CN209736751U - Device for processing material to be cut - Google Patents

Abstract

The utility model discloses a device for processing materials to be cut, which comprises a belt bracket, a conveying component, a material pushing platform, a material pushing mechanism and a stabilizing mechanism, wherein the belt bracket comprises a first fastening rod and a second fastening rod, and the first fastening rod is provided with a first fastening end and a second fastening end; the second fastening rod is provided with a third fastening end and a fourth fastening end; two ends of the conveying component are respectively connected with the second fastening end and the fourth fastening end; the material pushing platform is provided with a bearing platform and supporting legs; the material pushing mechanism comprises a baffle, a hydraulic oil cylinder and a material pushing plate; the hydraulic oil cylinder is provided with a cylinder body and a push rod; the scraping wings with push rod fixed connection, firm mechanism includes: a stabilizing rod, a first collar and a second collar; one end of the stabilizing rod is fixed on the baffle plate, and the first sleeve ring and the second sleeve ring are respectively sleeved on the peripheral part of the cylinder body. The utility model discloses reached and to have improved the security, used manpower sparingly, the technological effect of raising the efficiency.

Description

Device for processing material to be cut

Technical Field

The utility model belongs to the technical field of mechanical equipment, in particular to a device for treating cut material and handle.

Background

The alligator shears may be referred to as fish shears, which are one type of metal shears. The crocodile scissors are suitable for metal recycling processing plants, scrapped automobile dismantling fields and smelting and casting industries, and can be used for cold shearing and pressing flanging of profile steel and various metal materials in various shapes and pressing and forming of powdery products, plastics, glass fiber reinforced plastics, insulating materials and rubber.

In the technology applied to the feeding of the crocodile shears, various metals are generally cut by a worker who picks up the metals on site, sends the metals into the shears of the crocodile shears, and then operates the crocodile shears. However, the feeding operation of workers is close to the crocodile shears, when the crocodile shears work, sheared metal can rebound to form small blocks, workers are easy to hurt, and safety accidents are caused; and because manual feeding is carried out to the crocodile shears, a large amount of manpower is needed, and the efficiency is low.

In conclusion, in the existing technology applied to feeding of crocodile shears, the technical problems of low safety, much labor consumption and low efficiency exist.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that in the current technique of being applied to crocodile and cutting the material loading, there is the security low, consumes the manpower many, the technical problem of inefficiency.

In order to solve the technical problem, the utility model provides a device for treating cut material and handle, include: a belt support, the belt support comprising: a first fastening rod, a second fastening rod; the first fastening rod is provided with a first fastening end and a second fastening end, and the first fastening rod is fixed on the ground through the first fastening end; the second fastening rod is provided with a third fastening end and a fourth fastening end, and the second fastening rod is fixed on the ground through the third fastening end; a conveying member, both ends of which are connected with the second fastening end and the fourth fastening end, respectively, to support the conveying member through the first fastening rod and the second fastening rod; the material pushing platform is provided with a bearing platform and a plurality of supporting legs, the bearing platform is used for bearing materials to be sheared, the material pushing platform is fixed on the ground through the supporting legs, and the surface of the bearing platform is parallel to the ground; a material pushing mechanism, the material pushing mechanism comprising: the device comprises a baffle, a hydraulic oil cylinder and a material pushing plate; the baffle plate is provided with a fifth fastening end and a sixth fastening end, the baffle plate is fixed on the ground through the fifth fastening end and is connected with the ground, and the first fastening end is positioned between the fifth fastening end and the third fastening end; the hydraulic oil cylinder is provided with a cylinder body and a push rod, and the hydraulic oil cylinder is fixedly connected with the sixth fastening end through the cylinder body; the material pushing plate is fixedly connected with the push rod and is in contact with the bearing platform so as to drive the material pushing plate to push the material to be sheared on the bearing platform to move through the hydraulic oil cylinder; a securing mechanism, the securing mechanism comprising: a stabilizing rod, a first collar and a second collar; one end of the stabilizing rod is fixed on the baffle, and the connecting part of the stabilizing rod and the baffle is close to the sixth fastening end; the inner diameters of the first lantern ring and the second lantern ring are matched with the outer diameter of the cylinder body, and the first lantern ring and the second lantern ring are sleeved on the peripheral part of the cylinder body respectively; the first lantern ring and the second lantern ring are fixedly connected with the stabilizing rod respectively.

optionally, the distance between the second fastening end and the ground is smaller than the distance between the fourth fastening end and the ground.

