Shaping material turnover rack
By installing a pushing device on the material handling rack, and using slide rails and rollers to reduce friction, the problem of rack tilting or tipping caused by dragging heavy materials is solved, thus improving the safety and stability of material storage.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BRILYN TECH (BEIJING) CO LTD
- Filing Date
- 2025-07-04
- Publication Date
- 2026-07-03
AI Technical Summary
When using existing material handling racks, heavy materials have high friction with the surface of the placement board, which makes it easy for personnel to drag the rack when retrieving materials, causing it to tilt or tip over, affecting the safety of material storage.
A pushing device is installed on the placement plate, including components such as slide rails, perforated frames, rollers, hole seats, and pins. The rotation of the rollers reduces friction, assists in the movement of materials, and reduces the risk of dragging and tipping.
By using a pushing device to reduce friction, material storage and retrieval are assisted, the safety of material storage is improved, the possibility of the frame tilting or tipping over is reduced, and the stability of the materials is ensured.
Smart Images

Figure CN224448575U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of turnover rack technology, and in particular to turnover rack for shaping materials. Background Technology
[0002] The shaping material turnover rack is a logistics storage device designed specifically for the industrial field. It is mainly used for the classified storage and efficient turnover of various shaped materials (such as metal parts, plastic parts, etc.), and features modularity and customizability.
[0003] Existing material handling racks are used by placing shaped materials on the rack's placement plates for storage, or by using casters at the bottom of the rack for movement and transfer. However, since most shaped materials are placed directly on the placement plates, some heavier materials may experience greater friction with the plate surface. This can cause the rack to be dragged when personnel retrieve materials, leading to tilting or tipping, causing other materials on the rack to slip off and affecting the safety of material storage. Utility Model Content
[0004] The technical problem this utility model aims to solve is that since most shaped materials are placed directly on the placement board, some heavier shaped materials may have greater friction with the surface of the placement board. This can cause the frame to be dragged when personnel pick up materials, resulting in the frame tilting or falling over, causing other materials on the frame to slip off and affecting the safety of material storage.
[0005] The technical solution adopted by this utility model to solve its technical problem is: a material shaping turnover rack, including: a frame, which is placed on the ground to provide support for the placement board; casters, which are set at the bottom of the frame to provide mobility for the frame; and a pushing device, which is set on the placement board, wherein the pushing device is used to assist personnel in placing and picking up the shaped materials.
[0006] Preferably, the pushing device includes: a slide rail fixedly connected to a placement plate; a multi-hole frame slidably mounted on the slide rail via a sliding plate, wherein two pins are slidably connected to the inner wall of the multi-hole frame; rollers, wherein multiple rollers are rotatably mounted on the sliding plate via bearing rods, wherein the roller surfaces are in contact with the inner wall of the slide rail; and hole seats, wherein two hole seats are slidably mounted on the multi-hole frame, wherein pins are fixed to the hole seats by inserting them into the hole seats.
[0007] The effect achieved by the above-mentioned components is as follows: By setting up a pushing device, the two hole seats are first manually moved so that they move along the inside of the multi-hole frame. When the two hole seats move to a position that matches the size of the material, the inner wall of the hole seat coincides with the inner wall of any hole on the multi-hole frame. At this time, the two pins are manually inserted into the multi-hole frame and the two hole seats respectively to fix them. Then, the shaped material is placed on the two hole seats, and the multi-hole frame is manually pushed. Under the action of the rotation of multiple rollers, the friction between the slide plate and the slide rail is reduced, so that the multi-hole frame drives the slide plate to slide along the inside of the slide rail, and the multi-hole frame drives the material to move. This achieves the auxiliary storage and retrieval of the shaped material, reduces the dragging of the frame by personnel when retrieving materials, which may cause the frame to tilt or fall, causing other materials on the frame to slip off, and improves the safety of material storage.
[0008] Preferably, a cylindrical block is fixedly connected to one side of the slide plate, wherein the cylindrical block slides in the slide rail and limits the position of the slide plate.
[0009] The effect achieved by the above components is that by setting up the cylindrical block, the cylindrical block can slide along the inside of the slide rail and intercept and limit the slide plate, reducing the possibility of the slide plate leaving the inside of the slide rail during movement.
[0010] Preferably, one side of each of the two pins is fixedly connected to an elastic rope, and both elastic ropes are fixedly connected to the multi-hole frame.
[0011] The effect achieved by the above components is that the elastic rope can be used to hang the pins inside the pull-out multi-hole frame, reducing the chance of the pins falling off or being lost.
[0012] Preferably, a guide rod is fixedly connected to the inner wall of the porous frame, wherein the guide rod is placed inside the two hole seats to limit its movement.
[0013] The effect achieved by the above components is that by setting a guide rod, the guide rod can be placed inside the hole seat to limit its movement, thereby reducing the tilting of the hole seat during adjustment and movement.
[0014] Preferably, a rubber pad is fixedly connected to one side of each of the two hole seats, wherein the surface of the rubber pad has multiple protrusions.
[0015] The effect achieved by the above components is as follows: by setting the rubber pad, the rubber pad can increase the adhesion between the hole seat and the material surface, while increasing the friction between the material and the hole seat surface, reducing the slippage of the material, and improving the stability of the placed material.
