CN117066583A - Environment-friendly cutting machine for hydraulic pipe - Google Patents

Abstract

The invention belongs to the technical field of hydraulic pipe cutting, and discloses an environment-friendly cutting machine for a hydraulic pipe, which comprises a workbench, wherein a fixing frame is fixedly arranged on the surface of the workbench, rotating rods are fixedly arranged on two opposite side walls of the fixing frame in a rotating way, two groups of fixed rollers which are distributed oppositely are fixedly arranged on the surface of the rotating rods, annular conveying belts are commonly connected with the fixed rollers on the surfaces of the two groups of rotating rods, a positioning mechanism is arranged on the surface of the conveying belt, the positioning mechanism comprises a clamping assembly and a telescopic assembly, a dust removing mechanism is arranged on the surface of the workbench, the dust removing mechanism comprises a protective curtain and a impurity removing assembly, the impurity removing assembly comprises a collecting box and an automatic guide and discharge part, a cutting mechanism is arranged in an inner cavity of the fixing frame, and comprises a cutter disc, a positioning assembly and a translation assembly.

Description

Environment-friendly cutting machine for hydraulic pipe

Technical Field

The invention relates to the technical field of hydraulic pipe cutting, in particular to an environment-friendly cutting machine for a hydraulic pipe.

Background

In the prior art, the hydraulic pipe needs to be cut into hydraulic pipe sections with different lengths so as to meet actual production requirements.

When the existing cutting machine is used, the existing cutting machine is usually directly fixed on the surface of a workbench, an operator holds the pipe fitting to move towards the cutting machine to cut, the pipe fitting is easy to shake in the cutting process, and the cutting efficiency is low; dust and fragments generated during cutting fly around, and the environmental protection performance is poor.

Disclosure of Invention

The invention aims to provide an environment-friendly cutting machine for a hydraulic pipe, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides an environment-friendly cutting machine for hydraulic pipe, includes the workstation, workstation surface fixed mounting has the mount, the mount is the type structure of falling U, the opposite both sides wall of mount rotates jointly and installs the dwang, two sets of dwang are located the mount both ends respectively, dwang surface fixed mounting has two sets of relative distribution's fixed rollers, the fixed roller on two sets of dwang surfaces is connected with annular conveyer belt jointly, the one end of a set of dwang extends to the mount outside and is connected with the third motor, the conveyer belt surface is provided with positioning mechanism, positioning mechanism is including clamping assembly and telescopic machanism, clamping assembly is located conveyer belt and mount surface, the clamping assembly is used for carrying out the location at conveyer belt surface pipe fitting, telescopic machanism is connected with clamping assembly, telescopic machanism is through the mode of mutually supporting with clamping assembly to the pipe fitting of different diameters, the workstation surface is provided with dust removal mechanism, dust removal mechanism is including protection curtain and edulcoration subassembly, two sets of protection curtain are distributed relatively and fixed mounting in the mount inner roof respectively, the edulcoration subassembly is including collecting box and automatic guide section and the connection, guide section and the side of being located the mount, the cutting cutter head is connected with the positioning mechanism is located to the side of the cutting head, the cutting head is connected with the inner chamber, and is located with the opposite to the positioning mechanism, the translation assembly adjusts the position of the cutter disc by cooperating with the positioning assembly.

As a further scheme of the invention: the clamping assembly comprises a plurality of groups of bearing frames which are arranged on the surface of the conveying belt and distributed at equal intervals, the bearing frames are of U-shaped structures, the central line position of the bottom wall of each bearing frame is fixedly connected with the conveying belt, transverse plates positioned above the conveying belt are respectively and fixedly arranged on two opposite side walls of the fixing frame, vertical rods positioned on two sides of the conveying belt are fixedly arranged on the bottom wall of each transverse plate, extrusion plates are fixedly arranged at the bottom ends of the vertical rods, and the two groups of extrusion plates are positioned on two sides of the conveying belt respectively.

As a further scheme of the invention: the telescopic component comprises a base which is slidably arranged in the bearing frame, an arc concave structure is arranged on the surface of the base, and an extrusion spring connected with the base is fixedly arranged on the inner bottom wall of the bearing frame.

