CN118545604A - Prefabricated component of assembled generates with transporting storage support - Google Patents

Abstract

The invention relates to the technical field of prefabricated components, in particular to a transfer storage bracket for generating prefabricated components, which comprises a transfer frame, wherein a plurality of hoisting storage frames are arranged on the inner wall of the transfer frame, each hoisting storage frame comprises a transmission plate, the top of each transmission plate is fixedly connected with a hoisting mechanism, and the bottom of each transmission plate is provided with two clamping mechanisms, can realize carrying out centre gripping and fixed to not unidimensional prefabricated component to adapt to the transportation work of unidimensional prefabricated component, simultaneously, hoisting machine constructs the setting and can realize the quick fixation to the hoist and mount rope, improves the efficiency of transporting the work, and specifically, clamping mechanism passes through clamping plate, slider, dwang, spring, splint and the combination of collet stick, can carry out the self-adaptation according to the size of prefabricated component, ensures stability and the security in transportation process.

Description

Prefabricated component of assembled generates with transporting storage support

Technical Field

The invention relates to the technical field of prefabricated components, in particular to a transfer storage bracket for generating prefabricated components.

Background

The assembled reinforced concrete structure is a concrete structure which is formed by assembling and connecting prefabricated components serving as main stress components, can improve the production efficiency, save energy, develop green and environment-friendly buildings and is beneficial to improving and guaranteeing the quality of building engineering.

According to the patent document: CN211443114U, the prefabricated component transportation frame of assembled building disclosed, including dismantling socket joint hoisting point, fork stand, support body, four corners of the inboard of support body all connect socket joint stand and wholly assemble into square body frame, the corner top and the bottom of support body all imbeds and can dismantle socket joint hoisting point. The equipment can maximize the function of the transfer rack; when the workpieces are transported from a workshop to a storage yard, the workpieces can be lifted at one time and stacked in order; can be stored in a double-layer three-dimensional way, on different floors or combined according to assembly, more field space is saved; the use pressure of hoisting equipment is reduced, and the resource investment is saved; the manual operation time of transferring and loading is reduced, the efficiency is increased, and the labor is saved;

After the prefabricated components are formed, the prefabricated components are required to be transported to a construction site by being transported by a transportation storage bracket matched with vehicles such as a truck and the like, when the prefabricated components are transported to or under the truck, the transportation storage bracket is usually required to be hoisted by using a hoisting machine, in the hoisting process, the stability and the safety of the prefabricated components are very important, most of transportation storage brackets only can meet the transportation storage function of a foundation, but the stability and the safety of the transportation storage brackets are insufficient, and the prefabricated components can be subjected to various external impacts due to the uncertainty of road conditions and jolt in the transportation process during the transportation through the truck, so that the risk of damage is increased, and the fixing and the protection of the prefabricated components are very important in the transportation process.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a transfer storage bracket for generating an assembled prefabricated part, which aims to solve the technical problems that: most of the transportation and storage brackets only can meet the transportation and storage functions of a foundation, but have defects in terms of hoisting stability and safety, and the prefabricated components can be subjected to various external impacts due to uncertainty of road conditions and jolts in the transportation process during transportation by trucks, so that the risk of damage is increased, and therefore, the fixing and protection of the prefabricated components are particularly critical in the transportation process.

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

The transfer storage bracket for generating the assembled prefabricated part comprises a transfer frame, wherein a plurality of hoisting storage frames are arranged on the inner wall of the transfer frame;

the hoisting storage rack comprises a transmission plate, the top of the transmission plate is fixedly connected with a hoisting mechanism, and two clamping mechanisms are arranged at the bottom of the transmission plate.

As a further aspect of the invention: the transmission plate comprises a transmission plate main body, the top fixedly connected with hydraulic push rod of transmission plate main body places the piece, the top fixedly connected with hydraulic push rod of piece is placed to hydraulic push rod, hydraulic push rod's output fixedly connected with push-and-pull piece, the transmission plate spout that runs through to the bottom has been seted up in the top left side of transmission plate main body, the bottom fixedly connected with connecting plate of transmission plate main body, the board is placed to the bottom left and right sides of connecting plate fixedly connected with slide bar connecting block respectively, the connecting plate spout that runs through to the bottom has been seted up in the top left side of connecting plate, the bottom middle part fixedly connected with bottom plate of connecting plate.

