CN-122009652-A - Layered friction-increasing type aluminum alloy section conveying equipment

Abstract

The invention relates to the field of transportation, in particular to layered friction-increasing aluminum alloy profile conveying equipment. Including the storage box, the both sides of storage box rotate respectively and install a set of protection subassembly that is used for sheltering from the protection, and every group protection subassembly end-mounting has a set of shrouding, the inside slidable mounting of storage box has a plurality of groups to pile up the spacing subassembly that stacks of placing to and cooperate each group to pile up the spacing subassembly and carry out the transportation subassembly that removes. The stacking limiting assembly is layered to limit two ends of the aluminum alloy section, the electromagnet assembly in the bottom plate is matched with the armature and the iron plate in the middle of the partition plate, the partition plate is further adsorbed through magnetic force, the aluminum alloy section is ensured to be stable in position in transportation, friction loss is reduced, the pressing assembly can be used for fixedly placing structural positions, the stacking limiting assembly adapts to aluminum alloy section with different lengths, the use convenience is improved, the placing plate and the cover plate of the transferring assembly can be pulled out from the storage box, the box body can be conveniently pushed into after stacking the stacking limiting assembly outside, and the stacking convenience is improved.

Inventors

• XIANG ZEYUAN
• Liu ruian
• Zuo Dengdong
• LIU ANJIE

Assignees

• 池州市安安新材料科技股份有限公司
• 抚州安通新材科技有限公司

Dates

Publication Date

20260512

Application Date

20260408

Claims (10)

