A material placing machine tray structure
The combination design of clamping plates and locking blocks solves the problem of placement deviation caused by the non-adjustable size of the material tray, realizes stable clamping of the material tray and improves its adaptability, and ensures accurate placement of materials in the material tray.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONGGUAN TI DING INTELLIGENT COMM DEVICE CO LTD
- Filing Date
- 2025-04-03
- Publication Date
- 2026-06-09
AI Technical Summary
The existing material trays are not adjustable in size, which can cause misalignment in the placement of materials in the material placement machine, potentially leading to materials falling off the trays.
A material tray structure for a material placement machine was designed. By using a combination of clamping plates and locking blocks, it is possible to center and fix material trays of different sizes. The clamping plates are improved in stability and adaptability through the cooperation of springs and pull ropes.
It improves the adaptability and stability of the material tray, ensuring accurate placement and stable clamping of materials within the tray, and reducing the risk of the tray detaching.
Smart Images

Figure CN224335950U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of material tray technology, specifically to a material tray structure for a material placement machine. Background Technology
[0002] The material tray is a major component of the material placement machine, used to carry and support the accessory materials to be placed. In the automated production process, the material placement machine will place bulk or unorganized accessory materials on the material tray for subsequent placement operations.
[0003] When placing the existing material trays on the material placement machine, they need to be aligned with the clips. The clips limit the position of the material trays, and the size of the material trays is adjusted according to the size of the materials being processed, which can lead to the material trays not being placed stably.
[0004] To address the aforementioned shortcomings, a tray-loading and receiving machine with publication number CN222348134U utilizes a material receiving and conveying component to move materials. During this movement, the material is inspected for compliance by a detector, ensuring that the subsequent adsorber can adsorb qualified materials. An empty tray is placed on the first sliding rail, allowing for horizontal adjustment to match the adsorber. A drive unit rotates a threaded rod, controlling the movement of a sliding seat. A second electric sliding rail on the sliding seat adjusts the height of a floating plate, thereby controlling the height of the adsorber. The adsorber adsorbs multiple objects from the conveying mechanism and places them onto the empty tray, completing the automated material placement and receiving operation. This solves the problem of manual tray placement, significantly improves production efficiency, and ensures product quality.
[0005] In actual use, although the device can automatically arrange the trays, the non-adjustable size of the trays can cause deviations in their placement, which may result in the material detaching from the tray.
[0006] Therefore, we proposed a material tray structure for a material placement machine that can effectively solve the above problems. Utility Model Content
[0007] The purpose of this utility model is to provide a material tray structure for a material placement machine, so as to solve the problem mentioned in the background art that the material tray cannot be adjusted in size, which leads to deviations in the placement position of the material tray and may cause the material to fall out of the tray.
[0008] To achieve the above objectives, the present invention provides the following technical solution: a material tray structure for a material placement machine, comprising a material placement machine plate, wherein the material placement machine plate is fixed on the material placement machine;
[0009] A material tray body is placed on the top of the material placement machine plate, and the bottom of the material tray body is fitted with the top of the moving rod. The bottom of the moving rod is slidably connected to the inside of the material placement machine plate. A first spring is connected to the bottom of the moving rod, and the bottom of the first spring is connected to the inside of the material placement machine plate. A first pull rope is connected to the outer end of the bottom of the moving rod, and the outer end of the first pull rope is connected to the inner wall of the clamping plate. The bottom of the clamping plate is slidably connected to a fixed rod, which is fixed inside the material placement machine plate. The top of the clamping plate extends out of the inside of the material placement machine plate to form a sliding mechanism, and the inner end of the clamping plate is fitted with the outer wall of the material tray body. A second spring is connected to the inner wall of the bottom of the clamping plate, and the second spring is nested on the fixed rod.
[0010] Preferably, a roller is attached to the bend of the first pull rope, and the roller is connected to the inside of the material placement plate via a bearing.
[0011] Preferably, the front ends of the clamping plates on the left and right sides of the material placement machine plate are slidably connected with clamping blocks, and the inner ends of the bottom of the clamping blocks are arc-shaped.
[0012] Preferably, the bottom of the card block extends into the interior of the card slot to form a locking mechanism, and the card slots are evenly spaced on the material placement machine plate.
