CN210064498U - Stacking and conveying mechanism for producing environment-friendly artificial boards - Google Patents

Abstract

The utility model relates to a pile up neatly transport mechanism of production environment-friendly wood-based plate, the roller bearing conveyer front side sets up frame A, backup pad A is established to supporting leg A bottom on the frame A, fixed surface is gone up with backup pad A to guiding axle A lower extreme, transmission assembly A is established to frame A below, frame A right side wall is anterior to be established gear box A, gear box A goes up the cooperation and lifts by crane motor A, the last output shaft of gear box A is fixed with sprocket A, support arm A is established to frame A rear side, support arm A lower surface rear portion is left and right side fixed cylinder A respectively, same baffle B is fixed to cylinder A main shaft end. The utility model has the advantages that: the length of the production line is reduced, and a smaller factory space is occupied.

Description

Stacking and conveying mechanism for producing environment-friendly artificial boards

Technical Field

The utility model relates to a transport mechanism especially relates to a pile up neatly transport mechanism of production environment-friendly wood-based plate.

Background

At present, the existing stacking and conveying mechanism for producing environment-friendly artificial boards is not provided with a speed reduction system, the production line for producing the environment-friendly artificial boards is very long, the production line occupies a large factory space, the artificial boards are conveyed by a roller conveyor, the speed of the roller conveyor is reduced in sequence, the speed of the artificial boards in operation is reduced, and then the artificial boards are stacked by the stacking mechanism.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the stacking and conveying mechanism for producing the environment-friendly artificial boards solves the problems that the existing stacking and conveying mechanism for producing the environment-friendly artificial boards is long in production line and occupies large factory space.

The utility model discloses a solve the technical scheme that the problem that the aforesaid provided adopted and be:

the utility model provides a pile up neatly transport mechanism of production environment-friendly wood-based plate which characterized in that: the roller conveyor comprises a roller conveyor 1, a frame A2, a support plate A201, a support leg A202, a guide shaft A3, a transmission assembly A4, a hoisting motor A5, a gear box A6, a support arm A7, an air cylinder A8 and a baffle B9, wherein the frame A2 is arranged on the front side of the roller conveyor 1, the support plate A201 is fixedly arranged at the bottom of the support leg A202 on a frame A2, the lower end of the guide shaft A3 is fixedly connected with the upper surface of the support plate A201, the transmission assembly A4 is arranged below the frame A2, the transmission assembly A4 comprises a frame B401, a baffle A402, a rotating shaft A403, a belt 404, a servo motor A405, a sprocket A406, a sprocket B407, a connecting shaft A408, a lifting chain A409, a pendant A410 and a lifting chain B411, the guide shaft A3 is in sliding connection, the front and the rear of the upper side of the frame B401 are symmetrically provided with the baffle A402, a403 is arranged between the baffle A403 oppositely arranged on the front side of the frame B401, and the baffle B403 is also arranged oppositely to, two same belt 404 is established to rotation axis A403 left side cover, two same belt 404 is established to rotation axis A403 right side cover, is located the front portion left side fixed servo motor A405 that sets up on the baffle A402 left side wall, servo motor A405's main shaft and adjacent rotation axis A403 fixed connection, frame A2 front side sets up sprocket A406 relatively, sprocket A406 with frame A2 swivelling joint, the fixed connecting axle A408 that sets up between sprocket A406, frame A2 rear side sets up sprocket B407 relatively, sprocket B407 with frame A2 swivelling joint, frame B401 front portion left and right side set up respectively and promote chain B411, promote chain B411 lower extreme with frame B401 fixed connection, promote chain B411 upper end with connecting axle A408 fixed connection, frame A2 inboard left and right sets up respectively and promotes chain A409, and promote chain A409 and walk around adjacent sprocket A406 respectively, Sprocket B407, promote chain A409 rear portion lower extreme and adjacent frame B401 upper surface rear portion fixed connection, promote the anterior lower extreme of chain A409 and weigh down a410 fixed connection that sticks together, the anterior fixed gear box A6 that sets up of frame A2 right side wall, the cooperation sets up on the gear box A6 lifts by crane motor A5, output shaft on the gear box A6 with sprocket A406 fixed connection, the fixed support arm A7 that sets up of frame A2 rear side, the left and right sides of support arm A7 lower surface rear portion are fixed respectively and are set up cylinder A8, the same baffle B9 of cylinder A8 main shaft end fixed setting.

The anterior left and right sides of support arm A7 lower surface fixed connection groove 10 that sets up respectively, the fixed cylinder B11 that sets up in connection groove 10 front portion, cylinder B11 lower extreme sets up swiveling wheel A12, is convenient for pile up the wood-based plate, prevents that the wood-based plate from rebounding backward.

A limiting assembly 13 is fixedly arranged on the frame A2, the limiting assembly 13 comprises a baffle C1301, a connecting arm A1302, a baffle D1303, a baffle E1304, a guide shaft B1305, a guide shaft C1306, a reverse lead screw 1307, a lead screw 1308, a servo motor B1309, a connecting rod A1310, a connecting rod B1311 and a spring steel bar 1312, the baffle C1301 is fixedly arranged on the left side and the right side of the upper part of the frame A2 respectively, the connecting arm A1302 is fixedly connected between the front parts of the oppositely arranged baffles C1301, the baffle D1303 is respectively penetrated through the left sides of the guide shaft B1305 and the guide shaft C1306, the baffle D1303 is respectively slidably connected with the guide shaft B1305 and the guide shaft C1306, the baffle E1304 is respectively penetrated through the baffle E1304, the reverse lead screw 1307 is respectively slidably connected with the baffle D1303, the reverse lead screw 1307 is threadedly connected with the baffle D1303, the left end of the reverse lead screw 1307 is penetrated through the baffle C1301, the reverse lead screw 1307 is rotatably connected with the baffle C1301, a servo motor B1309 is fixedly connected to the left side wall of the baffle C1301 on the left side, a main shaft of the servo motor B1309 is fixedly connected with the reverse lead screw 1307, a lead screw 1308 penetrates through the baffle E1304, the lead screw 1308 is in threaded connection with the baffle E1304, the left end of the lead screw 1308 is fixedly connected with the right end of the reverse lead screw 1307, the right end of the lead screw 1308 is rotatably connected with the baffle C1301 on the right side, the upper end of a connecting rod a1310 is fixedly connected with the connecting arm a1302, the middle of the connecting rod B1311 is fixedly connected with the lower end of the connecting rod a1310, a plurality of spring steel bars 1312 are fixedly arranged on the connecting rod B1311, the lower ends of the spring steel bars 1312 are arranged forward, and the lower ends of the spring steel bars 1312 are arranged between the.

The frame A2 rear portion set up speed reduction assembly 14, speed reduction assembly 14 includes connecting plate A1401, connecting rod C1402, cylinder C1403, connecting axle B1404, swiveling wheel B1405, the relative connecting plate A1401 that sets up in supporting leg A202 upper portion of frame A2 rear side, connecting plate A1401 with adjacent supporting leg A202 swivelling joint, the relative fixed connecting rod C1402 that sets up between connecting plate A1401 upper portion that sets up, connecting plate A1401 upper end articulates cylinder C1403 respectively, cylinder C1403 lower extreme with roller conveyer 1 articulates, set up a plurality of swiveling wheels B1405 on connecting axle B1404, swiveling wheel B1405 with connecting axle B1404 swivelling joint, connecting axle B1404 with connecting plate A1401 lower part fixed connection reduces the speed of the wood-based panel of operation.

A plurality of through holes A15 are formed in the supporting leg A202 on the right side of the frame A2 respectively, a U-shaped piece A16 is fixedly arranged on the right side wall of the supporting leg A202 located on the front portion of the right side, a plurality of limiting rods A17 are placed in a space enclosed by the U-shaped piece A16 and the supporting leg A202, and when the stacking conveying mechanism is maintained, a transmission assembly A4 is prevented from descending to hurt maintenance personnel.

The lower part of the rear side wall of the frame A2 is fixedly provided with a protective net A18, and the lower part of the front side wall of the frame A2 is fixedly provided with a protective net B19, so that workers are prevented from drilling below the frame A2.

