CN216732361U - Dual-purpose vehicle for producing dung leaking plate - Google Patents

Abstract

The utility model discloses a dual-purpose vehicle for producing dung leaking plates, which comprises an upper beam and portal vertical frames on two sides, wherein a cross beam is arranged below the upper beam and can be connected with the portal vertical frames in a sliding manner; two mold overturning mechanisms are symmetrically arranged on the left and right below the cross beam, each mold overturning mechanism comprises a power box and a turnover box, the power boxes are fixed with the cross beam, and the power boxes are in transmission connection with the turnover boxes and drive the turnover boxes to rotate; two symmetrically-arranged bearing bosses are fixed outside the turnover box, two symmetrical first slide ways are arranged in the turnover box, a slide block is connected in each first slide way in a sliding manner, each slide block is correspondingly connected with an electric push rod, and when the push rod of the electric push rod extends out, a part of the slide block extends out of the turnover box and forms a clamping space with the bearing bosses; the middle part of the cross beam is detachably provided with a supporting plate clamp for clamping a supporting plate through a bolt. The utility model can solve the problem of single function of equipment in the production process of the existing dropping board.

Description

Dual-purpose vehicle for producing dung leaking plate

Technical Field

The utility model relates to the technical field of dung leaking plate processing, in particular to a dual-purpose vehicle for producing dung leaking plates.

Background

In order to keep the pigsty clean and facilitate the automatic cleaning of pig manure, a plurality of modern large-scale pig farms generally use concrete manure leaking plates to build the pigsty, and the manure leaking plates are produced by using moulds; when the dropping board is processed, firstly, a dropping board mould is placed on a vibrating table in a dropping board production and manufacturing area, then a reinforcing mesh is placed on the mould body, concrete is filled in the mould body, the vibrating table is started to vibrate, and after the mould body is vibrated to be compact, the upper part of the mould body is polished; then, using a carrying vehicle to translate to the position above the mold, hoisting the mold integrally, laterally moving to one side, turning over the mold, and then putting the mold on a supporting plate for demolding; the demoulded dung leaking plate is conveyed to a dung leaking plate and a bearing plate placing area by the carrying vehicle along with the bearing plate; finally, the dropping-board is piled up for curing.

In the equipment of present production hourglass dropping board, no matter demoulding equipment or haulage equipment, its function all is more single, and demoulding equipment can only be used for the drawing of patterns, and haulage equipment can only be used for the transport, and an equipment need shuttle repeatedly between different processes sometimes, leads to single process time to lengthen, and work efficiency is low, is unfavorable for production.

Disclosure of Invention

The utility model aims to provide a dual-purpose vehicle for producing a dung leaking plate, which is used for solving the problem of single function of equipment in the existing dung leaking plate production process.

In order to solve the problems, the utility model adopts the following technical scheme:

a dual-purpose vehicle for producing dung leaking plates comprises a vehicle frame, wherein the vehicle frame is forward in the advancing direction of the vehicle frame and comprises an upper beam and portal vertical frames on two sides, two ends of the upper beam are fixedly connected with the portal vertical frames on the two sides respectively, a cross beam is arranged below the upper beam, two ends of the cross beam are connected with the portal vertical frames on the corresponding sides in a sliding mode respectively, a lifting mechanism is installed on the upper beam, and the movable end of the lifting mechanism is connected with the cross beam;

two mold overturning mechanisms are symmetrically arranged below the cross beam in the left-right direction, each mold overturning mechanism comprises a power box and a turnover box, the power boxes are fixed on the lower surface of the cross beam, power driving devices are installed in the power boxes, and the output ends of the power driving devices are in transmission connection with the turnover boxes and drive the turnover boxes to rotate;

the turnover box is of a cuboid structure, two symmetrically-arranged bearing bosses are fixed on the outer portion of the turnover box, two symmetrical first slide ways are arranged in the turnover box, the first slide ways are parallel to the bearing bosses, a slide block is connected in each first slide way in a sliding mode, each slide block is correspondingly connected with an electric push rod, and when the push rods of the electric push rods stretch out, a part of each slide block stretches out of the turnover box and forms a clamping space with the bearing bosses;

the crossbeam mid-mounting has the layer board anchor clamps that are used for pressing from both sides to get the layer board, layer board anchor clamps include two support claws that can open and shut, and when two support claws opened, two support claws were located the front and back both sides of layer board respectively, and when two support claws closed, two support claws and the long limit contact of layer board.

