CN221190144U - Plate-type material receiving and conveying device - Google Patents

Plate-type material receiving and conveying device Download PDF

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Publication number
CN221190144U
CN221190144U CN202322634131.2U CN202322634131U CN221190144U CN 221190144 U CN221190144 U CN 221190144U CN 202322634131 U CN202322634131 U CN 202322634131U CN 221190144 U CN221190144 U CN 221190144U
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China
Prior art keywords
conveying
material receiving
plate
expansion
chain wheel
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CN202322634131.2U
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Chinese (zh)
Inventor
孙世闯
王军亚
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Henan Fengzhongfeng Intelligent Equipment Co ltd
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Henan Fengzhongfeng Intelligent Equipment Co ltd
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Publication of CN221190144U publication Critical patent/CN221190144U/en
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Abstract

The utility model relates to a plate-type material receiving and conveying device; the device comprises a bottom frame, a receiving assembly and a conveying assembly; the material receiving assembly comprises a material receiving telescopic rod, a sliding rail, a rail limiting block and a material receiving plate; the fixed end of the material receiving telescopic rod is connected with the front end of the underframe; the telescopic end of the material receiving telescopic rod is connected with the front end of the sliding rail; the sliding rail is horizontally arranged and is in sliding fit with the rail limiting block; the material receiving plate is obliquely connected with the rear end of the sliding rail; the conveying assembly comprises two conveying belts and a conveying motor; the conveying motor drives the conveying belt to circulate. The conveying wheels on the same side are connected through a conveying belt. According to the utility model, the material receiving component acts on the tilting formed by bending the plate-type material, so that the plate-type material is received; and conveying the received plate-type material through a conveying assembly. Thereby saving trouble and labor and greatly improving the operation safety.

