A toy production building block drilling device

Abstract

The utility model discloses a building block drilling equipment for toy production, its structure includes side boundary mounting panel, rotating roller and collection box, and the transportation of building block is realized through rotating roller rotation, makes its building block movable addition drilling, avoids the situation of lower efficiency of artificial one by one drilling, and after moving and contacting with pressure sensor, rotating roller stops rotating, and under the push of electric push rod no.

Description

Technical Field

[0001] This utility model relates to the technical field of building block drilling equipment, and in particular to a building block drilling equipment for toy production. Background Technology

[0002] Building blocks are usually cubic wooden or plastic solid toys, typically decorated with letters or pictures on each surface, allowing for different arrangements or building activities. Building blocks come in various styles, can develop children's intelligence, and can be assembled into houses, various animals, etc.

[0003] During the production of building blocks, drilling is performed. Currently, most drilling is done manually by hand, which is less safe, prone to safety hazards, and less efficient.

[0004] Therefore, a drilling device for building blocks used in toy production is proposed. Utility Model Content

[0005] (a) Technical problems to be solved

[0006] To overcome the shortcomings of existing technologies, a drilling device for building blocks in toy production is proposed. This addresses the problem that most toy building blocks are currently drilled manually by hand, which is unsafe, prone to safety hazards, and has low efficiency.

[0007] (II) Technical Solution

[0008] This utility model is achieved through the following technical solution: This utility model proposes a drilling device for building blocks in toy production, including symmetrically connected side mounting plates. A controller is mounted on the outer side of the side mounting plates, and a row of rotating rollers is rotatably mounted at the upper end of the side mounting plates.

[0009] The side mounting plate has an upward-facing mounting bracket with an opening on one side at its rear end. The upper end of the mounting bracket is equipped with a push plate, and an electric push rod is installed at the top of the mounting bracket. The output end of the electric push rod is connected to the push plate. The push plate has a vertical lifting groove on one side. A baffle is slidably installed inside the lifting groove. A limiting plate is installed at the top of the baffle, and a pressure sensor is installed on the outer side of the bottom end of the baffle. A second motor is installed at the lower end of the push plate, and a drill bit is connected to the output end of the second motor.

[0010] Two electric push rods are symmetrically installed on both sides of the side mounting plate at the upper end of the rotating roller. The output end of the two electric push rods passes through the inside of the side mounting plate and is connected to a clamping plate.

[0011] Furthermore, a working box is installed on one side of the side mounting plate, and a transmission gear is connected through the interior of the rotating roller. A transmission rod is rotatably installed inside the working box, and several drive gears are installed on the outside of the transmission rod and mesh with the transmission gear. A third motor is installed on the outside of the working box and connected to one side of the transmission rod.

[0012] Furthermore, telescopic rods are installed on both sides of the mounting frame and connected to the push plate.

[0013] Furthermore, the lower end of the push plate is provided with a movable slide rail with an opening at the lower end. A lead screw is rotatably installed inside the movable slide rail. A first motor is installed on the outside of the movable slide rail and connected to the lead screw. A movable slider is slidably fitted inside the movable slide rail. The movable slider has a threaded hole inside and is connected to the lead screw. The second motor is installed at the lower end of the movable slider.

[0014] Furthermore, a force-bearing plate is installed on the inner side of the clamping plate via a pressure sensor, and a movable block is provided on the inner side of the force-bearing plate. The clamping plate has a movable groove inside that is movably connected to the movable block.

[0015] Furthermore, a collection box with an open top is installed inside the side mounting plate at the lower end of the rotating roller. A filter bag is provided at the upper end of the collection box, and a fan is installed on the outside of the collection box, with the fan's suction end penetrating through the bottom of the collection box.

[0016] (III) Beneficial Effects

[0017] Compared with the prior art, this utility model has the following advantages:

[0018] 1. In this utility model, the transmission rod is driven by a third motor through the drive gear and the transmission gear, which causes the rotating roller to rotate to one side at the same time. This allows the blocks to move to one side in a flowing manner when they are at the top for drilling, avoiding the need for manual handling of each block and making the work more efficient.

