CN220948054U - Cement prefabricated plate handling device - Google Patents

Abstract

The utility model relates to a cement precast slab carrying device, which is characterized in that: including the transport plate body, push away handle support, first rope reel, first leading wheel subassembly, second rope reel and second leading wheel subassembly, the outer wall at both ends around the transport plate body on respectively be fixed with a backup pad, the walking wheel is installed to the bottom of backup pad, first rope reel, first leading wheel subassembly, second rope reel and second leading wheel subassembly respectively be provided with two, two first rope reels are installed at the top of transport plate body left end, two first leading wheel subassemblies are installed on the left transport plate body of two first rope reels. The design has the advantages of simple structure, easy manufacture, practicality and high efficiency.

Description

Cement prefabricated plate handling device

Technical Field

The utility model relates to the technical field of cement precast slabs, in particular to a cement precast slab carrying device.

Background

The building construction is a production process carried out by people according to a specific design blueprint by utilizing various building materials and mechanical equipment in a certain space and time for constructing various building products, and comprises all production processes from construction preparation, earth breaking and construction completion acceptance. In the process, construction preparation, construction organization design and management, earthwork, blasting engineering, foundation engineering, reinforcing steel bar engineering, template engineering, scaffold engineering, concrete engineering, prestressed concrete engineering, masonry engineering, steel structure engineering, wood structure engineering, structure installation engineering and the like are to be performed.

It is often necessary to prefabricate some cement precast slabs on a building site, and the slabs can be transported to a proper place for use after the cement is solidified, so that the difficulty of building construction can be reduced, and the building construction time can be shortened, and the heavy cement precast slabs are very laborious to transport on the building site.

Disclosure of Invention

The utility model designs a cement precast slab carrying device for solving the problems, and the position of a second guide wheel assembly can be adjusted according to the length of the cement precast slabs, so that the cement precast slabs with different lengths are hoisted, the cement precast slabs with different lengths are transported smoothly, and the effect of increasing the practical performance is achieved.

In order to solve the technical problems, the utility model provides a cement precast slab carrying device, which is characterized in that: including the transport plate body, push away the handle support, first rope reel, first leading wheel subassembly, second rope reel and second leading wheel subassembly, the transport plate body on both ends around respectively be fixed with a backup pad, the bottom of backup pad install the walking wheel, first rope reel, first leading wheel subassembly, second rope reel and second leading wheel subassembly respectively be provided with two, two first rope reels install the top in transport plate body left end, two first leading wheel subassemblies are installed on the transport plate body of two first rope reels left side, two first leading wheel subassemblies are gone up and are offered two first through-holes under the transport plate body, respectively be connected with a first rope on two first rope reels, first rope receive and release through first rope reel, its one end first leading wheel subassembly and pass the transport plate body and link to each other with first lifting hook along first through-hole, two second rope reels install on two first rope reel right side and are gone up and are passed the second rope reel left side at two first rope reel left side, two second rope reel both sides are passed through the second leading wheel subassembly and are gone up and are passed two first rope reel left side, two rope reel connection plate body and second rope reel left side, two second rope reel connection plate body and second rope reel are passed through the second leading wheel assembly.

Further: two trapezoidal grooves are formed in the top of the right end of the carrying plate body, the second guide wheel assembly is slidably connected in the trapezoidal grooves through a sliding block arranged at the bottom, a connecting plate connected with the second guide wheel assembly into a whole is arranged on the front side and the rear side of the second guide wheel assembly, a threaded through hole is formed in the connecting plate, a tightening bolt is connected in the threaded through hole, the tightening bolt penetrates through the connecting plate along the threaded through hole and is in contact with the top of the carrying plate body, a through groove is formed in the bottom surface in the trapezoidal groove, a second rope penetrates through the carrying plate body along the through groove, and the right ends of the trapezoidal grooves and the through groove are all in an open shape.

Still further: the walking wheel pass through high adjustment mechanism and backup pad and link to each other, high adjustment mechanism including setting up mounting panel, lead screw, guide cylinder, guide pillar and the drive plate on the transport plate body front and back both sides wall, the guide cylinder fix the bottom at the backup pad, the walking wheel install the lower extreme at the guide pillar, the upper end swing joint of guide pillar is in the guide cylinder, the upper end and the mounting panel of lead screw rotate to be connected, the drive plate on set up with lead screw assorted connecting through-hole, the lower extreme of lead screw passes the drive plate along connecting through-hole, the both ends of drive plate stretch into respectively and be located two guide cylinders of same one side and link to each other with the upper end of guide pillar, set up the breach that is used for the drive plate to stretch into on the lateral wall of guide cylinder, the drive plate can reciprocate along the breach.

