CN117733080A - Sand coating conveying line for speed reducer box - Google Patents

Abstract

The invention relates to the technical field of sand-lined casting, in particular to a sand-lined conveying line for a speed reducer box body, which comprises a conveying fixed line and a turnover line which is arranged corresponding to the conveying fixed line, wherein turnover wheel frames are respectively and fixedly arranged at two ends of the turnover line, clamping lines which are fixedly arranged with the turnover wheel frames are arranged above the turnover line, a weight detection supporting plate and a mounting backboard are arranged between two groups of turnover wheel frames, the weight detection supporting plate and the mounting backboard are mutually parallel, and a weighing sensor is connected between the weight detection supporting plate and the mounting backboard; according to the sand-coated conveying line for the speed reducer box, the split control plates are matched with the angle control structure and the like, so that collision and damage to the casting can be avoided when the speed reducer box is turned over and discharged out of the casting, and the quality stability of the product is improved.

Description

Sand coating conveying line for speed reducer box

Technical Field

The invention relates to the technical field of sand-lined casting, in particular to a speed reducer box sand-lined conveying line.

Background

The sand-lined casting is also called as iron mold sand-lined casting, and is a special casting technical method, a metal mold (usually a cast iron mold) and a cast iron cavity which is close to the shape of a casting are adopted as a sand box iron mold, a layer of coated sand with the thickness of 4-8 mm is covered on a casting mold, the coated sand is solidified under a certain temperature field to form a hard shell casting mold, and molten iron is injected into the metal sand box covered with the coated sand to form the casting after solidification; the metal sand box moves through the transfer chain, is provided with on the transfer chain among the prior art and turns over the case module, and the sand box overturns the back-off through turning over the case module, discharges the foundry goods, and at this in-process, the foundry goods is direct to fall from the sand box, can produce certain impact force to the foundry goods, especially when carrying out the casting of speed reducer box, because speed reducer box foundry goods volume is great and be the metal thin wall structure, under the impact, can increase deformation probability, influence the production stable quality of speed reducer box.

Disclosure of Invention

The invention aims to provide a speed reducer box sand-coated conveying line so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the speed reducer box sand-lined conveying line comprises a conveying fixed line and a turnover line which is arranged corresponding to the conveying fixed line, wherein turnover wheel frames are fixedly arranged at two ends of the turnover line respectively, clamping lines which are fixedly arranged with the turnover wheel frames are arranged above the turnover line, a weight detection supporting plate and an installation backboard are arranged between the turnover wheel frames, the weight detection supporting plate and the installation backboard are mutually parallel, a weighing sensor is connected between the weight detection supporting plate and the installation backboard, a split control board capable of lifting and moving is arranged above the installation backboard, an angle control structure is arranged between the installation backboard and the split control board, and the angle control structure can control the installation backboard to deflect relative to the split control board.

The inside of components of a whole that can function independently control panel has seted up the limiting plate groove, it is provided with the centre gripping roller to alternate in the limiting plate groove, the blind groove of spring has been seted up to the inner wall surface in limiting plate groove, be provided with positioning spring in the blind groove of spring, the one end that positioning spring kept away from the blind groove of spring pushes up on the centre gripping roller.

The clamping roller comprises a clamping roller shaft, a clamping roller and a turnover wheel frame, wherein two ends of the clamping roller shaft are respectively and fixedly provided with a pressing rotating arm, a worm wheel cross shaft is fixedly connected between the pressing rotating arms, a cross shaft swinging seat is fixedly arranged on the turnover wheel frame, the worm wheel cross shaft is limited to penetrate through the cross shaft swinging seat, and a worm wheel disc is fixedly arranged on the worm wheel cross shaft.

The external engagement of worm wheel dish is provided with the drive worm, the tip of drive worm is provided with the worm motor that is used for driving the rotation of drive worm, the fixed extension platform that is provided with on the upset wheel frame, extend the platform with worm motor fixed mounting.

The turnover wheel frame is fixedly provided with a pressure air chamber, an air chamber piston is arranged in the pressure air chamber in an airtight sliding manner, a return spring is arranged below the air chamber piston, the upper surface of the air chamber piston is fixedly provided with a Shi Yading shaft, one end part of the pressing rotating arm, which is far away from the clamping roller shaft, is fixedly provided with a pressing tongue plate, and when the pressing rotating arm rotates, the pressing tongue plate can be used for carrying out extrusion driving on a pressing top shaft.

