CN216190933U - A drawing of patterns carrier for producing leak dropping board - Google Patents

Abstract

The utility model discloses a demoulding carrier for producing dung leaking plates, which comprises an upper beam, door type vertical frames on two sides and demoulding and overturning mechanisms respectively corresponding to the door type vertical frames on the two sides, wherein each demoulding and overturning mechanism comprises a lifting box and an overturning box, and the lifting box is connected to the door type vertical frames in a sliding manner; the lifting box is provided with a power driving device, and the output end of the power driving device is in transmission connection with the overturning box and drives the overturning box to rotate; the middle parts of the two ends of the turnover box are respectively fixed with a bearing boss, four first slide ways are arranged inside the turnover box, each first slide way is parallel to the bearing boss, the first slide ways are respectively positioned at the four corners of the turnover box, 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 boss. The utility model can solve the problem that the conventional dropping board is easy to damage in the demoulding process.

Description

A drawing of patterns carrier for producing leak dropping board

Technical Field

The utility model relates to the technical field of dung leaking plate processing, in particular to a demoulding carrier for producing dung leaking plates.

Background

In order to keep pigsties clean and facilitate automatic cleaning of pig manure, a plurality of modern large-scale pig farms generally build the pigsties by using concrete manure leaking plates which 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 prior art, other structures are not used for protection when the mold is turned over and demolded, and the just processed excrement leaking plate has unstable hardness and is possibly damaged in the demolding process.

Disclosure of Invention

The utility model aims to provide a demoulding carrier for producing a dung leaking plate, which is used for solving the problem that the existing dung leaking plate is easy to damage in the demoulding process.

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

a demoulding carrier for producing dung leakage plates comprises a frame, wherein the frame is forward in the advancing direction of the frame and comprises an upper beam and two side door type vertical frames, two ends of the upper beam are fixedly connected with the two side door type vertical frames respectively, the demoulding carrier further comprises two demoulding turnover mechanisms corresponding to the two side door type vertical frames respectively, each demoulding turnover mechanism comprises a lifting box and a turnover box, the lifting box is connected to the door type vertical frames in a sliding mode, a lifting mechanism is installed on the upper beam, and the movable end of the lifting mechanism is connected with the lifting box;

the lifting box is provided with a power driving device, and the output end of the power driving device is in transmission connection with the overturning box and drives the overturning box to rotate;

the turnover box is of a cuboid structure, a bearing boss is fixed to the middle portions of the two ends of the turnover box respectively, four first slides are arranged inside the turnover box and are parallel to the bearing boss, the first slides are located in the four corners of the turnover box respectively, a sliding block is connected to each first slide in a sliding mode, each sliding 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 sliding block stretches out of the turnover box and forms a clamping space with the bearing boss.

Optionally, a lifting slide is vertically installed on the portal vertical frame, a lifting guide wheel is installed on the lifting box, and the lifting guide wheel travels 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 lifting 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 center of the overturning 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 electric push rod is installed in the turnover box, the turnover box includes two side plates which are arranged oppositely, long sides of the two side plates are detachably connected with a box cover respectively, a hinge table for installing the electric push rod is fixed in the middle of the inner side of the box cover, side sliding plates are fixed on two sides of the box cover respectively, the other ends of the side sliding plates are detachably connected with a bottom sliding plate, and the first slide way is enclosed by the inner surface of the box 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 lifting mechanism is a winch or a hydraulic propulsion mechanism.

Optionally, the hydraulic propulsion mechanism includes a 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 with the upper beam and respectively located at two sides of the moving arm, the moving arm is slidably connected with the upper beam, one end of the hydraulic cylinder is hinged to one of the guide wheel mounting arms, and the other end of the 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 boom, wire rope's wherein one end is walked around behind first right guide pulley and is downhung and fixed connection on the lift case, wire rope's the other end is walked around in proper order behind second right guide pulley and the corresponding left guide pulley and is downhung and fixed connection on the lift case, the rope clip at wire rope both ends is connected respectively on the lift case.

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 supporting plate can be attached to the excrement leaking plate mould and then turned over, the working efficiency is higher in the mode, and meanwhile, compared with the traditional demoulding process, the excrement leaking plate cannot fall to the ground due to insufficient hardness because the supporting plate is turned over along with the excrement leaking plate mould, and the demoulding yield can be effectively improved.

The utility model can be used for demoulding, can also be used for conveying the supporting plate and has multiple functions.

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 demold and turnover mechanism of the present invention;

FIG. 4 is a left side view of FIG. 3;

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

FIG. 6 is a schematic view of the spindle of FIG. 3;

FIG. 7 is a top view of the lift mechanism of the present invention;

FIG. 8 is a schematic view of the relative positions of the tip-over box and the dropplate mold and carrier of the present invention;

fig. 9 is a top view of fig. 8.

Reference numerals: 1. an upper beam, 2, a walking ground beam, 3, a door type vertical frame, 31 and a lifting slideway;

4. the lifting device comprises a lifting box 41, a motor 42, a reduction box 43, a main shaft 44, a limiting nut 45, a limiting step 46, a radial hole 47 and a lifting guide wheel;

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

7. a steel wire rope 71, a 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;

8. a dropping board leaking mould 9 and a supporting board.