1. 1. The layered friction-increasing aluminum alloy profile conveying equipment comprises a storage box body (1) and is characterized in that a group of protection components for shielding protection are respectively rotatably arranged on two sides of the storage box body (1), a group of sealing plates (12) are arranged at the tail end of each group of protection components, a plurality of groups of stacking limiting components (16) which are stacked are slidably arranged in the storage box body (1), and a transfer component which is matched with each group of stacking limiting components (16) to move; The stacking limiting assembly (16) comprises two groups of placing structures, each group of placing structures is formed by rotationally connecting two groups of bottom plates (20), an electromagnet assembly is arranged inside each bottom plate (20), an armature (24) is embedded and arranged on the surface of each bottom plate (20), a baffle (22) is fixedly arranged on one side of the upper surface of each bottom plate (20), a plurality of groups of partition plates (25) are movably arranged on the upper part of each bottom plate (20) through the corresponding baffle (22), and an iron plate (29) matched with the corresponding armature (24) is embedded and arranged in the middle of each partition plate (25); The transfer assembly comprises a placement plate (15) and a cover plate (18) which are attached to the inner wall of the storage box body (1) in a sliding mode, and a group of middle partition plates (17) which are placed between every two groups of stacking limiting assemblies (16).
2. 2. The layered friction-increasing aluminum alloy profile conveying equipment is characterized in that a plurality of groups of auxiliary rollers (2) are respectively and equidistantly rotatably arranged on the upper side and the lower side of the inner wall of the storage box body (1), two groups of first movable grooves (3) are symmetrically formed in the lower portion of the storage box body (1) in a penetrating mode on two sides of the auxiliary rollers (2), two groups of bottom grooves (4) are formed in the lower surface of the storage box body (1) corresponding to the lower portions of the two ends of the auxiliary rollers (2), two groups of second movable grooves (5) are formed in the upper portion of the storage box body (1) in a penetrating mode, and two groups of butt joint grooves (6) are formed in the upper surface of the storage box body (1) corresponding to the two groups of first movable grooves (3).
3. 3. The layered friction-increasing type aluminum alloy profile conveying equipment according to claim 2, wherein the protection component comprises a rotating plate (7) rotatably connected with the storage box body (1), a corrugated folding plate (8) connected with the rotating plate (7) and a positioning plate (9) connected with the corrugated folding plate (8), a plurality of groups of connecting rods (11) for supporting are arranged on the inner side of the positioning plate (9), two ends of each group of connecting rods (11) are respectively inserted into the corresponding side rotating plate (7) and the positioning plate (9) for inner movable installation, and two groups of sealing plates (12) are respectively rotatably installed on the outer ends of one group of positioning plates (9).
4. 4. The layered friction-increasing aluminum alloy profile conveying equipment according to claim 3, wherein a group of slots are respectively formed in the upper side and the lower side of the inner wall of the storage box body (1), a group of limit grooves (10) are respectively formed in the middle parts of the corresponding sides of the two groups of rotating plates (7) and the locating plates (9), side grooves matched with the slots are formed in the upper ends and the lower ends of the rotating plates (7) and the locating plates (9), a group of locking grooves (13) are respectively formed in the middle parts of the outer surfaces of the two groups of sealing plates (12), and a group of locking locks (14) matched with the locking grooves (13) are arranged in the two groups of locking grooves (13).
5. 5. The layered friction-increasing aluminum alloy profile conveying equipment according to claim 4, wherein the placing plate (15) and the cover plate (18) are respectively and slidably installed inside the slot, the placing plate (15) and the cover plate (18) are respectively attached to the extrados surfaces of the auxiliary rollers (2), a plurality of groups of auxiliary wheels (19) are respectively installed on the surfaces of the placing plate (15) and the cover plate (18), the auxiliary wheels (19) on the surface of the placing plate (15) extend out of the first moving groove (3), and the auxiliary wheels (19) on the surface of the cover plate (18) extend out of the second moving groove (5).
6. 6. The layered friction-increasing aluminum alloy profile conveying equipment according to claim 5, wherein electromagnet assemblies are arranged inside bottom plates (20), a plurality of groups of connecting lantern rings (21) are alternately arranged on corresponding sides of two groups of bottom plates (20) in each group of placing structures, the connecting lantern rings (21) are connected through a center shaft (33), sliding grooves are symmetrically formed in each group of baffle plates (22), and a group of anti-collision pads (23) are embedded in each group of sliding grooves.
7. 7. The layered friction-increasing aluminum alloy profile conveying equipment according to claim 6, wherein an inner cavity (26) is formed in the middle of the partition plate (25) in a penetrating mode, two groups of clamping grooves (27) are symmetrically formed in the inner wall of the inner cavity (26), and protection pads (28) are respectively arranged on the upper side and the lower side of the inner cavity (26) in an adhering mode.
8. 8. The layered friction-increasing aluminum alloy profile conveying equipment according to claim 7, wherein clamping plates (30) are fixedly arranged on two sides of the iron plate (29), the clamping plates (30) are clamped into clamping grooves (27) for clamping installation, two groups of limiting sliding blocks (31) are arranged on one side of the iron plate (29) in a penetrating mode through the partition plate (25), a group of protective rubber blocks (32) are respectively arranged on two sides of each group of limiting sliding blocks (31), the limiting sliding blocks (31) are slidably arranged in the sliding grooves, and the protective rubber blocks (32) are attached to the anti-collision pad (23) for sliding.
9. 9. The layered friction-increasing aluminum alloy profile conveying equipment according to claim 8, wherein the pressing assembly comprises two groups of pressing plates (34) which are arranged corresponding to the placement structures, and a connecting structure for connecting the two groups of pressing plates (34); each group of pressing plates (34) is provided with a connecting groove (35) in a penetrating way corresponding to the baffle plate (22), and the middle parts of the corresponding sides of the two groups of pressing plates (34) are fixedly provided with butt joint rods (36).
10. 10. The layered friction-increasing aluminum alloy section bar conveying equipment according to claim 9, wherein the connecting structure comprises a rotating rod (37) and internal thread pipes (39) which are positioned at two ends of the rotating rod (37) and connected with the butt joint rod (36), external threads (38) are respectively formed at two ends of the outer cambered surface of the rotating rod (37), the rotating rod (37) is in threaded connection with the internal thread pipes (39), and a group of positioning plugs (40) which are spliced with the butt joint rod (36) are arranged at the outer ends of each group of the internal thread pipes (39).