The bottom of the pressure air chamber is embedded with a one-way valve, the one-way valve enables air flow to flow from the outside to the pressure air chamber in a one-way mode, an output pipe is arranged at the bottom of the pressure air chamber in a communicated mode, and a gathering pipeline is arranged on the output pipe in a communicated mode.

The lifting air box is arranged at the end part of the weight detection supporting plate below the installation backboard, two groups of lifting air boxes are arranged and symmetrically distributed at the front and rear positions of the split control board, the lifting air boxes are of a cavity structure, beam spraying seams communicated with the cavities are formed in the surfaces of the lifting air boxes, air box spindles are fixedly arranged on the upper surfaces of the lifting air boxes, the air box spindles penetrate through the installation backboard and extend out of the upper part of the installation backboard, and spindle compression rings are fixedly arranged on the surfaces of the air box spindles above the installation backboard.

The upper surface of installation backplate is fixed and is provided with the arch frame board, the gas box main shaft alternates through the arch frame board, the main shaft clamping ring with be provided with the arch frame pressure spring between the arch frame board, the surface intercommunication of lift gas box is provided with the input trachea, be provided with electromagnetic air valve in the input trachea, the input trachea with summarize the pipeline intercommunication.

The upper surface fixed of installation backplate is provided with the backplate swivel mount, the both ends of components of a whole that can function independently control panel are fixed respectively and are provided with the backplate pivot, the rotatory interpolation of backplate pivot is established in the backplate swivel mount, the fixed hydraulic pushing jar that is provided with on the components of a whole that can function independently control panel, the telescopic shaft top of hydraulic pushing jar can carry out spacingly and promote the installation backplate deflection to the installation backplate at the upper surface of installation backplate.

The conveying fixing line, the overturning line and the clamping line are both provided with conveying rail wheels, the lower part of the conveying fixing line is provided with an overturning underframe, a limiting contact wheel is rotatably arranged in the overturning underframe, and the overturning wheel frame is placed on the limiting contact wheel and is driven to rotate through rotation of the limiting contact wheel.

Compared with the prior art, the invention has the beneficial effects that:

according to the sand-coated conveying line for the speed reducer box, the split control plates are matched with the angle control structure and the like, so that collision and damage to the casting can be avoided when the speed reducer box is turned over and discharged out of the casting, and the quality stability of the product is improved.

Through the structural cooperation such as check weight layer board, weighing sensor and the angle control structure that set up, can be when avoiding producing the collision to the foundry goods, the integrality of automated inspection foundry goods to deflect around through the check weight layer board, realize the automatic classification of defective article and finished product.

Through the structures such as the pressure air chamber and the pressing tongue plate that set up, can utilize the rotation of holding the rocking arm to produce the pressure air current voluntarily to through with structure cooperation such as electromagnetic valve, automatic air current distribution is to corresponding side lift gas box in, spouts from the beam spouting seam, makes the foundry goods about to slide one side examine heavy support plate surface by the jet-propelled clearance, reduces and examines heavy support plate surface's gravel and remain, and then reduce the foundry goods and examine the wearing and tearing that appear when heavy support plate relative slip.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is an enlarged schematic view of the area a in fig. 1.

FIG. 3 is another angular schematic view of the overall structure of the present invention.

Fig. 4 is an enlarged schematic view of the region B in fig. 3.

Fig. 5 is a front view of the overall structure of the present invention.

Fig. 6 is an enlarged schematic view of region C in fig. 5.

Fig. 7 is a schematic view in horizontal semi-section of the split control panel of the present invention.

Fig. 8 is an enlarged schematic view of region D in fig. 7.

FIG. 9 is a schematic view in perspective and semi-section of a pressure chamber according to the present invention.

Fig. 10 is an enlarged schematic view of the area E in fig. 9.

FIG. 11 is a schematic view of a lifting gas box in a semi-cutaway perspective view.

Fig. 12 is an enlarged schematic view of region F in fig. 11.