[0019] Then, under the action of the electric push rod two, the building blocks can be clamped, and the drill bit at the top rotates driven by the second motor to make it drill. This avoids manual operation of the drilling machine, making the work safer and avoiding injury.

[0020] Furthermore, with the first motor driving the lead screw to move the sliding block left and right, the lower drill bit can drill holes at multiple or different locations, resulting in better working effect and higher efficiency.

[0021] 2. In this utility model, by setting a collection box at the lower end of the rotating roller, the debris generated by drilling can be sucked down into the filter bag for collection under the suction force generated by the fan, thereby reducing the impact of debris scattering on the working environment and reducing subsequent cleaning time, thus making the work more efficient. Attached Figure Description

[0022] Other features, objects, and advantages of this invention will become more apparent from the following detailed description of non-limiting embodiments with reference to the accompanying drawings:

[0023] Figure 1 This is a schematic diagram of the internal structure of the present invention from the front.

[0024] Figure 2 This is a schematic diagram of the internal structure of the clamping plate of this utility model.

[0025] Figure 3 This is a top view of the internal structure of the rotating roller of this utility model;

[0026] In the diagram: Side mounting plate-1, rotating roller-2, collection box-3, filter bag-4, fan-5, mounting bracket-6, push plate-7, electric push rod one-8, moving slide rail-9, telescopic rod-10, lead screw-11, first motor-12, moving slider-13, threaded hole-14, second motor-15, drill bit-16, lifting groove-17, baffle-18, limiting plate-19, pressure sensor one-110, clamping plate-111, controller-112, electric push rod two-113, force plate-114, pressure sensor two-115, movable groove-116, movable block-117, work box-118, transmission rod-119, drive gear-120, transmission gear-121, third motor-122. Detailed Implementation

[0027] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are only used to explain this utility model and are not intended to limit this utility model.

[0028] Please see Figure 1 , Figure 2 and Figure 3This utility model provides a drilling device for building blocks in toy production, including symmetrically installed side mounting plates 1 for support. A controller 112 is installed on the outside of the side mounting plates 1, allowing for easy operation of the electrical components in the device under the control of the externally purchased controller 112, making drilling more convenient for workers. A row of rotating rollers 2 is rotatably installed at the upper end of the side mounting plates 1. A work box 118 is installed on one side of the side mounting plates 1. A transmission gear 121 is connected through the inside of one side of the rotating rollers 2. A transmission rod 119 is rotatably installed inside the work box 118, and several drive gears are installed on the outside of the transmission rod 119. The drive gear 120 meshes with the transmission gear 121, forming a bevel gear structure that facilitates transmission. A third motor 122 is installed on the outside of the work box 118 and connected to one side of the transmission rod 119. Driven by the third motor 122, the transmission rod 119 rotates, causing the drive gear 120 and transmission gear 121 to rotate the rotating roller 2. As the rotating roller 2 rotates, it moves the blocks at its upper end, making it easier to drill holes in the blocks. This avoids workers having to pick them up one by one, allowing the blocks to flow naturally and cyclically, increasing work efficiency and reducing manpower.

