CN217050105U - Heavy-load three-dimensional warehouse conveying system - Google Patents

Abstract

The utility model relates to a three-dimensional storehouse conveying system of heavy load. By bearing support, lifting locating rack, spacing lifting frame, placing board and displacement transmission structure and forming, mutually support between the support body, form main bearing area through bearing the support, carry out main supporting operation, stability is placed in the guarantee, when needs carry out position control, will place the board and carry out position control, make its move to lifting locating rack and spacing lifting frame on, carry out reciprocal sliding from top to bottom along the support body, carry out altitude mixture control. The displacement transmission structure includes: the mounting bracket is fixed with the inner wall of the bracket groove body, the rotating conveying wheel is rotatably connected with the mounting bracket and used for rotating and conveying, and the matched sliding clamping block is arranged outside the rotating conveying wheel, is provided with a plurality of along the circumferential direction of the rotating conveying wheel and is in relative matching transmission with the sliding clamping groove.

Description

Heavy-load three-dimensional warehouse conveying system

Technical Field

The utility model relates to a three-dimensional storehouse technical field specifically is a three-dimensional storehouse conveying system of heavy load.

Background

The three-dimensional warehouse is also called an elevated warehouse or an elevated warehouse, and generally refers to a warehouse which stores unit goods by adopting shelves with the heights of several layers, more than ten layers and even dozens of layers and uses corresponding material handling equipment to carry out goods warehousing and ex-warehouse operation;

when the existing heavy-load three-dimensional warehouse stores goods, due to the stacking height of the goods and other functional requirements, single group of goods need to be extracted or placed according to actual requirements, and due to the large height, when the position is adjusted at the later stage, the height is inconvenient to adjust, the height needs to be adjusted manually to extract and place, and the working efficiency is not high enough;

meanwhile, the adjustment degree of the goods shelf is not high enough, and the goods shelf is not convenient to use, so that a heavy-load three-dimensional warehouse conveying system is needed in order to meet the requirements.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the heavy-load three-dimensional warehouse conveying system is provided, and the problems are solved.

In order to achieve the above object, the utility model provides a following technical scheme:

a heavy-duty stereoscopic garage transport system comprising: two for a set of, be provided with two sets ofly at least, set up relatively along predetermined distance, place and support spacing bearing support, with bearing a set of laminating of support, a lifting locating rack for the cooperation carries out altitude mixture control, relative with lifting locating rack position, be used for carrying out the spacing lifting frame of lifting motion, be provided with two at least along bearing the support equidistance, be used for carrying out the board of placing of warehouse storage and placing, set up and place the displacement transmission structure that the board carries out lateral displacement in bearing inside the horizontal cell body of support and lifting locating rack, drive, the horizontal cell body position of lifting locating rack, spacing lifting frame and bearing the support all sets up to same water flat line.

Through installing and bearing the support, mutually support between lifting locating rack and the spacing lifting frame support body, form main bearing area through bearing the support, carry out main support work, the stability is placed in the guarantee, when needs carry out position control, will place the board and carry out position control, make it move to lifting locating rack and spacing lifting frame on, reciprocal slip about going on along the support body, carry out altitude mixture control, when the goods is placed in needs, only need to place the position of board through the regulation and can carry out altitude mixture control, cooperate through setting up the multiunit support body in warehouse inside, can realize the position control that the board was placed to the multiunit simultaneously, further lifting efficiency, guarantee working property.

According to an aspect of the embodiments of the present application, the load bearing bracket includes: the load bearing support includes: the bracket body is arranged at the positioning end of the bracket body and forms a limiting clamping groove of a positioning area with two open ends.

Through set up spacing draw-in groove on the stake body, can be so that the stacking in-process, place placing of board and stabilize a little and obtain better guarantee.