In the figure: 1. conveying a fixing line; 2. overturning the wire; 3. turning the wheel frame; 4. clamping the wire; 5. a weight detection supporting plate; 6. mounting a backboard; 7. a weighing sensor; 8. a split control board; 801. a limiting plate groove; 802. clamping a roll shaft; 803. a spring blind slot; 804. a positioning spring; 805. pressing and holding the rotating arm; 806. a worm wheel cross shaft; 807. a transverse shaft swinging seat; 808. a worm wheel disk; 809. driving a worm; 810. a worm motor; 811. an extension table; 812. a pressure air chamber; 813. a gas chamber piston; 814. a return spring; 815. shi Yading axis; 816. pressing the tongue plate; 817. a one-way valve; 818. an output pipe; 819. summarizing pipelines; 820. a lifting air box; 821. beam jet slit; 822. a gas box main shaft; 823. a main shaft compression ring; 824. an arch frame plate; 825. an arch frame pressure spring; 826. an input air pipe; 827. an electromagnetic air valve; 601. a backboard swivel base; 602. a back plate rotating shaft; 603. a hydraulic pushing cylinder; 101. a conveying rail wheel; 102. turning over the underframe; 103. and limiting the contact wheel.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 12, the present invention provides a technical solution: the speed reducer box sand-lined conveying line comprises a conveying fixing line 1 and a turnover line 2 which is arranged corresponding to the conveying fixing line 1, wherein turnover wheel frames 3 are fixedly arranged at two ends of the turnover line 2 respectively, clamping lines 4 which are fixedly arranged on the turnover line 2 and the turnover wheel frames 3 are arranged above the turnover line 2, a weight detection supporting plate 5 and a mounting backboard 6 are arranged between the two groups of turnover wheel frames 3, the weight detection supporting plate 5 and the mounting backboard 6 are mutually parallel, a weighing sensor 7 is connected between the weight detection supporting plate 5 and the mounting backboard 6, a split control board 8 which can move up and down is arranged above the mounting backboard 6, an angle control structure is arranged between the mounting backboard 6 and the split control board 8, and the angle control structure can control the mounting backboard 6 to deflect relative to the split control board 8.

Limiting plate groove 801 is formed in split control plate 8, clamping roller shafts 802 are inserted into limiting plate groove 801, spring blind grooves 803 are formed in the inner wall surfaces of limiting plate groove 801, positioning springs 804 are arranged in spring blind grooves 803, one ends of positioning springs 804, far away from spring blind grooves 803, are propped against clamping roller shafts 802, and through the arranged positioning springs 804, the position of split control plate 8 can be elastically positioned, so that split control plate 8 is prevented from moving randomly.

The both ends of centre gripping roller 802 are fixed respectively and are provided with the pressure and hold the rocking arm 805, press and hold the rocking arm 805 and connect fixedly between, be provided with the cross axle seat 807 fixedly on the turnover wheel frame 3, the spacing interlude of cross axle 806 is passed through the cross axle seat 807, be provided with the worm wheel dish 808 fixedly on the worm wheel cross axle 806, the outside meshing of worm wheel dish 808 is provided with driving worm 809, driving worm 809's tip is provided with the worm motor 810 that is used for driving worm 809 rotation, be provided with extension table 811 fixedly on the turnover wheel frame 3, extension table 811 and worm motor 810 fixed mounting.

The turning wheel frame 3 is fixedly provided with a pressure air chamber 812, an air chamber piston 813 is arranged in the pressure air chamber 812 in an airtight sliding manner, a reset spring 814 is arranged below the air chamber piston 813, the upper surface of the air chamber piston 813 is fixedly provided with a Shi Yading shaft 815, one end part of the pressing rotating arm 805 far away from the clamping roller shaft 802 is fixedly provided with a pressing tongue plate 816, and when the pressing rotating arm 805 rotates, the pressing rotating arm 805 can perform extrusion driving on the pressing top shaft 815 through the pressing tongue plate 816.

The bottom of the pressure air chamber 812 is embedded with a one-way valve 817, the one-way valve 817 enables air flow to flow from the outside to the pressure air chamber 812 in one direction, an output pipe 818 is arranged at the bottom of the pressure air chamber 812 in a communicating manner, and a collecting pipeline 819 is arranged on the output pipe 818 in a communicating manner.