[0013] Preferably, a third spring is connected to the top of the card block, and the top of the third spring is connected to the inside of the clamping plate.
[0014] Preferably, the top of the card block is connected to a second pull rope, and the top of the second pull rope extends out of the interior of the clamp to form a sliding mechanism.
[0015] Preferably, the clamping plates are provided in four sets, the four sets of clamping plates are symmetrically arranged, and the structure of the four sets of clamping plates is the same.
[0016] Compared with the prior art, the beneficial effects of this utility model are: the material placement machine has a highly adaptable and stable tray structure; the use of clamping plates allows for adjustment according to trays of different sizes, thus improving adaptability; and the use of locking blocks further fixes the position of the clamping plates, thereby improving the stability of the clamping plates in holding the trays. The specific details are as follows:
[0017] (1) A clamping plate is provided. The weight of the material tray will squeeze the moving rod to move, and the moving rod will drive the clamping plate to move. This allows the clamping plate to clamp material trays of different sizes in the center, thereby improving the accuracy of material placement by the material placement machine and thus improving its adaptability.
[0018] (2) A locking block is provided. The position of the clamping plate can be fixed by the engagement between the locking block and the locking slot, so that the clamping plate can firmly clamp the material tray body, thereby improving the stability of clamping.
[0019] (3) A roller is provided, and the roller is attached to the bend of the first pull rope. The roller is connected to the inside of the material placement plate through a bearing, which reduces the wear of the first pull rope and improves the service life of the first pull rope.
[0020] (4) A third spring is provided, which is connected to the top of the block and the top of the third spring is connected to the inside of the clamping plate, so that the third spring can limit the block and thus improve the stability of the block.
[0021] (5) A second pull rope is provided, which is connected to the top of the clamping block. The top of the second pull rope extends out of the interior of the clamping plate to form a sliding mechanism, thereby enabling the second pull rope to drive the clamping block to move, which facilitates the reset of the clamping plate. Attached Figure Description
[0022] Figure 1 This is a schematic diagram of the connection structure between the material placement machine plate and the material tray body of this utility model;
[0023] Figure 2 This is a schematic diagram of the connection structure between the material placement machine plate and the moving rod of this utility model;
[0024] Figure 3 This is a schematic diagram of the connection structure between the material placement machine plate and the first spring of this utility model;
[0025] Figure 4 This utility model Figure 3 Enlarged structural diagram at point A in the middle;
[0026] Figure 5 This is a schematic diagram of the connection structure between the clamping plate and the fixing rod of this utility model;
[0027] Figure 6 This is a schematic diagram of the connection structure between the card block and the card slot of this utility model;
[0028] Figure 7 This is a schematic diagram of the connection structure between the card block and the third spring of this utility model.
[0029] In the diagram: 1. Material placement plate; 2. Material tray body; 3. Moving rod; 4. First spring; 5. First pull rope; 6. Roller; 7. Clamping plate; 8. Fixing rod; 9. Second spring; 10. Locking block; 11. Locking groove; 12. Third spring; 13. Second pull rope. Detailed Implementation
[0030] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0031] Example 1: A material tray structure of a material placement machine solves the problem that existing trays, due to their non-adjustable size, may have misaligned placement, potentially causing materials to detach from the tray. The use of clamping plates 7 allows for the centered clamping of trays 2 of different sizes, thus improving adaptability. The following is disclosed:
[0032] Material placement plate 1 is fixed on material placement machine; a material tray body 2 is placed on the top of material placement plate 1, and the bottom of the material tray body 2 is attached to the top of the moving rod 3. The bottom of the moving rod 3 is slidably connected to the inside of material placement plate 1. A first spring 4 is connected to the bottom of the moving rod 3, and the bottom of the first spring 4 is connected to the inside of material placement plate 1. A first pull rope 5 is connected to the outer end of the bottom of the moving rod 3, and the outer end of the first pull rope 5 is connected to the inner wall of clamping plate 7. The bottom of clamping plate 7 is slidably connected to fixed rod 8. Fixed rod 8 is fixed to the inside of material placement plate 1. The top of clamping plate 7 extends out of the inside of material placement plate 1 to form a sliding mechanism. The inner end of clamping plate 7 is attached to the outer wall of material tray body 2. A second spring 9 is connected to the inner wall of the bottom of clamping plate 7, and the second spring 9 is nested and connected to fixed rod 8. A roller 6 is attached to the bend of the first pull rope 5, and the roller 6 is connected to the inside of material placement plate 1 through bearing.
