Portable moxibustion device integrated automatic assembly device

Abstract

The utility model provides a portable moxa stick integration automatic assembly device, including first shell support, first conveyer belt, second shell support and second conveyer belt, the outer wall surface of first conveyer belt installs first limit board, the outer wall surface of second conveyer belt installs second limit board, the one end of first conveyer belt near first limit board is placed with moxa stick lower cover of equal interval, and fixed mounting has forming assembly between first shell support and second shell support, and forming assembly includes the lower passageway and round hole of fixed mounting in the side of first shell support away from first cylinder, the top of lower passageway is fixedly installed with assembly bin, the surface of the side of assembly bin near lower passageway is seted up with slide hole, the inner wall surface of slide hole is slidably installed with pressure block, in general the utility model has simple structure, high assembly efficiency, effective cost saving, the advantage that the rate of defective products is greatly reduced and is suitable for large-scale popularization.

Description

Technical Field

[0001] This utility model belongs to the field of processing technology of moxibustion auxiliary equipment, specifically relating to an integrated automatic assembly device for portable moxibustion devices. Background Technology

[0002] Portable moxibustion devices are easy-to-carry moxibustion aids, usually made of high-temperature resistant materials. They are compact in size and can hold moxa sticks or cones in place. Temperature can be controlled by adjusting ventilation to avoid burns, making moxibustion safer and more convenient. They are very suitable for moxibustion health care at home, in the office, or when traveling. To achieve the function of moxibustion health care, portable moxibustion devices generally include multiple components. These components are assembled manually, which is not only inefficient but also risky. Since most existing portable moxibustion devices consist of an upper cover and a lower cover, and these upper and lower covers are made of metal, their edges are prone to forming barbs. These barbs can pose a personal injury threat to assembly workers and affect their safety.

[0003] Therefore, there is an urgent need for a portable moxibustion device with integrated automatic assembly, which can automatically close and assemble the upper and lower covers of the moxibustion device, solving the current technical problems of low assembly efficiency, potential harm to workers, and low degree of automation. Utility Model Content

[0004] In view of this, this utility model proposes an integrated automatic assembly device for portable moxibustion devices, which is applied to the field of processing technology for moxibustion auxiliary equipment, and solves the existing technical problems of low assembly efficiency, easy harm to workers, and low degree of automation.

[0005] To achieve the above-mentioned technical objectives, the specific technical solution adopted by this utility model is as follows:

[0006] A portable moxibustion device integrated automatic assembly device includes a first outer shell support, a first conveyor belt, a second outer shell support, and a second conveyor belt. A first limiting plate is installed on the outer wall surface of the first conveyor belt, and a second limiting plate is installed on the outer wall surface of the second conveyor belt. Moxibustion device lower covers are placed at equal intervals at one end of the first conveyor belt near the first limiting plate. A first support member is installed on the surface of the first outer shell support away from the second outer shell support. A first extension plate is fixedly installed on the end of the first support member near the first limiting plate. A first cylinder is fixedly installed on the side of the first extension plate away from the first support member. A first push plate is fixedly installed on the movable end of the first cylinder. A forming component is fixedly installed between the first outer shell support and the second outer shell support. The forming component includes a lower channel and a round hole fixedly installed on the side of the first outer shell support away from the first cylinder. An assembly chamber is fixedly installed on the top surface of the lower channel. A sliding hole is opened on the surface of the assembly chamber near the lower channel. A pressure block is slidably installed on the inner wall surface of the sliding hole.

[0007] Furthermore, the molding component and the first push plate are located on the same horizontal plane. The second push plate is slidably installed on the side surface of the molding component near the second conveyor belt. The third cylinder is fixedly installed on the end of the second push plate away from the first housing support. The third extension plate is fixedly connected to the side surface of the third cylinder near the second conveyor belt. The second support member is fixedly installed on the side surface of the third extension plate near the second conveyor belt. The moxibustion device cover is placed at equal intervals on the end of the second conveyor belt near the second limiting plate.

[0008] Furthermore, a round rod is fixedly installed at the end of the pressure block away from the lower channel, and a connector is fixedly installed at the end of the round rod away from the lower channel. A second cylinder is fixedly installed on the side of the connector close to the round rod. An upper slide is fixedly installed on the surface of the assembly chamber away from the lower channel. The round hole, the slide hole and the pressure block have the same diameter.