A guide rail A20 and a guide rail B21 are respectively arranged in the left and right directions at the lower part of the frame A2, the same electric trolley 22 is arranged on the guide rail A20 and the guide rail B21, the electric trolley 22 is positioned under the frame A2, a transmission component B23 is fixedly arranged on the electric trolley 22, the transmission component B23 comprises a connecting plate B2301, a roller A2302, a chain wheel C2303, a chain wheel D2304, a chain B2305, a servo motor C2306, a connecting plate C2307, a roller B2308, a chain wheel E2309, a chain wheel F2310, a chain C2311, a connecting plate D2312, a roller C2313, a chain wheel G2314, a chain wheel H2315, a chain D2316 and a connecting shaft C2317, the connecting plate B2301 is oppositely arranged at the front part of the upper surface of the electric trolley 22, a plurality of roller A2302 is arranged between the upper parts of the oppositely arranged rollers B2301, the A2302 is rotatably connected with the connecting plate B2301, the chain wheel C3 is sleeved at the rear part of the main shaft 2302, the connecting plate C2303, The right side is respectively provided with a chain wheel D2304, the chain wheel D2304 is rotationally connected with the connecting plate B2301, the chain wheel D2304 on the left side and the right side of the connecting plate B2301 is sleeved with the same chain B2305, the chain B2305 is meshed with the chain wheel C2303, the left side of the rear side wall of the connecting plate B2301 on the front side is fixedly provided with a servo motor C2306, the main shaft end of the servo motor C2306 is fixedly connected with the adjacent chain wheel D2304, the middle part of the upper surface of the electric trolley 22 is oppositely provided with a connecting plate C2307, the connecting plate C2307 is fixedly connected with the electric trolley 22, the upper part of the connecting plate C2307 which is oppositely arranged is provided with a plurality of rollers B2308, the rollers B2308 are rotationally connected with the connecting plate C2307, the front part of the main shaft of the electric trolley B2308 is fixedly sleeved with a chain wheel F2310, the left end and the right end of the rear side wall of the connecting plate C2307 on the front side are respectively provided with a chain wheel E2309, the chain wheel E2309 is rotatably, the chain C2311 is meshed with the chain wheel F2310, the rear part of the upper surface of the electric trolley 22 is oppositely provided with a connecting plate D2312, the connecting plate D2312 is fixedly connected with the electric trolley 22, the upper part of the connecting plate D2312 which is oppositely arranged is provided with a plurality of rollers C2313, the rollers C2313 are rotatably connected with the connecting plate D2312, the front part of a main shaft of the roller C2313 is fixedly sleeved with a chain wheel H2315, the left side and the right side of the rear side wall of the connecting plate D2312 which is positioned at the front side are respectively provided with a chain wheel G2314, the chain wheel G2314 is rotatably connected with the connecting plate D2312, the chain wheel G2314 which is arranged at the left side and the right side is sleeved with the same chain wheel D2316, the chain D2316 is meshed with the chain wheel H2315, the rear side of the connecting shaft C2317 penetrates through the connecting plate D2312, the connecting shaft C2317 is rotatably connected with the connecting plate D2312, the rear end of the connecting shaft C2317, The connecting shaft C2317 is rotatably connected with the connecting plate C2307, the connecting shaft C2317 is fixedly connected with the chain wheel E2309, the front part of the connecting shaft C2317 penetrates through the connecting plate B2301 at the rear side, the connecting shaft C2317 is rotatably connected with the connecting plate B2301, the front end of the connecting shaft C2317 is fixedly connected with the chain wheel D2304 at the left side, a tray 24 is placed between the guide rail A20 and the guide rail B21, and the tray 24 is positioned at the right side of the frame A2, so that stacked artificial boards can be conveniently unloaded from the transmission assembly B23.

A frame C25 is arranged on the left side of the frame A2, the lower end of a support leg B2503 on the frame C25 is fixedly connected with a support plate B2501, the lower end of a guide shaft D2502 is fixedly connected with the support plate B2501, the upper parts of the left side and the right side of the frame C25 are respectively provided with a connecting arm B2901, the connecting arm B2901 on the left side is fixedly connected with the support leg B2503 on the left side of the frame C25, the connecting arm B2901 on the right side is fixedly connected with the support leg B2503 on the right side of the frame C25, a chain wheel L2902 is oppositely arranged on the left side wall of the connecting arm B2901 on the left side, the chain wheel L2902 is rotatably connected with the connecting arm B2901, a chain wheel L2902 is oppositely arranged on the right side wall of the connecting arm B2901 on the right side, the same chain X2907 is arranged between the chain wheels L2902 on the front side, the same chain F2903 is sleeved between the chain wheels L2902 on the rear side, and the chain wheel, a servo motor D2905 is fixedly connected with the right connecting arm B2901, the main shaft of the servo motor D2905 is fixedly connected with the adjacent chain wheel L2902, the front part of the upper surface of the push plate 2906 is fixedly connected with the left side of the lower surface of the chain X2907, the rear part of the upper surface of the push plate 2906 is fixedly connected with the left side of the lower surface of the chain F2903, a pallet platform assembly 26 is arranged at the lower part of the frame C25, the pallet platform assembly 26 comprises a frame D2601, an L-shaped plate 2602, a roller D2603, a chain wheel K2604, a chain E2605, a weight B2606, a connecting shaft D2607, a chain wheel M2608, a chain U2609 and a chain V2610, the frame D2601 is slidably connected with the guide shaft D2502, the front and rear sides of the upper surface of the frame D2601 are oppositely provided with L-shaped plates 2602, the L-shaped plate 2602 is fixedly connected with the frame D2601, a plurality of L-shaped plates 2603 are arranged between the oppositely, and the chain wheel, the chain wheel M2608 is rotatably connected with the supporting leg B2503, a connecting shaft D2607 is fixedly connected between the oppositely arranged chain wheels M2608, a chain wheel K2604 is oppositely arranged at the upper part of the supporting leg B2503 at the rear side, a chain U2609 bypasses the chain wheel K2604 and the chain wheel M2608 at the left side, a chain E2605 bypasses the chain wheel K2604 and the chain wheel M2608 at the right side, the lower end of the rear side of the chain U2609 is fixedly connected with the rear part at the left side of the frame D2601, the lower end of the rear side of the chain E2605 is fixedly connected with the rear part at the right side of the frame D2601, a pendant B2606 is arranged between the supporting legs B2503 at the front side, the lower end of the front side of the chain U2609 is fixedly connected with the front part at the left side of the pendant B2606, the lower end of the front side of the chain E2605 is fixedly connected with the front part at the right side of the pendant B2606, chains V2610 is respectively arranged at the left and at the right side of the, a gear box B27 is fixedly arranged on the upper portion of the front side of the left side wall of the frame C25, a hoisting motor B28 is fixedly matched with the gear box B27, an output shaft of the gear box B27 is fixedly connected with an adjacent chain wheel M2608, a backing plate needs to be placed below an artificial board in order to prevent the artificial board from being placed and injured, and the backing plate is automatically pushed onto a transmission assembly B23 through linkage of the supporting plate platform assembly 26, the gear box B27, the hoisting motor B28 and the push plate assembly 29.

A plurality of through holes B30 are formed in a supporting leg B2503 on the left side of the frame C25, a U-shaped piece B31 is fixedly arranged on the left side wall of the supporting leg B2503 on the front portion of the left side of the frame C25, a plurality of limiting rods B32 are placed in a space defined by the U-shaped piece B31 and the supporting leg B2503, and when parts below the frame C25 are maintained, the supporting plate platform assembly 26 is prevented from descending to hurt maintenance personnel.

And a protective net C33 is fixedly arranged at the lower part of the rear side wall of the frame C25 to prevent workers from drilling under the frame C25.

The utility model discloses a theory of operation: starting a servo motor B, driving a reverse lead screw and a lead screw to rotate by the servo motor B, driving a baffle plate D to move by the reverse lead screw, driving a baffle plate E to move by the lead screw, slightly widening the width between the baffle plate D and the baffle plate E than that of the artificial board, stopping the servo motor B from operating, starting a cylinder A, driving the baffle plate B to descend to the lowest end by the cylinder A, starting the cylinder B, driving a rotating wheel A to descend to the maximum stroke by a main shaft of the cylinder B, starting a cylinder C, lifting the rear side of a connecting plate A by the cylinder C, driving the front side of the connecting shaft B to move downwards by the connecting plate A, driving the rotating wheel B to move downwards by the connecting shaft B, driving the artificial board to move forwards by a roller conveyer, reducing the speed of the rotating wheel passing below by the artificial board B, continuously moving forwards by a belt by the artificial board through the pressure of a spring steel bar, starting a lifting motor A, driving a gear box A to rotate by the lifting motor A, driving a connecting shaft A to rotate anticlockwise by the gear box A, driving a chain wheel A to rotate by the connecting shaft A, driving a lifting chain A to rotate anticlockwise by the chain wheel A, driving a lifting chain B to rotate anticlockwise by the connecting shaft A, driving a frame B to move downwards by the lifting chain A and the lifting chain B, stopping the operation of the lifting motor A after the frame B moves downwards by the thickness of an artificial board, continuously moving the artificial board on the rear side forwards to cling to a baffle B, continuing the above operations, reversely opening a cylinder A after the artificial board is stacked to a certain thickness, driving the baffle B to move upwards to an initial position by the cylinder A, directionally opening the cylinder B, driving a rotating wheel A to return to the initial position by the cylinder B, clockwise opening a servo motor A, driving a rotating shaft A to rotate, reversely opening a hoisting motor A, driving a gear box A to reversely run by the hoisting motor A, driving a connecting shaft A to clockwise rotate by the gear box A, driving a chain wheel A to clockwise rotate by the connecting shaft A, driving a lifting chain A by the chain wheel A, driving a lifting chain B by the connecting shaft A, driving a frame B to move upwards to an initial position by the lifting chain A and the lifting chain B, stopping the operation of the hoisting motor A, continuing the above frying, if the stacked artificial boards are removed from the tray, driving an electric trolley rightwards, placing a backing plate on a transmission component B, resetting the electric trolley, clockwise opening a servo motor C, driving a connecting shaft C to clockwise rotate by the servo motor C, driving a chain wheel D to clockwise rotate by the connecting shaft C, driving a chain wheel B to clockwise rotate by the chain B, driving a chain wheel C to counterclockwise rotate by the chain wheel C, driving a, the chain wheel E drives the chain C to rotate, the chain C drives the chain wheel F to rotate, the chain wheel F drives the rolling shaft B to rotate anticlockwise, the connecting shaft C drives the chain wheel G to rotate, the chain wheel G drives the chain D to rotate, the chain D drives the chain wheel H to rotate, the chain wheel H drives the rolling shaft C to rotate anticlockwise, the rolling shaft A, the rolling shaft B and the rolling shaft C rotationally drag an upper backing plate onto the rolling shaft D on the supporting plate platform assembly, the backing plate rotates leftwards along the rolling shaft D, the backing plate is separated from the rolling shaft A, the rolling shaft B and the rolling shaft C, the servo motor C stops running, the lifting motor B is started, the lifting motor B drives the gear box B to rotate, the gear box B drives the connecting shaft D to rotate, the connecting shaft D drives the chain wheel M to rotate anticlockwise, the chain wheel M drives the chain E and the chain U to rotate anticlockwise, starting a servo motor D, driving a chain wheel L to rotate anticlockwise by the servo motor D, driving a chain F by the chain wheel L and rotating an chain X anticlockwise, pushing a base plate to move to a rolling shaft A, a rolling shaft B and a rolling shaft C by a push plate, reversely starting the servo motor D, moving the push plate to an initial position, stopping the operation of the servo motor D, continuously stacking artificial boards on a belt, starting a hoisting motor A to drive a frame B to be attached to the ground, allowing the artificial boards to fall on the base plate, starting the servo motor C anticlockwise, driving a connecting shaft C to rotate anticlockwise, driving a chain wheel D to rotate anticlockwise by the connecting shaft C, driving a chain B to rotate anticlockwise by the chain wheel D, driving the chain wheel C to rotate clockwise by the chain B, driving the rolling shaft A to rotate clockwise by the chain wheel C, driving a chain wheel E to rotate by the chain wheel E, driving the, the connecting shaft C drives the chain wheel G to rotate, the chain wheel G drives the chain D to rotate, the chain D drives the chain wheel H to rotate, the chain wheel H drives the rolling shaft C to rotate clockwise, and the rolling shaft A, the rolling shaft B and the rolling shaft C rotationally drag the upper base plate to the tray.