As a further aspect of the invention: the middle part rotation of bottom plate bottom is connected with the gear, both sides and two slide bar connecting blocks place the front and back both sides of board bottom respectively fixedly connected with slide bar connecting block around the bottom plate bottom, four groups the equal fixedly connected with slide bar of opposite face of slide bar connecting block.

As a further aspect of the invention: the two clamping mechanisms all include the grip block, two the equal fixedly connected with slider in top of grip block, two the equal fixedly connected with rack bar of opposite face of slider, two the opposite face of rack bar meshes respectively in the both sides of gear outer wall, wherein the left side the top fixedly connected with connecting rod of slider, the top of connecting rod passes through connecting plate spout and drive plate spout and extends to the inner wall of push-and-pull piece and rotates with the inner wall of push-and-pull piece to be connected.

As a further aspect of the invention: the two front and back both sides inner wall of slider is sliding connection respectively at the outer wall of four connecting plate spouts, two the front and back both sides of grip block opposite face are two dwang connecting plates of fixedly connected with respectively, four sets of the dwang connecting plate is kept away from the equal rotation of one side outer wall of grip block and is connected with the dwang, four sets of the equal fixedly connected with spring of opposite face of dwang, front side two sets of and rear side two sets of the dwang is kept away from the equal rotation of one side of dwang connecting plate and is connected with splint, two the bottom left and right sides of splint opposite face is fixedly connected with end die-pin respectively.

As a further aspect of the invention: the hoisting mechanism comprises a hoisting plate, a hoisting plate sliding groove penetrating to the bottom is formed in the left side of the top of the hoisting plate, a hoisting block is fixedly connected to the middle of the top of the hoisting plate, hoisting plate connecting rods are fixedly connected to four sides of the bottom of the hoisting plate respectively, and the bottoms of the hoisting plate connecting rods are fixedly connected to four sides of the top of the transmission plate main body respectively.

As a further aspect of the invention: the top right side fixedly connected with hoist rope second splint of hoist and mount board, the inner wall sliding connection of hoist and mount board spout has hoist rope fixation clamp push-and-pull rod, hoist rope fixation clamp push-and-pull rod's bottom extends to the bottom of hoist and mount board and swing joint is at the top inner wall of push-and-pull block through hoist and mount board spout, hoist rope fixation clamp push-and-pull rod and the top of hoist rope second splint all fixedly connected with hoist rope splint connecting block, hoist rope splint connecting block's front and back both sides respectively fixedly connected with second spring connecting block, two the equal fixedly connected with second spring in left side of second spring connecting block, two the right side middle part fixedly connected with hoist rope splint slide bar of hoist rope splint push-and-pull plate, hoist rope splint slide bar's right-hand member extends to the right side of hoist rope splint connecting block and fixedly connected with rope splint, hoist rope splint connecting block's front and back both sides respectively fixedly connected with rope splint, two the opposite side of slide plate has the hoist and mount splint connecting block, hoist rope splint connecting block front and back both sides fixedly connected with rope splint sliding connection respectively.

As a further aspect of the invention: the two limiting plates all include the limiting plate shell, two the left and right sides of limiting plate shell opposite face is fixedly connected with lead screw connecting block respectively, two equal fixedly connected with biax motor in opposite face middle part of limiting plate shell, two limiting plate spout has all been seted up to the opposite face of limiting plate shell, two the equal fixedly connected with lead screw of left and right sides output of biax motor, two sets of the one end difference swing joint that the biax motor was kept away from to the lead screw is in the opposite face of two sets of lead screw connecting blocks, two the lead screw line that both ends were fixed connection is opposite about the biax motor.

As a further aspect of the invention: two the inner wall left and right sides of limiting plate shell is sliding connection has the gag lever post respectively, and two sets of one side that the gag lever post is close to the limiting plate spout is equal fixedly connected with gag lever post transmission piece, two sets of the opposite face of gag lever post transmission piece all extends to the outer wall of limiting plate shell and inner wall threaded connection respectively at the outer wall of two sets of lead screws through the limiting plate spout, two the left and right sides of limiting plate shell is the fretwork design.

As a further aspect of the invention: the transfer frame comprises a transfer frame bottom plate, side frames are fixedly connected to the front side and the rear side of the top of the transfer frame bottom plate respectively, a plurality of hoisting storage frame placing grooves are formed in the top of the transfer frame bottom plate respectively, a plurality of clamping grooves are formed in opposite faces of the side frames respectively, and inner walls of the hoisting storage frame placing grooves formed in the top of the transfer frame bottom plate are movably connected to the bottoms of the outer walls of the two clamping plates.