Optionally, a lifting slide is vertically installed on the portal vertical frame, lifting guide wheels are respectively installed at two ends of the cross beam, and the lifting guide wheels walk in the lifting slide.

Optionally, the power driving device includes a motor and a reduction gearbox, an output shaft of the reduction gearbox is marked as a main shaft, the main shaft is a hollow shaft, the main shaft includes a thread section, a smooth shaft section and a square shaft section which are fixedly connected in sequence, the smooth shaft section of the main shaft is rotatably connected with the power box, a limit nut is installed on the thread section, a limit step is arranged between the smooth shaft section and the square shaft section, a square hole is formed in the turnover box, the square shaft section is fixedly installed in the square hole, and a radial hole communicated with a central hole of the main shaft is further formed in the square shaft section.

Optionally, the first slideway and the slider are both square structures.

Optionally, the turnover box is of a hollow structure, the electric push rod is installed in the turnover box, one long edge of the turnover box is detachably connected with a bottom cover, a hinge table used for installing the electric push rod is fixed in the middle of the inner side of the bottom cover, side sliding plates are respectively fixed on two sides of the bottom cover, the other end of each side sliding plate is detachably connected with a bottom sliding plate, and the first slide way is enclosed by the inner surface of the bottom cover, the two side sliding plates and the bottom sliding plate.

Optionally, the threaded section of the main shaft is fitted with slip rings.

Optionally, the layer board anchor clamps still include support arm, rotor arm and two sets of first pneumatic cylinders that the symmetry set up, the support arm is equipped with two at least, and the support arm sets up along the fore-and-aft direction, and each support arm arranges along crossbeam length direction, and the both ends of every support arm articulate one respectively the rotor arm, each support arm pass through first connecting rod fixed connection, the head rod passes through bolt fixed mounting at the crossbeam middle part, and second connecting rod fixed connection is passed through on the rotor arm top with one side, rotor arm bottom fixed connection the support claw, the one end of first pneumatic cylinder articulates on the head rod, and the other end of first pneumatic cylinder articulates on the second connecting rod.

Optionally, the lifting mechanism is a winch or a hydraulic propulsion mechanism.

Optionally, the hydraulic propulsion mechanism includes a second hydraulic cylinder, a moving arm, and two guide wheel mounting arms, the upper beam is a rectangular frame structure, the two guide wheel mounting arms are both fixedly connected to the upper beam and located at two sides of the moving arm, respectively, the moving arm is slidably connected to the upper beam, one end of the second hydraulic cylinder is hinged to one of the guide wheel mounting arms, and the other end of the second hydraulic cylinder is hinged to the moving arm;

install left guide pulley on the left guide pulley installation arm, install first right guide pulley and second right guide pulley on the guide pulley installation arm on right side, be fixed with wire rope on the shifting arm, wire rope's wherein one end is walked around behind first right guide pulley and is downhung and fixed connection on the crossbeam, wire rope's the other end is walked around in proper order behind second right guide pulley and the left guide pulley that corresponds and is downhung and fixed connection on the crossbeam, the rope clip at wire rope both ends is connected respectively on the crossbeam.

Optionally, a pair of second slideways is installed on the upper beam, the second slideways are arranged along the length direction of the upper beam, two sides of the moving arm are rotatably connected with propelling wheels through supporting shafts, and the propelling wheels are rolled in the second slideways.

By adopting the technical scheme, the utility model has the following advantages:

when the mould is used, the mould-turning mechanism can be used for supporting the excrement-leaking plate mould during demoulding, the excrement-leaking plate mould is turned over by the mould-turning mechanism for demoulding, and after demoulding, the supporting plate clamp can be used for immediately stacking the supporting plate and the excrement-leaking plate demoulded on the supporting plate to the excrement-leaking plate and the supporting plate placing area. Thereafter, the pallet clamp of the present invention can also be used to transport an empty pallet to below the demolding position.

The utility model not only can be used for the demoulding process, but also can integrally carry the dung leaking plate and the supporting plate after demoulding, can also carry an empty supporting plate, has various functions, can effectively avoid occupying other working procedure time, and improves the working efficiency.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a right side view of FIG. 1;

FIG. 3 is a schematic structural view of the mold-flipping mechanism of the present invention;

FIG. 4 is a schematic view of the construction of the roll-over box of FIG. 3;

FIG. 5 is a schematic view of the bottom cover of FIG. 4;

FIG. 6 is a top view of the pallet clamp of the present invention;

fig. 7 is a top view of the lifting mechanism of the present invention.