As a further scheme of the invention: the automatic guide and discharge part comprises a guide and discharge groove which is arranged on the surface of the workbench, the guide and discharge groove is of a slope structure which is inclined from two sides to the middle and downward, the guide and discharge groove downwards extends to the outer side of the workbench, clamping grooves which are positioned on two sides of the guide and discharge groove are arranged on the side wall of the workbench, the clamping grooves are of T-shaped structures, and clamping blocks which are mutually matched with the clamping grooves are fixedly arranged on the surface of the collecting box.

As a further scheme of the invention: the positioning assembly comprises a fixed shell arranged in an inner cavity of the fixed frame, a first motor is fixedly arranged on the side wall of the fixed frame, and an output shaft of the first motor extends to the inner cavity of the fixed shell and is fixedly connected with the cutter disc.

As a further scheme of the invention: the translation assembly comprises limiting rods which are fixedly installed on two opposite side walls of the fixing frame together, the surfaces of the limiting rods are connected with sliding blocks in a sliding mode, the sliding blocks are fixedly connected with the top wall of the fixing shell, the two opposite side walls of the fixing frame are rotatably installed with threaded rods together, the threaded rods are in threaded connection with the sliding blocks, and one ends of the threaded rods extend to the outer side of the fixing frame and are connected with a second motor.

As still further aspects of the invention: the fixing frame is characterized in that a supporting plate is fixedly arranged on the side wall of the fixing frame and is attached to the bottom wall of the upper conveying belt.

Compared with the prior art, the invention has the beneficial effects that: the clamping assembly and the telescopic assembly are matched with each other, so that the conveying belt can stably position pipe fittings with different sizes, control the movement of the pipe fittings, and effectively improve the cutting efficiency and the cutting precision; the impurity removal component composed of the collection box and the automatic guide and discharge part is matched with the protection curtain, so that dust and fragments generated in the cutting process can be automatically collected, the dust is prevented from drifting around, and the environmental protection effect of a working site is effectively improved.

Drawings

Fig. 1 is a schematic structural diagram of an environment-friendly cutting machine for hydraulic pipes, which is provided in an embodiment of the invention.

Fig. 2 is a schematic diagram of a conveyor belt and a connection structure thereof in an environment-friendly cutting machine for hydraulic pipes according to an embodiment of the invention.

Fig. 3 is a schematic diagram of a workbench and a connection structure thereof in an environment-friendly cutting machine for hydraulic pipes provided in an embodiment of the invention.

Fig. 4 is a schematic structural view of a carrier in an environment-friendly cutting machine for hydraulic pipes according to an embodiment of the present invention.

Fig. 5 is a schematic diagram of a front view structure of an environment-friendly cutting machine for hydraulic pipes according to an embodiment of the present invention.

Fig. 6 is a schematic diagram of a sliding block and a connection structure thereof in an environment-friendly cutting machine for hydraulic pipes according to an embodiment of the present invention.

Fig. 7 is a schematic diagram of a collection box and a connection structure thereof in an environment-friendly cutting machine for hydraulic pipes according to an embodiment of the invention.

Fig. 8 is an enlarged schematic view of the structure of fig. 5 a.

Wherein: the workbench 1, the fixing frame 2, the rotating rod 3, the third motor 31, the fixed roller 4, the conveying belt 5, the positioning mechanism 6, the clamping assembly 61, the bearing frame 611, the transverse plate 612, the vertical rod 613, the extrusion plate 614, the telescopic assembly 62, the base 621, the extrusion spring 622, the dust removing mechanism 7, the protective curtain 71, the impurity removing assembly 72, the collecting box 721, the automatic guide and discharge part 722, the guide and discharge groove 7221, the clamping groove 7222, the clamping block 7223, the cutting mechanism 8, the cutter disc 81, the positioning assembly 82, the fixing shell 821, the first motor 822, the translation assembly 83, the limiting rod 831, the sliding block 832, the threaded rod 833, the second motor 834 and the supporting plate 9.