The invention has the beneficial effects that:

According to the invention, the clamping mechanism and the lifting mechanism are arranged, so that the device can clamp and fix prefabricated parts with different sizes in use, thereby adapting to the transportation work of the prefabricated parts with different sizes, meanwhile, the lifting mechanism can realize the rapid fixation of the lifting rope, the efficiency of the transportation work is improved, in particular, the clamping mechanism can carry out self-adaptive adjustment according to the size of the prefabricated parts by the combination of the clamping plate, the sliding block, the rotating rod, the spring, the clamping plate and the bottom supporting rod, the stability and the safety of the prefabricated parts in the transportation process are ensured, and the lifting mechanism realizes the rapid fixation of the lifting rope by the structures of the lifting plate, the lifting plate sliding groove, the lifting rope fixing clamp push-pull rod, the second spring, the lifting rope clamp plate push-pull rod and the like, the safety in the lifting process is improved, the prefabricated parts are prevented from sliding or falling off in the lifting process, and the smooth transportation work is further ensured.

According to the invention, the plurality of lifting storage rack placing grooves are formed in the top of the bottom plate of the transfer rack, so that a plurality of lifting storage racks can be placed according to the requirement, batch transfer is realized, the transfer efficiency is further improved, and meanwhile, the clamping grooves formed in the side frames can be matched with the limiting plates, so that further fixation of the lifting storage racks is realized, and the stability and safety in the transfer process are improved.

Drawings

FIG. 1 is a schematic perspective view of a main body of the present invention;

FIG. 2 is a schematic perspective view of a lifting storage rack according to the present invention;

FIG. 3 is a schematic view of a vertical separation structure of the lifting storage rack of the invention;

FIG. 4 is a perspective view of a drive plate according to the present invention;

FIG. 5 is a schematic perspective view of a clamping mechanism according to the present invention;

FIG. 6 is a schematic perspective view of a hoisting mechanism according to the present invention;

FIG. 7 is a schematic view of a three-dimensional separation cross-sectional structure of a limiting plate of the present invention;

Fig. 8 is a schematic view of a three-dimensional structure of a transfer frame according to the present invention.

In the figure: 1. a transfer rack; 11. a transport rack bottom plate; 12. hoisting a storage rack placing groove; 13. a side frame; 14. a clamping groove; 2. hoisting the storage rack; 21. a drive plate; 211. a drive plate main body; 212. a connecting plate chute; 213. a transmission plate chute; 214. a hydraulic push rod placing block; 215. a hydraulic push rod; 216. a connecting plate; 217. the slide bar connecting block is provided with a plate; 218. a bottom plate; 219. a slide bar connecting block; 2110. a slide bar; 2111. a gear; 2112. a push-pull block; 22. a clamping mechanism; 221. a clamping plate; 222. a slide block; 223. a connecting rod; 224. a toothed bar; 225. a rotating rod connecting plate; 226. a rotating lever; 227. a clamping plate; 228. a bottom support rod; 229. a spring; 23. a hoisting mechanism; 231. a hanging plate; 232. a limiting plate; 2321. a limiting plate housing; 2322. limiting plate sliding grooves; 2323. a biaxial motor; 2324. a screw rod connecting block; 2325. a screw rod; 2326. a limit rod; 2327. a limit rod transmission block; 233. hoisting the block; 234. hoisting the plate chute; 235. a lifting rope fixing clamp push-pull rod; 236. hoisting a rope clamp plate connecting block; 237. a second spring connection block; 238. a second spring; 239. hoisting a rope clamping plate push-pull plate; 2310. hoisting the rope clamp plate slide bar; 2311. a chute plate; 2312. a chute plate chute; 2313. hoisting a rope clamp plate sliding block; 2314. hoisting a rope clamp plate; 2315. hoisting the rope second clamping plate; 2316. and (5) hoisting the plate connecting rod.

Detailed Description

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

As shown in fig. 1 to 7, the invention provides a transfer storage bracket for generating prefabricated parts, which comprises a transfer frame 1, wherein a plurality of hoisting storage frames 2 are arranged on the inner wall of the transfer frame 1.