Optionally, the apparatus includes: the conveying component comprises a first driving wheel, a second driving wheel and a third driving wheel, wherein the first driving wheel is rotationally fixed on the second fastening end; a second drive wheel rotationally fixed on the fourth fastening end; a third fastening rod, both ends of which are fixed to the second fastening end and the fourth fastening end, respectively; the conveying belt is arranged on the first driving wheel and the second driving wheel and wound and distributed on the periphery of the third fastening rod, so that the conveying belt is driven to move around the third fastening rod through the rotation of the first driving wheel and the second driving wheel; a plurality of belt supporting roller, each belt supporting roller includes a roll end and a stiff end, just a plurality of belt supporting roller is through corresponding separately stiff end equidistant fixing on the third anchorage bar, a plurality of belt supporting roller is through corresponding separately roll end equidistant with conveyor belt contacts, with right conveyor belt supports.

Optionally, a connecting rod is arranged between the first fastening rod and the second fastening rod, and the connecting rod is perpendicular to the first fastening rod and the second fastening rod respectively.

optionally, the number of the connecting rods between the first fastening rod and the second fastening rod is 1, and the connecting rods are disposed at a middle portion of the first fastening rod or the second fastening rod.

Has the advantages that:

The utility model provides a device for treating cut material and handle, first fastening end through first anchorage bar in the belt bracket, the second fastening end with the second anchorage bar is fixed in subaerially, simultaneously conveying member's both ends interconnect with the second fastening end of first anchorage bar and the fourth fastening end of second anchorage bar respectively, support conveying member through the belt bracket in order to realize, it is fixed subaerial to push away the material platform through its supporting legs in addition, and set up a supporting bench and be used for supporting the material of cutting of treating of being carried by conveying member. The baffle in the pushing mechanism is fixed on the ground through a fifth fastening end, so that the first fastening end of the first fastening rod is positioned between the fifth fastening end of the baffle and the third fastening end of the second fastening rod, the cylinder body of a hydraulic cylinder in the pushing mechanism and the sixth fastening end of the baffle are fixedly connected with each other, and the push rod of the hydraulic cylinder and the push plate are fixedly connected with each other, so that a material to be sheared, which is positioned on the conveying component, can be conveyed to the second fastening rod from the first fastening rod through the conveying component and then conveyed to the bearing table of the pushing platform, and the material to be sheared reaches the bearing table, and can be driven to move towards the direction of the crocodile shears through the push rod of the hydraulic cylinder, so that the material to be sheared can be pushed to gradually move towards the direction of the crocodile shears through the push plate, and finally the crocodile shears shear the material to be sheared, thereby realizing the process that the material, the crocodile scissors are automatically reached to be processed, and the technical effects of saving manpower, improving safety and improving operation efficiency are achieved.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

drawings

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

fig. 1 is a schematic overall structural diagram of a device for processing a material to be cut according to an embodiment of the present invention;

Fig. 2 is a schematic structural diagram ii of a device for processing a material to be cut according to an embodiment of the present invention;

Fig. 3 is a third schematic structural diagram of an apparatus for processing a material to be cut according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art belong to the protection scope of the present invention; the "and/or" keyword "referred to in this embodiment represents sum or two cases, in other words, a and/or B mentioned in the embodiment of the present invention represents two cases of a and B, A or B, and describes three states where a and B exist, such as a and/or B, representing: only A does not include B; only B does not include A; including A and B.

also, in embodiments of the invention, when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and similar expressions used in the embodiments of the present invention are for illustrative purposes only and are not intended to limit the present invention.

Please refer to fig. 1-3, wherein fig. 1 is a schematic overall structure diagram of a device for processing a material to be cut according to an embodiment of the present invention, the device for processing a material to be cut is fixed on a ground 10, and the device may include a belt bracket 20, a conveying component 30, a material pushing platform 40 and a material pushing mechanism 50.