[0009] Furthermore, a motor is fixedly installed on the side of the lower channel away from the second cylinder, and a rotating component is fixedly installed on the output shaft of the motor, with a rotating plate fixedly connected to the outer wall of the rotating component.

[0010] Furthermore, a sliding rail is fixedly installed on the side of the lower channel away from the second cylinder, and a collection frame is fixedly installed on the side of the sliding rail away from the second cylinder.

[0011] Furthermore, the outer wall dimensions of the first support member and the second support member are the same and they are distributed in parallel. The cross-sections of the first support member and the second support member form a "right-angled triangle" structure.

[0012] By adopting the above technical solution, this utility model can also bring the following beneficial effects:

[0013] 1. This utility model discloses a portable moxibustion device integrated automatic assembly device. Through the design of the lower cover, lower channel, upper cover and upper slide, the device facilitates the automated assembly of the lower and upper covers. Since the lower and upper covers are adapted to the lower channel and upper slide, the upper slide and lower channel form an effective limit, reducing the risk of displacement or shaking, and ensuring precise alignment of the lower and upper covers. At the same time, the lower channel and upper slide guide the parts to move along a fixed path. Combined with the design of the matching size of the round hole, sliding hole and pressure block, the device ensures the pressing of the upper and lower covers and avoids displacement. It also reduces the defect rate caused by inaccurate positioning. It has the advantages of simple structure, high assembly efficiency, tight connection of upper and lower covers and a significant reduction in defect rate.

[0014] 2. This utility model discloses a portable moxibustion device integrated automatic assembly device. The upper and lower covers are transported synchronously by a first conveyor belt and a second conveyor belt. The cylinder and motor work together to complete the entire process from feeding, assembly to finished product collection without manual intervention. Through the design of the motor, rotating parts and rotating plate, the motor provides continuous and stable power. The output shaft drives the rotating parts and rotating plate to rotate, which can quickly and evenly push the assembled finished product out from the lower channel, effectively avoiding manual intervention. It has the advantages of convenient operation, high collection efficiency, suitability for large-scale promotion and effective cost saving. Attached Figure Description

[0015] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0016] Figure 1 This is a schematic diagram of the structure of a portable moxibustion device integrated automatic assembly device mentioned in this utility model;

[0017] Figure 2 This is a schematic diagram of the connection structure between the second pusher plate and the molding component in this embodiment;

[0018] Figure 3 This is a schematic diagram of the connection structure between the second conveyor belt and the moxibustion device cover in this embodiment;

[0019] Figure 4 This is a schematic diagram of the connection structure between the first extension plate and the first cylinder in this embodiment;

[0020] Figure 5 This is a schematic diagram of the connection structure between the sliding track and the collection frame in this embodiment;

[0021] Figure 6 This is a schematic diagram of the connection structure between the pressure block and the round rod in this embodiment;

[0022] Figure 7 This is a schematic diagram of the connection structure between the rotating component and the rotating plate in this embodiment;

[0023] Figure 8 This is a schematic diagram of the connection structure between the round rod and the connector in this embodiment;

[0024] Figure 9 This is a schematic diagram of the connection structure between the circular hole and the lower channel in this embodiment;

[0025] In the diagram: 1. First outer shell support; 2. First conveyor belt; 3. First limiting plate; 4. Lower cover of moxibustion device; 5. First support member; 6. First extension plate; 7. First cylinder; 8. First push plate; 9. Molding component; 901. Lower channel; 902. Round hole; 903. Assembly compartment; 904. Sliding hole; 905. Pressing block; 906. Round rod; 907. Connector; 908. Second cylinder; 909. Upper slide rail; 910. Motor; 911. Rotating component; 912. Turning plate; 10. Second push plate; 11. Third cylinder; 12. Third extension plate; 13. Second support member; 14. Second outer shell support; 15. Second conveyor belt; 16. Second limiting plate; 17. Upper cover of moxibustion device; 18. Sliding track; 19. Collection frame. Detailed Implementation

[0026] The embodiments of this utility model will now be described in detail with reference to the accompanying drawings.

[0027] The following specific examples illustrate the implementation of this utility model. Those skilled in the art can easily understand other advantages and effects of this utility model from the content disclosed in this specification. Obviously, the described embodiments are only a part of the embodiments of this utility model, not all of them. This utility model can also be implemented or applied through other different specific embodiments, and the details in this specification can also be modified or changed based on different viewpoints and applications without departing from the spirit of this utility model. It should be noted that, in the absence of conflict, the following embodiments and features in the embodiments can be combined with each other. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model.