The lower side of the installation backboard 6 is provided with lifting air boxes 820 at the end part of the weight detection supporting board 5, the lifting air boxes 820 are provided with two groups and are symmetrically distributed at the front and rear positions of the split control board 8, the lifting air boxes 820 are of a cavity structure, beam spraying slits 821 communicated with the cavities are formed in the surfaces of the lifting air boxes 820, air box spindles 822 are fixedly arranged on the upper surfaces of the lifting air boxes 820, the air box spindles 822 penetrate through the installation backboard 6 and extend out of the upper part of the installation backboard 6, and spindle compression rings 823 are fixedly arranged on the surfaces of the air box spindles 822 above the installation backboard 6.

The upper surface of the installation backplate 6 is fixedly provided with a arched plate 824, a gas box main shaft 822 is inserted through the arched plate 824, an arch compression spring 825 is arranged between a main shaft compression ring 823 and the arched plate 824, an input air pipe 826 is arranged on the outer surface of the lifting gas box 820 in a communicating manner, an electromagnetic air valve 827 is arranged in the input air pipe 826, the electromagnetic air valve 827 is an electromagnetic control opening and closing air valve, the input air pipe 826 is communicated with a gathering pipeline 819, the communication is carried out through the bifurcated air pipe, one end of the air pipe is communicated with the gathering pipeline 819, the other end of the air pipe is separated into two branch pipes, and each branch pipe is respectively communicated with the corresponding input air pipe 826.

The upper surface fixed of installation backplate 6 is provided with backplate swivel mount 601, and the both ends of components of a whole that can function independently control board 8 are fixed respectively and are provided with backplate pivot 602, and backplate pivot 602 rotatory the inserting establish in backplate swivel mount 601, and the fixed hydraulic pressure that is provided with on the components of a whole that can function independently control board 8 promotes jar 603, and the telescopic shaft of hydraulic pressure promotion jar 603 pushes up the upper surface at installation backplate 6, can carry out spacing and promote installation backplate 6 deflection to installation backplate 6.

All be provided with on carrying fixed line 1, upset line 2 and the centre gripping line 4 and carry rail wheel 101, carry rail wheel 101 can initiatively rotate and carry the drive, and the lower part that carries fixed line 1 is provided with upset chassis 102, rotates in the upset chassis 102 and is provided with spacing contact wheel 103, and spacing contact wheel 103 passes through motor drive and rotates, and turnover wheel frame 3 is placed on spacing contact wheel 103, drives turnover wheel frame 3 through the rotation of spacing contact wheel 103 and rotates.

When the metal sand box overturning device is used, the metal sand box is driven on the conveying fixing line 1 through the rotation of the conveying track wheel 101, and when the metal sand box moves to the position above the overturning line 2, the metal sand box stops moving, and at the moment, the overturning line 2 is matched with the clamping line 4, so that the edge of the sand box is limited between the overturning line 2 and the clamping line 4, and falling of the sand box during overturning is avoided; the sand box is the half box of the lower half part, the upper cover of the sand box is opened and separated in the upper process of the production line, and the inverted casting of the sand box can be directly discharged.

Firstly, as shown in fig. 4, the worm motor 810 drives the driving worm 809 to rotate, so that the driving worm 809 drives the worm wheel disc 808 to rotate, when the worm wheel disc 808 rotates, the pressing rotating arms 805 rotate and press downwards, and as the pressing rotating arms 805 are of symmetrical structures, the pressing rotating arms 805 positioned at two sides symmetrically press downwards, so that the split control board 8 keeps moving downwards horizontally, and during the moving downwards of the split control board 8, the positioning springs 804 are gradually pressed and compressed by the clamping roller shafts 802; until the weight-detecting supporting plate 5 contacts with the upper surface of the sand box, and covers the casting.

The limiting contact wheel 103 drives the turning wheel frame 3 to rotate, so that the sand box, the weight detection supporting plate 5, the mounting backboard 6, the split control plate 8 and other structures rotate 180 degrees; because the casting in the sand box is blocked by the weight-to-be-detected supporting plate 5, the casting cannot fall directly along with the overturning and inverted buckling of the sand box; after the turning is completed, the worm motor 810 is reversed so that the pressing arm 805 is rotated and reset to the initial horizontal state, and the casting is positioned on the weight-detecting pallet 5 and gradually separated from the flask as the weight-detecting pallet 5 moves down.