Wherein, the utility model discloses a first fastening end of first anchorage bar in the belt bracket 20, and the second fastening end of second anchorage bar is fixed in subaerial 10, simultaneously conveying part 30's both ends respectively with the second fastening end of first anchorage bar and the fourth fastening end interconnect of second anchorage bar, in order to realize supporting conveying part 30 through belt bracket 20, push away material platform 40 and fix subaerial through its supporting legs in addition, and set up a supporting bench and be used for supporting treating that is carried by conveying part 30 and cut the material. The baffle plate in the material pushing mechanism 50 is fixed on the ground 10 through a fifth fastening end, so that the first fastening end of the first fastening rod is positioned between the fifth fastening end of the baffle plate and the third fastening end of the second fastening rod, the cylinder body of the hydraulic cylinder in the material pushing mechanism 50 and the sixth fastening end of the baffle plate are fixedly connected with each other, the push rod of the hydraulic cylinder and the material pushing plate are fixedly connected with each other, so that the material to be sheared on the conveying component can be conveyed from the first fastening rod to the second fastening rod through the conveying component 30 and then conveyed to the bearing platform of the material pushing platform 40, the material to be sheared reaches the bearing platform, the material pushing plate can be driven to move towards the direction of the crocodile through the push rod of the hydraulic cylinder, so that the material to be sheared can be gradually moved towards the direction of the crocodile shears through the material pushing plate, and finally the crocodile shears shear the material to be sheared, thereby realizing the process that the material to be, the crocodile scissors are automatically reached to be processed, and the technical effects of saving manpower, improving safety and improving operation efficiency are achieved. The following detailed description will be made of the belt support 20, the conveying member 30, the pushing platform 40 and the pushing mechanism 50, respectively:

for the belt support 20:

The belt support 20 may include a first fastening bar 201, a second fastening bar 202. The first fastening rod 201 may be provided with a first fastening end 2011 and a second fastening end 2012, and the first fastening rod 201 may be fixedly connected with the ground 10 through the first fastening end 2011; the second fastening rod 202 may be provided with a third fastening end 2021 and a fourth fastening end 2022, and the second fastening rod 202 may be fixedly connected to each other through the third fastening end 2021 and the ground 10.

With continued reference to fig. 1, the first fastening rod 201 and the second fastening rod 202 of the belt support 20 may be used to support the conveying member 30 on the ground 10, and both the first fastening rod 201 and the second fastening rod 202 may be fixedly connected to the ground 10, so as to provide a supporting force for the conveying member 30 and the material to be sheared 70. Can be by 1 connecting rod 60 interconnect between first anchorage bar 201 and second anchorage bar 202, can be with first anchorage bar 201 and second anchorage bar 202 fixed connection together through 1 connecting rod 60 promptly, of course, also can be by a plurality of connecting rod 60 interconnect between first anchorage bar 201 and second anchorage bar 202, can be with first anchorage bar 201 and second anchorage bar 202 fixed connection together through a plurality of connecting rod 60 promptly to further reach the technological effect who improves stability.

For the transport component 30:

Both ends of the conveying member 30 may be connected to the second fastening end 2012 and the fourth fastening end 2022, respectively. The spacing between the second fastening end 2012 and the floor 10 may be less than the spacing between the fourth fastening end 2022 and the floor 10; the axis of the second fastening end 2012 may be parallel to the axis of the fourth fastening end 2022. The conveying member 30 may include a first driving wheel 301, a second driving wheel 302, a third fastening bar 303, a conveying belt 304, and a belt supporting roller 305. Wherein the first driving wheel 301 is rotatably fixed to the second fastening end 2012 by a central portion thereof; the second driving wheel 302 is rotatably fixed to the fourth fastening end 2022 through a central portion thereof; both ends of the third fastening bar 303 are fixed to the second fastening end 2012 and the fourth fastening end 2022, respectively; the conveying belt 304 is disposed on the first driving wheel 301 and the second driving wheel 302 and wound around the periphery of the third fastening rod 303, so that the conveying belt 304 is driven to move around the third fastening rod 303 by the rotation of the first driving wheel 301 and the second driving wheel 302. Each of the belt supporting rollers 305 includes a rolling end 3051 and a fixed end 3052, and the plurality of belt supporting rollers 305 are fixed to the third fastening bar 303 at equal intervals through the respective corresponding fixed ends 3052, and the plurality of belt supporting rollers 305 are in contact with the conveying belt 304 at equal intervals through the respective corresponding rolling ends 3051 to support the conveying belt 304.