The beneficial effects of the utility model reside in that: 1. the length of the production line is reduced, and a smaller factory space is occupied. 2. The anterior left and right sides of support arm A lower surface are the fixed spread groove that sets up respectively, the fixed cylinder B that sets up in spread groove front portion, cylinder B lower extreme sets up swiveling wheel A, is convenient for pile up the wood-based plate, prevents that the wood-based plate from rebounding backward. 3. The frame A is fixedly provided with a limiting assembly, the limiting assembly comprises a baffle C, a connecting arm A, a baffle D, a baffle E, a guide shaft B, a guide shaft C, a reverse lead screw, a servo motor B, a connecting rod A, a connecting rod B and a spring steel bar, the left side and the right side of the upper part of the frame A are respectively fixedly provided with the baffle C, the connecting arm A is fixedly connected between the front parts of the baffles C which are oppositely arranged, the left sides of the guide shaft B and the guide shaft C respectively penetrate through the baffle D, the baffle D is respectively in sliding connection with the guide shaft B and the guide shaft C, the right sides of the guide shaft B and the guide shaft C respectively penetrate through the baffle E, the baffle E is respectively in sliding connection with the guide shaft B and the guide shaft C, the reverse lead screw penetrates through the baffle D, the reverse lead screw is in threaded connection with the baffle D, the left end of the reverse lead, be located the left fixed connection servo motor B on the baffle C left side wall, servo motor B's main shaft with reverse lead screw fixed connection, lead screw run through baffle E, the lead screw with baffle E threaded connection, the lead screw left end with reverse lead screw right-hand member fixed connection, lead screw right-hand member and right side baffle C swivelling joint, connecting rod A upper end with linking arm A fixed connection, connecting rod B middle part with connecting rod A lower extreme fixed connection, the last fixed a plurality of spring billet that set up of connecting rod B, just spring billet lower extreme sets up forward, spring billet lower extreme is located the relative setting between the belt, reduces the speed of the wood-based plate of operation. 4. Frame A rear portion sets up the speed reduction subassembly, the speed reduction subassembly includes connecting plate A, connecting rod C, cylinder C, connecting axle B, swiveling wheel B, the supporting leg A upper portion of frame A rear side sets up connecting plate A relatively, connecting plate A and adjacent supporting leg A swivelling joint sets up relatively fixed connecting rod C that sets up between the connecting plate A upper portion, connecting plate A upper end articulates cylinder C respectively, cylinder C lower extreme with the roller bearing conveyer is articulated, sets up a plurality of swiveling wheels B on the connecting axle B, swiveling wheel B with connecting axle B swivelling joint, connecting axle B with connecting plate A lower part fixed connection reduces the speed of the wood-based plate of operation. 5. A plurality of through holes A are respectively formed in the supporting leg A on the right side of the frame A, the supporting leg A is located on the front portion of the right side, a U-shaped part A is fixedly arranged on the right side wall of the supporting leg A, a plurality of limiting rods A are placed in the space enclosed by the supporting leg A, and when the stacking conveying mechanism is maintained, the transmission assembly A is prevented from hurting maintenance personnel in a downward moving mode. 6. The lower portion of the rear side wall of the frame A is fixedly provided with a protective net A, and the lower portion of the front side wall of the frame A is fixedly provided with a protective net B, so that a worker is prevented from drilling below the frame A. 7. The left and right directions of the lower part of the frame A are respectively provided with a guide rail A and a guide rail B, the guide rail A and the guide rail B are provided with the same electric trolley, the electric trolley is positioned under the frame A, the electric trolley is fixedly provided with a transmission component B, the transmission component B comprises a connecting plate B, a roller A, a chain wheel C, a chain wheel D, a chain B, a servo motor C, a connecting plate C, a roller B, a chain wheel E, a chain wheel F, a chain C, a connecting plate D, a roller C, a chain wheel G, a chain wheel H, a chain D and a connecting shaft C, the front part of the upper surface of the electric trolley is oppositely provided with the connecting plate B, a plurality of rollers A are arranged between the upper parts of the oppositely arranged connecting plates B, the roller A is rotatably connected with the connecting plate B, the rear part of a main shaft of the roller A is fixedly sleeved with the chain wheel, the chain wheel D is rotationally connected with the connecting plate B, the chain wheel D on the left side and the right side of the connecting plate B is sleeved with the same chain B, the chain B is meshed with the chain wheel C, the servo motor C is fixedly arranged on the left side of the rear side wall of the connecting plate B on the front side, the main shaft end of the servo motor C is fixedly connected with the adjacent chain wheel D, the connecting plate C is oppositely arranged in the middle of the upper surface of the electric trolley, the connecting plate C is fixedly connected with the electric trolley, a plurality of roller shafts B are arranged on the upper portion of the connecting plate C which is oppositely arranged, the roller shafts B are rotationally connected with the connecting plate C, the chain wheel F is fixedly sleeved on the front portion of the main shaft of the roller shaft B, the chain wheels E are respectively arranged on the left end and the right end of the rear side wall of the connecting plate C on the front side, the chain wheels E are, the chain C is meshed with the chain wheel F, a connecting plate D is oppositely arranged at the rear part of the upper surface of the electric trolley, the connecting plate D is fixedly connected with the electric trolley, a plurality of rolling shafts C are arranged at the upper part of the connecting plate D which is oppositely arranged, the rolling shafts C are rotationally connected with the connecting plate D, the chain wheel H is fixedly sleeved at the front part of a main shaft of the rolling shafts C, the chain wheels G are respectively arranged at the left side and the right side of the rear side wall of the connecting plate D at the front side, the chain wheels G are rotationally connected with the connecting plate D, the chain wheels G arranged at the left side and the right side are sleeved with the same chain D, the chain D is meshed with the chain wheel H, the rear side of a connecting shaft C penetrates through the connecting plate D, the connecting shaft C is rotationally connected with the connecting plate D, the rear end of the connecting shaft C, the connecting shaft C with connecting plate C swivelling joint, connecting shaft C with sprocket E fixed connection, the connecting shaft C front portion runs through the rear side connecting plate B, connecting shaft C with connecting plate B swivelling joint, connecting shaft C front end and left sprocket D fixed connection, place the tray between guide rail A, the guide rail B, the tray is located frame A right side is convenient for lift the good wood-based plate of stack from transmission subassembly B. 8. The left side of the frame A is provided with a frame C, the lower end of a supporting leg B on the frame C is fixedly connected with a supporting plate B, the lower end of a guide shaft D is fixedly connected with the supporting plate B, the upper parts of the left side and the right side of the frame C are respectively provided with a connecting arm B, the left side of the connecting arm B is fixedly connected with the left side of the frame C, the right side of the connecting arm B is fixedly connected with the right side of the frame C, the left side of the connecting arm B is relatively provided with a chain wheel L, the chain wheel L is rotatably connected with the connecting arm B, the right side of the connecting arm B is relatively provided with a chain wheel L, the chain wheel L is rotatably connected with the connecting arm B, the chain wheel L at the front side is sleeved with the same chain X, the chain wheel L at the rear side is sleeved with the same chain F, and the, servo motor D with the right side the linking arm B regulation is connected, servo motor D's main shaft and adjacent sprocket L fixed connection, push pedal upper surface front portion with chain X's lower surface left side fixed connection, push pedal upper surface rear portion with chain F's lower surface left side fixed connection, frame C lower part sets up layer board platform subassembly, layer board platform subassembly includes frame D, L shaped plate, roller bearing D, sprocket K, chain E, weigh weight and stick together B, connecting axle D, sprocket M, chain U, chain V, frame D with guiding axle D sliding connection, frame D upper surface front and rear side sets up L shaped plate relatively, L shaped plate with frame D fixed connection sets up a plurality of roller bearings D relatively between the L shaped plate, the front side the supporting leg B upper portion sets up sprocket M relatively, sprocket M with supporting leg B swivelling joint, a connecting shaft D is fixedly connected between the oppositely arranged chain wheels M, a chain wheel K is oppositely arranged on the upper portion of the supporting leg B on the rear side, a chain U bypasses the chain wheel K and the chain wheel M on the left side, a chain E bypasses the chain wheel K and the chain wheel M on the right side, the lower end of the rear side of the chain U is fixedly connected with the rear portion of the left side of the frame D, the lower end of the rear side of the chain E is fixedly connected with the rear portion of the right side of the frame D, a pendant lump B is arranged between the supporting leg B on the front side, the lower end of the front side of the chain U is fixedly connected with the front portion of the left side of the pendant lump B, the lower end of the front side of the chain E is fixedly connected with the front portion of the right side of the pendant lump B, chains V are respectively arranged on the left side and the right side of the connecting shaft D, the upper end of, the lifting motor B is matched and fixed on the gear box B, the output shaft of the gear box B is fixedly connected with the adjacent chain wheel M, a base plate needs to be placed below the artificial board in order to prevent the artificial board from being damaged, and the base plate is automatically pushed to the transmission assembly B through linkage of the supporting plate platform assembly, the gear box B, the lifting motor B and the push plate assembly. 9. A plurality of through holes B are formed in the supporting leg B on the left side of the frame C, a U-shaped piece B is fixedly arranged on the left side wall of the supporting leg B on the front portion of the left side of the frame C, a plurality of limiting rods B are placed in a space defined by the U-shaped piece B and the supporting leg B, and when parts below the frame C are maintained, the supporting plate platform assembly is prevented from damaging maintenance personnel downwards. 10. The lower part of the rear side wall of the frame C is fixedly provided with a protective net C, so that a worker is prevented from drilling below the frame C.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a rear view of the present invention.