Description

Plate-type material receiving and conveying device
Technical Field
The utility model relates to the technical field of plate material transfer, in particular to a plate material receiving and conveying device.
Background
The plate-type material is divided into thin plate pieces and thick plate pieces according to different thicknesses. The thick plate is mostly hoisted to flame cutting or laser cutting equipment for processing. After the corresponding holes are machined in the thin plate, the thin plate is bent and formed by using a bending machine. After the sheet is bent, a right angle or an obtuse angle with an upward opening is formed below the bending knife, and the end part of the sheet is also lifted upwards. In general, a worker needs to lift the thin plate out of the knife edge of the bending knife, so that the labor is very consumed, and the operation is unsafe. On the market, the thin plate member is used in a much larger amount than the thick plate member. A device for safely and laborsaving receiving and conveying out plate-type materials bent by a bending machine enables products which are urgently needed in the market.
Disclosure of utility model
The utility model aims to solve the problems and provides a plate type material receiving and conveying device.
The technical scheme of the utility model is as follows: the plate type material receiving and conveying device comprises a bottom frame, a material receiving assembly and a conveying assembly; the underframe is used for connecting the device with the ground; the material receiving assembly is used for receiving the bent plate-type materials; the conveying assembly is used for conveying the received plate-type materials;
The material receiving components are symmetrically arranged on the inner side of the top of the underframe and comprise material receiving telescopic rods, sliding rails, rail limiting blocks and material receiving plates; the material receiving telescopic rod can be an electric telescopic rod or a hydraulic cylinder or an air cylinder; the fixed end of the material receiving telescopic rod is connected with the front end of the underframe; the telescopic end of the material receiving telescopic rod is connected with the front end of the sliding rail; the material receiving telescopic rod acts on the sliding rail to enable the sliding rail to move; the rail limiting blocks are arranged on two sides of the top of the underframe; the sliding rail is horizontally arranged and is in sliding fit with the rail limiting block, so that the moving direction of the sliding rail is guided, and the sliding rail is horizontally moved; the material receiving plate is L-shaped and is arranged horizontally and inwards, and the material receiving plate is obliquely connected with the rear end of the sliding rail; the horizontally moving slide rail acts on the tilting formed after the plate-type material is bent through the material receiving plate, so that the plate-type material is dragged to horizontally move onto the underframe, and the material receiving operation is realized; the device is arranged at the rear side of the bending machine, and the material receiving plate extends to a proper position forwards through the extension of the material receiving telescopic rod; the position may be the front side of the bending knife or the rear side of the bending knife, and is determined according to the bending angle; before the plate-type material is not bent, the plate-type material can horizontally pass through the lower part of the material receiving plate; the warping formed after the plate-type material is bent is arranged between the two material receiving plates, and can be hooked by the material receiving plates to carry out horizontal transfer;
The conveying assembly comprises a conveying driving shaft, a conveying driven shaft, four conveying wheels, two conveying belts, a conveying chain wheel A, a conveying chain wheel B, a conveying chain and a conveying motor; the conveying motor is arranged at the bottom of the underframe, and the output end is coaxially and fixedly connected with the conveying sprocket A; the output torque of the conveying motor drives the conveying chain wheel A to rotate; two ends of the conveying driving shaft are coaxially and fixedly connected with two conveying wheels, and one end is coaxially and fixedly connected with a conveying chain wheel B; the first conveying chain wheel and the second conveying chain wheel are connected through a conveying chain; the first conveying chain wheel acts on the second conveying chain wheel through a conveying chain to drive the conveying driving shaft to rotate; the rotary conveying driving shaft acts on conveying wheels at two ends of the rotary conveying driving shaft; two ends of the conveying driven shaft are provided with two conveying wheels; the conveying wheels on the same side are connected through a conveying belt; the conveying belt rotates with all conveying wheels, so that a conveying plane is formed for conveying the plate-type materials received by the material receiving assembly; and the conveying driving shaft and the conveying driven shaft ensure the synchronous operation of the conveying belts at the two sides.
Preferably, the material receiving telescopic rod is horizontally arranged so as to control the stability of the horizontal movement of the sliding rail; the telescopic end of the material receiving telescopic rod is connected with the front end of the sliding rail through a vertical plate so as to make up the possible height difference between the material receiving telescopic rod and the sliding rail; this is because either the electric telescopic rod or the hydraulic cylinder or the air cylinder needs to occupy a certain space, and interference may be caused to the conveyed plate-type material; so the material receiving telescopic rod needs to keep a certain height difference with the track.