Specifically, in the relationship between the first driving wheel 301 and the second driving wheel 302, when the first driving wheel 301 is a driving wheel, the second driving wheel 302 is a driven wheel, and the first driving wheel 301 drives the conveying belt 304 to rotate, and then drives the second driving wheel 302 to rotate. Of course, the second driving wheel 302 may also be a driving wheel, and at this time, the first driving wheel 301 is a driven wheel, and the second driving wheel 302 drives the conveying belt 304 to rotate, and then drives the first driving wheel 301 to rotate. And in the process of rotating the conveying belt 304 around the first driving wheel 301 and the second driving wheel 302, in order to avoid the material 70 to be cut placed on the conveying belt 304 from being damaged by the pressure of the self gravity, the conveying belt 304 is made to be concave, in the embodiment of the present invention, a plurality of belt supporting rollers 305 are further provided on the third fastening rod 303, so as to support the conveying belt 304 through the rolling end 3051 of the plurality of belt supporting rollers 305. To maximize resistance-free rotation of conveyor belt 304, rolling end 3051 of belt support roller 305 is rotatable relative to fixed end 3052, i.e., conveyor belt 304 and rolling end 3051 are moved synchronously. The belt supporting roller 305 may be positioned between the third fastening bar 303 and the conveyor belt 304. Wherein the conveyor belt 304 may be located between the carrier table 401 and the fifth fastening end 5011. The load table 401 may be located between the conveyor belt 304 and the alligator shears. In practice, the material 70 to be sheared may be placed on the conveyor belt 304. The conveyor belt 304 may be driven to move in a clockwise or counterclockwise direction by the rotation of the first drive wheel 301 or the second drive wheel 302, and if crocodile scissors are on the right side of the conveyor belt 304, the conveyor belt 304 may move in a clockwise direction, and if crocodile scissors are on the left side of the conveyor belt 304, the conveyor belt 304 may move in a counterclockwise direction. The material 70 to be cut can thus be moved onto the support 401 of the pusher table 40 described below by means of the rotation of the conveyor belt 304 in the conveyor member 30.

for the pusher platform 40:

The material pushing platform 40 can be provided with a bearing platform 401 and a plurality of supporting legs 402, the material pushing platform 40 can be fixedly connected with the ground 10 through the supporting legs to enable the material pushing platform 40 to be fixed on the ground, and then supporting force is provided for the bearing platform, and the surface of the bearing platform 401 can be parallel to the ground 10. In a specific operation process, the bearing platform 401 can be used for placing the material 70 to be cut, which is conveyed by the conveying belt 304 in the conveying component.

for the pusher mechanism 50:

the pushing mechanism 50 may include a baffle 501, a hydraulic cylinder 502, and a pushing plate 503. Wherein the baffle 501 is provided with a fifth fastening end 5011 and a sixth fastening end 5012, the baffle 501 can be fixedly connected with the ground 10 through the fifth fastening end 5011, and the first fastening end 2011 is located between the fifth fastening end 5011 and the third fastening end 2021; the hydraulic oil cylinder 502 is provided with a cylinder 5021 and a push rod 5022, and the hydraulic oil cylinder 502 can be fixedly connected with the sixth fastening end 5012 through the cylinder 5021; the material pushing plate 503 may be fixedly connected to the pushing rod, the material pushing plate 503 may be disposed on the platform, and the material pushing plate 503 may be perpendicular to the platform. Wherein the push rod and the material pushing plate 503 are perpendicular to each other. The push rod and the bearing platform are parallel to each other. The ejector plate 503 and the sixth fastening end 5012 are parallel to each other. The push rod 5022 and the surface of the carrier are parallel to each other.