Description

Layered friction-increasing type aluminum alloy section conveying equipment Technical Field The invention belongs to the technical field of transportation, and particularly relates to layered friction-increasing aluminum alloy profile conveying equipment. Background The aluminum alloy section is a nonferrous metal structural material, and is widely applied to automobiles, machinery, buildings and decoration along with the rapid development of science, technology and industrial economy in recent years, wherein in the processing of the aluminum alloy section, a plurality of different working procedures are required, and therefore, the transportation and the transportation are required between the working procedures. Through searching, in the prior art, chinese patent publication No.: CN 221457745U, publication day: 2024-08-02 discloses a transfer device for aluminum alloy profile processing, relates to aluminum alloy profile processing technical field, including the transfer car (buggy), the lower surface mounting of transfer car (buggy) has a plurality of gyro wheel, the upper surface of transfer car (buggy) is equipped with limit structure, limit structure includes the curb plate, the lower surface and the transfer car (buggy) fixed connection of curb plate, the cross-section of curb plate is "L" shape, the lower surface fixedly connected with telescopic link of transfer car (buggy), the output fixedly connected with slider of telescopic link, the slide hole has been seted up to the lower surface of transfer car (buggy), the slider is located the slide hole, the upper surface fixedly connected with squeeze plate of slider, the upper surface fixedly connected with triangular block of transfer car. The device still has the following drawbacks: In the storage and transportation process of the aluminum alloy section, due to the lack of effective protection measures, the two ends of the aluminum alloy section are extremely easy to wear due to collision and friction during transportation, so that the quality of products is reduced, and the subsequent use and sales are affected. Moreover, the traditional storage mode cannot reasonably layer and limit the aluminum alloy section bar, the section bar is easy to displace and shake during transportation, the risk of collision damage is increased, scratches can be generated due to mutual friction, the attractiveness and the overall quality of the product are reduced, and therefore the layered friction-increasing type aluminum alloy section bar conveying equipment is needed at present. Disclosure of Invention Aiming at the problems, the invention provides layered friction-increasing aluminum alloy profile conveying equipment. The storage box comprises a storage box body, wherein a group of protection components for shielding protection are respectively rotatably installed on two sides of the storage box body, a group of sealing plates are installed at the tail ends of each group of protection components, a plurality of groups of stacking limiting components which are stacked and placed are slidably installed in the storage box body, and a transfer component which is matched with each group of stacking limiting components to move; The stacking limiting assembly comprises two groups of placing structures, wherein each group of placing structures is formed by rotationally connecting two groups of bottom plates, an electromagnet assembly is arranged in each bottom plate, an armature is embedded and installed on the surface of each bottom plate, a baffle is fixedly installed on one side of the upper surface of each bottom plate, a plurality of groups of partition plates are movably installed on the upper part of each bottom plate through the baffle, and an iron plate matched with the armature is embedded and installed in the middle of each partition plate; the transfer assembly comprises a placing plate and a cover plate which are attached to the inner wall of the storage box body and slide, and a group of middle partition plates which are placed between every two groups of stacking limiting assemblies; because the stacking gravity is in a vertical state, aluminum alloy profiles with different sizes can be used for stacking and boxing. Further, a plurality of groups of auxiliary rollers are respectively and equidistantly rotatably arranged on the upper side and the lower side of the inner wall of the storage box body, two groups of first movable grooves are symmetrically formed in the lower portion of the storage box body in a penetrating mode on two sides of the auxiliary rollers, two groups of bottom grooves are formed in the lower surface of the storage box body corresponding to the lower portions of two ends of the auxiliary rollers, two groups of second movable grooves are formed in the upper portion of the storage box body in a penetrating mode corresponding to the positions of the two groups of bottom grooves, and two groups of butt joint grooves are formed in the uppe