheel (415) through a shaft, the third transmission wheel (415) is connected with a fourth transmission wheel (417) through the second transmission belt (416), and the rear end of the fourth transmission wheel (417) is connected with the conveying shaft (420) in an embedded manner.

6. The horizontal hydraulic shearing machine for table processing according to claim 5, wherein the reset assembly (440) comprises a movable groove (441), a mounting frame (442) and a reset elastic member (443), the movable groove (441) is formed in a discharging part of the shearing machine body (100), an opening is formed in the top end of the movable groove (441), the mounting frame (442) is slidably connected to the inside of the movable groove (441), the bottom end of the mounting frame (442) is welded with the bottom end of the movable groove (441) through a plurality of reset elastic members (443), and a plurality of conveying rollers (430) are connected to the mounting frame (442) through shafts.

7. The horizontal hydraulic shear for table processing according to claim 1, wherein the pressing assembly (500) comprises an eighth bevel gear (510), a connecting shaft (520), a fifth driving wheel (530), a third driving belt (540), a threaded sleeve (550), a threaded rod (560), a pressing plate (570) and a housing (580), wherein one side of the eighth bevel gear (510) is vertically engaged and connected with an upper sixth bevel gear (340), one side of the eighth bevel gear (510) is embedded and connected with the connecting shaft (520), the connecting shaft (520) is embedded and connected with a fifth driving wheel (530), the fifth driving wheel (530) is connected with the threaded sleeve (550) through the third driving belt (540), a third limit groove (551) is formed at the bottom end of the threaded sleeve (550), a second limit rod (552) is slidably connected with the third limit groove (551), the second limit rod (552) is connected with the bottom end of the housing (580) through a bolt, the inner side of the threaded sleeve (550) is connected with the connecting shaft (560), the top end of the threaded rod (560) is connected with the top end of the housing (561) through the threaded rod (561), the bottom of threaded rod (560) runs through to casing (580) outside and has pinch rolls (570) through bolted connection, pinch rolls (570) are located the top of conveying roller (430), the outside of casing (580) is through bolted connection in the top of cutter body (100), the inside of casing (580) is connected with transmission shaft (330) on upper portion through mounting panel (581).

8. The horizontal hydraulic shear for table processing according to claim 1, wherein the blanking guide assembly (600) comprises a rotary adjusting assembly (610), a rotary shaft (620), a blanking plate (630), a supporting rod (640) and a buffer rod (650), a driving part of the rotary adjusting assembly (610) is movably connected with a sixth bevel gear (340) at the lower part, a movable part of the rotary adjusting assembly (610) is movably connected with the rotary shaft (620), the blanking plate (630) is embedded and connected on the rotary shaft (620), the bottom end of the blanking plate (630) is connected with the supporting rod (640) through a bolt, the supporting rod (640) is slidably connected in a buffer groove (651) formed in one end of the buffer rod (650), and one end of the supporting rod (640) is welded with the tail end of the buffer groove (651) through a buffer elastic piece (652).

9. The horizontal hydraulic shear for table processing according to claim 8, wherein the rotation adjusting assembly (610) comprises a ninth bevel gear (611), a sixth driving wheel (612), a fourth driving belt (613), a seventh driving wheel (614), an eighth driving wheel (615), a fifth driving belt (616), a ninth driving wheel (617), a tenth driving wheel (618) and a sixth driving belt (619), a sixth bevel gear (340) at a lower portion is connected to one side of the ninth bevel gear (611) in a vertical engagement manner, a sixth driving wheel (612) is connected to a front end of the ninth bevel gear (611) through a shaft, a seventh driving wheel (614) is connected to the sixth driving wheel (612) through a fourth driving belt (613), an eighth driving wheel (615) is connected to a rear end of the seventh driving wheel (614) through a shaft, a ninth driving wheel (617) is connected to a front end of the ninth driving wheel (617) through a fifth driving belt (616), and a rotation shaft is connected to the tenth driving wheel (618) through a sixth driving wheel (619).