With continued reference to fig. 1, the apron 501 may be perpendicular to the floor and the apron 501 may be fixedly disposed on the floor 10 by fixedly coupling the fifth fastening end 5011 of the apron 501 to the floor 10. The hydraulic oil cylinder 502 can be positioned above the bearing platform 401 in the conveying component 30 and the material pushing platform 40, and the cylinder body of the hydraulic oil cylinder 502 and the baffle 501 are fixedly connected with each other, so that the baffle 501 can provide a supporting force for the hydraulic oil cylinder 502, and then the hydraulic oil cylinder 502 is prevented from moving due to the resistance of the push rod in the process that the push rod 5022 in the hydraulic oil cylinder 502 pushes the material 70 to be cut.

It should be noted that the push rod of the hydraulic cylinder 502 may be fixedly connected to the material pushing plate 503, and the push rod may be perpendicular to the material pushing plate 503. The material pushing plate 503 can contact with the bearing platform in the material pushing platform 40, and the material pushing plate 503 and the material to be sheared 70 located on the bearing platform 401 are tightly attached to each other in the material pushing process. When the material 70 to be cut is moved to the loading platform 401 of the material pushing platform 40 by the rotation of the conveying belt 304 in the conveying component 30, the push rod 5022 is moved towards the alligator shears by the operation of the hydraulic cylinder 502, and then the material pushing plate 503 is also moved towards the alligator shears, so as to push the material 70 to be cut to move towards the alligator shears. In this way, the material 70 to be cut on the conveying component can be conveyed from the first fastening rod to the second fastening rod through the conveying component and then reaches the bearing platform of the material pushing platform 40; after the material 70 to be sheared reaches the plummer, the material 70 to be sheared can be moved towards the direction of the crocodile shears by the push rod of the hydraulic oil cylinder 502 so as to push the material pushing plate 503 to drive the material 70 to be sheared to gradually move towards the direction of the crocodile shears, and then the material 70 to be sheared is sheared by the crocodile shears. Therefore, automatic feeding and pushing can be carried out in the process of conveying the material 70 to be cut to the crocodile shears. Therefore, the technical effects of improving safety, saving labor and improving efficiency are achieved.

further, please refer to fig. 2-3 with reference to fig. 1.

for the connection mode of the hydraulic cylinder 502 and the baffle 501, since the cylinder body 5021 of the hydraulic cylinder 502 is directly and fixedly connected with the baffle 501 through the sixth fastening end 5012 of the baffle 501, although the cylinder body 5021 can be fixed relative to the baffle 501, because the hydraulic cylinder 502 has its own gravity, in the long-term operation process, the connection part of the sixth fastening end 5012 and the cylinder body 5021 is very easily worn, and then the whole hydraulic cylinder 502 is inclined downward (drooping), and once the hydraulic cylinder 502 is inclined downward, the central axis of the push rod 5022 is not parallel to the surface of the bearing table 401, that is, the push plate 503 is not perpendicular to the surface of the bearing table 401, so that the push plate 503 can not push materials with the maximum force, and the operation efficiency is affected.

Based on this, the embodiment of the present invention further includes a stabilizing mechanism, and the stabilizing mechanism specifically includes: a stabilizing rod 901, a first collar 902, and a second collar 903. One end of the stabilizing rod 901 is fixed on the baffle 501, the sixth fastening end 5012 is located between the connecting portion of the stabilizing rod 901 and the baffle 501 and the fifth fastening end 5011, and the connecting portion of the stabilizing rod 901 and the baffle 501 is close to the sixth fastening end 5012. The inner diameters of the first collar 902 and the second collar 903 are matched with the outer diameter of the cylinder 5021, so that the first collar 902 and the second collar 903 can be sleeved on the peripheral part of the cylinder 5021 respectively. The first lantern ring 902 and the second lantern ring 903 are respectively and fixedly connected with the stabilizing rod 901, so that the cylinder body is supported for the second time through the stabilizing rod 901, and the connection stability of the hydraulic cylinder 502 and the baffle 501 is improved. Wherein a central axis of the stabilizing lever 901 and a central axis of the push rod 5022 are parallel to each other.

further, please refer to fig. 2-3 with reference to fig. 1.

in the embodiment of the present invention, for conveying component 30, in order to adjust the inclination angle of its conveying belt 304 and horizontal ground, so that conveying component 30 can combine the actual situation of waiting to cut the material to carry it through reasonable inclination angle, the purpose of adaptability adjustment transmission efficiency has been reached, connecting rod 60 with the second fastening rod is that it has the contraction work ability.

