An automatic feeding and discharging airtight sealing and welding device
Through innovative design of the base, drive motor, and clamping components, the problem of poor clamping versatility in traditional hermetic sealing welding equipment has been solved, enabling rapid replacement and precise positioning, thereby improving production efficiency and product quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BEIKE (SHENZHEN) ELECTROMECHANICAL TECH CO LTD
- Filing Date
- 2025-06-10
- Publication Date
- 2026-07-14
Smart Images

Figure CN224488111U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of fixture technology for airtight sealing welding equipment, specifically an airtight sealing welding equipment with automatic loading and unloading. Background Technology
[0002] In the industrial manufacturing sector, airtight sealing equipment is crucial for the production of various sealing components, especially in industries such as electronics, medical, and aerospace, where product sealing requirements are extremely high.
[0003] Traditional hermetic sealing welding equipment exhibits numerous limitations during production. Firstly, its fixtures lack versatility, often requiring customized fixtures for materials of different specifications and shapes. This makes the equipment ill-suited for multi-variety, small-batch production scenarios. If a company wants to produce multiple product models, it needs to frequently change fixtures, increasing production costs and consuming significant preparation time, severely impacting production efficiency. Secondly, traditional fixtures are inconvenient to replace due to their complex structural design and cumbersome disassembly and installation processes, typically requiring specialized personnel with specific tools. This undoubtedly prolongs equipment downtime and reduces equipment utilization. Therefore, we propose an automated loading and unloading hermetic sealing welding equipment. Utility Model Content
[0004] (a) Technical problems to be solved
[0005] To address the shortcomings of existing technologies, this utility model provides an automatic loading and unloading airtight sealing welding device, which solves the aforementioned problems.
[0006] (II) Technical Solution
[0007] To achieve the above-mentioned objectives, this utility model provides the following technical solution: an automatic loading and unloading airtight sealing welding device, comprising:
[0008] The base and the drive motor are provided. The drive motor is provided on the side wall of the base. The drive motor is fixedly connected to the side wall of the base by the adapter bolt. The output shaft of the drive motor is a bidirectional threaded rod and the output shaft of the drive motor passes into the interior of the base.
[0009] A clamping assembly is located on the top of the base, and the bottom of the clamping assembly is inserted into the interior of the base and is slidably connected to the interior of the base. The bottom of the clamping assembly is also threadedly connected to the output shaft of the drive motor.
[0010] A clamping assembly, positioned between two clamping components, is used to clamp and secure materials.
[0011] Preferably, the base has axially symmetrically distributed sliding cavities inside, and two axially symmetrically distributed guide rods are provided inside the sliding cavities. A sliding groove is provided at the top of the sliding cavity, which is slidably connected to the clamping assembly. The output shaft of the drive motor passes through the two sliding cavities.
[0012] Preferably, the clamping assembly includes a slider and a clamping member. The main body of the clamping assembly is the slider, and the top of the slider is provided with a clamping member, which is correspondingly engaged inside the slider.
[0013] Preferably, the bottom of the slider is slidably connected to the inside of the sliding cavity, and the bottom of the slider is provided with a threaded bushing, which is threadedly connected to the output shaft of the drive motor. Guide holes are opened on two opposite sides of the bottom of the slider corresponding to the threaded bushing, and the guide holes are slidably connected to the guide rod. Two symmetrically distributed retaining cavities are opened on the top side of the slider. The retaining cavities are in a vertical position and the sidewalls of the retaining cavities are open. Two symmetrically distributed fixing cavities are opened inside the top of the slider. The fixing cavities are connected to the retaining cavities and are perpendicularly distributed to each other.
[0014] Preferably, the clamping member has a handle on its side wall, which is positioned on the outside of the slider. The clamping member has two sets of axially symmetrically distributed pull rods on the side away from the handle. The pull rods are inserted into the fixed cavity. The shaft end of the pull rod away from the handle is provided with a clamping block, which is slidably connected to the inside of the fixed cavity. A spring is provided on the side of the clamping block corresponding to the pull rod, which is sleeved on the outside of the pull rod and placed inside the fixed cavity.
[0015] Preferably, the clamping assembly includes clamp one and clamp two, which are symmetrically distributed along an axis, and clamp one and clamp two are opposite to each other and are engaged with the corresponding clamping assemblies inside, forming a rectangular frame structure.