As shown in fig. 2-6, the hoisting storage rack 2 comprises a transmission plate 21, the top fixedly connected with hoisting mechanism 23 of transmission plate 21, the bottom of transmission plate 21 is provided with two fixture 22, transmission plate 21 includes transmission plate main part 211, the top fixedly connected with hydraulic push rod of transmission plate main part 211 places piece 214, the top fixedly connected with hydraulic push rod 215 of hydraulic push rod places piece 214, the output fixedly connected with push-pull block 2112 of hydraulic push rod 215, the transmission plate spout 213 that runs through to the bottom has been seted up on the top left side of transmission plate main part 211, the bottom fixedly connected with connecting plate 216 of transmission plate main part 211, the bottom left and right sides of connecting plate 216 is fixedly connected with slide bar connecting block placing plate 217 respectively, the top left side of connecting plate 216 has been seted up and is run through to connecting plate 212 of bottom, the bottom middle part fixedly connected with bottom plate 218 of connecting plate 216, the middle part rotation of bottom plate 218 is connected with gear 2111, the front and back both sides and two slide bar connecting block placing plate 217 bottom's front and back both sides are fixedly connected with slide bar 219 respectively, the equal fixedly connected with slide bar 2110 of slide bar 219 of four groups connecting block.

The two clamping mechanisms 22 all include clamping plates 221, the top of two clamping plates 221 is all fixedly connected with slider 222, the equal fixedly connected with rack 224 of opposite face of two sliders 222, the opposite face of two rack 224 meshes in the both sides of gear 2111 outer wall respectively, wherein the top fixedly connected with connecting rod 223 of left side slider 222, the top of connecting rod 223 extends to the inner wall of push-pull block 2112 and rotates with the inner wall of push-pull block 2112 through connecting plate spout 212 and drive plate spout 213, the front and back both sides inner wall of two sliders 222 is sliding connection at the outer wall of four connecting plate spouts 212 respectively, the front and back both sides of two clamping plates 221 opposite face are fixedly connected with two dwang connecting plates 225 respectively, the one side outer wall that the clamping plate 221 was kept away from to four sets of dwang connecting plates 225 is all rotated and is connected with dwang 226, the opposite face of four sets of dwang 226 is all fixedly connected with spring 229, the two sets of and the back side dwang 226 are kept away from the one side of dwang connecting plate 225 is all rotated and are connected with splint 227, the bottom bracket 228 is kept away from the bottom left and right sides of two side opposite faces of two blocks 227 respectively.

The hoisting mechanism 23 comprises a hoisting plate 231, a hoisting plate sliding groove 234 penetrating to the bottom is formed in the left side of the top of the hoisting plate 231, hoisting blocks 233 are fixedly connected to the middle of the top of the hoisting plate 231, hoisting plate connecting rods 2316 are fixedly connected to the four sides of the bottom of the hoisting plate 231 respectively, the bottoms of the four hoisting plate connecting rods 2316 are fixedly connected to the four sides of the top of the transmission plate main body 211 respectively, hoisting rope second clamping plates 2315 are fixedly connected to the right side of the top of the hoisting plate 231 respectively, hoisting rope fixing clamp push-pull rods 235 are slidably connected to the inner walls of the hoisting plate sliding grooves 234, the bottoms of the hoisting rope fixing clamp push-pull rods 235 extend to the bottoms of the hoisting plate 231 through the hoisting plate sliding grooves 234 and are movably connected to the inner walls of the tops of the push-pull blocks 2112, and hoisting rope fixing clamp push-pull rods 235 and the tops of the hoisting rope second clamping plates 2315 are fixedly connected with hoisting rope clamp connecting blocks 236.

The front side and the back side of the hoisting rope clamp connecting block 236 are respectively fixedly connected with a second spring connecting block 237, the left sides of the two second spring connecting blocks 237 are respectively fixedly connected with a second spring 238, the left ends of the two second springs 238 are respectively fixedly connected with hoisting rope clamp push-pull plates 239, the right middle parts of the two hoisting rope clamp push-pull plates 239 are fixedly connected with hoisting rope clamp slide bars 2310, the right ends of the hoisting rope clamp slide bars 2310 extend to the right sides of the hoisting rope clamp connecting block 236 and are fixedly connected with hoisting rope clamp 2314, the front side and the back side of the right sides of the hoisting rope clamp connecting block 236 are respectively fixedly connected with a sliding groove plate 2311, the opposite faces of the two sliding groove plates 2311 are respectively provided with a sliding groove plate sliding groove 2312, the front side and the back side of the hoisting rope clamp 2314 are respectively fixedly connected with hoisting rope clamp slide blocks 2313, the outer walls of the two hoisting rope clamp slide blocks 2313 are respectively and slidably connected with the inner walls of the two sliding groove plate sliding groove blocks 2312, and the front side and the back side of the hoisting rope clamp slide blocks 231 are respectively fixedly connected with a limiting plate 232.