Preferably, the conveying assembly further comprises two horizontal bearings and two bearing mounting posts; the bearing mounting column is vertically arranged at the top of the underframe; the horizontal bearing is arranged on the outer side of the conveying belt at the rear end of the base; the horizontal bearing is arranged at a position corresponding to the lower part of the conveying belt; the horizontal bearing is used for carrying out horizontal limit on the conveying belt and avoiding the conveying wheel from being separated from the belt.
Preferably, the material receiving assembly further comprises a connecting plate vertically arranged; the rear end of the connecting plate is connected with the material receiving plate; the front end of the connecting plate is provided with a connecting hole and an adjusting arc long hole; the connecting hole is connected with the sliding rail through a screw; the arc-shaped long holes are adjusted to be arranged by taking the connecting holes as the axes; a screw which is in threaded fit with the sliding rail penetrates through the adjusting arc long hole; the inclination angle of the receiving plate can be adjusted by adjusting the arc long holes according to the bending and raising heights of the plate-type materials, so that the receiving plate can accurately hook the raising of the plate-type materials.
Preferably, the plate type material receiving and conveying device further comprises an expansion assembly; the expansion assembly is used for extending outwards from the underframe to bear longer plate-type materials; the expansion assembly comprises an expansion frame, an expansion motor, an expansion chain wheel A, an expansion chain wheel B, an expansion chain wheel C and an expansion chain which are horizontally arranged above the conveying assembly; the bottom of the expansion frame is connected with an expansion chain; the expanding motor is arranged below the top of the expanding frame, and an expanding chain wheel A is coaxially and fixedly connected to the output end of the expanding motor; the second expansion chain wheel and the third expansion chain wheel are horizontally arranged at the front end and the rear end of the expansion frame; the expansion chain wheel A, the expansion chain wheel B and the expansion chain wheel C are connected through an expansion chain; the expanding motor drives the expanding chain wheel A to rotate; the rotating expansion chain wheel A forms annular circulation through the expansion chain wheel B and the expansion chain wheel C; the second expansion chain wheel and the third expansion chain wheel also ensure the horizontal movement of the expansion frame to form an extending state or a shrinking state; the extended expansion frame and the top of the underframe support the overlong plate-type material together.
Further, the expansion assembly further comprises a guide sliding rail and a guide sliding block; the guide sliding rail is arranged at the top of the underframe; the guide sliding block is connected with the bottom of the expansion frame; the guide sliding rail and the conveying belt are arranged in the same direction; the guide sliding block is in sliding fit with the guide sliding rail, so that the extension or retraction of the expansion frame is guided.
Preferably, the plate-type material receiving and conveying device further comprises an alignment assembly; the alignment assembly comprises an alignment piece, an alignment telescopic rod, a guide wheel and a guide rod which are vertically arranged; the alignment piece is arranged outside the front end of the underframe; the fixed end of the alignment telescopic rod is hinged with the bottom of the underframe; the telescopic end of the alignment telescopic rod is hinged with the middle part of the back surface of the alignment member; the alignment telescopic rod is similar to the material receiving telescopic rod, can act on the alignment piece to push the alignment piece outwards, and acts on the end part of the plate-type material leaving the underframe to push; a guide rod extending vertically and backwards is arranged in the middle of the back surface of the alignment piece; the guide wheels are vertically arranged above and below the guide rods and clamp the guide rods; the guide wheel is matched with the guide rod to provide guide for the push-out of the alignment piece.
The beneficial effects of the utility model are as follows: the plate type material receiving and conveying device has the following advantages:
(1) According to the utility model, the material receiving component acts on the tilting formed by bending the plate-type material, so that the plate-type material is received; and conveying the received plate-type material through a conveying assembly. Thereby saving trouble and labor and greatly improving the operation safety;
(2) The supporting wheels support the conveying belt, so that the friction force between the conveying belt and the plate-type materials is increased, and the conveying belt is convenient for conveying the plate-type materials;
(3) The expansion assembly can prolong the length of the underframe, thereby supporting overlong plate-type materials.
Drawings
FIG. 1 is a perspective view of a plate material receiving and conveying apparatus of the present utility model;
FIG. 2 is an enlarged view of I of FIG. 1;
FIG. 3 is a front view of FIG. 1;
FIG. 4 is a cross-sectional view A-A of FIG. 3;
FIG. 5 is a B-B cross-sectional view of FIG. 3;
FIG. 6 is a cross-sectional view of C-C of FIG. 3;
In the figure: 1. the device comprises a chassis, 21, a material receiving telescopic rod, 211, a vertical plate, 22, a sliding rail, 23, a rail limiting block, 24, a material receiving plate, 25, a connecting plate and 251, an adjusting arc-shaped long hole, 26, a screw and 31, a conveying driving shaft, 32, a conveying driven shaft, 33, a conveying wheel and 34, a conveying belt, 341, a supporting wheel and 35, a conveying chain wheel A, 36, a conveying chain wheel B, 37, a conveying chain, 38, a conveying motor, 391, a horizontal bearing, 392, a bearing mounting column, 41, a telescopic bracket, 411, a rolling wheel and 42, a telescopic motor, 43, a telescopic chain wheel A, 44, a telescopic chain wheel B, 45, a telescopic chain wheel C and 46, a guiding chain, 47, a guiding sliding rail, 48, a guiding sliding block, 51, an aligning piece and 52, an aligning telescopic rod, 53, a guiding wheel and 54.