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 9 and specific embodiments.

An embodiment of a demolding cart for producing a dung leaking plate:

a demoulding carrier for producing dropping-board comprises a frame and walking ground beams 2 arranged on two sides of the bottom of the frame, walking wheels are arranged at two ends of each walking ground beam 2, the walking wheels are rolled on tracks arranged on the ground, the advancing direction of the frame is taken as the forward direction, the 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, the demoulding turnover mechanism also comprises two demoulding turnover mechanisms respectively corresponding to the portal vertical frames 3 on two sides, each demoulding turnover mechanism comprises a lifting box 4 and a turnover box 5, the lifting box 4 is connected to the portal vertical frames 3 in a sliding mode, a lifting mechanism is arranged on the upper beam 1, and the movable end of the lifting mechanism is connected with the lifting box 4;

the lifting box 4 is provided with a power driving device, and the output end of the power driving device is in transmission connection with the turnover box 5 and drives the turnover box 5 to rotate;

as shown in fig. 4, the turnover box 5 is a rectangular parallelepiped structure, two bearing bosses 51 are respectively fixed at the middle parts of two ends of the turnover box 5, four first slides 52 are provided inside the turnover box 5, each first slide 52 is parallel to the bearing bosses 51, the first slides 52 are respectively located at four corners of the turnover box 5, a slide block 53 is connected in each first slide 52 in a sliding manner, 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 each slide block 53 extends out of the turnover box 5 and forms a clamping space with the bearing bosses 51.

As one embodiment of the present invention, specifically, as shown in fig. 2, a lifting slide 31 is vertically installed on the portal frame 3, a lifting guide wheel 47 is installed on the lifting box 4, and the lifting guide wheel 47 travels in the lifting slide 31. The upper and lower parts of the lifting box 4 are respectively provided with a pair of lifting guide wheels 47, so that the lifting is more stable.

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 lifting 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 formed in the center of 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 formed 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. The 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 and bearing leak dropping board mould 8 more steadily.

As one embodiment of the present invention, specifically, the electric push rods 54 are all installed in the turnover box 5, the turnover box 5 may be a solid structure or a hollow structure, in this embodiment, as shown in fig. 4 to 6, the turnover box 5 includes two side plates 57 arranged oppositely, long sides of the two side plates 57 are respectively detachably connected with a box cover 56 through bolts, a hinge platform 561 for installing the electric push rods 54 is fixed at a middle portion of an inner side of the box cover 56, side sliding plates 562 are respectively fixed at two sides of the box cover 56, the other end of the side sliding plate 562 is detachably connected with a bottom sliding plate 563, and an inner surface of the box cover 56, the two side sliding plates 562 and the bottom sliding plate 563 enclose the first slideway 52. 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, the lifting mechanism is a winch or a hydraulic propulsion mechanism, and a hydraulic cylinder or the like may also be used.

As one embodiment of the present invention, specifically, as shown in fig. 7, the hydraulic propulsion mechanism includes a 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 are 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 hydraulic cylinder 71 is hinged to one of the guide wheel mounting arms 73, and the other end of the hydraulic cylinder 71 is hinged to the moving arm 72;

install left guide pulley 74 on the guide pulley installation arm 73 of left side, install first right guide pulley 75 and second right guide pulley 76 on the guide pulley installation arm 73 of right side, be fixed with wire rope 7 on the removal arm 72, wherein one end of wire rope 7 hangs down and fixed connection on lifting box 4 after bypassing first right guide pulley 75, the other end of wire rope 7 hangs down and fixed connection on lifting box 4 after bypassing second right guide pulley 76 and the left guide pulley 74 that corresponds in proper order, the rope clip at wire rope 7 both ends is connected respectively on lifting box 4.

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 hydraulic cylinder 71 does not work, the second slide way 78 and the hydraulic cylinder 71 are respectively positioned 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 hydraulic cylinder 71, when the hydraulic cylinder 71 extends out, the moving arm 72 moves leftwards, the fixed part of the steel wire rope 7 moves leftwards along with the moving arm, both ends of the steel wire rope 7 move upwards, the lifting box 4 can be driven to move upwards, and the demoulding and overturning mechanism moves upwards integrally. Otherwise, the demoulding turnover mechanism can move 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.

When the excrement dropping board mould is used, referring to fig. 8 and 9, the supporting board 9 can be attached to the excrement dropping board mould 8 and then turned over.

When the turnover box works, a frame runs along a ground track through the running ground beam 2, the whole car runs to the position where the supporting plate 9 is placed, the lifting mechanism is started to enable the demolding turnover mechanism to move downwards, after the demolding turnover mechanism is in place, the two bearing bosses 51 on the same turnover box 5 are located in the front-back horizontal direction, the two electric push rods 54 located on the upper side of the connecting line of the two bearing bosses 51 are marked as first electric push rods 54, and the two electric push rods 54 located on the lower side of the connecting line of the two bearing bosses 51 are marked as second electric push rods 54.