Reference numerals: 1. an upper beam, 2, a walking ground beam, 3, a door type vertical frame, 31, a lifting slide way, 32, a cross beam, 33 and a lifting guide wheel;

4. the power box 41, the motor 42, the reduction box 43, the main shaft 44, the limit nut 45, the limit step 46 and the radial hole;

5. the turnover box 51, a bearing boss 52, a first slide way 53, a slide block 54, an electric push rod 55, a square hole 56, a bottom cover 561, a hinge platform 562, a side slide plate 563, a bottom slide plate 57 and a side cover;

6. the device comprises a supporting claw 61, a supporting arm 62, a rotating arm 63, a first hydraulic cylinder 64, a first connecting rod 65 and a second connecting rod;

7. the device comprises a steel wire rope 71, a second hydraulic cylinder 72, a moving arm 73, a guide wheel mounting arm 74, a left guide wheel 75, a first right guide wheel 76, a second right guide wheel 78, a second slideway 79 and a propelling wheel.

Detailed Description

In order to make the technical purpose, technical solutions and advantages of the present invention more clear, the technical solutions of the present invention are further described below with reference to fig. 1 to 7 and specific embodiments.

An embodiment of a dual-purpose vehicle for producing a dung leaking plate comprises the following steps:

a dual-purpose vehicle for producing dung leakage plates comprises a vehicle frame and walking ground beams 3 arranged on two sides of the bottom of the vehicle frame, wherein walking wheels are arranged at two ends of each walking ground beam 3, the walking wheels are rolled on tracks arranged on the ground, the advancing direction of the vehicle frame is taken as the forward direction, the vehicle frame comprises an upper beam 1 and portal vertical frames 3 on two sides, two ends of the upper beam 1 are fixedly connected with the portal vertical frames 3 on two sides respectively, a cross beam 32 is arranged below the upper beam 1, two ends of the cross beam 32 are connected with the portal vertical frames 3 on the corresponding sides respectively in a sliding manner, a lifting mechanism is arranged on the upper beam 1, and the movable end of the lifting mechanism is connected with the cross beam 32;

two mold overturning mechanisms are symmetrically arranged on the left and right below the cross beam 32, as shown in fig. 3, each mold overturning mechanism comprises a power box 4 and an overturning box 5, the power box 4 is fixed on the lower surface of the cross beam 32, a power driving device is installed in the power box 4, and the output end of the power driving device is in transmission connection with the overturning box 5 and drives the overturning box 5 to rotate;

as shown in fig. 4, the turnover box 5 is a rectangular parallelepiped structure, two symmetrically arranged bearing bosses 51 are fixed outside the turnover box 5, two symmetrical first slide ways 52 are arranged in the turnover box 5, the first slide ways 52 are parallel to the bearing bosses 51, a slide block 53 is slidably connected in each first slide way 52, each slide block 53 is correspondingly connected with an electric push rod 54, when a push rod of the electric push rod 54 extends out, a part of the slide block 53 extends out of the turnover box 5 and forms a clamping space with the bearing bosses 51;

the middle part of the cross beam 32 is detachably provided with a supporting plate clamp for clamping a supporting plate through a bolt, as shown in fig. 6, the supporting plate clamp comprises two supporting claws 6 which can be opened and closed, when the two supporting claws 6 are opened, the two supporting claws 6 are respectively positioned at the front side and the rear side of the supporting plate, and when the two supporting claws 6 are closed, the two supporting claws 6 are contacted with the long edge of the supporting plate.

As one embodiment of the present invention, specifically, a lifting slide 31 is vertically installed on the portal frame 3, lifting guide wheels 33 are respectively installed at two ends of the cross beam 32, and the lifting guide wheels 33 run in the lifting slide 31.

As one embodiment of the present invention, specifically, as shown in fig. 3, the power driving device includes a motor 41 and a reduction box 42, an output shaft of the reduction box 42 is denoted as a main shaft 43, the main shaft 43 is a hollow shaft, the main shaft 43 includes a threaded section, a smooth shaft section, and a square shaft section which are fixedly connected in sequence, the smooth shaft section of the main shaft 43 is rotatably connected with the power box 4 through a bearing, a limit nut 44 is installed on the threaded section, a limit step 45 is arranged between the smooth shaft section and the square shaft section, a square hole 55 is opened on the turnover box 5, the square shaft section is fixedly installed in the square hole 55, and a radial hole 46 communicated with a central hole of the main shaft 43 is further opened on the square shaft section. The arrangement of the radial hole 46 and the central hole of the main shaft 43 is convenient for leading out a power line of the electric push rod 54, and the square shaft is more stable in rotation compared with a round shaft.