[0029] A mounting bracket 6 with an opening on one side is installed upwards at the rear end of the side mounting plate 1. The other side opening facilitates the operation and use of the internal building blocks by the staff, resulting in better work efficiency and more convenient operation. A push plate 7 is provided at the upper end of the mounting bracket 6 to allow the whole assembly to move up and down under force. An electric push rod 8 is installed at the top of the mounting bracket 6, and the output end of the electric push rod 8 is connected to the push plate 7. Under the action of the electric push rod 8, the lower drill bit 16 moves up and down to perform drilling work. Telescopic rods 10 are installed on both sides of the mounting bracket 6 and connected to the push plate 7. The telescopic rods 10 facilitate the stabilization of the push plate 7. For better pushing effect, the push plate 7 has a vertically extending lifting groove 17 on one side. A baffle 18 is slidably installed inside the lifting groove 17. The baffle 18 slides in the lifting groove 17, so that after its bottom end contacts the rotating roller 2, it can push the push plate 7 downward, allowing the drill bit 16 at the lower end to drill. The bottom end of the baffle 18 is set in a semi-circular shape to avoid the rotating roller 2 from affecting it, thus improving the rotation effect. A limiting plate 19 is provided at the top of the baffle 18 to prevent the baffle 18 from falling downward and to facilitate pulling the baffle 18 upward through the limiting plate 19. The push plate 7 is equipped with a pressure sensor 110 on the outer side of its bottom end. Under the action of the pressure sensor 110, the force applied to the block when it moves to one side can stop the rotating roller 2, facilitating subsequent clamping and drilling of the block. The baffle 18 is used for positioning. A second motor 15 is installed at the lower end of the push plate 7, and a drill bit 16 is connected to the output end of the second motor 15. Driven by the second motor 15, the drill bit 16 rotates to drill holes in the block, thus avoiding manual hand-held drilling and improving safety. A sliding rail 9 with an opening at the bottom is provided on one side of the lower end of the push plate 7. The movable slide rail 9 has a lead screw 11 rotatably mounted inside. A first motor 12 is mounted on the outside of the movable slide rail 9 and connected to the lead screw 11. A movable slider 13 slides inside the movable slide rail 9 to prevent the slider 13 from overturning under force, making it more stable. The movable slider 13 has a threaded hole 14 inside and is connected to the lead screw 11. A second motor 15 is installed at the lower end of the movable slider 13. When the first motor 12 drives the lead screw 11 to rotate, the movable slider 13 inside can drive the drill bit 16 at the lower end to move left and right. This allows drilling holes in different positions or different blocks, making the work more efficient and effective.

[0030] Electric push rods 113 are symmetrically installed on both sides of the side mounting plate 1 at the upper end of the rotating roller 2. The output end of the electric push rod 113 passes through the inside of the side mounting plate 1 and is connected to a clamping plate 111. The electric push rod 113 can push the clamping plate 111 inward to clamp the building block. The electric push rod 113 can be controlled independently to push the building block back and forth to adjust the position and change the drilling position. A force plate 114 is installed on the inside of the clamping plate 111 through a pressure sensor 115 to control the pressure on the building block and avoid damage to the building block. A movable block 117 is provided on the inside of the force plate 114. The clamping plate 111 has a movable groove 116 that is movably connected to the movable block 117, so that the force plate 114 can apply pressure to the pressure sensor 115 to achieve clamping.

[0031] Inside the side mounting plate 1, at the lower end of the rotating roller 2, is a collection box 3 with an open top. The opening at the top facilitates the entry and collection of debris. An openable door is provided on one side of the collection box 3 to facilitate the replacement and cleaning of the filter bag 4 inside. The filter bag 4 is located at the upper end of the collection box 3. A fan 5 is installed on the outside of the collection box 3, and the suction end of the fan 5 extends through the bottom of the collection box 3. This allows the debris to fall downwards due to the suction force generated by the fan 5, so that the debris can fall into the collection box 3 through the gap between the rotating rollers 2, where it is collected by the filter bag 4. This prevents the debris from scattering and affecting the working environment, and reduces the need for subsequent cleaning of the mobile phone.