[0016] Preferably, the pushing device further includes: a blocking rod, which is slidably mounted on the slide rail, wherein the surface of the blocking rod is in contact with the surface of the slide plate, and wherein the blocking rod is made of an absorbent metal material.
[0017] The effect achieved by the above-mentioned components is that by setting up the blocking rod, personnel can manually insert the blocking rod into the slide rail to intercept the slide plate, thereby reducing the possibility of the slide plate accidentally sliding inside the slide rail and affecting the stability of the stored materials.
[0018] Preferably, a magnetic ring is fixedly connected to the side of the slide rail near the blocking rod, wherein the magnetic ring is fixed to the blocking rod by adsorption.
[0019] The effect achieved by the above components is that by setting up a magnetic ring, the magnetic ring can be fixed to the blocking rod by adsorption, reducing the possibility of the blocking rod shaking or falling out of the hole in the slide rail during use.
[0020] The beneficial effects of this utility model are:
[0021] By setting up a pushing device, the friction between the shaped material and the placement plate can be reduced, which helps personnel to conveniently store and retrieve the shaped material. This reduces the risk of the frame being dragged and tilted or tipped over due to the large friction between the material and the placement plate when personnel are retrieving the material, thus improving the safety of material storage. Attached Figure Description
[0022] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0023] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0024] Figure 2 This is a three-dimensional structural diagram of the slide rail of this utility model;
[0025] Figure 3 This is a three-dimensional structural diagram of the porous frame of this utility model;
[0026] Figure 4 This is a partial cross-sectional view of the porous frame of this utility model;
[0027] Figure 5 This is a three-dimensional structural diagram of the hole seat of this utility model.
[0028] Legend: 1. Frame; 2. Casters; 3. Placement board; 4. Pushing device; 41. Slide rail; 42. Intercepting bar; 43. Magnetic ring; 44. Slide plate; 45. Cylindrical block; 46. Perforated frame; 47. Pin; 48. Elastic rope; 49. Roller; 410. Guide rod; 411. Hole seat; 412. Rubber pad. Detailed Implementation
[0029] The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic diagrams, illustrating only the basic structure of the present invention, and therefore only show the components relevant to the present invention.
[0030] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "connected" and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.
[0031] Figure 1-5 The material handling rack shown includes: a frame 1, which is placed on the ground to provide support for the placement plate 3; casters 2, which are located at the bottom of the frame 1 to provide mobility for the frame 1; and a pushing device 4, which is located on the placement plate 3 and is used to assist personnel in placing and retrieving the material.
[0032] Figure 2-5 The pushing device 4 shown includes: a slide rail 41 fixedly connected to the placement plate 3; a perforated frame 46 slidably mounted on the slide rail 41 via a slide plate 44, wherein two pins 47 are slidably connected to the inner wall of the perforated frame 46; rollers 49, wherein multiple rollers 49 are rotatably mounted on the slide plate 44 via bearing rods, wherein the surface of the rollers 49 is in contact with the inner wall of the slide rail 41; and hole seats 411, wherein two hole seats 411 are slidably mounted on the perforated frame 46, wherein the pins 47 are fixed to the hole seats 411 by inserting them into the hole seats 411. By setting the pushing device 4, the two hole seats 411 are first manually moved so that the two hole seats 411 move along the inside of the perforated frame 46. When the two hole seats 411 move to the material ruler... When the dimensions are matched, the inner wall of the hole seat 411 coincides with the inner wall of any hole on the multi-hole frame 46. At this time, the two pins 47 are manually inserted into the multi-hole frame 46 and the two hole seats 411 respectively to fix them. Then, the shaped material is placed on the two hole seats 411, and the multi-hole frame 46 is manually pushed. Under the rotation of multiple rollers 49, the friction between the slide plate 44 and the slide rail 41 is reduced, so that the multi-hole frame 46 drives the slide plate 44 to slide along the slide rail 41. This allows the multi-hole frame 46 to move the material, thereby achieving auxiliary storage and retrieval of the shaped material. This reduces the dragging of the frame 1 by personnel when retrieving materials, which may cause the frame 1 to tilt or fall, causing other materials on the frame 1 to slip off. This improves the safety of material storage.
[0033] Figure 2-5A cylindrical block 45 is fixedly connected to one side of the slide plate 44 shown. The cylindrical block 45 slides in the slide rail 41 and limits the slide plate 44. By setting the cylindrical block 45, the cylindrical block 45 can slide along the inside of the slide rail 41 and intercept and limit the slide plate 44, reducing the possibility of the slide plate 44 detaching from the inside of the slide rail 41 during movement. An elastic rope 48 is fixedly connected to one side of each of the two pins 47. Both elastic ropes 48 are fixedly connected to the multi-hole frame 46. By setting the elastic ropes 48, the pins 47 pulled out of the multi-hole frame 46 can be dragged, reducing the possibility of the pins 47 falling off and being lost.