At this time, the pallet 9 is clamped first, specifically: the second electric push rods 54 in the turning boxes 5 on the left side and the right side act to drive the sliding blocks 53 to extend out to clamp the supporting plate 9, and at the moment, the edge clamping grooves of the supporting plate 9 are located between the bearing bosses 51 and the sliding blocks 53 below.

The pallet 9 is then turned over, specifically: the demoulding turnover mechanism is lifted through the lifting mechanism, the power driving device in the lifting box 4 acts to turn the turnover box 5 over for 180 degrees, the supporting plate 9 and the second electric push rod 54 rotate to the upper side along with the turnover box, and the working surface of the supporting plate 9 faces downwards.

Thereafter, the dropplate mould 8 is clamped, specifically: the whole vehicle is moved above the excrement leaking plate mold 8, the demolding turnover mechanism is moved downwards through the lifting mechanism, the supporting plate 9 falls above the excrement leaking plate mold 8, and the first electric push rods 54 in the turnover boxes 5 on the left side and the right side act to drive the sliding block 53 to extend out to clamp the excrement leaking plate mold 8.

Finally, turning over and demoulding, specifically: make drawing of patterns tilting mechanism rise through hoist mechanism, whole car moves to suitable position, make 5 upset 180 degrees in upset case, layer board 9 is located excrement-leaking plate mould 8 below this moment, make drawing of patterns tilting mechanism whereabouts again, until layer board 9 falls subaerial, in the upset case 5 of the left and right sides, the action of second electric putter 54 of centre gripping layer board 9, corresponding slider 53 withdrawal loosens, loosen layer board 9, and simultaneously, the excrement-leaking plate is from the drawing of patterns in excrement-leaking plate mould 8, the excrement-leaking plate after the drawing of patterns directly drops on putting layer board 9.

After the upset drawing of patterns is accomplished, make drawing of patterns tilting mechanism rise, whole car operation places the position to hourglass dropping board mould 8, makes upset case 5 180 degrees once more, with the higher authority of hourglass dropping board mould 8 up, transfers hourglass dropping board mould 8 again, first electric putter 54 action afterwards loosens hourglass dropping board mould 8, puts fixed position with the mould, carries out the preparation of a lower hourglass dropping board.

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

Claims (9)

1. The utility model provides a drawing of patterns carrier for producing leak dropping board, includes the frame to the direction of travel of frame is forward, and the frame includes the gate-type grudging post of upper beam and both sides, the both ends of upper beam respectively with the gate-type grudging post fixed connection of both sides, its characterized in that: the lifting mechanism is arranged on the upper beam, and the movable end of the lifting mechanism is connected with the lifting box;

the lifting box is provided with a power driving device, and the output end of the power driving device is in transmission connection with the overturning box and drives the overturning box to rotate;

the turnover box is of a cuboid structure, a bearing boss is fixed to the middle portions of the two ends of the turnover box respectively, four first slides are arranged inside the turnover box and are parallel to the bearing boss, the first slides are located in the four corners of the turnover box respectively, a sliding block is connected to each first slide in a sliding mode, each sliding 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 sliding block stretches out of the turnover box and forms a clamping space with the bearing boss.

2. The demolding trolley for producing a dung leaking plate as claimed in claim 1, wherein: the door type vertical frame is vertically provided with a lifting slide way, the lifting box is provided with a lifting guide wheel, and the lifting guide wheel travels in the lifting slide way.

3. The demolding trolley for producing a dung leaking plate as claimed in 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 lifting 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 center of the overturning 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 demolding trolley for producing a dung leaking plate as claimed in claim 1, wherein: the first slide way and the slide block are both of square structures.

5. The demolding trolley for producing a dung leaking plate as claimed in claim 1, wherein: the electric push rod is installed in the turnover box, the turnover box comprises two side plates which are arranged oppositely, long edges of the two side plates are detachably connected with a box cover respectively, a hinged platform used for installing the electric push rod is fixed in the middle of the inner side of the box cover, side sliding plates are fixed on two sides of the box cover respectively, the other ends of the side sliding plates are detachably connected with a bottom sliding plate, and the inner surface of the box cover, the two side sliding plates and the bottom sliding plate are enclosed to form the first slide way.

6. The demolding cart for producing a dung leaking plate as claimed in claim 3, wherein: and a collecting ring is arranged on the threaded section of the main shaft.

7. A trolley for demoulding for the production of manure leaking plates according to any of the claims from 1 to 6, characterized in that: the lifting mechanism is a winch or a hydraulic propelling mechanism.

8. The demold cart for producing manure drain as claimed in claim 7, wherein: the hydraulic propelling mechanism comprises a 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 hydraulic cylinder is hinged with one of the guide wheel mounting arms, and the other end of the 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 boom, wire rope's wherein one end is walked around behind first right guide pulley and is downhung and fixed connection on the lift case, wire rope's the other end is walked around in proper order behind second right guide pulley and the corresponding left guide pulley and is downhung and fixed connection on the lift case, the rope clip at wire rope both ends is connected respectively on the lift case.

9. The demold cart for producing manure drain as claimed in claim 8, wherein: 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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