Detailed Description

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1 and 5, a structure diagram of an environment-friendly cutting machine for hydraulic pipes provided by an embodiment of the invention comprises a workbench 1, a fixing frame 2 is fixedly arranged on the surface of the workbench 1, the fixing frame 2 is of an inverted U-shaped structure, rotating rods 3 are rotatably arranged on two opposite side walls of the fixing frame 2, two groups of rotating rods 3 are respectively positioned at two ends of the fixing frame 2, two groups of relatively distributed fixing rollers 4 are fixedly arranged on the surfaces of the rotating rods 3, the fixing rollers 4 on the surfaces of the two groups of rotating rods 3 are commonly connected with a ring-shaped conveying belt 5, one end of one group of rotating rods 3 extends to the outer side of the fixing frame 2 and is connected with a third motor 31, a positioning mechanism 6 is arranged on the surface of the conveying belt 5, the positioning mechanism 6 comprises a clamping component 61 and a telescopic component 62, the clamping component 61 is positioned on the surfaces of the conveying belt 5 and the fixing frame 2, the clamping assembly 61 is used for positioning pipes on the surface of the conveyor belt 5, the telescopic assembly 62 is connected with the clamping assembly 61, the telescopic assembly 62 clamps pipes with different diameters in a manner of being matched with the clamping assembly 61, the surface of the workbench 1 is provided with a dust removing mechanism 7, the dust removing mechanism 7 comprises a protective curtain 71 and a impurity removing assembly 72, the two groups of protective curtains 71 are oppositely distributed and respectively and fixedly arranged on the inner top wall of the fixing frame 2, the impurity removing assembly 72 comprises a collecting box 721 and an automatic guide and discharge part 722, the automatic guide and discharge part 722 is positioned on the surface of the workbench 1 and connected with the collecting box 721, the automatic guide and discharge part 722 is used for collecting impurities on the surface of the workbench 1, the inner cavity of the fixing frame 2 is provided with a cutting mechanism 8, the cutting mechanism 8 comprises a cutter disc 81, a positioning assembly 82 and a translation assembly 83, the positioning assembly 82 is positioned within the interior of the holder 2 and is connected to the cutter disc 81, the translating assembly 83 is positioned between opposite side walls of the holder 2 and is connected to the positioning assembly 82, and the translating assembly 83 adjusts the position of the cutter disc 81 in a manner that cooperates with the positioning assembly 82.

When the pipe cutting machine is used, the third motor 31 drives the rotating rod 3 to rotate, the fixed rollers 4 are driven to rotate synchronously, the fixed rollers 4 on the surfaces of the two groups of rotating rods 3 are matched with each other, the conveying belt 5 can be driven to rotate above the workbench 1, the clamping assembly 61 can conveniently install a pipe to be cut on the surface of the conveying belt 5 when the conveying belt 5 rotates, the conveying belt 5 drives the pipe to move towards the cutter disc 81, the first motor 822 drives the cutter disc 81 to rotate in the fixed shell 821, the cutter disc 81 can automatically cut the pipe, the clamping assembly 61 positions the pipe in the moving and cutting process, the position of the pipe is effectively prevented from being deviated, the cutting precision can be improved, the clamping assembly 61 can continuously clamp and position the pipe after the pipe is cut, and the clamping assembly 61 can automatically control the pipe to be separated from the surface of the conveying belt 5 when the pipe moves to the other end of the conveying belt 5. The protection curtain 71 of mount 2 both sides can separate dust and piece that produces in the cutting process, effectively avoids dust and piece to fly away to the mount 2 outside, further improves the environmental protection effect when cutting the operation, and automatic guide portion 722 can be automatic carry dust and piece on workstation 1 surface to collect in the box 721, is convenient for carry out cleaning treatment to the cutting environment. When cutting the pipe fitting, through the cooperation of telescopic assembly 62 and clamping assembly 61, can carry out stable centre gripping and location to the pipe fitting of different diameters, and then cut the pipe fitting of equidimension. During cutting, the translation assembly 83 cooperates with the positioning assembly 82 to adjust the position of the cutter disc 81 and thus the cutting length of the tubular member.

As shown in fig. 2, 5 and 6, as a preferred embodiment of the present invention, the clamping assembly 61 includes a plurality of groups of bearing frames 611 disposed on the surface of the conveyor belt 5 and distributed at equal intervals, the bearing frames 611 are in a U-shaped structure, a central line position of a bottom wall of each bearing frame 611 is fixedly connected with the conveyor belt 5, transverse plates 612 disposed above the conveyor belt 5 are respectively and fixedly mounted on two opposite side walls of the fixing frame 2, vertical rods 613 disposed on two sides of the conveyor belt 5 are fixedly mounted on the bottom wall of each transverse plate 612, squeeze plates 614 are fixedly mounted at bottom ends of the vertical rods 613, and the two groups of squeeze plates 614 are respectively disposed on two sides of the conveyor belt 5.