[0028] It should be noted that various aspects of embodiments within the scope of the appended claims are described below. It will be apparent that the aspects described herein can be embodied in a wide variety of forms, and any particular structure and / or function described herein is merely illustrative. Based on this invention, those skilled in the art will understand that one aspect described herein can be implemented independently of any other aspect, and two or more of these aspects can be combined in various ways. For example, any number of aspects set forth herein can be used to implement the device and / or practice the method. Additionally, this device and / or method can be implemented using other structures and / or functionalities besides one or more of the aspects set forth herein.

[0029] It should also be noted that the illustrations provided in the following embodiments are only schematic representations of the basic concept of the present invention. The drawings only show the components related to the present invention and are not drawn according to the actual number, shape and size of the components. In actual implementation, the form, quantity and proportion of each component can be arbitrarily changed, and the layout of the components may also be more complex.

[0030] Furthermore, specific details are provided in the following description to facilitate a thorough understanding of the examples. However, those skilled in the art will understand that the described aspects can be practiced without these specific details.

[0031] In one embodiment of this utility model, such as Figures 1 to 9 As shown, this utility model provides an integrated automatic assembly device for a portable moxibustion device, comprising a first outer shell support 1, a first conveyor belt 2, a second outer shell support 14, and a second conveyor belt 15. A first limiting plate 3 is installed on the outer wall surface of the first conveyor belt 2, and a second limiting plate 16 is installed on the outer wall surface of the second conveyor belt 15. A moxibustion device lower cover 4 is placed at equal intervals on one end of the first conveyor belt 2 near the first limiting plate 3. A first support member 5 is installed on the surface of the first outer shell support 1 away from the second outer shell support 14. A first extension plate 6 is fixedly installed on one end of the first support member 5 near the first limiting plate 3. A first cylinder 7 is fixedly installed on the side of the first extension plate 6 away from the first support member 5. A first push plate 8 is fixedly installed on the movable end of cylinder 7. A forming component 9 is fixedly installed between the first outer shell support 1 and the second outer shell support 14. The forming component 9 and the first push plate 8 are located on the same horizontal plane. A second push plate 10 is slidably installed on the side surface of the forming component 9 near the second conveyor belt 15. A third cylinder 11 is fixedly installed on the end of the second push plate 10 away from the first outer shell support 1. A third extension plate 12 is fixedly connected to the side surface of the third cylinder 11 near the second conveyor belt 15. A second support member 13 is fixedly installed on the side surface of the third extension plate 12 near the second conveyor belt 15. A moxibustion device cover 17 is placed at equal intervals on the end of the second conveyor belt 15 near the second limiting plate 16.

[0032] The molding component 9 includes a lower channel 901 and a round hole 902 fixedly installed on the side of the first housing bracket 1 away from the first cylinder 7. An assembly chamber 903 is fixedly installed on the top surface of the lower channel 901. A sliding hole 904 is opened on the side surface of the assembly chamber 903 near the lower channel 901. A pressure block 905 is slidably installed on the inner wall surface of the sliding hole 904. A round rod 906 is fixedly installed on the end of the pressure block 905 away from the lower channel 901. A connector 907 is fixedly installed on the end of the round rod 906 away from the lower channel 901. A second cylinder 908 is fixedly installed on the side of the connector 907 near the round rod 906. An upper slide rail 909 is fixedly installed on the side surface of the assembly chamber 903 away from the lower channel 901. The round hole 902, the sliding hole 904 and the pressure block 905 have the same diameter. A motor 910 is fixedly installed on the side of the lower channel 901 away from the second cylinder 908. A rotating component 911 is fixedly installed on the output shaft of the motor 910, and a rotating plate 912 is fixedly connected to the outer wall of the rotating component 911. The advantage is that, through the design of the motor 910, the rotating component 911, and the rotating plate 912, the motor 910 provides continuous and stable power, which drives the rotating component 911 and the rotating plate 912 to rotate through the output shaft. This allows the assembled finished products to be pushed out of the lower channel 901 quickly and evenly, effectively avoiding manual intervention and improving collection efficiency. A sliding rail 18 is fixedly installed on the side of the lower channel 901 away from the second cylinder 908, and a collection frame 19 is fixedly installed on the side of the sliding rail 18 away from the second cylinder 908. The advantage is that, through the design of the sliding rail 18 and the collection frame 19, the collection frame 19 can collect all the finished products that have slid out of the sliding rail 18, preventing the finished products from being scattered everywhere and facilitating unified sorting and handling by staff.