The automatic lifting device comprises a roller conveyor 1, a frame 2, a frame A, a supporting plate 201, a supporting leg A, a supporting leg 202, a guide shaft 3, a transmission assembly 4, a transmission assembly 401, a frame B, a baffle plate 402, a rotating shaft 403, a belt 404, a servo motor 405, a chain wheel 406, a chain wheel 407, a connecting shaft 408, a lifting chain 409, a falling lump 410, a lifting chain 411, a lifting motor 5, a gear box 6, a supporting arm 7, an air cylinder 8, a baffle plate 9, a connecting groove 10, an air cylinder 11, a rotating wheel 12, a limiting assembly 13, a baffle plate 1301, a baffle plate C1302, a connecting arm 1302, a baffle plate 1303, a baffle plate E1304, a baffle plate E, a guide shaft A, a transmission assembly 4, a transmission assembly 401, a frame B, a baffle plate 402, a gear box A, a rotating shaft, 1305-guide shaft B, 1306-guide shaft C, 1307-reverse screw rod, 1308-screw rod, 1309-servomotor B, 1310-connecting rod A, 1311-connecting rod B, 1312-spring steel rod, 14-speed reduction assembly, 1401-connecting plate A, 1402-connecting rod C, 1403-cylinder C, 1404-connecting shaft B, 1405-rotating wheel B, 15-through hole A, 16-U-shaped piece A, 17-limiting rod A, 18-protective net A, 19-protective net B, 20-guide rail A, 21-guide rail B, 22-electric trolley, 23-transmission assembly B, 2301-connecting plate B, 2302-roller A, 2303-sprocket C, 2304-sprocket D, 2305-chain B, 2306-servomotor C, 7-connecting plate C, 2308-roller B, 2309-sprocket E, 2310-sprocket F, 2311-chain C, 2312-link plate D, 2313-roller C, 2314-sprocket G, 2315-sprocket H, 2316-chain D, 2317-connecting shaft C, 24-tray, 25-frame C, 2501-support plate B, 2502-guide shaft D, 2503-support leg B, 26-pallet platform assembly, 2601-frame D, 2602-L-shaped plate, 2603-roller D, 2604-sprocket K, 2605-chain E, 2606-weight lump B, 2607-connecting shaft D, 2608-sprocket M, 2609-chain U, 2610-chain V, 27-gear box B, 28-hoisting motor B, 29-push pedal assembly, 2901-chain B, 2902-L sprocket connecting arm, 2903-chain F, 2904-connecting shaft E, 2905-servo motor D, 2906-push plate, 2907-chain X, 30-through hole B, 31-U-shaped part B, 32-limiting rod B and 33-protective net C.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

Referring to fig. 1-2, the stacking and conveying mechanism for producing environment-friendly artificial boards according to the present embodiment is characterized in that: the roller conveyor comprises a roller conveyor 1, a frame A2, a support plate A201, a support leg A202, a guide shaft A3, a transmission assembly A4, a hoisting motor A5, a gear box A6, a support arm A7, an air cylinder A8 and a baffle B9, wherein the frame A2 is arranged on the front side of the roller conveyor 1, the support plate A201 is fixedly arranged at the bottom of the support leg A202 on a frame A2, the lower end of the guide shaft A3 is fixedly connected with the upper surface of the support plate A201, the transmission assembly A4 is arranged below the frame A2, the transmission assembly A4 comprises a frame B401, a baffle A402, a rotating shaft A403, a belt 404, a servo motor A405, a sprocket A406, a sprocket B407, a connecting shaft A408, a lifting chain A409, a pendant A410 and a lifting chain B411, the guide shaft A3 is in sliding connection, the front and the rear of the upper side of the frame B401 are symmetrically provided with the baffle A402, a403 is arranged between the baffle A403 oppositely arranged on the front side of the frame B401, and the baffle B403 is also arranged oppositely to, two same belt 404 is established to rotation axis A403 left side cover, two same belt 404 is established to rotation axis A403 right side cover, is located the front portion left side fixed servo motor A405 that sets up on the baffle A402 left side wall, servo motor A405's main shaft and adjacent rotation axis A403 fixed connection, frame A2 front side sets up sprocket A406 relatively, sprocket A406 with frame A2 swivelling joint, the fixed connecting axle A408 that sets up between sprocket A406, frame A2 rear side sets up sprocket B407 relatively, sprocket B407 with frame A2 swivelling joint, frame B401 front portion left and right side set up respectively and promote chain B411, promote chain B411 lower extreme with frame B401 fixed connection, promote chain B411 upper end with connecting axle A408 fixed connection, frame A2 inboard left and right sets up respectively and promotes chain A409, and promote chain A409 and walk around adjacent sprocket A406 respectively, Sprocket B407, promote chain A409 rear portion lower extreme and adjacent frame B401 upper surface rear portion fixed connection, promote the anterior lower extreme of chain A409 and weigh down a410 fixed connection that sticks together, the anterior fixed gear box A6 that sets up of frame A2 right side wall, the cooperation sets up on the gear box A6 lifts by crane motor A5, output shaft on the gear box A6 with sprocket A406 fixed connection, the fixed support arm A7 that sets up of frame A2 rear side, the left and right sides of support arm A7 lower surface rear portion are fixed respectively and are set up cylinder A8, the same baffle B9 of cylinder A8 main shaft end fixed setting.

The anterior left and right sides of support arm A7 lower surface fixed connection groove 10 that sets up respectively, the fixed cylinder B11 that sets up in connection groove 10 front portion, cylinder B11 lower extreme sets up swiveling wheel A12, is convenient for pile up the wood-based plate, prevents that the wood-based plate from rebounding backward.

A limiting assembly 13 is fixedly arranged on the frame A2, the limiting assembly 13 comprises a baffle C1301, a connecting arm A1302, a baffle D1303, a baffle E1304, a guide shaft B1305, a guide shaft C1306, a reverse lead screw 1307, a lead screw 1308, a servo motor B1309, a connecting rod A1310, a connecting rod B1311 and a spring steel bar 1312, the baffle C1301 is fixedly arranged on the left side and the right side of the upper part of the frame A2 respectively, the connecting arm A1302 is fixedly connected between the front parts of the oppositely arranged baffles C1301, the baffle D1303 is respectively penetrated through the left sides of the guide shaft B1305 and the guide shaft C1306, the baffle D1303 is respectively slidably connected with the guide shaft B1305 and the guide shaft C1306, the baffle E1304 is respectively penetrated through the baffle E1304, the reverse lead screw 1307 is respectively slidably connected with the baffle D1303, the reverse lead screw 1307 is threadedly connected with the baffle D1303, the left end of the reverse lead screw 1307 is penetrated through the baffle C1301, the reverse lead screw 1307 is rotatably connected with the baffle C1301, a servo motor B1309 is fixedly connected to the left side wall of the baffle C1301 on the left side, a main shaft of the servo motor B1309 is fixedly connected with the reverse lead screw 1307, a lead screw 1308 penetrates through the baffle E1304, the lead screw 1308 is in threaded connection with the baffle E1304, the left end of the lead screw 1308 is fixedly connected with the right end of the reverse lead screw 1307, the right end of the lead screw 1308 is rotatably connected with the baffle C1301 on the right side, the upper end of a connecting rod a1310 is fixedly connected with the connecting arm a1302, the middle of the connecting rod B1311 is fixedly connected with the lower end of the connecting rod a1310, three spring steel bars 1312 are fixedly arranged on the connecting rod B1311, the lower ends of the spring steel bars 1312 are arranged forward, and the lower ends of the spring steel bars 1312 are arranged between the belts.

Frame A2 rear portion set up speed reduction assembly 14, speed reduction assembly 14 includes connecting plate A1401, connecting rod C1402, cylinder C1403, connecting axle B1404, swiveling wheel B1405, the relative connecting plate A1401 that sets up in supporting leg A202 upper portion of frame A2 rear side, connecting plate A1401 with adjacent supporting leg A202 swivelling joint, the relative fixed connecting rod C1402 that sets up between connecting plate A1401 upper portion that sets up, connecting plate A1401 upper end articulates cylinder C1403 respectively, cylinder C1403 lower extreme with roller conveyer 1 articulates, set up five swiveling wheels B1405 on connecting axle B1404, swiveling wheel B1405 with connecting axle B1404 swivelling joint, connecting axle B1404 with connecting plate A1401 lower part fixed connection reduces the speed of the wood-based panel of operation.