[0033] refer to Figures 1 to 5The tray body 2 is placed on the material placement machine plate 1. The weight of the tray body 2 will press the moving rod 3 to move it. The moving rod 3 will then compress the first spring 4, causing the first spring 4 to be compressed. The moving rod 3 will then move the first pull rope 5, which in turn will move the clamping plate 7 via the roller 6. The clamping plate 7 will then slide on the fixed rod 8, clamping the tray body 2 so that it is centered on the material placement machine plate 1. The movement of the clamping plate 7 will also compress the second spring. 9. This causes the second spring 9 to be compressed, allowing the tray bodies 2 of different sizes to be placed in the center. Then, the electronic insulating material can be placed inside the tray body 2 by the material placement machine, which facilitates subsequent use. After the tray body 2 is removed, the force of the first spring 4 pushes the moving rod 3 to reset, which causes the moving rod 3 to disengage from the first pull rope 5, making the first pull rope 5 loose. Then, the force of the second spring 9 pushes the clamping plate 7 to reset on the fixed rod 8, which makes the clamping plate 7 easy to clamp the next set of tray bodies 2.
[0034] Example 2: A material tray structure for a material placement machine solves the problem of poor stability of clamping plate 7 in Example 1. The stability of clamping plate 7 can be improved by using locking block 10. The following is disclosed:
[0035] The front ends of the clamping plates 7 on the left and right sides of the material placement machine plate 1 are slidably connected to the clamping blocks 10, and the inner end of the bottom of the clamping block 10 is arc-shaped. The bottom of the clamping block 10 extends into the interior of the clamping groove 11 to form a clamping mechanism. The clamping groove 11 is evenly spaced on the material placement machine plate 1. The top of the clamping block 10 is connected to a third spring 12, and the top of the third spring 12 is connected to the interior of the clamping plate 7.
[0036] refer to Figures 1 to 3 picture, Figure 6 and Figure 7 When the clamping plate 7 clamps the tray body 2, the movement of the clamping plate 7 will cause the locking block 10 to move, which will then press against the locking groove 11. The locking block 10 will slide into the clamping plate 7 under pressure, thereby disengaging from the locking groove 11. The movement of the locking block 10 will also compress the third spring 12. After the clamping plate 7 clamps the tray body 2, the force of the third spring 12 will push the locking block 10 to move, allowing the locking block 10 to extend into the locking groove 11 and fix the clamping plate 7. This allows the clamping plate 7 to stably clamp the tray body 2. Furthermore, the locking block 10 can engage with the locking groove 11 at different positions according to the size of the tray body 2, thereby improving adaptability.
[0037] Example 3: A material tray structure for a material placement machine solves the problem of the jamming block 10 being difficult to reset in Example 2. The reset of the jamming block 10 can be facilitated by using the second pull rope 13. The following is disclosed:
[0038] The top of the locking block 10 is connected to the second pull rope 13, and the top of the second pull rope 13 extends out of the interior of the clamping plate 7 to form a sliding mechanism. There are four sets of clamping plates 7, which are symmetrically arranged and have the same structure.
[0039] refer to Figures 1 to 3 , Figure 6 and Figure 7 When it is necessary to take out the material tray body 2, the second pull rope 13 is pulled, which in turn moves the second pull rope 13 and drives the locking block 10 to move. As a result, the locking block 10 moves and is re-stored inside the clamping plate 7. The movement of the locking block 10 also disengages from the locking groove 11, allowing the clamping plate 7 to move in the opposite direction on the fixed rod 8, thereby achieving the purpose of convenient adjustment.