Detailed Description
Embodiment one: referring to fig. 1-6, a plate material receiving and conveying device comprises a bottom frame 1, a receiving component and a conveying component; the underframe 1 is used for connecting the device with the ground; the material receiving assembly is used for receiving the bent plate-type materials; the conveying assembly is used for conveying the received plate-type materials;
The material receiving components are symmetrically arranged on the inner side of the top of the underframe 1 and comprise material receiving telescopic rods 21, sliding rails 22, rail limiting blocks 23 and material receiving plates 24; the material receiving telescopic rod 21 can be an electric telescopic rod or a hydraulic cylinder or an air cylinder; the fixed end of the material receiving telescopic rod 21 is connected with the front end of the underframe 1; the telescopic end of the material receiving telescopic rod 21 is connected with the front end of the sliding rail 22; the material receiving telescopic rod 21 acts on the slide rail 22 to enable the slide rail 22 to move; the rail limiting blocks 23 are arranged on two sides of the top of the underframe 1; the sliding rail 22 is horizontally arranged and is in sliding fit with the rail limiting block 23, so that the moving direction of the sliding rail 22 is guided, and the sliding rail 22 is horizontally moved; the receiving plate 24 is L-shaped and is arranged horizontally and inwards, and is obliquely connected with the rear end of the sliding rail 22; the horizontally moving slide rail 22 acts on the tilting formed after the plate-type material is bent through the material receiving plate 24, so that the plate-type material is dragged to horizontally move onto the underframe 1, and the material receiving operation is realized; the device is arranged at the rear side of the bending machine, and the material receiving plate 24 extends to a proper position forwards through the extension of the material receiving telescopic rod 21; the position may be the front side of the bending knife or the rear side of the bending knife, and is determined according to the bending angle; before the plate-type material is not bent, the plate-type material can horizontally pass through the lower part of the material receiving plate 24; the warping formed after the plate-type material is bent is generated between the two material receiving plates 24, and can be hooked by the material receiving plates 24 for horizontal transfer;
The conveying assembly comprises a conveying driving shaft 31, a conveying driven shaft 32, four conveying wheels 33, two conveying belts 34, a conveying chain wheel A35, a conveying chain wheel B36, a conveying chain 37 and a conveying motor 38; the conveying motor 38 is arranged at the bottom of the underframe 1, and the output end is coaxially and fixedly connected with the conveying sprocket A35; the conveying motor 38 outputs torque to drive the conveying sprocket A35 to rotate; two ends of the conveying driving shaft 31 are coaxially and fixedly connected with two conveying wheels 33, and one end is coaxially and fixedly connected with a conveying chain wheel B36; the first conveying chain wheel 35 and the second conveying chain wheel 36 are connected through a conveying chain 37; the first conveying chain wheel 35 acts on the second conveying chain wheel 36 through a conveying chain 37 to drive the conveying driving shaft 31 to rotate; the rotating conveying driving shaft 31 acts on the conveying wheels 33 at the two ends thereof; two conveying wheels 33 are arranged at two ends of the conveying driven shaft 32; the conveying wheels 33 on the same side are connected through a conveying belt 34; the conveyor belt 34 rotates with all the conveyor wheels 33, so that a conveying plane is formed for conveying the plate-type materials received by the material receiving assembly; the conveying driving shaft 31 and the conveying driven shaft 32 ensure that the conveying belts 34 on two sides synchronously run.
Compared with the prior art, the plate-type material receiving device has the advantages that the material receiving component acts on the tilting formed by bending the plate-type material, so that the plate-type material is received; and conveying the received plate-type material through a conveying assembly. Thereby saving trouble and labor and greatly improving the operation safety.
A plurality of supporting wheels 341 are rotatably arranged below the upper part of the conveying belt 34; the supporting wheel 341 is in running fit with the chassis 1; the conveyer belt 34 is supported, so that the friction force between the conveyer belt 34 and the plate-type materials is increased, and the conveyer belt 34 is convenient for conveying the plate-type materials.
The material receiving telescopic rod 21 is horizontally arranged so as to control the stability of the horizontal movement of the slide rail 22; the telescopic end of the material receiving telescopic rod 21 is connected with the front end of the slide rail 22 through a vertical plate 211 so as to compensate the possible height difference between the material receiving telescopic rod 21 and the slide rail 22; this is because either the electric telescopic rod or the hydraulic cylinder or the air cylinder needs to occupy a certain space, and interference may be caused to the conveyed plate-type material; the material receiving telescopic rod 21 is kept at a certain height difference from the rail.