According to an aspect of an embodiment of the present application, the lift positioning bracket includes: the main lifting frame is arranged on the main lifting frame and the limiting frame body to form a sliding positioning groove of a triangular longitudinal sliding area, arranged on the main lifting frame and the laminating support body to form a transverse sliding groove of the transverse sliding area, and fixed on the sliding positioning groove positioning area to provide sliding components for placing the board to slide.

Through installing the slip constant head tank, can place the board altitude mixture control when, make it slide in the internal portion of groove, further ensure gliding stability, avoid appearing the unilateral slope, provide main sliding force through the slip subassembly to guarantee job driving performance, horizontal spout can be so that the lateral movement performance of placing the board obtains better guarantee, and the flexibility is higher.

According to an aspect of the embodiment of the present application, the limiting lifting frame comprises: the limiting frame body is opposite to the main lifting frame and used for limiting transverse movement, limiting plates are arranged at two ends of the sliding positioning groove and used for limiting longitudinal sliding, and the limiting positioning groove is arranged on the limiting frame body and opposite to the transverse sliding groove.

Through being provided with spacing constant head tank, can carry out certain spacing at the lifting in-process, form the sectional type and carry, power is carried in the guarantee that can be better, stability and the flexibility of regulation about the guarantee.

According to an aspect of an embodiment of the present application, the placing plate includes: set up to the rectangle, be used for carrying on the mainboard of placing that article were placed, with place the mainboard joint, be used for placing spacing limiting plate, set up in place mainboard upper end both sides, with the relative cooperation spout in horizontal spout position, set up in cooperation spout, equidistance and be provided with the sliding groove of a plurality of, and set up in cooperation spout both ends, carry out gliding lifting sliding block with the sliding component cooperation.

Through being provided with the cooperation spout on placing the mainboard, the inside sliding groove who sets up of spout, it is relative with the cooperation sliding clamping block that rotates the delivery wheel outside and set up, through the motion of cooperation sliding clamping block, imbeds inside the sliding clamping groove in proper order to drive whole placing the mainboard and carry out lateral displacement, in order to ensure its lateral movement performance.

According to an aspect of an embodiment of the present application, the displacement transmission structure includes: the device comprises a mounting rack fixed with the inner wall of a bracket groove body, a rotating conveying wheel which is rotatably connected with the mounting rack and used for rotating conveying work, and a plurality of matched sliding clamping blocks which are arranged outside the rotating conveying wheel, are arranged along the circumferential direction of the rotating conveying wheel and are matched with the sliding clamping grooves in a transmission manner relatively.

Compared with the prior art, the beneficial effects of the utility model are that:

through installing and bearing and mutually supporting between support, lifting locating rack and the spacing lifting frame support body, form main bearing area through bearing the support, carry out main supporting operation, the stability is placed in the guarantee, when needs carry out position control, will place the board and carry out position control, make its motion to lifting locating rack and spacing lifting frame on, carry out reciprocal slip from top to bottom along the support body, carry out altitude mixture control, solved the above-mentioned problem of proposing.

Drawings

Fig. 1 is a perspective view of the utility model relates to a three-dimensional storehouse conveying system of heavy load.

Fig. 2 is a schematic structural view of the conveying system of the heavy-duty three-dimensional garage of the present invention.

Fig. 3 is the utility model relates to a heavy load stereoscopic warehouse conveying system's schematic structure.

In the figure: the lifting device comprises a bearing support 1, a support body 11, a limiting clamping groove 12, a lifting positioning frame 2, a main lifting frame 21, a sliding positioning groove 22, a transverse sliding groove 23, a sliding assembly 24, a limiting lifting frame 3, a limiting frame body 31, a limiting plate 32, a limiting positioning groove 33, a placing plate 4, a placing main plate 41, a limiting plate 42, a matching sliding groove 43, a sliding clamping groove 44, a lifting sliding block 45, a displacement transmission structure 5, a mounting frame 51, a rotating conveying wheel 52 and a matching sliding clamping block 53.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the present invention.