Two through holes A15 are respectively formed in the supporting leg A202 on the right side of the frame A2, a U-shaped piece A16 is fixedly arranged on the right side wall of the supporting leg A202 located on the front portion of the right side, four limiting rods A17 are placed in a space enclosed by the U-shaped piece A16 and the supporting leg A202, and when the stacking conveying mechanism is maintained, the transmission assembly A4 is prevented from descending to hurt a maintenance person.

The lower part of the rear side wall of the frame A2 is fixedly provided with a protective net A18, and the lower part of the front side wall of the frame A2 is fixedly provided with a protective net B19, so that workers are prevented from drilling below the frame A2.

A guide rail A20 and a guide rail B21 are respectively arranged in the left and right directions at the lower part of the frame A2, the same electric trolley 22 is arranged on the guide rail A20 and the guide rail B21, the electric trolley 22 is positioned under the frame A2, a transmission component B23 is fixedly arranged on the electric trolley 22, the transmission component B23 comprises a connecting plate B2301, a roller A2302, a chain wheel C2303, a chain wheel D2304, a chain B2305, a servo motor C2306, a connecting plate C2307, a roller B2308, a chain wheel E2309, a chain wheel F2310, a chain C2311, a connecting plate D2312, a roller C2313, a chain wheel G2314, a chain wheel H2315, a chain D2316 and a connecting shaft C2317, the connecting plate B2301 is oppositely arranged at the front part of the upper surface of the electric trolley 22, sixteen rollers A2302 are arranged between the upper parts of the roller B2301, the roller A2302 is rotatably connected with the connecting plate B2301, the chain wheel C2303 is fixedly sleeved at the rear part of the main shaft 2302, the connecting plate C2303 is, The right side of the connecting plate B2301 is provided with a chain wheel D2304, the chain wheel D2304 is rotationally connected with the connecting plate B2301, the chain wheel D2304 on the left side and the right side of the connecting plate B2301 is sleeved with the same chain B2305, the chain B2305 is meshed with the chain wheel C2303, the left side of the rear side wall of the connecting plate B2301 on the front side is fixedly provided with a servo motor C2306, the main shaft end of the servo motor C2306 is fixedly connected with the adjacent chain wheel D2304, the middle part of the upper surface of the electric trolley 22 is oppositely provided with a connecting plate C2307, the connecting plate C2307 is fixedly connected with the electric trolley 22, the upper part of the connecting plate C2307 which is oppositely arranged is provided with sixteen rollers B2308, the rollers B2308 are rotationally connected with the connecting plate C2307, the front part of the main shaft of the electric trolley B2308 is fixedly sleeved with a chain wheel F2310, the left end and the right end of the rear side wall of the connecting plate C2307 on the front side are respectively provided with a chain wheel E2309, the chain wheel E, the chain C2311 is meshed with the chain wheel F2310, the rear part of the upper surface of the electric trolley 22 is oppositely provided with a connecting plate D2312, the connecting plate D2312 is fixedly connected with the electric trolley 22, sixteen rollers C2313 are arranged on the upper part of the connecting plate D2312 which is oppositely arranged, the rollers C2313 are rotatably connected with the connecting plate D2312, the front part of a main shaft of the roller C2313 is fixedly sleeved with a chain wheel H2315, the left side and the right side of the rear side wall of the connecting plate D2312 which is positioned at the front side are respectively provided with a chain wheel G2314, the chain wheel G2314 is rotatably connected with the connecting plate D2312, the chain wheel G2314 which is arranged at the left side and the right side is sleeved with the same chain wheel D2316, the chain D2316 is meshed with the chain wheel H2315, the rear side of the connecting shaft C2317 penetrates through the connecting plate D2312, the connecting shaft C2317 is rotatably connected with the connecting plate D2312, the rear end of the connecting shaft C2317 is fixedly, The connecting shaft C2317 is rotatably connected with the connecting plate C2307, the connecting shaft C2317 is fixedly connected with the chain wheel E2309, the front part of the connecting shaft C2317 penetrates through the connecting plate B2301 at the rear side, the connecting shaft C2317 is rotatably connected with the connecting plate B2301, the front end of the connecting shaft C2317 is fixedly connected with the chain wheel D2304 at the left side, a tray 24 is placed between the guide rail A20 and the guide rail B21, and the tray 24 is positioned at the right side of the frame A2, so that stacked artificial boards can be conveniently unloaded from the transmission assembly B23.

A frame C25 is arranged on the left side of the frame A2, the lower end of a support leg B2503 on the frame C25 is fixedly connected with a support plate B2501, the lower end of a guide shaft D2502 is fixedly connected with the support plate B2501, the upper parts of the left side and the right side of the frame C25 are respectively provided with a connecting arm B2901, the connecting arm B2901 on the left side is fixedly connected with the support leg B2503 on the left side of the frame C25, the connecting arm B2901 on the right side is fixedly connected with the support leg B2503 on the right side of the frame C25, a chain wheel L2902 is oppositely arranged on the left side wall of the connecting arm B2901 on the left side, the chain wheel L2902 is rotatably connected with the connecting arm B2901, a chain wheel L2902 is oppositely arranged on the right side wall of the connecting arm B2901 on the right side, the same chain X2907 is arranged between the chain wheels L2902 on the front side, the same chain F2903 is sleeved between the chain wheels L2902 on the rear side, and the chain wheel, a servo motor D2905 is fixedly connected with the connecting arm B2901 on the right side, the main shaft of the servo motor D2905 is fixedly connected with the adjacent chain wheel L2902, the front part of the upper surface of the push plate 2906 is fixedly connected with the left side of the lower surface of the chain X2907, the rear part of the upper surface of the push plate 2906 is fixedly connected with the left side of the lower surface of the chain F2903, a pallet platform assembly 26 is arranged on the lower part of the frame C25, the pallet platform assembly 26 comprises a frame D2601, an L-shaped plate 2602, a roller D2603, a chain wheel K2604, a chain E2605, a pendant B2606, a connecting shaft D2607, a chain wheel M2608, a chain U2609 and a chain V2610, the frame D2601 is slidably connected with the guide shaft D2502, the front side and the rear side of the upper surface of the frame D2601 are oppositely provided with L-shaped plates 2602, the L-shaped plate 2602 is fixedly connected with the frame D2601, seven L-shaped plates 2603 are arranged between the oppositely, and the, the chain wheel M2608 is rotatably connected with the supporting leg B2503, a connecting shaft D2607 is fixedly connected between the oppositely arranged chain wheels M2608, a chain wheel K2604 is oppositely arranged at the upper part of the supporting leg B2503 at the rear side, a chain U2609 bypasses the chain wheel K2604 and the chain wheel M2608 at the left side, a chain E2605 bypasses the chain wheel K2604 and the chain wheel M2608 at the right side, the lower end of the rear side of the chain U2609 is fixedly connected with the rear part at the left side of the frame D2601, the lower end of the rear side of the chain E2605 is fixedly connected with the rear part at the right side of the frame D2601, a pendant B2606 is arranged between the supporting legs B2503 at the front side, the lower end of the front side of the chain U2609 is fixedly connected with the front part at the left side of the pendant B2606, the lower end of the front side of the chain E2605 is fixedly connected with the front part at the right side of the pendant B2606, chains V2610 is respectively arranged at the left and at the right side of the, a gear box B27 is fixedly arranged on the upper portion of the front side of the left side wall of the frame C25, a hoisting motor B28 is fixedly matched with the gear box B27, an output shaft of the gear box B27 is fixedly connected with an adjacent chain wheel M2608, a backing plate needs to be placed below an artificial board in order to prevent the artificial board from being placed and injured, and the backing plate is automatically pushed onto a transmission assembly B23 through linkage of the supporting plate platform assembly 26, the gear box B27, the hoisting motor B28 and the push plate assembly 29.

Two through holes B30 are formed in a supporting leg B2503 on the left side of the frame C25, a U-shaped piece B31 is fixedly arranged on the left side wall of the supporting leg B2503 on the front portion of the left side of the frame C25, four limiting rods B32 are placed in a space defined by the U-shaped piece B31 and the supporting leg B2503, and when parts below the frame C25 are maintained, the supporting plate platform assembly 26 is prevented from descending to hurt maintenance personnel.

And a protective net C33 is fixedly arranged at the lower part of the rear side wall of the frame C25 to prevent workers from drilling under the frame C25.