The conveyer belt 5 rotates above the workbench 1 and drives the bearing frame 611 to synchronously move, when the bearing frame 611 moves to one end of the conveyer belt 5, a pipe fitting to be cut is arranged on the surface of the bearing frame 611, the bearing frame 611 drives the pipe fitting to move towards the cutter disc 81, in the moving and cutting process, the bottom wall of the extrusion plate 614 is always contacted with the pipe fitting, the extrusion plate 614 can further support and position the pipe fitting, and the position of the pipe fitting is prevented from shifting in the cutting process. After the pipe fitting is cut, the two groups of extrusion plates 614 are used for positioning the pipe fitting on two sides of the bearing frame 611 respectively, so that the pipe fitting is effectively prevented from falling onto the workbench 1 from the surface of the bearing frame 611, when the pipe fitting is conveyed to the other end by the conveying belt 5, the extrusion plates 614 are separated from the pipe fitting, and the cut pipe fitting can automatically fall off.

As shown in fig. 4, 5 and 8, as a preferred embodiment of the present invention, the telescopic assembly 62 includes a base 621 slidably mounted in the carrier 611, an arc-shaped concave structure is provided on the surface of the base 621, and a compression spring 622 connected to the base 621 is fixedly mounted on the inner bottom wall of the carrier 611.

When the pipe fitting is placed on the surface of the bearing frame 611 and moves, the extrusion plate 614 presses the pipe fitting, so that the base 621 is controlled to move towards the inside of the bearing frame 611, the relative position between the base 621 and the extrusion plate 614 can be conveniently adjusted through the extrusion spring 622, and then the pipe fitting with different diameter sizes can be clamped and positioned.

As shown in fig. 3, 5 and 7, as a preferred embodiment of the present invention, the automatic drainage portion 722 includes a drainage groove 7221 formed on the surface of the table 1, the drainage groove 7221 has a slope structure that inclines from two sides to the middle and downward, the drainage groove 7221 extends downward to the outside of the table 1, the side wall of the table 1 is formed with a clamping groove 7222 located at two sides of the drainage groove 7221, the clamping groove 7222 has a T-shaped structure, and a clamping block 7223 that is mutually matched with the clamping groove 7222 is fixedly mounted on the surface of the collection box 721.

When the novel dust collector is used, the clamping block 7223 is inserted into the clamping groove 7222 at one side of the workbench 1, then the collecting box 721 is conveniently installed at the bottom wall of the workbench 1, the collecting box 721 is pushed, the clamping block 7223 moves in the clamping groove 7222, the position of the collecting box 721 can be conveniently adjusted, the collecting box 721 is communicated with the guide groove 7221, dust and impurities generated during cutting fall into the guide groove 7221, and the inclined guide groove 7221 can automatically transfer the dust and the impurities into the collecting box 721.

As shown in fig. 1, 5 and 6, the positioning assembly 82 includes a fixed housing 821 disposed in an inner cavity of the fixed frame 2, a first motor 822 is fixedly mounted on a side wall of the fixed frame 821, and an output shaft of the first motor 822 extends into the inner cavity of the fixed housing 821 and is fixedly connected with the cutter disc 81.

The translating assembly 83 supports and positions the stationary housing 821 within the interior of the stationary frame 2 and the first motor 822 rotates the cutter disc 81 to move the tube in the direction of the cutter disc 81. The cutter disc 81 may automatically cut the tube.

As shown in fig. 1, 5 and 6, as a preferred embodiment of the present invention, the translation assembly 83 includes a limiting rod 831 fixedly mounted on two opposite side walls of the fixed frame 2, a sliding block 832 is slidably connected to a surface of the limiting rod 831, the sliding block 832 is fixedly connected to a top wall of the fixed housing 821, two opposite side walls of the fixed frame 2 are rotatably mounted with a threaded rod 833, the threaded rod 833 is in threaded connection with the sliding block 832, and one end of the threaded rod 833 extends to an outside of the fixed frame 2 and is connected to a second motor 834.