Still further: two side plates are respectively fixed on the front side and the rear side of the carrying plate body, a translation driving electric cylinder is mounted on each side plate, the output shaft end of the translation driving electric cylinder is connected with the anti-falling bracket, two guide rods are horizontally fixed on the outer wall of each side plate, and one end of each guide rod, far away from each side plate, penetrates through the anti-falling bracket and is in sliding connection with the anti-falling bracket.

After the structure is adopted, the position of the second guide wheel assembly can be adjusted according to the length of the cement precast slab, so that the cement precast slabs with different lengths are hoisted, the cement precast slabs with different lengths are transported smoothly, and the function of increasing the practical performance is achieved; according to the utility model, the cement precast slab is supported by the anti-falling bracket during transportation, so that the cement precast slab is prevented from falling down after suddenly unhooking to cause structural damage, and unnecessary loss is reduced.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

Fig. 1 is a schematic diagram of a front view structure of the present utility model.

Fig. 2 is a top view partial block diagram of the present utility model.

Detailed Description

The cement precast slab handling device shown in fig. 1 comprises a handling slab body 1, a push handle bracket 3, a first rope winder 12, a first guide wheel assembly 14, a second rope winder 15 and a second guide wheel assembly, wherein a supporting plate 2 is respectively fixed on the outer walls of the front end and the rear end of the handling slab body, a travelling wheel 4 is installed at the bottom of the supporting plate, the first rope winder, the first guide wheel assembly, the second rope winder and the second guide wheel assembly are respectively provided with two first rope winders, the two first rope winders are installed at the top of the left end of the handling slab body, the two first guide wheel assemblies are installed on the handling slab body on the left side of the two first rope winders, two first through holes 21 are formed in the handling slab body under the two first guide wheel assemblies, a first rope 13 is respectively connected to the two first rope winders, one end of each first rope is wound around the first guide wheel assembly and passes through the first hook through the first guide wheel assembly and the two hooks on the two first guide wheel assemblies, the two first rope winders are also wound around the two hooks and pass through the two first guide wheels 16 and are connected to the two second rope winders on the two second rope winders, and the two first guide wheel assemblies are connected to the two first rope winders and pass through the two first guide wheel assemblies and the two hooks are arranged on the two first rope winders and pass through the two first guide wheel assemblies and the two first rope winders. The carrying plate body is pushed to move to the position right above the cement precast slab 18 to be transported, the cement precast slab is lifted by the two first lifting hooks and the two second lifting hooks, and then the carrying plate body is pushed to transport the cement precast slab to a specified position.

As shown in fig. 2, two trapezoidal grooves 19 are formed in the top of the right end of the carrying plate body, the second guide wheel assembly is slidably connected in the trapezoidal grooves through a sliding block arranged at the bottom, two connecting plates connected with the second guide wheel assembly into a whole are respectively arranged on the front side and the rear side of the second guide wheel assembly, threaded through holes are formed in the connecting plates, a jack bolt is connected in the threaded through holes, the jack bolt penetrates through the connecting plates along the threaded through holes and contacts with the top of the carrying plate body, through grooves 20 are formed in the bottom surface in the trapezoidal grooves, the second ropes penetrate through the carrying plate body along the through grooves, and the right ends of the trapezoidal grooves and the through grooves are all in an open shape. The utility model can adjust the position of the second guide wheel assembly according to the length of the cement precast slabs, thereby lifting the cement precast slabs with different lengths, smoothly completing the transportation of the cement precast slabs with different lengths and playing the role of increasing the practical performance.

The walking wheel shown in figure 1 is connected with the supporting plate through a height adjusting mechanism, the height adjusting mechanism comprises a mounting plate 7, a screw rod 8, a guide cylinder 5, a guide pillar 6 and a transmission plate 9 which are arranged on the front side wall and the rear side wall of a carrying plate body, the guide cylinder is fixed at the bottom of the supporting plate, the walking wheel is arranged at the lower end of the guide pillar, the upper end of the guide pillar is movably connected in the guide cylinder, the upper end of the screw rod is rotatably connected with the mounting plate, a connecting through hole matched with the screw rod is formed in the transmission plate, the lower end of the screw rod penetrates the transmission plate along the connecting through hole, two ends of the transmission plate respectively extend into the two guide cylinders which are positioned on the same side and are connected with the upper end of the guide pillar, a notch for the transmission plate to extend in is formed in the side wall of the guide cylinder, and the transmission plate can move up and down along the notch. The utility model can adjust the height of the carrying plate body according to the thickness of the cement precast slab and the road surface condition, thereby completing the smooth transportation of the cement precast slab.