The working principle of the specific embodiment is as follows: starting a servo motor B, driving a reverse lead screw and a lead screw to rotate by the servo motor B, driving a baffle plate D to move by the reverse lead screw, driving a baffle plate E to move by the lead screw, slightly widening the width between the baffle plate D and the baffle plate E than that of the artificial board, stopping the servo motor B from operating, starting a cylinder A, driving the baffle plate B to descend to the lowest end by the cylinder A, starting the cylinder B, driving a rotating wheel A to descend to the maximum stroke by a main shaft of the cylinder B, starting a cylinder C, lifting the rear side of a connecting plate A by the cylinder C, driving the front side of the connecting shaft B to move downwards by the connecting plate A, driving the rotating wheel B to move downwards by the connecting shaft B, driving the artificial board to move forwards by a roller conveyer, reducing the speed of the rotating wheel passing below by the artificial board B, continuously moving forwards by a belt by the artificial board through the pressure of a spring steel bar, starting a lifting motor A, driving a gear box A to rotate by the lifting motor A, driving a connecting shaft A to rotate anticlockwise by the gear box A, driving a chain wheel A to rotate by the connecting shaft A, driving a lifting chain A to rotate anticlockwise by the chain wheel A, driving a lifting chain B to rotate anticlockwise by the connecting shaft A, driving a frame B to move downwards by the lifting chain A and the lifting chain B, stopping the operation of the lifting motor A after the frame B moves downwards by the thickness of an artificial board, continuously moving the artificial board on the rear side forwards to cling to a baffle B, continuing the above operations, reversely opening a cylinder A after the artificial board is stacked to a certain thickness, driving the baffle B to move upwards to an initial position by the cylinder A, directionally opening the cylinder B, driving a rotating wheel A to return to the initial position by the cylinder B, clockwise opening a servo motor A, driving a rotating shaft A to rotate, reversely opening a hoisting motor A, driving a gear box A to reversely run by the hoisting motor A, driving a connecting shaft A to clockwise rotate by the gear box A, driving a chain wheel A to clockwise rotate by the connecting shaft A, driving a lifting chain A by the chain wheel A, driving a lifting chain B by the connecting shaft A, driving a frame B to move upwards to an initial position by the lifting chain A and the lifting chain B, stopping the operation of the hoisting motor A, continuing the above frying, if the stacked artificial boards are removed from the tray, driving an electric trolley rightwards, placing a backing plate on a transmission component B, resetting the electric trolley, clockwise opening a servo motor C, driving a connecting shaft C to clockwise rotate by the servo motor C, driving a chain wheel D to clockwise rotate by the connecting shaft C, driving a chain wheel B to clockwise rotate by the chain B, driving a chain wheel C to counterclockwise rotate by the chain wheel C, driving a, the chain wheel E drives the chain C to rotate, the chain C drives the chain wheel F to rotate, the chain wheel F drives the rolling shaft B to rotate anticlockwise, the connecting shaft C drives the chain wheel G to rotate, the chain wheel G drives the chain D to rotate, the chain D drives the chain wheel H to rotate, the chain wheel H drives the rolling shaft C to rotate anticlockwise, the rolling shaft A, the rolling shaft B and the rolling shaft C rotationally drag an upper backing plate onto the rolling shaft D on the supporting plate platform assembly, the backing plate rotates leftwards along the rolling shaft D, the backing plate is separated from the rolling shaft A, the rolling shaft B and the rolling shaft C, the servo motor C stops running, the lifting motor B is started, the lifting motor B drives the gear box B to rotate, the gear box B drives the connecting shaft D to rotate, the connecting shaft D drives the chain wheel M to rotate anticlockwise, the chain wheel M drives the chain E and the chain U to rotate anticlockwise, starting a servo motor D, driving a chain wheel L to rotate anticlockwise by the servo motor D, driving a chain F by the chain wheel L and rotating an chain X anticlockwise, pushing a base plate to move to a rolling shaft A, a rolling shaft B and a rolling shaft C by a push plate, reversely starting the servo motor D, moving the push plate to an initial position, stopping the operation of the servo motor D, continuously stacking artificial boards on a belt, starting a hoisting motor A to drive a frame B to be attached to the ground, allowing the artificial boards to fall on the base plate, starting the servo motor C anticlockwise, driving a connecting shaft C to rotate anticlockwise, driving a chain wheel D to rotate anticlockwise by the connecting shaft C, driving a chain B to rotate anticlockwise by the chain wheel D, driving the chain wheel C to rotate clockwise by the chain B, driving the rolling shaft A to rotate clockwise by the chain wheel C, driving a chain wheel E to rotate by the chain wheel E, driving the, the connecting shaft C drives the chain wheel G to rotate, the chain wheel G drives the chain D to rotate, the chain D drives the chain wheel H to rotate, the chain wheel H drives the rolling shaft C to rotate clockwise, and the rolling shaft A, the rolling shaft B and the rolling shaft C rotationally drag the upper base plate to the tray.

The beneficial effects of the embodiment are as follows: 1. the length of the production line is reduced, and a smaller factory space is occupied. 2. The anterior left and right sides of support arm A lower surface are the fixed spread groove that sets up respectively, the fixed cylinder B that sets up in spread groove front portion, cylinder B lower extreme sets up swiveling wheel A, is convenient for pile up the wood-based plate, prevents that the wood-based plate from rebounding backward. 3. The frame A is fixedly provided with a limiting assembly, the limiting assembly comprises a baffle C, a connecting arm A, a baffle D, a baffle E, a guide shaft B, a guide shaft C, a reverse lead screw, a servo motor B, a connecting rod A, a connecting rod B and a spring steel bar, the left side and the right side of the upper part of the frame A are respectively fixedly provided with the baffle C, the connecting arm A is fixedly connected between the front parts of the baffles C which are oppositely arranged, the left sides of the guide shaft B and the guide shaft C respectively penetrate through the baffle D, the baffle D is respectively in sliding connection with the guide shaft B and the guide shaft C, the right sides of the guide shaft B and the guide shaft C respectively penetrate through the baffle E, the baffle E is respectively in sliding connection with the guide shaft B and the guide shaft C, the reverse lead screw penetrates through the baffle D, the reverse lead screw is in threaded connection with the baffle D, the left end of the reverse lead, be located the left fixed connection servo motor B on the baffle C left side wall, servo motor B's main shaft with reverse lead screw fixed connection, lead screw run through baffle E, the lead screw with baffle E threaded connection, the lead screw left end with reverse lead screw right-hand member fixed connection, lead screw right-hand member and right side baffle C swivelling joint, connecting rod A upper end with linking arm A fixed connection, connecting rod B middle part with connecting rod A lower extreme fixed connection, the last fixed three spring billet that sets up of connecting rod B, just spring billet lower extreme sets up forward, spring billet lower extreme is located the relative setting between the belt, reduces the speed of the wood-based plate of operation. 4. Frame A rear portion sets up the speed reduction subassembly, the speed reduction subassembly includes connecting plate A, connecting rod C, cylinder C, connecting axle B, swiveling wheel B, the supporting leg A upper portion of frame A rear side sets up connecting plate A relatively, connecting plate A and adjacent supporting leg A swivelling joint sets up relatively fixed connecting rod C that sets up between the connecting plate A upper portion, connecting plate A upper end articulates cylinder C respectively, cylinder C lower extreme with the roller bearing conveyer is articulated, sets up five swiveling wheels B on the connecting axle B, swiveling wheel B with connecting axle B swivelling joint, connecting axle B with the speed of the wood-based plate of connecting plate A lower part fixed connection reduces the operation. 5. Two through holes A are respectively formed in the supporting leg A on the right side of the frame A, the supporting leg A is located on the front portion of the right side, a U-shaped part A is fixedly arranged on the right side wall of the supporting leg A, the U-shaped part A and a space enclosed by the supporting leg A are provided with four limiting rods A, and when the stacking conveying mechanism is maintained, the transmission assembly A is prevented from descending to hurt maintenance personnel. 6. The lower portion of the rear side wall of the frame A is fixedly provided with a protective net A, and the lower portion of the front side wall of the frame A is fixedly provided with a protective net B, so that a worker is prevented from drilling below the frame A. 7. The left and right directions of the lower part of the frame A are respectively provided with a guide rail A and a guide rail B, the guide rail A and the guide rail B are provided with the same electric trolley, the electric trolley is positioned under the frame A, the electric trolley is fixedly provided with a transmission component B, the transmission component B comprises a connecting plate B, a roller A, a chain wheel C, a chain wheel D, a chain B, a servo motor C, a connecting plate C, a roller B, a chain wheel E, a chain wheel F, a chain C, a connecting plate D, a roller C, a chain wheel G, a chain wheel H, a chain D and a connecting shaft C, the front part of the upper surface of the electric trolley is oppositely provided with the connecting plate B, sixteen roller A are arranged between the upper parts of the connecting plate B which are oppositely arranged, the roller A is rotatably connected with the connecting plate B, the rear part of a main shaft of the roller A is fixedly sleeved with the chain wheel, the chain wheel D is rotationally connected with the connecting plate B, the chain wheel D on the left side and the right side of the connecting plate B is sleeved with the same chain B, the chain B is meshed with the chain wheel C, the servo motor C is fixedly arranged on the left side of the rear side wall of the connecting plate B on the front side, the main shaft end of the servo motor C is fixedly connected with the adjacent chain wheel D, the connecting plate C is oppositely arranged in the middle of the upper surface of the electric trolley, the connecting plate C is fixedly connected with the electric trolley, sixteen roller shafts B are arranged on the upper portion of the connecting plate C which is oppositely arranged, the roller shafts B are rotationally connected with the connecting plate C, the chain wheel F is fixedly sleeved on the front portion of the main shaft of the roller shaft B, the chain wheel E is respectively arranged on the left end and the right end of the rear side wall of the connecting plate C on the front side, the chain wheel E is rotationally connected, the chain C is meshed with the chain wheel F, a connecting plate D is oppositely arranged at the rear part of the upper surface of the electric trolley, the connecting plate D is fixedly connected with the electric trolley, sixteen roller shafts C are arranged on the upper part of the connecting plate D, the roller shafts C are rotatably connected with the connecting plate D, the chain wheel H is fixedly sleeved on the front part of a main shaft of the roller shaft C, the chain wheel G is arranged on the left side and the right side of the rear side wall of the connecting plate D at the front side, the chain wheel G is rotatably connected with the connecting plate D, the same chain D is sleeved on the chain wheel G arranged on the left side and the right side, the chain D is meshed with the chain wheel H, the connecting plate D is penetrated through the rear side of the connecting shaft C, the connecting shaft C is rotatably connected with the connecting plate D, the rear end of the connecting shaft C is fixedly connected, Sprocket E, connecting axle C with connecting plate C swivelling joint, connecting axle C with sprocket E fixed connection, connecting axle C front portion runs through the rear side connecting plate B, connecting axle C with connecting plate B swivelling joint, connecting axle C front end and left sprocket D fixed connection, place the tray between guide rail A, the guide rail B, the tray is located the frame A right side is convenient for lift the good wood-based plate of stack from transmission subassembly B. 8. The left side of the frame A is provided with a frame C, the lower end of a supporting leg B on the frame C is fixedly connected with a supporting plate B, the lower end of a guide shaft D is fixedly connected with the supporting plate B, the upper parts of the left side and the right side of the frame C are respectively provided with a connecting arm B, the left side of the connecting arm B is fixedly connected with the left side of the frame C, the right side of the connecting arm B is fixedly connected with the right side of the frame C, the left side of the connecting arm B is relatively provided with a chain wheel L, the chain wheel L is rotatably connected with the connecting arm B, the right side of the connecting arm B is relatively provided with a chain wheel L, the chain wheel L is rotatably connected with the connecting arm B, the chain wheel L at the front side is sleeved with the same chain X, the chain wheel L at the rear side is sleeved with the same chain F, and the, servo motor D and right side the linking arm B regulation is connected, servo motor D's main shaft and adjacent the sprocket L fixed connection, push pedal upper surface front portion with chain X's lower surface left side fixed connection, push pedal upper surface rear portion with chain F's lower surface left side fixed connection, frame C lower part sets up layer board platform subassembly, layer board platform subassembly includes frame D, L shaped plate, roller bearing D, sprocket K, chain E, weigh weight and stick together B, connecting axle D, sprocket M, chain U, chain V, frame D with guiding axle D sliding connection, frame D upper surface front and rear side sets up L shaped plate relatively, L shaped plate with frame D fixed connection sets up seven roller bearing D relatively between the L shaped plate, the front side the supporting leg B upper portion sets up sprocket M relatively, sprocket M with supporting leg B swivelling joint, a connecting shaft D is fixedly connected between the oppositely arranged chain wheels M, a chain wheel K is oppositely arranged on the upper portion of the supporting leg B on the rear side, a chain U bypasses the chain wheel K and the chain wheel M on the left side, a chain E bypasses the chain wheel K and the chain wheel M on the right side, the lower end of the rear side of the chain U is fixedly connected with the rear portion of the left side of the frame D, the lower end of the rear side of the chain E is fixedly connected with the rear portion of the right side of the frame D, a pendant lump B is arranged between the supporting leg B on the front side, the lower end of the front side of the chain U is fixedly connected with the front portion of the left side of the pendant lump B, the lower end of the front side of the chain E is fixedly connected with the front portion of the right side of the pendant lump B, chains V are respectively arranged on the left side and the right side of the connecting shaft D, the upper end of, the lifting motor B is matched and fixed on the gear box B, the output shaft of the gear box B is fixedly connected with the adjacent chain wheel M, a base plate needs to be placed below the artificial board in order to prevent the artificial board from being damaged, and the base plate is automatically pushed to the transmission assembly B through linkage of the supporting plate platform assembly, the gear box B, the lifting motor B and the push plate assembly. 9. Two through holes B are formed in the supporting leg B on the left side of the frame C, a U-shaped piece B is fixedly arranged on the left side wall of the supporting leg B on the front portion of the left side of the frame C, four limiting rods B are placed in a space defined by the U-shaped piece B and the supporting leg B, and when parts below the frame C are maintained, the supporting plate platform assembly is prevented from injuring maintenance personnel downwards. 10. The lower part of the rear side wall of the frame C is fixedly provided with a protective net C, so that a worker is prevented from drilling below the frame C.