[0032] Working principle: In use, first connect the fan 5, electric push rod 8, first motor 12, second motor 15, pressure sensor 110, electric push rod 113, pressure sensor 115, third motor 122, and controller 112, and connect them to an external power supply. Then, the third motor 122 drives the transmission rod 119, which, under the action of the drive gear 120 and the transmission gear 121, causes the rotating roller 2 to rotate to one side. This causes the block placed on the top to move to one side under force. After the block contacts the pressure sensor 110 at the lower end of the baffle 18 and is subjected to force, the rotating roller 2 stops rotating. Then, the electric push rod 113 pushes the clamping plate 1 inward. 11 allows the building blocks to be clamped, and then the electric push rod 8 pushes the push plate 7 downward, causing the second motor 15 to drive the drill bit 16 to drill holes in the building blocks. Moreover, when the first motor 12 drives the sliding block 13 to move left and right through the lead screw 11, the position of the lower drill bit 16 can be adjusted so that it can drill holes at different positions on the building blocks. The debris generated during rotation is collected in the filter bag 5 by the fan 5. After drilling, the push plate 7 is pulled upward and the baffle 18 is pulled open under the action of the limiting plate 19. Then the rotating roller 2 rotates and moves the building blocks to one side. Then the baffle 18 moves downward and repeats the above steps to complete the work.

[0033] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely preferred examples and are not intended to limit the utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A drilling device for building blocks in toy production, comprising symmetrically connected side mounting plates (1), a controller (112) mounted on the outer side of the side mounting plates (1), and a row of rotating rollers (2) arranged and rotatably mounted on the upper end of the side mounting plates (1), characterized in that... ； The side mounting plate (1) has an upward-facing mounting bracket (6) with an opening on one side. The mounting bracket (6) has a push plate (7) at its upper end. The mounting bracket (6) has an electric push rod (8) at its top end. The output end of the electric push rod (8) is connected to the push plate (7). The push plate (7) has a lifting groove (17) that runs through the top and bottom on one side. A baffle (18) is slidably installed inside the lifting groove (17). A limiting plate (19) is provided at the top end of the baffle (18). A pressure sensor (110) is installed on the outer side of the bottom end of the baffle (18). A second motor (15) is installed at the lower end of the push plate (7). A drill bit (16) is connected to the output end of the second motor (15). Electric push rods (113) are symmetrically installed on both sides of the side mounting plate (1) at the upper end of the rotating roller (2). The output end of the electric push rods (113) passes through the inside of the side mounting plate (1) and is connected to a clamping plate (111).

2. The drilling equipment for building blocks in toy production according to claim 1, characterized in that: A working box (118) is installed on one side of the side mounting plate (1). A transmission gear (121) is connected through the interior of the rotating roller (2). A transmission rod (119) is rotatably installed inside the working box (118). Several drive gears (120) are installed on the outside of the transmission rod (119) and mesh with the transmission gear (121). A third motor (122) is installed on the outside of the working box (118) and connected to one side of the transmission rod (119).

3. The drilling equipment for building blocks in toy production according to claim 1, characterized in that: The mounting bracket (6) has telescopic rods (10) installed on both sides, which are connected to the push plate (7).

4. The drilling equipment for building blocks in toy production according to claim 1, characterized in that: The push plate (7) has a movable slide rail (9) with an opening at the bottom on one side. A lead screw (11) is rotatably installed inside the movable slide rail (9). A first motor (12) is installed on the outside of the movable slide rail (9) and connected to the lead screw (11). A movable slider (13) slides inside the movable slide rail (9). A threaded hole (14) is provided inside the movable slider (13) and connected to the lead screw (11). A second motor (15) is installed at the lower end of the movable slider (13).

5. The drilling equipment for building blocks in toy production according to claim 1, characterized in that: A force plate (114) is installed on the inner side of the clamping plate (111) via a pressure sensor (115). A movable block (117) is provided on the inner side of the force plate (114). A movable groove (116) is provided inside the clamping plate (111) and is movably connected to the movable block (117).

6. The drilling equipment for building blocks in toy production according to claim 1, characterized in that: Inside the side mounting plate (1), at the lower end of the rotating roller (2), there is a collection box (3) with an open top. Inside the collection box (3), there is a filter bag (4) at the upper end. A fan (5) is installed on the outside of the collection box (3), and the suction end of the fan (5) penetrates through the bottom of the collection box (3).

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