The applicant believes that when goods are stored in the existing heavy-load three-dimensional warehouse in the market, due to the stacking height of the goods and other functional requirements, single-group goods need to be extracted or placed according to actual requirements, and due to the large height, when the position is adjusted in the later period, the height is inconvenient to adjust, and the height is adjusted by manually matching with mechanical equipment to extract and place, so that the working efficiency is not high enough; meanwhile, the adjustment degree of the goods shelf is not high enough, and the goods shelf is not convenient and fast to use.

Therefore, the applicant designs a heavy-load three-dimensional warehouse conveying system which comprises bearing supports, lifting positioning frames, limiting lifting frames, placing plates and a displacement transmission structure, wherein the support bodies are mutually matched, a main bearing area is formed through the bearing supports to carry out main supporting work, the placing stability is guaranteed, and when the position is required to be adjusted, the placing plates are subjected to position adjustment, move to the lifting positioning frames and the limiting lifting frames, slide up and down in a reciprocating mode along the support bodies, and are subjected to height adjustment.

The utility model relates to a three-dimensional storehouse conveying system of heavy load, in practical application, as shown in fig. 1 to 3, including bearing support 1, lifting locating rack 2, spacing lifting frame 3, placing board 4 and displacement transmission structure 5, bearing support 1 includes stake body 11 and spacing draw-in groove 12, stake body 11 is provided with four, bears to be provided with spacing draw-in groove 12 on the end stake body 11, and spacing draw-in groove 12 is placed spacingly to placing board 4.

Lifting locating rack 2 includes main lifting frame 21, slip constant head tank 22, horizontal spout 23 and slip subassembly 24, main lifting frame 21 inboard is provided with slip constant head tank 22, slip constant head tank 22 forms a sliding region, make place board 4 reciprocal slip about its inside, carry out the altitude mixture control, main lifting frame 21 and rather than laminating all be provided with horizontal spout 23 on the end stake body 11, horizontal spout 23 is relative with spacing draw-in groove 12 horizontal position, guarantee lateral sliding stability, main lifting frame 21's horizontal spout 23 end is provided with slip subassembly 24, slip subassembly 24 sets up to the multiunit, separate for multistage work end along horizontal spout 23, can make the slip transport performance in later stage more stable.

Spacing lifting frame 3 includes spacing support body 31, limiting plate 32 and spacing constant head tank 33, and spacing support body 31 inboard is provided with the slip constant head tank 22 equally to cooperation main lifting frame 21 forms the four sides location, and location performance is carried in the guarantee, and limiting plate 32 is all installed with the both ends face of main lifting frame 21 to spacing support body 31, and limiting plate 32 can carry on spacingly when placing board 4 and carry out the up-and-down motion, avoids derailing.

Place board 4 including placing mainboard 41, limiting plate 42, cooperation spout 43, sliding groove 44 and lifting sliding block 45, place mainboard 41's rear end and install limiting plate 42, limiting plate 42 with place mainboard 41 joint, the both sides of placing mainboard 41 upper end all are provided with cooperation spout 43, the inside sliding groove 44 that is provided with of cooperation spout 43, sliding groove 44 is provided with a plurality of, the equidistance is seted up, lifting sliding block 45 is all installed at cooperation spout 43 both ends, lifting sliding block 45 and 24 cooperation guarantee sliding properties of sliding component, lifting sliding block 45 can be electronic slider and electronic spout with sliding component 24, make its cooperation.

Displacement transmission structure 5 includes mounting bracket 51, rotate delivery wheel 52 and cooperation slip fixture block 53, mounting bracket 51 is installed inside horizontal spout 23, simultaneously, inside displacement transmission structure 5 of also installing of spacing constant head tank 33, embedding cell body upper end, mounting bracket 51 internally mounted has rotation delivery wheel 52, it is inside that rotation delivery wheel 52 is located cooperation spout 43, it has cooperation slip fixture block 53 to rotate delivery wheel 52 externally mounted, cooperation slip fixture block 53 is provided with a plurality of, set up along rotating delivery wheel 52 circumference equidistance, the movement distance between the adjacent cooperation slip fixture block 53 is relative with adjacent slip fixture block 44, it is inside to make rotation delivery wheel 52 rotate during operation cooperation slip fixture block 53 to correspond the card income slip fixture block 44.