The mounting backboard 6 supports the weight detection supporting plate 5, the weight of the casting on the weight detection supporting plate 5 is detected through the weighing sensor 7, when the weight loss is overlarge, the casting is not complete, and when the weight of the casting is within a set range, the casting is qualified; through the above determination, the deflection direction of the mounting backboard 6 with respect to the split control board 8 is determined, for example, when the cast is qualified, the mounting backboard 6 deflects forward with respect to the split control board 8 so that the cast slides forward on the surface of the weight detection pallet 5, and when the cast is unqualified, the mounting backboard 6 deflects backward with respect to the split control board 8 so that the cast slides backward on the surface of the weight detection pallet 5.

The deflection control of the mounting backboard 6 relative to the split control board 8 is completed through the hydraulic pushing cylinders 603, when the required mounting backboard 6 is kept parallel relative to the split control board 8, the hydraulic pushing cylinders 603 positioned at two sides of the split control board 8 synchronously extend out by the same length, the mounting backboard 6 is supported, the deflection of the mounting backboard 6 is avoided, when the required mounting backboard 6 deflects to one side, only the hydraulic pushing cylinders 603 at the other side need to be controlled to extend continuously, and the hydraulic pushing cylinders 603 at the corresponding side shrink.

In the above operation, when the pressing rotary arm 805 rotates to press down, the pressing tongue 816 will tilt up, and the air chamber piston 813 moves up at this time, and sucks air through the one-way valve 817; when the sand box is turned upside down, the pressing rotating arm 805 is rotated and reset to an initial horizontal state, the pressing tongue plate 816 extrudes and drives the pressing top shaft 815, so that the air chamber piston 813 is pushed to compress, compressed air flows enter the gathering pipeline 819 and are respectively in butt joint with the input air pipes 826 on the front side and the rear side, when the surface of the weight checking support plate 5 is judged to need to slide sideways, the electromagnetic air valve 827 on the corresponding side of the weight checking support plate 5 is controlled to be opened for a certain time and then closed, after the electromagnetic air valve 827 is opened, the compressed air flows are sprayed out through the beam spraying slot 821, and the corresponding side surface of the weight checking support plate 5 is sprayed and cleaned, so that gravel residues on the surface of the weight checking support plate 5 are reduced, and abrasion of the casting and the weight checking support plate 5 during relative sliding is reduced.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a speed reducer box covers sand transfer chain, includes and carries fixed line (1) and corresponds upset line (2) that set up with carrying fixed line (1), the both ends of upset line (2) are fixed respectively and are provided with upset wheel frame (3), the top of upset line (2) is provided with clamping line (4) with upset wheel frame (3) fixed mounting, its characterized in that: the automatic weighing device comprises a turnover wheel frame (3), and is characterized in that a weight detection supporting plate (5) and an installation backboard (6) are arranged between the turnover wheel frame (3), the weight detection supporting plate (5) and the installation backboard (6) are mutually parallel, a weighing sensor (7) is connected between the weight detection supporting plate and the installation backboard, a split control board (8) capable of lifting and moving is arranged above the installation backboard (6), an angle control structure is arranged between the installation backboard (6) and the split control board (8), and the angle control structure can control the installation backboard (6) to deflect relative to the split control board (8).

2. The speed reducer casing sand-lined conveyor line according to claim 1, wherein: limiting plate grooves (801) are formed in the split control plates (8), clamping roller shafts (802) are inserted into the limiting plate grooves (801), spring blind grooves (803) are formed in the inner wall surfaces of the limiting plate grooves (801), positioning springs (804) are arranged in the spring blind grooves (803), and one ends, far away from the spring blind grooves (803), of the positioning springs (804) are propped against the clamping roller shafts (802).