When the prefabricated components are required to be transported, the hoisting ropes of the hoisting machine penetrate the inner wall of the hoisting block 233 and are knotted for fixing, then the hoisting mechanism 23, the transmission plate 21 and the clamping mechanism 22 are hoisted to the upper part of the prefabricated components through the hoisting machine, the clamping plates 221 of the clamping mechanism 22 are located on two sides of the prefabricated components, the clamping mechanism 22 is lowered through the hoisting machine until the bottom supporting rods 228 at the bottom of the clamping plates 221 are in contact with the tops of the prefabricated components, at the moment, an operator can start the hydraulic push rod 215 to push the push-pull block 2112 to move to the right through the hydraulic push rod 215, and the connecting rod 223 is rotationally connected with the push-pull block 2112 and the sliding block 222 is slidingly connected with the connecting plate sliding groove 212, so that when the push-pull block 2112 moves to the right, the connecting rod 223 drives the sliding block 222 to slide leftwards along the connecting plate sliding groove 212, so that the left clamping plate 221 moves to the right, and meanwhile, due to the meshing relationship of the gear 2111 and the two toothed bars 224.

When the left clamping plate 221 moves rightwards, the gear 2111 rotates, so as to drive the toothed bar 224 and the corresponding sliding block 222 on the right to move leftwards, so that the clamping plate 221 on the right moves leftwards, and in the process of moving the two clamping plates 221 oppositely, the bottom supporting bar 228 on the clamping plate 221 is firstly contacted with the bottom of the prefabricated part to perform the functions of preliminary positioning and supporting, then, along with the further opposite movement of the clamping plate 221, the clamping plate 227 is contacted with the side surface of the prefabricated part and gradually clamped, and in the process of contacting the clamping plate 227 with the prefabricated part, the angle of the clamping plate 227 can be adaptively adjusted due to the existence of the rotating rod 226 and the spring 229, so that the clamping plate 227 is tightly attached with the side surface of the prefabricated part, and thus a stable clamping effect is realized.

The hydraulic push rod 215 pushes the push-pull block 2112 to enable the two clamping plates 221 to move in opposite directions, and meanwhile, the lifting rope fixing clamp push-pull rod 235 also slides rightward in the lifting plate sliding groove 234, as the top of the lifting rope fixing clamp push-pull rod 235 is fixedly connected with the lifting rope clamp connecting block 236, the lifting rope clamp connecting block 236 also moves rightward, in the moving process, the lifting rope clamp 2314 is stretched after touching the lifting rope, a certain elastic buffer is provided for clamping of the lifting rope clamp 2314, the thickness of the lifting rope can be self-adapted when the lifting rope is clamped by the lifting rope clamp 2314, and a stable clamping effect is achieved.

After the prefabricated part is completely clamped by the two clamping plates 221, the clamping of the hoisting rope is also completed by the hoisting rope clamping plate 2314 and the hoisting rope second clamping plate 2315, at this time, an operator can stably hoist and transport the prefabricated part to a designated position through the hoisting machine, and in the transportation process, the clamping mechanism 22 can ensure the stability and safety of the prefabricated part, so that the prefabricated part is prevented from shaking or falling off in the transportation process.

As shown in fig. 7-8, two limiting plates 232 all include limiting plate shell 2321, the left and right sides of two limiting plate shell 2321 opposite faces are fixedly connected with lead screw connecting block 2324 respectively, two equal fixedly connected with biax motor 2323 in opposite face middle part of limiting plate shell 2321, limiting plate spout 2322 has all been seted up to two limiting plate shell 2321's opposite faces, two equal fixedly connected with lead screw 2325 of both sides output of biax motor 2323, two sets of lead screw 2325 keep away from biax motor 2323's one end swing joint in two sets of lead screw connecting block 2324's opposite face respectively, two biax motor 2323 left and right sides fixed connection's lead screw 2325 line is opposite, two limiting plate shell 2321's inner wall left and right sides are sliding connection respectively has stop lever 2326, two sets of stop lever 2326 are close to one side of limiting plate spout 2322 and are all fixedly connected with stop lever transmission piece 2327, two sets of stop lever transmission piece 2327's opposite faces all extend to limiting plate shell 2321's outer wall and inner wall and threaded connection respectively at two sets of lead screw connecting block frame 2325's outer wall, two end frame 12 have set up the bottom plate frame 11 at two bottom plate 11, two bottom plate 11's of two bottom plate 11 are set up the bottom plate 11 respectively, two bottom plate 11 are stored in the bottom plate 11, two bottom plate 11 is set up the bottom plate 11, two bottom plate 11 is stored in the bottom plate 11, two bottom plate 11 is stored and is the bottom plate 11, two bottom plate 11 is the bottom plate 11 and is the bottom plate 11 is the top is the bottom plate 11 and is the bottom plate.