The utility model discloses a concrete embodiment does not constitute the pair the utility model discloses a restriction, all adopt the utility model discloses a similar structure and change are all in the utility model discloses a within the protection scope.

Claims (10)

1. The utility model provides a pile up neatly transport mechanism of production environment-friendly wood-based plate which characterized in that: the transmission device comprises a roller conveyor (1), a frame A (2), a support plate A (201), support legs A (202), guide shafts A (3), transmission assemblies A (4), a hoisting motor A (5), a gear box A (6), support arms A (7), a cylinder A (8) and a baffle B (9), wherein the frame A (2) is arranged on the front side of the roller conveyor (1), the support plate A (201) is fixedly arranged at the bottoms of the support legs A (202) on the frame A (2), the lower ends of the guide shafts A (3) are fixedly connected with the upper surface of the support plate A (201), the transmission assemblies A (4) are arranged below the frame A (2), and the transmission assemblies A (4) comprise a frame B (401), a baffle A (402), a rotating shaft A (403), a belt (404), a servo motor A (405), a chain wheel A (406), a chain wheel B (407), a chain wheel A (408), Lifting chain A (409), dropping lump A (410), lifting chain B (411), frame B (401) and guiding axle A (3) sliding connection, baffle A (402) is symmetrically arranged in front and back of frame B (401) upside, rotating axle A (403) is arranged between baffle A (402) which is arranged in front of frame B (401) oppositely, rotating axle A (403) is also arranged between baffle A (402) which is arranged in back of frame B (401) oppositely, the same belt (404) is sleeved on the left side of two rotating axles A (403), the same belt (404) is sleeved on the right side of two rotating axles A (403), servo motor A (405) is fixedly arranged on the left side wall of baffle A (402) which is positioned on the front left side, the main shaft of servo motor A (405) is fixedly connected with the adjacent rotating axle A (403), chain wheel A (406) is arranged on the front of frame A (2) oppositely, the chain wheel A (406) is rotatably connected with the frame A (2), a connecting shaft A (408) is fixedly arranged between the chain wheels A (406), the rear side of the frame A (2) is oppositely provided with a chain wheel B (407), the chain wheel B (407) is rotatably connected with the frame A (2), the left side and the right side of the front part of the frame B (401) are respectively provided with a lifting chain B (411), the lower end of the lifting chain B (411) is fixedly connected with the frame B (401), the upper end of the lifting chain B (411) is fixedly connected with the connecting shaft A (408), the left side and the right side of the inner side of the frame A (2) are respectively provided with a lifting chain A (409), the lifting chain A (409) is respectively wound around the adjacent chain wheel A (406) and the chain wheel B (407), and the lower end of the rear part of the lifting chain A (409) is fixedly connected with the, promote chain A (409) anterior lower extreme and weigh down a (410) fixed connection that sticks together, frame A (2) right side wall is anterior to be fixed to set up gear box A (6), gear box A (6) are gone up the cooperation and are set up and lift by crane motor A (5), output shaft on gear box A (6) with sprocket A (406) fixed connection, frame A (2) rear side is fixed to be set up support arm A (7), support arm A (7) lower surface rear portion left and right side is fixed respectively and is set up cylinder A (8), cylinder A (8) main shaft end is fixed and is set up same baffle B (9).

2. A palletizing mechanism for producing environmentally friendly artificial boards as claimed in claim 1, wherein: support arm A (7) lower surface front portion left and right side respectively fixed set up spread groove (10), spread groove (10) front portion is fixed and is set up cylinder B (11), cylinder B (11) lower extreme sets up swiveling wheel A (12).

3. A palletizing mechanism for producing environmentally friendly artificial boards as claimed in claim 1, wherein: the frame A (2) is fixedly provided with a limiting assembly (13), the limiting assembly (13) comprises a baffle C (1301), a connecting arm A (1302), a baffle D (1303), a baffle E (1304), a guide shaft B (1305), a guide shaft C (1306), a reverse lead screw (1307), a lead screw (1308), a servo motor B (1309), a connecting rod A (1310), a connecting rod B (1311) and a spring steel bar (1312), the left side and the right side of the upper part of the frame A (2) are respectively and fixedly provided with the baffle C (1301), the connecting arm A (1302) is fixedly connected between the front parts of the baffles C (1301) which are oppositely arranged, the left sides of the guide shaft B (1305) and the guide shaft C (1306) respectively penetrate through a baffle D (1303), the baffle D (1303) is respectively in sliding connection with the guide shaft B (1305) and the guide shaft C (1306), the right sides of the guide shaft B (1305) and the guide shaft C (1306) respectively, the baffle E (1304) is respectively connected with the guide shaft B (1305) and the guide shaft C (1306) in a sliding mode, a reverse lead screw (1307) penetrates through the baffle D (1303), the reverse lead screw (1307) is in threaded connection with the baffle D (1303), the left end of the reverse lead screw (1307) penetrates through the baffle C (1301) on the left side, the reverse lead screw (1307) is in rotary connection with the baffle C (1301), a servo motor B (1309) is fixedly connected to the left side wall of the baffle C (1301) on the left side, a main shaft of the servo motor B (1309) is fixedly connected with the reverse lead screw (1307), a lead screw (1308) penetrates through the baffle E (1304), the lead screw (1308) is in threaded connection with the baffle E (1304), the left end of the lead screw (1308) is fixedly connected with the right end of the reverse lead screw (1307), and the right end of the lead screw (1308) is in rotary connection with the baffle C (1301) on the, the upper end of the connecting rod A (1310) is fixedly connected with the connecting arm A (1302), the middle of the connecting rod B (1311) is fixedly connected with the lower end of the connecting rod A (1310), a plurality of spring steel bars (1312) are fixedly arranged on the connecting rod B (1311), the lower ends of the spring steel bars (1312) are arranged forwards, and the lower ends of the spring steel bars (1312) are located between the belts (404) which are arranged oppositely.