As one of the embodiments of the present invention, in particular, the first slideway 52 and the slider 53 are both of a square structure. Slider 53 is square structure, and then the upper and lower two sides of slider 53 all can regard as the bearing plane, and the bearing area is bigger than circular structure, is convenient for centre gripping more steadily and bearing hourglass dropping board mould.

As one embodiment of the present invention, specifically, the turnover box 5 may be a solid structure or a hollow structure, in this embodiment, the turnover box 5 is a hollow structure, as shown in fig. 4 and 5, the electric push rods 54 are all installed in the turnover box 5, one long side of the turnover box 5 is detachably connected with a bottom cover 56 through bolts, two short sides of the turnover box 5 only leave an outlet of the first slide way 52, a portion of the short side, other than the outlet of the first slide way 52, may be fixedly connected with a side cover 57 for closing, a hinge table 561 for installing the electric push rods 54 is fixed at a middle portion of an inner side of the bottom cover 56, side sliding plates 562 are respectively fixed at two sides of the bottom cover 56, a bottom sliding plate 563 is detachably connected at the other end of the side sliding plate 562, and the first slide way 52 is surrounded by an inner surface of the bottom cover 56, two side sliding plates 562 and one bottom sliding plate 563. The turnover box 5 is of a hollow structure, so that materials are saved, heat dissipation of the electric push rod 54 is facilitated, and the turnover box 5 is integrally of a detachable structure and is convenient to maintain and overhaul.

As one of the embodiments of the present invention, specifically, a slip ring is mounted on the threaded section of the main shaft 43. The power cord of the electric push rod 54 can be directly connected on the wiring terminal of the collecting ring after penetrating out of the central hole of the main shaft 43. The slip ring can ensure the power supply of the electric push rod 54 when the electric push rod 54 rotates along with the overturning box 5, and the slip ring is of the existing structure and is not described in detail.

As one embodiment of the present invention, specifically, as shown in fig. 6, the pallet fixture further includes at least two support arms 61, two rotating arms 62, and two sets of first hydraulic cylinders 63 symmetrically disposed, where the support arms 61 are disposed along the front-rear direction, and the support arms 61 are arranged along the length direction of the cross beam 32, the front end and the rear end of each support arm 61 are respectively hinged to one of the rotating arms 62, the support arms 61 are fixedly connected by a first connecting rod 64, the first connecting rod 64 is fixedly mounted in the middle of the cross beam 32 by a bolt, the top ends of the rotating arms 62 on the same side are fixedly connected by a second connecting rod 65, the bottom end of the rotating arm 62 is fixedly connected to the supporting claw 6, one end of the first hydraulic cylinder 63 is hinged to the first connecting rod 64, and the other end of the first hydraulic cylinder 63 is hinged to the second connecting rod 65.

As one of the embodiments of the present invention, specifically, the lifting mechanism is a winch or a hydraulic propulsion mechanism.

As one embodiment of the present invention, specifically, as shown in fig. 7, the hydraulic propulsion mechanism includes a second hydraulic cylinder 71, a moving arm 72 and two guide wheel mounting arms 73, the upper beam 1 is a rectangular frame structure, the two guide wheel mounting arms 73 are both fixedly connected to the upper beam 1 and respectively located at the left and right sides of the moving arm 72, the moving arm 72 is slidably connected to the upper beam 1, one end of the second hydraulic cylinder 71 is hinged to one of the guide wheel mounting arms 73, and the other end of the second hydraulic cylinder 71 is hinged to the moving arm 72;

a left guide wheel 74 is mounted on the guide wheel mounting arm 73 on the left side, a first right guide wheel 75 and a second right guide wheel 76 are mounted on the guide wheel mounting arm 73 on the right side, a steel wire rope 7 is fixed on the moving arm 72, one end of the steel wire rope 7 runs around the first right guide wheel 75 and then falls downwards and is fixedly connected to the cross beam 32, and the other end of the steel wire rope 7 runs around the second right guide wheel 76 and the corresponding left guide wheel 74 in sequence and then falls downwards and is fixedly connected to the cross beam 32.