In the in-service use process, when board 4 is placed to a certain layer and is carried out the altitude mixture control, through the rotation of rotating delivery wheel 52, it is inside to drive cooperation slip fixture block 53 and correspond the card and go into slip draw-in groove 44, make whole board 4 of placing slide along horizontal spout 23, when placing board 4 overall movement to between lifting locating rack 2 and the spacing lifting frame 3, slide assembly 24 and the cooperation of lifting sliding block 45 through the inside slip constant head tank 22 carry out the altitude mixture control, carry out the pile-up of goods or unload after adjusting to predetermined height, place board 4 to horizontal spout 23 department through upwards lifting after unloading, rethread displacement drive structure 5 carry out the lateral displacement transmission can.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. A heavy-duty three-dimensional garage conveying system is characterized by comprising:

the two bearing supports are in a group, at least two groups are arranged, are oppositely arranged along a preset distance, and are used for placing, supporting and limiting;

the lifting positioning frame is attached to one group of the bearing support and is used for being matched with the bearing support to adjust the height;

the limiting lifting frame is opposite to the lifting positioning frame and used for limiting the lifting motion;

the placing plates are arranged at least two at equal intervals along the bearing support and used for storing and placing in a warehouse;

the displacement transmission structure is arranged inside the transverse groove body of the bearing bracket and the lifting positioning frame and drives the placing plate to perform transverse displacement;

the horizontal groove body positions of the lifting positioning frame, the limiting lifting frame and the bearing support are all set to be the same horizontal line.

2. The heavy-duty stereoscopic garage conveying system of claim 1, wherein: the load bearing support includes:

a stent body;

and the limiting clamping groove is arranged at the positioning end of the bracket body to form a positioning area with two open ends.

3. The heavy-duty stereoscopic garage delivery system of claim 1, wherein: the lifting locating rack comprises:

the main lifting frame is made of the same material as the support body, has the same height and is opposite to the support body;

the sliding positioning groove is formed in the main lifting frame and the limiting frame body to form a triangular longitudinal sliding area;

the transverse sliding chute is arranged on the main lifting frame and the support body attached to the main lifting frame to form a transverse sliding area;

and the sliding assembly is fixed in the sliding positioning groove positioning area and used for providing power required by sliding of the placing plate.

4. The heavy-duty stereoscopic garage delivery system of claim 1, wherein: spacing lifting frame includes:

the limiting frame body is opposite to the main lifting frame and used for limiting transverse movement;

the limiting plates are arranged at two ends of the sliding positioning groove and used for longitudinally sliding and limiting;

and the limiting positioning groove is arranged on the limiting frame body and is opposite to the transverse sliding groove.

5. The heavy-duty stereoscopic garage delivery system of claim 1, wherein: the placing plate comprises:

the placing main board is rectangular and used for placing articles;

the limiting plate is clamped with the placing main plate and used for placing and limiting;

the matching sliding chutes are arranged on two sides of the upper end of the placing main board and are opposite to the transverse sliding chutes;

the sliding clamping grooves are arranged in the matching sliding grooves and are arranged at equal intervals;

and the lifting sliding blocks are arranged at two ends of the matching sliding grooves and slide in a matching way with the sliding assemblies.

6. The heavy-duty stereoscopic garage conveying system of claim 1, wherein: the displacement transmission structure includes:

the mounting frame is fixed with the inner wall of the bracket groove body;

the rotary conveying wheel is rotationally connected with the mounting rack and is used for performing rotary conveying work;

the matched sliding clamping block is arranged on the outer side of the rotating conveying wheel, is provided with a plurality of sliding clamping blocks along the circumferential direction of the rotating conveying wheel, and is in matched transmission with the sliding clamping grooves in a position opposite to each other.

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