4. A palletizing mechanism for producing environmentally friendly artificial boards as claimed in claim 1, wherein: the rear part of the frame A (2) is provided with a speed reducing component (14), the speed reducing component (14) comprises a connecting plate A (1401), a connecting rod C (1402), a cylinder C (1403), a connecting shaft B (1404) and a rotating wheel B (1405), the upper part of the supporting leg A (202) at the rear side of the frame A (2) is oppositely provided with a connecting plate A (1401), the connecting plate A (1401) is rotatably connected with the adjacent supporting leg A (202), a connecting rod C (1402) is fixedly arranged between the upper parts of the oppositely arranged connecting plates A (1401), the upper ends of the connecting plates A (1401) are respectively hinged with a cylinder C (1403), the lower ends of the cylinders C (1403) are hinged with the roller conveyor (1), a plurality of rotating wheels B (1405) are arranged on a connecting shaft B (1404), the rotating wheel B (1405) is rotatably connected with the connecting shaft B (1404), and the connecting shaft B (1404) is fixedly connected with the lower part of the connecting plate A (1401).

5. A palletizing mechanism for producing environmentally friendly artificial boards as claimed in claim 1, wherein: support leg A (202) on frame A (2) right side on set up a plurality of through-holes A (15) respectively, be located the right side front portion fixed U-shaped spare A (16) that set up on the right side wall of support leg A (202), U-shaped spare A (16) with place a plurality of gag lever posts A (17) in the space that support leg A (202) enclose.

6. A palletizing mechanism for producing environmentally friendly artificial boards as claimed in claim 1, wherein: the lower part of the rear side wall of the frame A (2) is fixedly provided with a protective net A (18), and the lower part of the front side wall of the frame A (2) is fixedly provided with a protective net B (19).

7. A palletizing mechanism for producing environmentally friendly artificial boards as claimed in claim 1, wherein: the left and right directions of the lower part of the frame A (2) are respectively provided with a guide rail A (20) and a guide rail B (21), the guide rail A (20) and the guide rail B (21) are provided with the same electric trolley (22), the electric trolley (22) is positioned under the frame A (2), the electric trolley (22) is fixedly provided with a transmission component B (23), the transmission component B (23) comprises a connecting plate B (2301), a rolling shaft A (2302), a chain wheel C (2303), a chain wheel D (2304), a chain B (2305), a servo motor C (2306), a connecting plate C (2307), a rolling shaft B (2308), a chain wheel E (2309), a chain wheel F (2310), a chain C (2311), a connecting plate D (2312), a rolling shaft C (2313), a chain wheel G (2314), a chain wheel H (2315), a chain D (2316) and a connecting shaft C (2317), and the connecting plate B (2301) is oppositely arranged in front of the upper surface of the electric trolley, a plurality of rollers A (2302) are arranged between the upper parts of the oppositely arranged connecting plates B (2301), the rollers A (2302) are rotatably connected with the connecting plates B (2301), a chain wheel C (2303) is fixedly sleeved at the rear part of a spindle of the rollers A (2302), a chain wheel D (2304) is arranged on the left side and the right side of the front side wall of the connecting plate B (2301) on the rear side respectively, the chain wheel D (2304) is rotatably connected with the connecting plates B (2301), the chain wheel D (2305) on the left side and the right side of the chain wheel D (2304) on the connecting plate B (2301) on the rear side is sleeved with the same chain B (2305), the chain B (2305) is meshed with the chain wheel C (2303), a servo motor C (2306) is fixedly arranged on the left side of the rear side wall of the connecting plate B (2301) on the front side, a spindle end of the servo motor C (2306) is fixedly connected with the adjacent chain wheel D (2304), and a connecting plate C, the connecting plate C (2307) is fixedly connected with the electric trolley (22), a plurality of rollers B (2308) are arranged at the upper part of the connecting plate C (2307) which is oppositely arranged, the rollers B (2308) are rotationally connected with the connecting plate C (2307), a chain wheel F (2310) is fixedly sleeved at the front part of a main shaft of the rollers B (2308), chain wheels E (2309) are respectively arranged at the left end and the right end of the rear side wall of the connecting plate C (2307) which is positioned at the front side, the chain wheel E (2309) is rotationally connected with the connecting plate C (2307), the chain wheel E (2309) arranged at the left end and the right end is sleeved with a same chain C (2311), the chain C (2311) is meshed with the chain wheel F (2310), a connecting plate D (2312) is oppositely arranged at the rear part of the upper surface of the electric trolley (22), the connecting plate D (2312) is fixedly connected with the electric trolley (22), and a plurality of connecting plates C (2313) are arranged at the upper part of, the roller C (2313) is rotationally connected with the connecting plate D (2312), a chain wheel H (2315) is fixedly sleeved at the front part of a main shaft of the roller C (2313), chain wheels G (2314) are respectively arranged on the left side and the right side of the rear side wall of the connecting plate D (2312) positioned on the front side, the chain wheels G (2314) are rotationally connected with the connecting plate D (2312), a chain D (2316) is sleeved on the chain wheels G (2314) arranged on the left side and the right side, the chain D (2316) is meshed with the chain wheels H (2315), the rear side of a connecting shaft C (2317) penetrates through the connecting plate D (2312), the connecting shaft C (2317) is rotationally connected with the connecting plate D (2312), the rear end of the connecting shaft C (2317) is fixedly connected with the chain wheel G (2314) on the left side, the connecting shaft C (2317) penetrates through the connecting plate C (2307) on the left side and the chain wheel E (9), and the connecting shaft C (2317) is rotationally connected, the connecting shaft C (2317) is fixedly connected with the chain wheel E (2309), the front portion of the connecting shaft C (2317) penetrates through the connecting plate B (2301) on the rear side, the connecting shaft C (2317) is rotatably connected with the connecting plate B (2301), the front end of the connecting shaft C (2317) is fixedly connected with the chain wheel D (2304) on the left side, a tray (24) is placed between the guide rail A (20) and the guide rail B (21), and the tray (24) is located on the right side of the frame A (2).

8. A palletizing mechanism for producing environmentally friendly artificial boards as claimed in claim 1, wherein: the left side of the frame A (2) is provided with a frame C (25), the lower ends of support legs B (2503) on the frame C (25) are fixedly connected with a support plate B (2501), the lower ends of guide shafts D (2502) are fixedly connected with the support plate B (2501), the upper parts of the left side and the right side of the frame C (25) are respectively provided with a connecting arm B (2901), the left side of the connecting arm B (2901) is fixedly connected with the support legs B (2503) on the left side of the frame C (25), the right side of the connecting arm B (2901) is fixedly connected with the support legs B (2503) on the right side of the frame C (25), a chain wheel L (2902) is oppositely arranged on the left side wall of the connecting arm B (2901), the chain wheel L (2902) is rotatably connected with the connecting arm B (2901), the right side of the connecting arm B (2901) on the right side is oppositely provided with a chain wheel L (2902), and the chain wheel L (, the chain wheel L (2902) positioned on the front side is sleeved with a same chain X (2907), the chain wheel L (2902) positioned on the rear side is sleeved with a same chain F (2903), the chain wheel L (2902) positioned on the right side is fixedly connected with a connecting shaft E (2904), a servo motor D (2905) is fixedly connected with the connecting shaft B (2901) on the right side, a main shaft of the servo motor D (2905) is fixedly connected with the adjacent chain wheel L (2902), the front part of the upper surface of a push plate (2906) is fixedly connected with the left side of the lower surface of the chain X (2907), the rear part of the upper surface of the push plate (2906) is fixedly connected with the left side of the lower surface of the chain F (2903), a supporting plate platform component (26) is arranged on the lower part of the frame C (25), and the supporting plate platform component (26) comprises a frame D (2601), an L-shaped plate (2602), a roller D (2603), a chain, Chain E (2605), weigh weight B (2606), connecting axle D (2607), sprocket M (2608), chain U (2609), chain V (2610), frame D (2601) with guide shaft D (2502) sliding connection, frame D (2601) upper surface front and back sets up L shaped plate (2602) relatively, L shaped plate (2602) with frame D (2601) fixed connection sets up a plurality of roller shafts D (2603) between the L shaped plate (2602) that set up relatively, preceding side supporting leg B (2503) upper portion sets up sprocket M (2608) relatively, sprocket M (2608) with supporting leg B (2503) swivelling joint, the fixed connection D (2607) between the sprocket M (2608) that set up relatively, rear side supporting leg B (2503) upper portion sets up sprocket K (2604) relatively, chain U (2609) pass around left side sprocket K (2604), A chain wheel M (2608), a chain E (2605) goes around the chain wheel K (2604) and the chain wheel M (2608) on the right side, the lower end of the rear side of the chain U (2609) is fixedly connected with the rear part of the left side of the frame D (2601), the lower end of the rear side of the chain E (2605) is fixedly connected with the rear part of the right side of the frame D (2601), a pendant B (2606) is arranged between the support legs B (2503) on the front side, the lower end of the front side of the chain U (2609) is fixedly connected with the front part of the left side of the pendant B (2606), the lower end of the front side of the chain E (2605) is fixedly connected with the front part of the right side of the pendant B (2606), chains V (2610) are respectively arranged on the left and right sides of the connecting shaft D (2607), the upper end of the chain V (2610) is fixedly connected with the connecting shaft D (2617), the lower end of the chain V (2600) is fixedly connected with the lower end of the frame D (2601), the lifting motor B (28) is matched and fixed on the gear box B (27), and an output shaft of the gear box B (27) is fixedly connected with the adjacent chain wheel M (2608).

9. A palletizing mechanism for producing environmentally friendly artificial boards as claimed in claim 8, wherein: the left supporting leg B (2503) of frame C (25) on set up a plurality of through-holes B (30), fixed U-shaped piece B (31) that set up on the anterior supporting leg B (2503) left side wall in frame C (25) left side, U-shaped piece B (31) with place a plurality of gag lever posts B (32) in the space that supporting leg B (2503) enclose.

10. A palletizing mechanism for producing environmentally friendly artificial boards as claimed in claim 9, wherein: and a protective net C (33) is fixedly arranged at the lower part of the rear side wall of the frame C (25).

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