In this embodiment, two sets of left guide wheel 74, first right guide wheel 75, second right guide wheel 76 and steel cable 7 are provided, and each guide wheel is mounted on guide wheel mounting arm 73 through a guide wheel bracket, so that the hydraulic propulsion mechanism can keep stress balance when acting.

Specifically, as one embodiment of the present invention, a pair of second slideways 78 are installed on the upper beam 1, the second slideways 78 are arranged along the length direction of the upper beam 1, two sides of the moving arm 72 are rotatably connected with propelling wheels 79 through a support shaft, and the propelling wheels 79 roll in the second slideways 78.

When the second hydraulic cylinder 71 is not operated, the second slide way 78 and the second hydraulic cylinder 71 are respectively located at the left half part and the right half part of the upper beam 1, the moving arm 72 moves along the second slide way 78 under the action of the second hydraulic cylinder 71, when the second hydraulic cylinder 71 extends out, the moving arm 72 moves to the left, the fixed part of the steel wire rope 7 moves to the left, both ends of the steel wire rope 7 move upwards, the beam 32 can be driven to move upwards, and the die-turning mechanism or the supporting plate clamp moves upwards integrally. Otherwise, the mold overturning mechanism or the supporting plate clamp can be moved downwards.

The specific structure of the hydraulic propulsion mechanism can refer to a Chinese patent with an authorization publication number of CN211250678U, namely a hydraulic propulsion device for a forward running vehicle of a dung leaking plate.

The working principle is as follows: when the finished excrement leaking plate needs to be demoulded, the whole vehicle runs to an excrement leaking plate production manufacturing area, the cross beam 32 drives the overturning box 5 to descend through the lifting mechanism, the electric push rod 54 on the overturning box 5 extends out, the clamping plates on the edges of the left side and the right side of the excrement leaking plate clamp are positioned between the bearing boss 51 of the overturning box 5 and the extending slide block 53, and the excrement leaking plate clamp can be supported when the overturning box 5 is lifted; the whole vehicle moves to the position above the empty supporting plate in the demoulding area, the overturning box 5 overturns, the excrement leaking plate can be demoulded onto the empty supporting plate, and then the whole vehicle moves to a proper position, and the excrement leaking plate mould is overturned and then put down.

After demolding is finished, the whole vehicle moves to a demolding position, a first hydraulic cylinder 63 in the supporting plate fixture extends out, so that the rotating arms 62 on two sides rotate around the supporting arms 61, the two supporting claws 6 are closed and clamp the long edges of the supporting plate, and the dung leaking plate and the supporting plate are conveyed to a dung leaking plate and supporting plate placing area to be stacked.

Finally, the pallet clamp of the utility model can be used to clamp an empty pallet to the demoulding area to wait for next demoulding.

The above embodiments are not intended to limit the shape, material, structure, etc. of the present invention in any way, and any simple modifications, equivalent changes and modifications made to the above embodiments according to the technical essence of the present invention are within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a dual-purpose car of dropping board is leaked in production, includes the frame to the advancing direction of frame is forward, and the frame includes the portal vertical frame of upper beam and both sides, the both ends of upper beam respectively with the portal vertical frame fixed connection of both sides, its characterized in that: a cross beam is arranged below the upper beam, two ends of the cross beam are respectively connected with the corresponding side door type vertical frames in a sliding manner, a lifting mechanism is arranged on the upper beam, and the movable end of the lifting mechanism is connected with the cross beam;

two mold overturning mechanisms are symmetrically arranged on the left and right below the cross beam, each mold overturning mechanism comprises a power box and a turnover box, the power boxes are fixed on the lower surface of the cross beam, power driving devices are installed in the power boxes, and the output ends of the power driving devices are in transmission connection with the turnover boxes and drive the turnover boxes to rotate;

the turnover box is of a cuboid structure, two symmetrically-arranged bearing bosses are fixed on the outer portion of the turnover box, two symmetrical first slide ways are arranged in the turnover box, the first slide ways are parallel to the bearing bosses, a slide block is connected in each first slide way in a sliding mode, each slide block is correspondingly connected with an electric push rod, and when the push rods of the electric push rods stretch out, a part of each slide block stretches out of the turnover box and forms a clamping space with the bearing bosses;

the crossbeam mid-mounting has the layer board anchor clamps that are used for pressing from both sides to get the layer board, layer board anchor clamps include two support claws that can open and shut, and when two support claws opened, two support claws were located the front and back both sides of layer board respectively, and when two support claws closed, two support claws and the long limit contact of layer board.