As shown in fig. 1 and fig. 2, two side plates are respectively fixed on the front side and the rear side of the carrying plate body, a translation driving cylinder is mounted on each side plate, the shaft outlet end of the translation driving cylinder is connected with an anti-falling bracket 11, two guide rods 22 are horizontally fixed on the outer walls of the side plates, and one ends of the guide rods, far away from the side plates, penetrate through the anti-falling bracket and are in sliding connection with the anti-falling bracket. According to the utility model, the cement precast slab is supported by the anti-falling bracket during transportation, so that the cement precast slab is prevented from falling down after suddenly unhooking to cause structural damage, and unnecessary loss is reduced.

The above is only a preferred embodiment of the present utility model, and the protection scope of the present utility model is not limited to the above examples, and all technical solutions belonging to the concept of the present utility model belong to the protection scope of the present utility model. It should be noted that modifications and adaptations to the utility model without departing from the principles thereof are intended to be within the scope of the utility model as set forth in the following claims.

Claims (4)

1. Cement prefabricated plate handling device, its characterized in that: including transport plate body (1), push away handle support (3), first rope reel (12), first leading wheel subassembly (14), second rope reel (15) and second leading wheel subassembly, the transport plate body around the outer wall at both ends on respectively be fixed with backup pad (2), walking wheel (4) are installed to the bottom of backup pad, first rope reel, first leading wheel subassembly, second rope reel and second leading wheel subassembly respectively be provided with two, two first rope reels install the top in transport plate body left end, two first leading wheel subassemblies are installed on the transport plate body of two first rope reels left sides, two first through-holes (21) have been seted up on the transport plate body under two first leading wheel subassemblies, respectively be connected with a first rope (13) on two first rope reels, first rope reel receive and release, one end of it walk around first leading wheel subassembly and pass the lifting hook body along first through the through-hole and link to each other with the second rope reel, two rope reels are installed into a pair of second rope reel and are connected into a body, two rope reel link to each other on two first rope reel side and two second rope reel side, two first rope reel link to each other with the second rope reel side, two first rope reel link to each other on two first rope reel side 16.

2. A cement precast slab handling apparatus as claimed in claim 1, wherein: two trapezoidal grooves (19) have been seted up at the top of transport plate body right-hand member, second leading wheel subassembly pass through the slider sliding connection in the bottom in trapezoidal groove, both sides respectively are provided with a connecting plate rather than linking into an organic whole around the second leading wheel subassembly, the connecting plate on set up threaded through-hole, threaded through-hole in-connection have jack bolt, jack bolt pass the connecting plate along threaded through-hole and contact with the top of transport plate body, logical groove (20) have been seted up on the bottom surface in the trapezoidal groove, the second rope pass the transport plate body along logical groove, trapezoidal groove and logical groove's right-hand member all are open.

3. A cement precast slab handling apparatus as claimed in claim 1, wherein: the walking wheel pass through high adjustment mechanism and backup pad and link to each other, high adjustment mechanism including setting up mounting panel (7), lead screw (8), guide cylinder (5), guide pillar (6) and drive plate (9) on both sides wall around the transport plate body, the guide cylinder fix in the bottom of backup pad, the walking wheel install the lower extreme at the guide pillar, the upper end swing joint of guide pillar in the guide cylinder, the upper end and the mounting panel of lead screw rotate to be connected, the drive plate on set up with lead screw assorted connecting through-hole, the lower extreme of lead screw passes the drive plate along connecting through-hole, the both ends of drive plate stretch into respectively in two guide cylinders of same one side and link to each other with the upper end of guide pillar, set up on the lateral wall of guide cylinder and be used for the drive plate to stretch into the breach at the breach, the drive plate can reciprocate along the breach.

4. A cement precast slab handling apparatus as claimed in claim 1, wherein: two side plates are respectively fixed on the front side and the rear side of the carrying plate body, a translation driving cylinder is mounted on each side plate, the output shaft end of the translation driving cylinder is connected with an anti-falling bracket (11), two guide rods (22) are horizontally fixed on the outer wall of each side plate, and one end of each guide rod, far away from each side plate, penetrates through the anti-falling bracket and is in sliding connection with the anti-falling bracket.