The conveying assembly further comprises two horizontal bearings 391, two bearing mounting posts 392; the bearing mounting post 392 is vertically arranged at the top of the underframe 1; the horizontal bearing 391 is arranged outside the conveyer belt 34 at the rear end of the base; the horizontal bearing 391 is disposed at a position corresponding to the lower portion of the conveyor 34; the horizontal bearing 391 is used for horizontally limiting the conveyor belt 34 to prevent the conveyor wheel 33 from being separated from the belt.
The material receiving assembly further comprises a connecting plate 25 arranged vertically; the rear end of the connecting plate 25 is connected with the material receiving plate 24; the front end of the connecting plate 25 is provided with a connecting hole and an adjusting arc long hole 251; the connecting hole is connected with the slide rail 22 through a screw 26; the adjusting arc long hole 251 is arranged by taking the connecting hole as the axis; a screw 26 which is in threaded fit with the slide rail 22 penetrates through the adjusting arc long hole 251; the adjusting arc long holes 251 can adjust the inclination angle of the receiving plate according to the bending and raising height of the plate-type material, so that the receiving plate can accurately hook the raising of the plate-type material.
The plate type material receiving and conveying device further comprises an expansion assembly; the expansion assembly is used for extending the underframe 1 outwards so as to bear longer plate-type materials; the expansion assembly comprises an expansion frame 41, an expansion motor 42, an expansion sprocket A43, an expansion sprocket B44, an expansion sprocket C45 and an expansion chain 46 which are horizontally arranged above the conveying assembly; the bottom of the expansion frame 41 is connected with an expansion chain 46; the expanding motor 42 is arranged below the top of the expanding frame 41, and an expanding sprocket A43 is coaxially and fixedly connected to the output end; the expansion chain wheel B44 and the expansion chain wheel C45 are horizontally arranged at the front end and the rear end of the expansion frame 41; the expansion chain wheel A43, the expansion chain wheel B44 and the expansion chain wheel C45 are connected through an expansion chain 46; the expanding motor 42 drives the expanding sprocket A43 to rotate; the rotating expansion chain wheel A43 forms annular circulation through the expansion chain wheel B44 and the expansion chain wheel C45; the expansion chain wheel B44 and the expansion chain wheel C45 also ensure that the expansion frame 41 horizontally moves to form an extending state or a shrinking state; the extended expansion shelf 41 supports the lengthy slab material together with the top of the chassis 1.
A plurality of rolling wheels 411 are rotatably matched on two sides of the expansion frame 41; the rolling wheel 411 is tangent to the top surface of the expansion bracket 41. The rolling wheel 411 is in running fit with the expansion frame 41; the rolling wheel 411 reduces the friction force of the plate material entering the expansion frame 41, and is beneficial to placing the plate material.
The expansion assembly further comprises a guide sliding rail 47 and a guide sliding block 48; the guide slide rail 47 is arranged at the top of the chassis 1; the guide sliding block 48 is connected with the bottom of the expansion frame 41; the guide slide rail 47 is arranged in the same direction as the conveyer belt 34; the guide sliding block 48 is in sliding fit with the guide sliding rail 47 to provide guide for the extension or retraction of the expansion bracket 41.
The working principle of the embodiment is as follows: the device is arranged at the rear side of the bending machine, and the material receiving plate 24 extends to a proper position forwards through the extension of the material receiving telescopic rod 21; before the plate-type material is not bent, the plate-type material can horizontally pass through the lower part of the material receiving plate 24; the warping formed after the plate-type material is bent is generated between the two material receiving plates 24, and can be hooked by the material receiving plates 24 for horizontal transfer; the material receiving plate 24 horizontally moves the dragging plate type material to the underframe 1 to realize material receiving operation;
The first conveying chain wheel 35 acts on the second conveying chain wheel 36 through a conveying chain 37 to drive the conveying driving shaft 31 to rotate; the rotating conveying driving shaft 31 acts on the conveying wheels 33 at the two ends thereof; the conveyor belt 34 rotates with all of the conveyor wheels 33 to form a conveying plane for conveying the pallet material received by the receiving module.
Embodiment two: the second embodiment is basically the same as the first embodiment, and the same points are not repeated, except that: the plate type material receiving and conveying device further comprises an alignment assembly; the alignment assembly comprises an alignment piece 51, an alignment telescopic rod 52, a guide wheel 53 and a guide rod 54 which are vertically arranged; the alignment member 51 is disposed outside the front end of the chassis 1; the fixed end of the alignment telescopic rod 52 is hinged with the bottom of the underframe 1; the telescopic end of the alignment telescopic rod 52 is hinged with the middle part of the back surface of the alignment member 51; the alignment telescopic rod 52 is similar to the material receiving telescopic rod 21, and can act on the alignment piece 51 to push the alignment piece 51 outwards and act on the end part of the plate-type material leaving the underframe 1 for pushing; the middle part of the back of the alignment piece 51 is provided with a guide rod 54 which extends vertically and backwards; the guide wheels 53 are vertically arranged above and below the guide rods 54 and clamp the guide rods 54; the guide wheel 53 cooperates with a guide bar 54 to provide guidance for the push-out of the alignment member 51.