2. The dual-purpose vehicle for producing the dung leaking plate of claim 1, wherein: the vertical lifting slide way is arranged on the portal vertical frame along the vertical direction, the two ends of the cross beam are respectively provided with a lifting guide wheel, and the lifting guide wheel walks in the lifting slide way.

3. The dual-purpose vehicle for producing the dung leaking plate of claim 1, wherein: the power driving device comprises a motor and a reduction gearbox, an output shaft of the reduction gearbox is marked as a main shaft, the main shaft is a hollow shaft, the main shaft comprises a threaded section, a smooth shaft section and a square shaft section which are fixedly connected in sequence, the smooth shaft section of the main shaft is rotatably connected with the power box, a limiting nut is installed on the threaded section, a limiting step is arranged between the smooth shaft section and the square shaft section, a square hole is formed in the turnover box, the square shaft section is fixedly installed in the square hole, and a radial hole communicated with a central hole of the main shaft is further formed in the square shaft section.

4. The dual-purpose vehicle for producing the dung leaking plate of claim 1, wherein: the first slide way and the slide block are both of square structures.

5. The dual-purpose vehicle for producing the dung leaking plate of claim 1, wherein: the turnover box is of a hollow structure, the electric push rod is installed in the turnover box, one long edge of the turnover box is detachably connected with a bottom cover, a hinge table used for installing the electric push rod is fixed in the middle of the inner side of the bottom cover, side sliding plates are fixed on two sides of the bottom cover respectively, the other end of each side sliding plate is detachably connected with a bottom sliding plate, and the first slide way is defined by the inner surface of the bottom cover, the two side sliding plates and the bottom sliding plate.

6. A dual-purpose vehicle for producing a dung leaking plate according to claim 3, characterized in that: and a collecting ring is arranged on the threaded section of the main shaft.

7. The dual-purpose vehicle for producing the dung leaking plate of claim 1, wherein: the support plate fixture further comprises support arms, rotating arms and two sets of first hydraulic cylinders symmetrically arranged, the support arms are at least provided with two, the support arms are arranged along the front and back direction, the support arms are arranged along the length direction of the beam, two ends of each support arm are respectively hinged with one rotating arm, each support arm is fixedly connected with one connecting rod, the connecting rods are fixedly arranged in the middle of the beam through bolts, the top ends of the rotating arms on the same side are fixedly connected with the second connecting rod, the bottom ends of the rotating arms are fixedly connected with the supporting claws, one ends of the first hydraulic cylinders are hinged to the first connecting rods, and the other ends of the first hydraulic cylinders are hinged to the second connecting rods.

8. A convertible vehicle for producing manure leaking plates as claimed in any one of claims 1 to 7, characterized in that: the lifting mechanism is a winch or a hydraulic propelling mechanism.

9. The dual-purpose vehicle for producing the dung leaking plate of claim 8, wherein: the hydraulic propulsion mechanism comprises a second hydraulic cylinder, a moving arm and two guide wheel mounting arms, the upper beam is of a rectangular frame structure, the two guide wheel mounting arms are fixedly connected with the upper beam and are respectively positioned on two sides of the moving arm, the moving arm is connected with the upper beam in a sliding manner, one end of the second hydraulic cylinder is hinged with one of the guide wheel mounting arms, and the other end of the second hydraulic cylinder is hinged with the moving arm;

install left guide pulley on the left guide pulley installation arm, install first right guide pulley and second right guide pulley on the guide pulley installation arm on right side, be fixed with wire rope on the shifting arm, wire rope's wherein one end is walked around behind first right guide pulley and is downhung and fixed connection on the crossbeam, wire rope's the other end is walked around in proper order behind second right guide pulley and the left guide pulley that corresponds and is downhung and fixed connection on the crossbeam, the rope clip at wire rope both ends is connected respectively on the crossbeam.

10. A convertible vehicle for producing a dung leaking plate as claimed in claim 9, characterized in that: the upper beam is provided with a pair of second slideways which are arranged along the length direction of the upper beam, the two sides of the movable arm are rotatably connected with propelling wheels through supporting shafts, and the propelling wheels are rolled in the second slideways.

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