[0016] Preferably, the clamp one has two symmetrically distributed locking blocks on the side corresponding to the slider. The locking blocks are engaged with the inside of the locking cavity, and the top of the locking blocks is in contact with the bottom of the clamping block. The clamp one has two sets of clamping rods distributed at ninety degrees on the side away from the slider. The inside of the clamping rod sets is slidably connected with the clamping rods of the clamp two. Rubber pads are provided on the opposite sides of the two sets of clamping rods.
[0017] (III) Beneficial Effects
[0018] Compared with the prior art, this utility model provides an automatic loading and unloading airtight sealing welding device, which has the following beneficial effects:
[0019] This automatic loading and unloading airtight sealing welding equipment significantly improves the practicality and production efficiency of the equipment. On the one hand, the rectangular frame structure composed of clamp one and clamp two changes the problem of poor versatility of traditional clamps, and can effectively fix materials of various specifications and shapes, meeting the needs of multi-variety small-batch production, and reducing the cost for enterprises to customize special clamps for different materials. On the other hand, the quick-change structure composed of clamping parts, pull rods, clamping blocks and springs makes clamp replacement operation extremely simple, without the need for professional personnel and special tools, greatly shortening equipment downtime and improving equipment utilization. In addition, the design of the sliding cavity and guide rod with threaded transmission ensures the stability of the movement of the clamping components and the accuracy of material positioning, effectively improving the poor clamping and positioning effect of traditional equipment, thereby improving the quality of airtight sealing welding and the product qualification rate. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the structure of the automatic loading and unloading airtight sealing welding equipment of this utility model;
[0021] Figure 2 This is a cross-sectional schematic diagram of the automatic loading and unloading airtight sealing welding equipment of this utility model;
[0022] Figure 3 This is a cross-sectional view of the base of this utility model;
[0023] Figure 4 This is a cross-sectional view of the slider of this utility model;
[0024] Figure 5 This is a schematic diagram of the clamp assembly of this utility model;
[0025] Figure 6 This is a schematic diagram of the clamping component of this utility model;
[0026] Figure 7 for Figure 2 A magnified view of part A in the diagram.
[0027] In the diagram: 1. Base; 2. Drive motor; 3. Slider; 4. Clamping component; 5. Fixture 1; 6. Fixture 2; 7. Sliding cavity; 8. Guide rod; 9. Threaded bushing; 10. Guide hole; 11. Clamping cavity; 12. Fixed cavity; 13. Clamping block; 14. Clamping rod; 15. Rubber pad; 16. Handle; 17. Pull rod; 18. Clamping block; 19. Spring. Detailed Implementation
[0028] 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.
[0029] Please see Figure 1-7 An automatic loading and unloading airtight sealing welding device, comprising:
[0030] The base 1 and the drive motor 2 are provided on the side wall of the base 1. The drive motor 2 is fixedly connected to the side wall of the base 1 by the adapter bolt. The output shaft of the drive motor 2 is a bidirectional threaded rod, and the output shaft of the drive motor 2 passes into the interior of the base 1.
[0031] A clamping assembly is disposed on the top of the base 1, and the bottom of the clamping assembly is inserted into the interior of the base 1, and is slidably connected to the interior of the base 1. The bottom of the clamping assembly is threadedly connected to the output shaft of the drive motor 2.
[0032] A clamping assembly, positioned between two clamping components, is used to clamp and secure materials.
[0033] Furthermore, the base 1 has axially symmetrically distributed sliding cavities 7 inside, and two axially symmetrically distributed guide rods 8 inside the sliding cavities 7. The top of the sliding cavities 7 has a sliding groove, which is slidably connected to the clamping assembly. The output shaft of the drive motor 2 passes through the two sliding cavities 7. The sliding cavities 7 and the guide rods 8 ensure the stability of the clamping movement of the two clamping assemblies, prevent slight displacement of the material, and ensure the accurate positioning of the material.
[0034] Furthermore, the clamping assembly includes a slider 3 and a clamping member 4. The main body of the clamping assembly is the slider 3, and the top of the slider 3 is provided with the clamping member 4, which is correspondingly engaged inside the slider 3.
[0035] Furthermore, the bottom of the slider 3 is slidably connected to the inside of the sliding cavity 7, and the bottom of the slider 3 is provided with a threaded bushing 9, which is threadedly connected to the output shaft of the drive motor 2. The bottom of the slider 3 is provided with guide holes 10 on two opposite sides of the threaded bushing 9, which are slidably connected to the guide rod 8. The top side of the slider 3 is provided with two axially symmetrically distributed clamping cavities 11, which are vertically positioned and have open sidewalls. The top of the slider 3 is provided with two axially symmetrically distributed fixing cavities 12, which are connected to the clamping cavities 11 and are perpendicular to each other. The bidirectional threaded rod output shaft of the drive motor 2 drives the two sliders 3 to move in the same or opposite directions through the threaded bushing 9, thereby clamping and positioning the material in conjunction with the clamping assembly.