Claims (6)

1. The plate type material receiving and conveying device is characterized by comprising a bottom frame, a material receiving assembly and a conveying assembly;
the material receiving components are symmetrically arranged on the inner side of the top of the underframe and comprise material receiving telescopic rods, sliding rails, rail limiting blocks and material receiving plates; the fixed end of the material receiving telescopic rod is connected with the front end of the underframe; the telescopic end of the material receiving telescopic rod is connected with the front end of the sliding rail; the rail limiting blocks are arranged on two sides of the top of the underframe; the sliding rail is horizontally arranged and is in sliding fit with the rail limiting block; the material receiving plate is L-shaped and is arranged horizontally and inwards, and the material receiving plate is obliquely connected with the rear end of the sliding rail;
The conveying assembly comprises a conveying driving shaft, a conveying driven shaft, four conveying wheels, two conveying belts, a conveying chain wheel A, a conveying chain wheel B, a conveying chain and a conveying motor; the conveying motor is arranged at the bottom of the underframe, and the output end is coaxially and fixedly connected with the conveying sprocket A; two ends of the conveying driving shaft are coaxially and fixedly connected with two conveying wheels, and one end is coaxially and fixedly connected with a conveying chain wheel B; the first conveying chain wheel and the second conveying chain wheel are connected through a conveying chain; two ends of the conveying driven shaft are provided with two conveying wheels; the conveying wheels on the same side are connected through a conveying belt.
2. The plate material receiving and conveying device according to claim 1, wherein: the conveying assembly further comprises two horizontal bearings and two bearing mounting columns; the bearing mounting column is vertically arranged at the top of the underframe; the horizontal bearing is arranged on the outer side of the conveying belt at the rear end of the base; the horizontal bearing is arranged at a position corresponding to the lower part of the conveyer belt.
3. The plate material receiving and conveying device according to claim 1, wherein: the material receiving assembly further comprises a connecting plate which is vertically arranged; the rear end of the connecting plate is connected with the material receiving plate; the front end of the connecting plate is provided with a connecting hole and an adjusting arc long hole; the connecting hole is connected with the sliding rail through a screw; the arc-shaped long holes are adjusted to be arranged by taking the connecting holes as the axes; and screws which are in threaded fit with the sliding rails penetrate through the adjusting arc-shaped long holes.
4. The plate material receiving and conveying device according to claim 1, wherein: the system also comprises an expansion component; the expansion assembly comprises an expansion frame, an expansion motor, an expansion chain wheel A, an expansion chain wheel B, an expansion chain wheel C and an expansion chain which are horizontally arranged above the conveying assembly; the bottom of the expansion frame is connected with an expansion chain; the expanding motor is arranged below the top of the expanding frame, and an expanding chain wheel A is coaxially and fixedly connected to the output end of the expanding motor; the second expansion chain wheel and the third expansion chain wheel are horizontally arranged at the front end and the rear end of the expansion frame; the expansion chain wheel A, the expansion chain wheel B and the expansion chain wheel C are connected through an expansion chain.
5. The plate material receiving and conveying device according to claim 4, wherein: the expansion assembly further comprises a guide sliding rail and a guide sliding block; the guide sliding rail is arranged at the top of the underframe; the guide sliding block is connected with the bottom of the expansion frame; the guide sliding rail and the conveying belt are arranged in the same direction; the guide sliding block is in sliding fit with the guide sliding rail.
6. The plate material receiving and conveying device according to claim 1, wherein: also included is an alignment assembly; the alignment assembly comprises an alignment piece, an alignment telescopic rod, a guide wheel and a guide rod which are vertically arranged; the alignment piece is arranged outside the front end of the underframe; the fixed end of the alignment telescopic rod is hinged with the bottom of the underframe; the telescopic end of the alignment telescopic rod is hinged with the middle part of the back surface of the alignment member; a guide rod extending vertically and backwards is arranged in the middle of the back surface of the alignment piece; the guide wheel is vertically arranged on the upper part and the lower part of the guide rod and clamps the guide rod.
CN202322634131.2U 2023-09-27 2023-09-27 Plate-type material receiving and conveying device Active CN221190144U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202322634131.2U CN221190144U (en) 2023-09-27 2023-09-27 Plate-type material receiving and conveying device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202322634131.2U CN221190144U (en) 2023-09-27 2023-09-27 Plate-type material receiving and conveying device

Publications (1)

Publication Number Publication Date
CN221190144U true CN221190144U (en) 2024-06-21

Family

ID=91519201

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202322634131.2U Active CN221190144U (en) 2023-09-27 2023-09-27 Plate-type material receiving and conveying device

Country Status (1)

Country Link
CN (1) CN221190144U (en)

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