When the hoisting storage rack 2 is transported to the upper side of the hoisting storage rack 1 through the hoisting machine, an operator can stably place the hoisting storage rack 2 in the hoisting storage rack placing groove 12 of the hoisting storage rack 1 through the hoisting machine, in the transportation process, in order to ensure the stability of the hoisting storage rack 2 on the transportation rack 1, the rotation of the screw rod 2325 can be controlled through the double-shaft motor 2323, and then the limiting rod 2326 is driven to move along the limiting plate sliding groove 2322, when the double-shaft motor 2323 is started, the two groups of screw rods 2325 rotate respectively in opposite directions, and because the lines of the two groups of screw rods 2325 are opposite, the two groups of limiting rods 2326 move respectively in opposite directions until the inner walls of the opposite faces of the entering side frames 13 are respectively provided with a plurality of clamping grooves 14 so as to limit and fix the hoisting storage rack 2, thereby preventing the hoisting storage rack 2 from falling off or moving due to shaking or external force action in the transportation process, and ensuring the safety and stability of the whole transportation process.

The working principle of the invention is as follows: when the prefabricated components are required to be transported, the hoisting ropes of the hoisting machine penetrate into the inner wall of the hoisting block 233 and are knotted for fixing, then the hoisting mechanism 23, the transmission plate 21 and the clamping mechanism 22 are hoisted to the upper part of the prefabricated components through the hoisting machine, the clamping plates 221 of the clamping mechanism 22 are located on two sides of the prefabricated components, the hoisting machine descends the clamping mechanism 22 until the bottom supporting rods 228 at the bottom of the clamping plates 221 are contacted with the top of the prefabricated components, at the moment, an operator can start the hydraulic push rod 215 to push the push-pull blocks 2112 to move to the right through the hydraulic push rod 215, and as the connecting rods 223 are rotationally connected with the push-pull blocks 2112, the sliding blocks 222 are slidingly connected with the connecting plate sliding grooves 212, when the push-pull blocks 2112 move to the right, the connecting rods 223 drive the sliding blocks 222 to slide leftwards along the connecting plate sliding grooves 212, so that the left clamping plates 221 move rightwards, meanwhile, due to the meshing relation of the gears 2111 and the two toothed bars 224, when the left clamping plates 221 move rightwards, the gears 224 and the corresponding sliding blocks 222 move leftwards, so that the left supporting plates 221 move leftwards, and the corresponding clamping plates 221 move leftwards, and the bottom supporting plates 228 are firstly, and the clamping plates 221 move upwards, and the bottom supporting plates 221 are initially contacted with the bottom clamping plates 221.

Then, as the clamping plates 221 move further toward each other, the clamping plates 227 are contacted with the sides of the prefabricated parts and gradually clamped, in the process of the contact between the clamping plates 227 and the prefabricated parts, due to the existence of the rotating rod 226 and the springs 229, the clamping plates 227 can adaptively adjust the angle to ensure close contact with the sides of the prefabricated parts, so that a stable clamping effect is achieved, the hydraulic push rods 215 push the push-pull blocks 2112 to enable the two clamping plates 221 to move toward each other, simultaneously, the lifting rope fixing clamp push-pull rods 235 also slide rightward in the lifting plate sliding grooves 234, due to the fact that the top of the lifting rope fixing clamp push-pull rods 235 is fixedly connected with the lifting rope clamp connecting blocks 236, the lifting rope clamp connecting blocks 236 also move rightward, in the moving process, the second springs 238 are stretched after the lifting rope clamp 2314 contacts with the lifting rope, a certain elastic buffer is provided for clamping the lifting rope clamp 2314, so that the lifting rope clamp 2314 can adaptively clamp the thickness of the lifting rope at the moment, a stable clamping effect is achieved, after the two clamping plates 221 completely clamp the prefabricated parts, the lifting rope 2314 and the lifting rope can also be stably clamped by the lifting rope clamping mechanism, the prefabricated parts can be stably and stably transferred, and stably or stably and stably transported in the lifting and transferring process.