3. The speed reducer casing sand-lined conveyor line according to claim 2, wherein: the clamping roller comprises a clamping roller shaft (802), wherein pressing rotating arms (805) are fixedly arranged at two ends of the clamping roller shaft respectively, worm wheel transverse shafts (806) are fixedly connected between the pressing rotating arms (805), transverse shaft swinging seats (807) are fixedly arranged on a turnover wheel frame (3), the worm wheel transverse shafts (806) are limited to penetrate through the transverse shaft swinging seats (807), and worm wheel discs (808) are fixedly arranged on the worm wheel transverse shafts (806).

4. A reducer casing sand-lined transfer line according to claim 3, characterized in that: the external engagement of worm wheel dish (808) is provided with driving worm (809), the tip of driving worm (809) is provided with worm motor (810) that are used for driving worm (809) rotatory, fixedly on upset rim (3) be provided with extend platform (811), extend platform (811) with worm motor (810) fixed mounting.

5. A reducer casing sand-lined transfer line according to claim 3, characterized in that: the turnover wheel frame (3) is fixedly provided with a pressure air chamber (812), an air chamber piston (813) is arranged in the pressure air chamber (812) in an airtight sliding manner, a return spring (814) is arranged below the air chamber piston (813), a Shi Yading shaft (815) is fixedly arranged on the upper surface of the air chamber piston (813), a pressing tongue plate (816) is fixedly arranged at one end part of the pressing rotating arm (805) far away from the clamping roller shaft (802), and when the pressing rotating arm (805) rotates, the pressing top shaft (815) can be driven in an extrusion manner through the pressing tongue plate (816).

6. The speed reducer casing sand-lined conveyor line of claim 5, wherein: the bottom of pressure air chamber (812) is inlayed and is equipped with check valve (817), check valve (817) makes the air current flow from the external world to in pressure air chamber (812), the bottom intercommunication of pressure air chamber (812) is provided with output tube (818), the intercommunication is provided with on output tube (818) and gathers pipeline (819).

7. The speed reducer casing sand-lined conveyor line of claim 6, wherein: the utility model discloses a device for detecting heavy weight of automobile, including installation backplate (6), including installation backplate (5), beam jet slit (821) that is connected with each other, the below of installation backplate (6) is located the tip position of examining heavy layer board (5) and is provided with lift gas box (820), lift gas box (820) are provided with two sets of, and the symmetric distribution is in the front and back position of components of a whole that can function independently control panel (8), lift gas box (820) are cavity structure, and beam jet slit (821) that communicate each other with above-mentioned cavity are seted up on its surface, the upper surface fixing of lift gas box (820) is provided with gas box main shaft (822), gas box main shaft (822) alternates and stretches out the upper portion of installation backplate (6) through installation backplate (6), the surface of gas box main shaft (822) is located the fixed main shaft clamping ring (823) that is provided with in top of installation backplate (6).

8. The speed reducer casing sand-lined conveyor line of claim 7, wherein: the upper surface fixing of installation backplate (6) is provided with arch frame board (824), gas box main shaft (822) alternates through arch frame board (824), main shaft clamping ring (823) with be provided with arch frame pressure spring (825) between arch frame board (824), the surface intercommunication of lift gas box (820) is provided with input trachea (826), be provided with electromagnetic valve (827) in input trachea (826), input trachea (826) with summarize pipeline (819) intercommunication.

9. The speed reducer casing sand-lined conveyor line according to claim 1, wherein: the upper surface fixed of installation backplate (6) is provided with backplate swivel mount (601), the both ends of components of a whole that can function independently control panel (8) are fixed respectively and are provided with backplate pivot (602), backplate pivot (602) rotatory the inserting establish in backplate swivel mount (601), the fixed hydraulic pressure that is provided with on components of a whole that can function independently control panel (8) promotes jar (603), the telescopic shaft top of hydraulic pressure promotion jar (603) can carry out spacingly and promote installation backplate (6) deflection to installation backplate (6) at the upper surface of installation backplate (6).

10. The speed reducer casing sand-lined conveyor line according to claim 1, wherein: the conveying fixing line (1) is provided with conveying rail wheels (101) on the overturning line (2) and the clamping line (4), an overturning underframe (102) is arranged at the lower part of the conveying fixing line (1), a limiting contact wheel (103) is rotatably arranged in the overturning underframe (102), and the overturning wheel frame (3) is placed on the limiting contact wheel (103) and drives the overturning wheel frame (3) to rotate through rotation of the limiting contact wheel (103).