[0034] Figure 2-5 The inner wall of the porous frame 46 shown is fixedly connected with a guide rod 410. The guide rod 410 is placed inside the two hole seats 411 and limits their movement. By setting the guide rod 410, the guide rod 410 can be placed inside the hole seats 411 and limited, reducing the tilting of the hole seats 411 during adjustment and movement. A rubber pad 412 is fixedly connected to one side of each of the two hole seats 411. The surface of the rubber pad 412 has multiple protrusions. By setting the rubber pad 412, the rubber pad 412 can increase the adhesion between the hole seat 411 and the material surface, and at the same time increase the friction between the material and the surface of the hole seat 411, reducing the slippage of the material and improving the stability of the placed material.
[0035] Figure 2-5 The pusher device 4 shown also includes: a blocking rod 42, which is slidably installed on the slide rail 41. The surface of the blocking rod 42 is in contact with the surface of the slide plate 44. The blocking rod 42 is made of a metal material that can attract metal. By setting the blocking rod 42, personnel can manually insert the blocking rod 42 into the slide rail 41 to intercept the slide plate 44, reducing the possibility of the slide plate 44 accidentally sliding inside the slide rail 41 and affecting the stability of the stored materials. A magnetic ring 43 is fixedly connected to the side of the slide rail 41 near the blocking rod 42. The magnetic ring 43 is fixed to the blocking rod 42 by attracting it. By setting the magnetic ring 43, the magnetic ring 43 can be fixed to the blocking rod 42 by attracting it, reducing the possibility of the blocking rod 42 shaking or falling out of the hole in the slide rail 41 during use.
[0036] Working principle: First, manually move the two hole seats 411 so that they move along the inside of the multi-hole frame 46. When the two hole seats 411 move to a position that matches the size of the material, the inner wall of the hole seat 411 coincides with the inner wall of any hole on the multi-hole frame 46. At this time, manually insert the two pins 47 into the multi-hole frame 46 and the two hole seats 411 respectively to fix them. Then, place the shaped material on the two hole seats 411 and manually push the multi-hole frame 46. Under the rotation of multiple rollers 49, the friction between the slide plate 44 and the slide rail 41 is reduced, so that the multi-hole frame 46 drives the slide plate 44 to slide along the inside of the slide rail 41, so that the multi-hole frame 46 drives the material to move. When the material has completely moved into the frame 1, manually insert the blocking rod 42 into the slide rail 41 to limit the slide plate 44, thus completing the storage of the material. Otherwise, the material is quickly moved out of the frame 1 and transported, thereby achieving the auxiliary storage and retrieval of the shaped material.
[0037] Based on the above-described preferred embodiments of this utility model, and through the foregoing description, those skilled in the art can make various changes and modifications without departing from the technical concept of this utility model. The technical scope of this utility model is not limited to the contents of the specification, but must be determined according to the scope of the claims.
Claims
1. A plastic material pallet, characterized by: include: A frame (1) is placed on the ground to provide support for the placement board (3); Casters (2) are provided at the bottom of the frame (1) to provide mobility for the frame (1); Pushing device (4) is set on the placement plate (3), wherein the pushing device (4) is used to assist personnel in placing and picking up the shaping materials.
2. The orthopedic material turnaroun d cart of claim 1, wherein: The pushing device (4) includes: a slide rail (41), which is fixedly connected to the placement plate (3); A perforated frame (46) is slidably mounted on a slide rail (41) via a slide plate (44), wherein two pins (47) are slidably connected to the inner wall of the perforated frame (46); Rollers (49), wherein multiple rollers (49) are rotatably mounted on the slide plate (44) via bearing rods, wherein the surface of the rollers (49) is in contact with the inner wall of the slide rail (41); Hole holders (411), two of which are slidably mounted on a multi-hole frame (46), wherein a pin (47) is fixed thereto by being inserted into the hole holder (411).
3. The orthopedic material turnaroun d cart of claim 2, wherein: A cylindrical block (45) is fixedly connected to one side of the slide plate (44), wherein the cylindrical block (45) slides in the slide rail (41) and limits the slide plate (44).
4. The orthopedic material turnaroun d cart of claim 2, wherein: One side of each of the two pins (47) is fixedly connected to an elastic rope (48), and both elastic ropes (48) are fixedly connected to the multi-hole frame (46).
5. The orthopedic material turnaroud cart of claim 2, wherein: The inner wall of the porous frame (46) is fixedly connected with a guide rod (410), wherein the guide rod (410) is placed inside the two hole seats (411) to limit its movement.
6. The orthopedic material turnover nest of claim 2, wherein: A rubber pad (412) is fixedly connected to one side of each of the two hole seats (411), wherein the surface of the rubber pad (412) has multiple protrusions.
7. The orthopedic material turnover nest of claim 2, wherein: The pushing device (4) further includes: a blocking rod (42), which is slidably installed on the slide rail (41), wherein the surface of the blocking rod (42) is in contact with the surface of the slide plate (44), and wherein the blocking rod (42) is made of an absorbent metal material.
8. The plastic material pallet of claim 7, wherein: A magnetic ring (43) is fixedly connected to the side of the slide rail (41) near the blocking rod (42), wherein the magnetic ring (43) is fixed to the blocking rod (42) by adsorption.