When the hoisting storage rack 2 is transported to the upper side of the hoisting storage rack 1 through the hoisting machine, an operator can stably place the hoisting storage rack 2 in the hoisting storage rack placing groove 12 of the hoisting storage rack 1 through the hoisting machine, in the transportation process, in order to ensure the stability of the hoisting storage rack 2 on the transportation rack 1, the rotation of the screw rod 2325 can be controlled through the double-shaft motor 2323, and then the limiting rod 2326 is driven to move along the limiting plate sliding groove 2322, when the double-shaft motor 2323 is started, the two groups of screw rods 2325 rotate respectively in opposite directions, and because the lines of the two groups of screw rods 2325 are opposite, the two groups of limiting rods 2326 move respectively in opposite directions until the inner walls of the opposite faces of the entering side frames 13 are respectively provided with a plurality of clamping grooves 14 so as to limit and fix the hoisting storage rack 2, thereby preventing the hoisting storage rack 2 from falling off or moving due to shaking or external force action in the transportation process, and ensuring the safety and stability of the whole transportation process.

The last points to be described are: first, in the description of the present application, it should be noted that, unless otherwise specified and defined, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be mechanical or electrical, or may be a direct connection between two elements, and "upper," "lower," "left," "right," etc. are merely used to indicate relative positional relationships, which may be changed when the absolute position of the object being described is changed.

Secondly: in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures may refer to the general design, so that the same embodiment and different embodiments of the present disclosure may be combined with each other without conflict.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (10)

1. The utility model provides an assembled prefabricated component generates with transporting storage support, includes transportation frame (1), its characterized in that: the inner wall of the transfer frame (1) is provided with a plurality of hoisting storage frames (2);

The lifting storage rack (2) comprises a transmission plate (21), the top of the transmission plate (21) is fixedly connected with a lifting mechanism (23), and two clamping mechanisms (22) are arranged at the bottom of the transmission plate (21).

2. A prefabricated component generating transfer storage rack as defined in claim 1, wherein: the transmission plate (21) comprises a transmission plate main body (211), a hydraulic push rod placing block (214) is fixedly connected to the top of the transmission plate main body (211), a hydraulic push rod (215) is fixedly connected to the top of the hydraulic push rod placing block (214), a push-pull block (2112) is fixedly connected to the output end of the hydraulic push rod (215), a transmission plate sliding chute (213) penetrating to the bottom is formed in the left side of the top of the transmission plate main body (211), a connecting plate (216) is fixedly connected to the bottom of the transmission plate main body (211), sliding rod connecting blocks placing plates (217) are respectively fixedly connected to the left side and the right side of the bottom of the connecting plate (216), a connecting plate sliding chute (212) penetrating to the bottom is formed in the left side of the top of the connecting plate (216), and a bottom plate (218) is fixedly connected to the middle of the bottom of the connecting plate (216).

3. A prefabricated component generating transfer storage rack as defined in claim 2, wherein: the middle part of bottom plate (218) bottom rotates and is connected with gear (2111), both sides and two slide bar connecting blocks around the bottom of bottom plate (218) bottom are placed the front and back both sides of board (217) bottom and are fixedly connected with slide bar connecting block (219) respectively, four groups slide bar connecting block (219)'s opposite face all fixedly connected with slide bar (2110).

4. A prefabricated component generating transfer storage rack as defined in claim 1, wherein: two fixture (22) all include grip block (221), two the top of grip block (221) is all fixedly connected with slider (222), two the equal fixedly connected with rack bar (224) of opposite face of slider (222), two the opposite face of rack bar (224) meshes respectively in the both sides of gear (2111) outer wall, wherein the left side the top fixedly connected with connecting rod (223) of slider (222), the top of connecting rod (223) is through connecting plate spout (212) and drive plate spout (213) extend to the inner wall of push-and-pull piece (2112) and with the inner wall rotation connection of push-and-pull piece (2112).

5. A prefabricated component generating transfer storage rack as defined in claim 4, wherein: two the front and back both sides inner wall of slider (222) sliding connection respectively is at the outer wall of four connecting plate spouts (212), two the front and back both sides of grip block (221) opposite face are two dwang connecting plates (225) of fixedly connected with respectively, four groups dwang connecting plate (225) are kept away from the outer wall of one side of grip block (221) and are all rotated and are connected with dwang (226), four groups the equal fixedly connected with spring (229) of opposite face of dwang (226), front side two sets of with the rear side two sets of dwang (226) are kept away from the equal rotation of one side of dwang connecting plate (225) and are connected with splint (227), two the bottom left and right sides of splint (227) opposite face is fixedly connected with collet bar (228) respectively.