When the cutting position needs to be adjusted, the second motor 834 drives the threaded rod 833 to rotate, the threaded rod 833 and the limiting rod 831 are mutually matched, the sliding block 832 can be pushed to move along the axial direction of the threaded rod 833, and the sliding block 832 and the fixed shell 821 are mutually matched, so that the position of the cutter disc 81 can be conveniently adjusted.

As shown in fig. 1, 5 and 8, as a preferred embodiment of the present invention, a supporting plate 9 is fixedly installed on a side wall of the fixing frame 2, and the supporting plate 9 is attached to a bottom wall of the upper layer of the conveyor belt 5. When the extrusion plate 614 extrudes and positions the pipe on the surface of the conveying belt 5, the supporting plate 9 can support the conveying belt 5, so that the conveying belt 5 is prevented from being pressed, and the conveying belt 5 cannot deform.

The working principle of the invention is as follows: when the cutter disc cutter is used, the third motor 31 drives the rotating rod 3 to rotate, the fixed rollers 4 are driven to synchronously rotate, the fixed rollers 4 on the surfaces of the two groups of rotating rods 3 are matched with each other, the conveying belt 5 can be driven to rotate above the workbench 1, when the conveying belt 5 rotates, a pipe fitting to be cut is arranged on the surface of the bearing frame 611, the bearing frame 611 drives the pipe fitting to move towards the cutter disc 81, the bottom wall of the extrusion plate 614 is always contacted with the pipe fitting in the moving and cutting process, the extrusion plate 614 can further support and position the pipe fitting, and the position of the pipe fitting is prevented from shifting in the cutting process. After the pipe fitting is cut, the two groups of extrusion plates 614 are used for positioning the pipe fitting on two sides of the bearing frame 611 respectively, so that the pipe fitting is effectively prevented from falling onto the workbench 1 from the surface of the bearing frame 611, when the pipe fitting is conveyed to the other end by the conveying belt 5, the extrusion plates 614 are separated from the pipe fitting, and the cut pipe fitting can automatically fall off. The extrusion plate 614 presses the pipe fitting, so that the base 621 is controlled to move towards the bearing frame 611, and the relative positions between the base 621 and the extrusion plate 614 can be conveniently adjusted through the extrusion spring 622, so that the pipe fitting with different diameter sizes can be clamped and positioned. When the cutting machine is used, the protection curtains 71 on two sides of the fixing frame 2 can separate dust and fragments generated in the cutting process, the dust and fragments are effectively prevented from drifting to the outer side of the fixing frame 2, the environment-friendly effect during cutting operation is further improved, the clamping blocks 7223 are inserted into the clamping grooves 7222 on one side of the workbench 1, the collecting boxes 721 are further conveniently installed at the bottom wall of the workbench 1, the collecting boxes 721 are pushed, the clamping blocks 7223 move in the clamping grooves 7222, the positions of the collecting boxes 721 can be conveniently adjusted, the collecting boxes 721 are communicated with the guide grooves 7221, dust and impurities generated during cutting fall into the guide grooves 7221, and the inclined guide grooves 7221 can automatically transfer the dust and the impurities into the collecting boxes 721.

While the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (7)