[0033] The outer wall dimensions of the first support member 5 and the second support member 13 are the same and they are distributed in parallel. The cross-sections of the first support member 5 and the second support member 13 are in the form of a "right-angled triangle". The advantage is that, through the design of the first support member 5 and the second support member 13, the first support member 5 and the second support member 13 utilize the stability characteristics of the triangle to ensure that the cylinder above can work stably even under complex working conditions.

[0034] The first push plate 8 and the second push plate 10 have an "arc" cross-section. The first push plate 8 is adapted to the lower cover 4 of the moxibustion device, and the second push plate 10 is adapted to the upper cover 17 of the moxibustion device. The advantage is that, through the design of the first push plate 8 and the second push plate 10, the arc structure of the first push plate 8 and the second push plate 10 fits snugly with the outer surface of the lower cover 4 and the upper cover 17 of the moxibustion device. The arc design disperses the pushing force, ensuring that the lower cover 4 of the moxibustion device is subjected to uniform force during the pushing process. The moxibustion device cover 17 is adapted to the sliding hole 904. The first outer shell support 1, the second outer shell support 14, and the assembly compartment 903 are arranged in parallel. The advantage is that the design of the moxibustion device cover 17 and the sliding hole 904 ensures that the moxibustion device cover 17 is not easily displaced within the sliding hole 904. When the pressure block 905 descends, it can accurately act on the moxibustion device cover 17, making the moxibustion device cover 17 and the moxibustion device lower cover 4 precisely aligned, greatly reducing assembly deviation and improving product qualification rate. The first support member 5 and the second support member 13 are arranged in parallel, and the "right-angled triangle" cross-sectional structure provides stable support for the first cylinder 7 and the third cylinder 11. This completes the use of an integrated automatic assembly device for the moxibustion device box.

[0035] The third cylinder 11 has the same structure as the second cylinder 908 and is distributed in parallel. The lower cover 4 of the moxibustion device is adapted to the lower channel 901, and the upper cover 17 of the moxibustion device is adapted to the upper slide rail 909. The advantage is that, through the design of the lower cover 4, the lower channel 901, the upper cover 17 and the upper slide rail 909, the upper slide rail 909 and the lower channel 901 form an effective limit, reducing the risk of deviation or shaking, and making the lower cover 4 and the upper cover 17 of the moxibustion device precisely aligned.

[0036] In use, the first conveyor belt 2 and the first limiting plate 3 precisely position the lower cover 4 of the moxibustion device, smoothly transporting it to the corresponding position. Then, the first cylinder 7 operates, pushing the connected first push plate 8. Due to the arc-shaped structure of the first push plate 8 and the lower channel 901, the lower cover 4 remains stable during the pushing process, smoothly being pushed from the first conveyor belt 2 into the lower channel 901, completing the lower cover positioning. Simultaneously, the second conveyor belt 15, with the aid of the second limiting plate 16, transports the upper cover 17 of the moxibustion device. When the upper cover 17 reaches the predetermined position, the third cylinder 11 drives the second push plate 10. Because the arc-shaped design of the second push plate 10 fits the upper cover 17, the upper cover 17 is accurately and correctly moved via the upper slide 909. The device is pushed into the assembly chamber 903. Then, the second cylinder 908 drives the round rod 906 to move through the connector 907, so that the pressure block 905 moves down along the sliding hole 904. The size of the round hole 902, the sliding hole 904 and the pressure block 905 are matched to ensure that the upper cover 17 and the lower cover 4 of the moxibustion device are precisely assembled. Then, the motor 910 is started, which drives the rotating part 911 on the output shaft to rotate. The rotating plate 912 rotates accordingly, and the finished moxibustion device box assembled on the upper surface of the rotating plate 912 slides out from the lower channel 901, slides down quickly along the sliding track 18, and finally falls into the collection frame 19 to complete the collection. In summary, this utility model has the advantages of simple structure, high assembly efficiency, effective cost saving, significantly reduced defect rate and suitability for large-scale promotion.

[0037] The above description is merely a specific embodiment of this utility model, but the protection scope of this utility model is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this utility model should be included within the protection scope of this utility model. Therefore, the protection scope of this utility model should be determined by the scope of the claims.