[0040] Working principle: When using the tray structure of this material placement machine, firstly, refer to... Figures 1 to 5 The tray body 2 is placed on the material placement machine plate 1. The weight of the tray body 2 will press the moving rod 3 to move it. The moving rod 3 will then drive the first pull rope 5 to move, which will cause the clamping plate 7 to move and slide on the fixed rod 8. The clamping plate 7 can then clamp the tray body 2. The movement of the clamping plate 7 will also compress the second spring 9, which will then place the electronic insulating material inside the tray body 2 through the material placement machine, which will facilitate subsequent use. Then the moving rod 3 will release the pull of the first pull rope 5, which will then become loose. The force of the second spring 9 will then push the clamping plate 7 to reset on the fixed rod 8, which will then make it easy for the clamping plate 7 to clamp the next set of tray bodies 2.
[0041] refer to Figures 1 to 3 picture, Figure 6 and Figure 7 When the clamping plate 7 clamps the tray body 2, the movement of the clamping plate 7 will cause the locking block 10 to move, and the movement of the locking block 10 will compress the third spring 12. After the clamping plate 7 clamps the tray body 2, the force of the third spring 12 will push the locking block 10 to move, so that the locking block 10 can extend into the inside of the slot 11 to fix the clamping plate 7. This allows the clamping plate 7 to stably clamp the tray body 2. Furthermore, the locking block 10 can engage with the slot 11 at different positions according to the size of the tray body 2, thereby improving adaptability.
[0042] refer to Figures 1 to 3 picture, Figure 6 and Figure 7 When it is necessary to take out the material tray body 2, the second pull rope 13 is pulled, which in turn moves the second pull rope 13 and drives the locking block 10 to move. The movement of the locking block 10 will also disengage from the locking groove 11, so that the clamping plate 7 can move in the opposite direction on the fixed rod 8, thereby achieving the purpose of convenient adjustment.
[0043] The contents not described in detail in this specification are existing technologies known to those skilled in the art.
[0044] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.
Claims
1. A material tray structure for a material placement machine, comprising a material placement machine plate (1), wherein the material placement machine plate (1) is fixed on the material placement machine; Its features are, A material tray body (2) is placed on the top of the material placement plate (1), and the bottom of the material tray body (2) is fitted against the top of the moving rod (3). The bottom of the moving rod (3) is slidably connected to the inside of the material placement plate (1). A first spring (4) is connected to the bottom of the moving rod (3), and the bottom of the first spring (4) is connected to the inside of the material placement plate (1). A first pull rope (5) is connected to the outer end of the bottom of the moving rod (3), and the outer end of the first pull rope (5) is connected to the material placement plate (1). The inner walls of the clamping plate (7) are connected, and the bottom of the clamping plate (7) is slidably connected to the fixed rod (8). The fixed rod (8) is fixed inside the material placement machine plate (1), and the top of the clamping plate (7) extends out of the inside of the material placement machine plate (1) to form a sliding mechanism. The inner end of the clamping plate (7) is fitted to the outer wall of the material tray body (2). The bottom inner wall of the clamping plate (7) is connected to a second spring (9), and the second spring (9) is nested and connected to the fixed rod (8).
2. The material tray structure of a material placement machine according to claim 1, characterized in that: The first pull rope (5) has a roller (6) attached to its bend, and the roller (6) is connected to the inside of the material placement plate (1) by a bearing.
3. The material tray structure of a material placement machine according to claim 1, characterized in that: The material placement machine plate (1) has a clamping block (10) slidably connected to the front end of the clamping plate (7) on both sides of the left and right sides, and the inner end of the bottom of the clamping block (10) is arc-shaped.
4. The material tray structure of a material placement machine according to claim 3, characterized in that: The bottom of the card block (10) extends into the interior of the card slot (11) to form a locking mechanism, and the card slots (11) are equally spaced on the material placement plate (1).
5. The material tray structure of a material placement machine according to claim 4, characterized in that: The top of the locking block (10) is connected to a third spring (12), and the top of the third spring (12) is connected to the inside of the clamping plate (7).
6. The material tray structure of a material placement machine according to claim 5, characterized in that: The top of the card block (10) is connected to a second pull rope (13), and the top of the second pull rope (13) extends out of the interior of the clamp (7) to form a sliding mechanism.
7. The material tray structure of a material placement machine according to claim 1, characterized in that: The clamping plate (7) is provided in four sets, and the four sets of clamping plates (7) are symmetrically arranged, and the four sets of clamping plates (7) have the same structure.