1. The utility model provides an environment-friendly cutting machine for hydraulic pipe, includes workstation (1), workstation (1) fixed surface installs mount (2), mount (2) are the type structure of falling U, mount (2) relative both sides wall rotates jointly and installs dwang (3), two sets of dwang (3) are located mount (2) both ends respectively, dwang (3) fixed surface installs two sets of relative distribution's fixed roller (4), fixed roller (4) on two sets of dwang (3) surface are connected with annular conveyer belt (5) jointly, the one end of a set of dwang (3) extends to mount (2) outside and is connected with third motor (31), a serial communication port, conveyer belt (5) surface is provided with positioning mechanism (6), positioning mechanism (6) are including clamping assembly (61) and telescopic assembly (62), clamping assembly (61) are located conveyer belt (5) and mount (2) surface, clamping assembly (61) are used for carrying out location at conveyer belt (5) surface piece, one end of a set of dwang (3) extends to mount (2) outside and is connected with third motor (31) through telescopic assembly (62), clamping assembly (61) are connected with each other through telescopic assembly (7) diameter, clamping assembly (7) are mutually matched with each other, the dust removing mechanism (7) comprises a protective curtain (71) and a impurity removing component (72), wherein the two groups of protective curtains (71) are distributed oppositely and are respectively and fixedly arranged on the inner top wall of the fixing frame (2), the impurity removing component (72) comprises a collecting box (721) and an automatic guiding and discharging part (722), the automatic guiding and discharging part (722) is located on the surface of the workbench (1) and is connected with the collecting box (721), the automatic guiding and discharging part (722) is used for collecting impurities on the surface of the workbench (1), the inner cavity of the fixing frame (2) is provided with a cutting mechanism (8), the cutting mechanism (8) comprises a cutter disc (81), a positioning component (82) and a translation component (83), the positioning component (82) is located in the inner cavity of the fixing frame (2) and is connected with the cutter disc (81), and the translation component (83) is located between two opposite side walls of the fixing frame (2) and is connected with the positioning component (82), and the position of the cutter disc (81) is adjusted in a mode of being mutually matched with the positioning component (82).

2. The environment-friendly cutting machine for the hydraulic pipe according to claim 1, wherein the clamping assembly (61) comprises a plurality of groups of bearing frames (611) which are arranged on the surface of the conveying belt (5) and distributed at equal intervals, the bearing frames (611) are of a U-shaped structure, the central line position of the bottom wall of the bearing frames (611) is fixedly connected with the conveying belt (5), transverse plates (612) which are arranged above the conveying belt (5) are respectively and fixedly arranged on two opposite side walls of the fixing frame (2), vertical rods (613) which are arranged on two sides of the conveying belt (5) are fixedly arranged on the bottom wall of the transverse plates (612), squeeze plates (614) are fixedly arranged at the bottom ends of the vertical rods (613), and the two groups of squeeze plates (614) are respectively arranged on two sides of the conveying belt (5).

3. An environmental protection cutting machine for hydraulic pipes according to claim 2, characterized in that the telescopic assembly (62) comprises a base (621) slidably mounted in a bearing frame (611), the surface of the base (621) is provided with an arc concave structure, and the inner bottom wall of the bearing frame (611) is fixedly provided with a compression spring (622) connected with the base (621).

4. The environment-friendly cutting machine for the hydraulic pipe according to claim 1, wherein the automatic guide and discharge part (722) comprises a guide and discharge groove (7221) formed in the surface of the workbench (1), the guide and discharge groove (7221) is of a slope structure which is inclined from two sides to the middle and downward, the guide and discharge groove (7221) extends downwards to the outer side of the workbench (1), clamping grooves (7222) positioned at two sides of the guide and discharge groove (7221) are formed in the side wall of the workbench (1), the clamping grooves (7222) are of a T-shaped structure, and clamping blocks (7223) matched with the clamping grooves (7222) are fixedly arranged on the surface of the collecting box (721).

5. An environmentally friendly hydraulic pipe cutter as claimed in claim 1, wherein said positioning assembly (82) comprises a fixed housing (821) disposed in the inner cavity of the fixed frame (2), a first motor (822) is fixedly mounted on the side wall of the fixed frame (821), and the output shaft of the first motor (822) extends to the inner cavity of the fixed housing (821) and is fixedly connected with the cutter disc (81).

6. The environment-friendly cutting machine for hydraulic pipes according to claim 5, wherein the translation assembly (83) comprises limiting rods (831) fixedly installed on two opposite side walls of the fixed frame (2), sliding blocks (832) are slidably connected to the surfaces of the limiting rods (831), the sliding blocks (832) are fixedly connected with the top wall of the fixed shell (821), threaded rods (833) are rotatably installed on two opposite side walls of the fixed frame (2) in a combined mode, the threaded rods (833) are in threaded connection with the sliding blocks (832), and one ends of the threaded rods (833) extend to the outer side of the fixed frame (2) and are connected with a second motor (834).

7. The environment-friendly cutting machine for the hydraulic pipe according to claim 1, wherein a supporting plate (9) is fixedly arranged on the side wall of the fixing frame (2), and the supporting plate (9) is attached to the bottom wall of the upper conveying belt (5).