6. A prefabricated component generating transfer storage rack as defined in claim 1, wherein: lifting device (23) are including hoist and mount board (231), hoist and mount board spout (234) that run through to the bottom are seted up in the top left side of hoist and mount board (231), hoist and mount board (231) top middle part fixedly connected with hoist and mount piece (233), hoist and mount board connecting rod (2316) are fixedly connected with respectively to the bottom four sides of hoist and mount board (231), four the bottom of hoist and mount board connecting rod (2316) is fixedly connected with respectively at the top four sides of drive plate main part (211).

7. A prefabricated component generating transfer storage rack as defined in claim 6, wherein: the utility model discloses a lifting rope lifting device, which is characterized in that a lifting rope second clamping plate (2315) is fixedly connected to the right side of the top of a lifting plate (231), a lifting rope fixing clamp push-pull rod (235) is slidably connected to the inner wall of a lifting plate chute (234), the bottom of the lifting rope fixing clamp push-pull rod (235) extends to the bottom of the lifting plate (231) through the lifting plate chute (234) and is movably connected to the inner wall of the top of a push-pull block (2112), a lifting rope clamping plate connecting block (236) is fixedly connected to the tops of the lifting rope fixing clamp push-pull rod (235) and a lifting rope second clamping plate (2315), a second spring connecting block (237) is fixedly connected to the front side and the rear side of the lifting rope clamping plate connecting block (236), a second spring connecting block (238) is fixedly connected to the left side of the second spring connecting block (237), a lifting rope clamping plate (239) is fixedly connected to the left side of the second spring connecting block (238), a lifting rope clamping plate (239) is fixedly connected to the right side of the lifting rope clamping plate (2310), a rope clamping plate (2311) is fixedly connected to the right side of the lifting plate connecting block (2311) through the right side of the lifting rope clamping plate connecting block (2314), the hoisting rope clamp plate (2314) is fixedly connected with hoisting rope clamp plate sliding blocks (2313) respectively on the front side and the rear side, the outer walls of the hoisting rope clamp plate sliding blocks (2313) are slidably connected with the inner walls of two sliding groove plate sliding grooves (2312) respectively, and limit plates (232) are fixedly connected to the front side and the rear side of the hoisting plate (231) respectively.

8. A prefabricated component generating transfer storage rack as defined in claim 7, wherein: two limiting plates (232) all include limiting plate shell (2321), two limiting plate shell (2321) opposite sides are fixedly connected with lead screw connecting block (2324) respectively, two equal fixedly connected with biax motor (2323) in opposite face middle part of limiting plate shell (2321), two limiting plate spout (2322) have all been seted up to limiting plate shell (2321) opposite face, two equal fixedly connected with lead screw (2325) of left and right sides output of biax motor (2323), two sets of lead screw (2325) keep away from the opposite face of biax motor (2323) one end swing joint at two sets of lead screw connecting block (2324) respectively, two biax motor (2323) left and right sides fixed connection's lead screw (2325) line is opposite.

9. A prefabricated component generating transfer storage rack as defined in claim 8, wherein: two the inner wall left and right sides of limiting plate shell (2321) sliding connection respectively has gag lever post (2326), two sets of one side that gag lever post (2326) is close to limiting plate spout (2322) is equal fixedly connected with gag lever post transmission piece (2327), two sets of the opposite face of gag lever post transmission piece (2327) all extends to the outer wall of limiting plate shell (2321) through limiting plate spout (2322) and inner wall threaded connection respectively at the outer wall of two sets of lead screws (2325), two the left and right sides of limiting plate shell (2321) is the fretwork design.

10. A prefabricated component generating transfer storage rack as defined in claim 1, wherein: the transfer frame (1) comprises a transfer frame bottom plate (11), side frames (13) are fixedly connected to the front side and the rear side of the top of the transfer frame bottom plate (11) respectively, a plurality of hoisting storage frame placing grooves (12) are formed in the top of the transfer frame bottom plate (11) respectively, a plurality of clamping grooves (14) are formed in opposite faces of the side frames (13) respectively, and inner walls of the hoisting storage frame placing grooves (12) formed in the top of the transfer frame bottom plate (11) are movably connected to the bottoms of the outer walls of the two clamping plates (221).