Claims

1. A portable moxibustion device integrated automatic assembly device, comprising a first outer shell support (1), a first conveyor belt (2), a second outer shell support (14), and a second conveyor belt (15), wherein a first limiting plate (3) is installed on the outer wall surface of the first conveyor belt (2), and a second limiting plate (16) is installed on the outer wall surface of the second conveyor belt (15), characterized in that: The first conveyor belt (2) has moxibustion device lower covers (4) placed at equal intervals at one end near the first limiting plate (3). A first support member (5) is installed on the surface of the first outer shell support (1) away from the second outer shell support (14). A first extension plate (6) is fixedly installed on one end of the first support member (5) near the first limiting plate (3). A first cylinder (7) is fixedly installed on the side of the first extension plate (6) away from the first support member (5). A first push plate (8) is fixedly installed on the movable end of the first cylinder (7). A molding component (9) is fixedly installed between the shell support (1) and the second shell support (14). The molding component (9) includes a lower channel (901) and a round hole (902) fixedly installed on the side of the first shell support (1) away from the first cylinder (7). An assembly chamber (903) is fixedly installed on the top surface of the lower channel (901). A sliding hole (904) is opened on the side surface of the assembly chamber (903) near the lower channel (901). A pressure block (905) is slidably installed on the inner wall surface of the sliding hole (904).

2. The portable moxibustion device integrated automatic assembly device according to claim 1, characterized in that: The molding component (9) and the first push plate (8) are located on the same horizontal plane. The second push plate (10) is slidably installed on the side surface of the molding component (9) near the second conveyor belt (15). The third cylinder (11) is fixedly installed on the end of the second push plate (10) away from the first outer shell bracket (1). The third cylinder (11) is fixedly connected to the side surface of the second conveyor belt (15) near the third conveyor belt (15). The second support member (13) is fixedly installed on the side surface of the third extension plate (12) near the second conveyor belt (15). The moxibustion device cover (17) is placed at equal intervals on the end of the second conveyor belt (15) near the second limiting plate (16).

3. The portable moxibustion device integrated automatic assembly device according to claim 2, characterized in that: A round rod (906) is fixedly installed at one end of the pressure block (905) away from the lower channel (901). A connector (907) is fixedly installed at one end of the round rod (906) away from the lower channel (901). A second cylinder (908) is fixedly installed on the side of the connector (907) close to the round rod (906). An upper slide rail (909) is fixedly installed on the surface of the assembly chamber (903) away from the lower channel (901). The round hole (902), the slide hole (904), and the pressure block (905) have the same diameter.

4. The portable moxibustion device integrated automatic assembly device according to claim 3, characterized in that: A motor (910) is fixedly installed on the side of the lower channel (901) away from the second cylinder (908). A rotating component (911) is fixedly installed on the output shaft of the motor (910). A rotating plate (912) is fixedly connected to the outer wall of the rotating component (911).

5. The portable moxibustion device integrated automatic assembly device according to claim 4, characterized in that: A sliding rail (18) is fixedly installed on the side of the lower channel (901) away from the second cylinder (908), and a collection frame (19) is fixedly installed on the side of the sliding rail (18) away from the second cylinder (908).

6. The portable moxibustion device integrated automatic assembly device according to claim 5, characterized in that: The outer wall dimensions of the first support member (5) and the second support member (13) are the same and they are distributed in parallel. The cross-sections of the first support member (5) and the second support member (13) are in the form of a "right triangle".

7. The portable moxibustion device integrated automatic assembly device according to claim 6, characterized in that: The first push plate (8) and the second push plate (10) have an "arc" cross-section. The first push plate (8) is adapted to the lower cover (4) of the moxibustion device, and the second push plate (10) is adapted to the upper cover (17) of the moxibustion device.

8. The portable moxibustion device integrated automatic assembly device according to claim 7, characterized in that: The moxibustion device cover (17) is adapted to the sliding hole (904), and the first outer shell support (1), the second outer shell support (14) and the assembly compartment (903) are distributed in parallel.

9. The portable moxibustion device integrated automatic assembly device according to claim 8, characterized in that: The third cylinder (11) has the same structure as the second cylinder (908) and is distributed in parallel. The lower cover (4) of the moxibustion device is adapted to the lower channel (901), and the upper cover (17) of the moxibustion device is adapted to the upper slide (909).

Images