Specifically, the connecting rod 60 includes a first connecting contraction rod 601 and a second connecting contraction rod 602, the connection part of the first connection shrinkage rod 601 and the second connection shrinkage rod 602 is provided with a thread structure, for example, one end of the first connecting/retracting rod 601 is fixed to the first fastening rod, the other end of the first connecting/retracting rod is provided with a first internal thread structure, one end of the second connecting/retracting rod 602 is rotatably fixed to the second fastening rod 202, the other end of the first connecting/retracting rod is provided with a first external thread structure matched with the first internal thread structure, the first connecting/retracting rod has a first internal thread structure, and the first external thread structure is in threaded connection, to achieve the movable connection between the first connecting telescopic rod 601 and the second connecting telescopic rod 602, when the length of the connecting rod 60 needs to be adjusted, only the first connecting contraction rod 601 and/or the second connecting contraction rod 602 need to be rotationally adjusted. It should be noted that, at this time, the connection between the one end of the second connecting and retracting rod 602 and the second fastening rod 202 is a rotatable and movable connection, such as a bearing connection, etc., so as to enable the second connecting and retracting rod 602 to rotate relative to the second fastening rod 202.

Likewise, the second fastening rod 202 further comprises a third connecting contraction rod 2023 and a fourth connecting contraction rod 2024, the connecting part of the third connecting contraction rod 2023 and the fourth connecting contraction rod 2024 is provided with a thread structure, for example, one end of the third connecting contraction rod 2023 is the third fastening end 2021, the port at the other end is provided with a second internal thread structure, one end of the fourth connecting contraction rod 2024 is the fourth fastening end 2022, the port at the other end is provided with a second external thread structure matched with the second internal thread structure, the second internal thread structure is in threaded connection with the second external thread structure, so as to realize the movable connection between the third connecting contraction rod 2023 and the fourth connecting contraction rod 2024, when the length of the second fastening rod 202 needs to be adjusted, only the third connecting contraction rod 2023 and/or the fourth connecting contraction rod 2024 need to be rotationally adjusted. It is worth mentioning that, adjust in order to be able to its conveyor belt 304 and the inclination on level ground to the transport unit 30 can combine the actual conditions of waiting to cut the material to carry it through reasonable inclination, has reached the purpose of adaptability adjustment transmission efficiency, in the embodiment of the utility model discloses an, the connection between second fastening end 2012 and the third fastening rod 303 is swivelling joint, and the connection between fourth fastening end 2022 and the third fastening rod 303 is swivelling joint also, also is swivelling joint between second fastening end 2012 and the third fastening rod 303, also can swivel relatively between fourth fastening end 2022 and the third fastening rod 303. And the second fastening rod is connected with the ground by sliding between the third fastening end 2021, for example, a pulley may be disposed at the bottom of the third fastening end to realize the sliding of the second fastening rod 202 on the ground 10 by the third fastening end.

To sum up, the utility model provides a device for treating cut material and carry out processing, first fastening end through first anchorage bar in the belt bracket, and the second fastening end of second anchorage bar is fixed in subaerially, simultaneously conveying member's both ends respectively with the second fastening end of first anchorage bar and the fourth fastening end interconnect of second anchorage bar to realize supporting conveying member through the belt bracket, push away the material platform and fix subaerial through its supporting legs in addition, and set up a supporting bench and be used for supporting the material of waiting to cut of being carried by conveying member. The baffle in the pushing mechanism is fixed on the ground through a fifth fastening end, so that the first fastening end of the first fastening rod is positioned between the fifth fastening end of the baffle and the third fastening end of the second fastening rod, the cylinder body of a hydraulic cylinder in the pushing mechanism and the sixth fastening end of the baffle are fixedly connected with each other, and the push rod of the hydraulic cylinder and the push plate are fixedly connected with each other, so that a material to be sheared, which is positioned on the conveying component, can be conveyed to the second fastening rod from the first fastening rod through the conveying component and then conveyed to the bearing table of the pushing platform, and the material to be sheared reaches the bearing table, and can be driven to move towards the direction of the crocodile shears through the push rod of the hydraulic cylinder, so that the material to be sheared can be pushed to gradually move towards the direction of the crocodile shears through the push plate, and finally the crocodile shears shear the material to be sheared, thereby realizing the process that the material, the crocodile scissors are automatically reached to be processed, and the technical effects of saving manpower, improving safety and improving operation efficiency are achieved.

finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the examples, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced by equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (5)

1. an apparatus for processing material to be sheared, the apparatus comprising:

A belt support, the belt support comprising: a first fastening rod, a second fastening rod; the first fastening rod is provided with a first fastening end and a second fastening end, and the first fastening rod is fixed on the ground through the first fastening end; the second fastening rod is provided with a third fastening end and a fourth fastening end, and the second fastening rod is fixed on the ground through the third fastening end;

A conveying member, both ends of which are connected with the second fastening end and the fourth fastening end, respectively, to support the conveying member through the first fastening rod and the second fastening rod;

the material pushing platform is provided with a bearing platform and a plurality of supporting legs, the bearing platform is used for bearing materials to be sheared, the material pushing platform is fixed on the ground through the supporting legs, and the surface of the bearing platform is parallel to the ground;

A material pushing mechanism, the material pushing mechanism comprising: the device comprises a baffle, a hydraulic oil cylinder and a material pushing plate; the baffle plate is provided with a fifth fastening end and a sixth fastening end, the baffle plate is fixed on the ground through the fifth fastening end, and the first fastening end is positioned between the fifth fastening end and the third fastening end; the hydraulic oil cylinder is provided with a cylinder body and a push rod, and the hydraulic oil cylinder is fixedly connected with the sixth fastening end through the cylinder body; the material pushing plate is fixedly connected with the push rod and is in contact with the bearing platform so as to drive the material pushing plate to push the material to be sheared on the bearing platform to move through the hydraulic oil cylinder;

a securing mechanism, the securing mechanism comprising: a stabilizing rod, a first collar and a second collar; one end of the stabilizing rod is fixed on the baffle, and the connecting part of the stabilizing rod and the baffle is close to the sixth fastening end; the inner diameters of the first lantern ring and the second lantern ring are matched with the outer diameter of the cylinder body, and the first lantern ring and the second lantern ring are sleeved on the peripheral part of the cylinder body respectively; the first lantern ring and the second lantern ring are fixedly connected with the stabilizing rod respectively.

2. the apparatus for processing material to be sheared according to claim 1, wherein the apparatus comprises:

The distance between the second fastening end and the ground is smaller than the distance between the fourth fastening end and the ground.

3. The apparatus for processing material to be sheared according to claim 2, wherein the apparatus comprises:

The conveying member includes:

A first drive wheel rotationally fixed to the second fastening end;

a second drive wheel rotationally fixed on the fourth fastening end;

A third fastening rod, both ends of which are fixed to the second fastening end and the fourth fastening end, respectively;

The conveying belt is arranged on the first driving wheel and the second driving wheel and wound and distributed on the periphery of the third fastening rod, so that the conveying belt is driven to move around the third fastening rod through the rotation of the first driving wheel and the second driving wheel;

A plurality of belt supporting roller, each belt supporting roller includes a roll end and a stiff end, just a plurality of belt supporting roller is through corresponding separately stiff end equidistant fixing on the third anchorage bar, a plurality of belt supporting roller is through corresponding separately roll end equidistant with conveyor belt contacts, with right conveyor belt supports.

4. a device for processing material to be sheared according to claim 3, characterized in that:

a connecting rod is arranged between the first fastening rod and the second fastening rod, and the connecting rod is perpendicular to the first fastening rod and the second fastening rod respectively.

5. the apparatus for processing material to be sheared according to claim 4, wherein:

The number of the connecting rods between the first fastening rod and the second fastening rod is 1, and the connecting rods are disposed at the middle portion of the first fastening rod or the second fastening rod.