[0036] Furthermore, the clamping member 4 has a handle 16 on its side wall, which is positioned on the outside of the slider 3. The clamping member 4 has two sets of axially symmetrically distributed pull rods 17 on the side away from the handle 16. The pull rods 17 are inserted into the fixed cavity 12. The shaft end of the pull rod 17 away from the handle 16 is provided with a clamping block 18, which is slidably connected to the inside of the fixed cavity 12. The clamping block 18 is provided with a spring 19 on the side of the pull rod 17, which is sleeved on the outside of the pull rod 17 and placed inside the fixed cavity 12. The spring 19 is always in a compressed state, effectively ensuring the clamping force of the clamping member 4 on the clamp 5.
[0037] Furthermore, the clamping assembly includes clamp 5 and clamp 6, which are symmetrically distributed along an axis. The opposite sides of clamp 5 and clamp 6 are engaged with the corresponding clamping components inside. Clamp 5 and clamp 6 form a rectangular frame structure, which can effectively fix different materials and improve the universal clamping performance for different materials. When the clamping assembly needs to be replaced, taking clamp 5 as an example, pull the handle 16 on the side wall of the clamping member 4 to pull the pull rod 17 out of the fixed cavity 12. At this time, the spring 19 remains in a compressed state, and the clamping block 18 releases the fixation of the top of the clamping block 13. At this time, clamp 5 can be pulled out for replacement.
[0038] Furthermore, clamp 1 5 has two symmetrically distributed locking blocks 13 on one side of slider 3. The locking blocks 13 are engaged with the inside of the locking cavity 11, and the top of the locking blocks 13 is in contact with the bottom of the clamping block 18. On the side of clamp 1 5 away from slider 3, there are two sets of clamping rods 14 distributed at ninety degrees. The inside of the clamping rods 14 are slidably connected with the clamping rods of clamp 2 6. Rubber pads 15 are provided on opposite sides of the two sets of clamping rods 14. The rubber pads 15 can effectively protect the side wall of the material to be clamped.
[0039] Structural Description:
[0040] Base 1: Base 1 is the basic support structure of the automatic loading and unloading airtight sealing welding equipment. The side wall is used to fix the drive motor 2, and the interior is provided with a sliding cavity 7, which provides space and a guiding foundation for the movement of the clamping components.
[0041] Drive motor 2: Drive motor 2 is fixed to the side wall of base 1 by adapter bolts. Its output shaft is a bidirectional threaded rod that passes into the interior of base 1, providing power source and motion control for the movement of clamping assembly;
[0042] Slider 3: Slider 3 is the main body of the clamping assembly. Its bottom is slidably engaged with the slide cavity 7. It is provided with a threaded bushing 9 connected to the output shaft of the drive motor 2. The top has a clamping cavity 11 for installing the clamping component 4.
[0043] Clamping component 4: Clamping component 4 is snapped into the inside of slider 3. A handle 16 is provided on the side wall for easy operation. The internal structure of pull rod 17, clamping block 18 and spring 19 enables quick clamping and disassembly of the clamping assembly.
[0044] Clamp 1 5: Clamp 1 5 and clamp 2 6 form a rectangular frame structure for clamping materials. One side is provided with a locking block 13 that engages with the slider 3, and the other side is provided with a clamping rod 14. The rubber pad 15 on the side of the rod can protect the materials.
[0045] Fixture 2 6: Fixture 2 6 is symmetrically distributed with Fixture 1 5. It also has a snap-fit structure and clamping rod 14. The two work together to effectively fix materials of different specifications and improve the versatility of the equipment.
[0046] Slide cavity 7: Slide cavity 7 is opened inside the base 1 and is axially symmetrically distributed. It is equipped with guide rod 8 inside. The top slide groove cooperates with the clamping assembly to ensure stable movement of the clamping assembly and accurate positioning of materials.
[0047] Guide rod 8: The guide rod 8 is set inside the slide cavity 7 and slides in cooperation with the guide hole 10 at the bottom of the slider 3. It plays a guiding and limiting role when the clamping component moves to prevent the component from deviating.
[0048] Threaded bushing 9: The threaded bushing 9 is installed at the bottom of the slider 3 and is threadedly engaged with the output shaft of the bidirectional threaded rod of the drive motor 2 to convert the rotational motion of the motor into the linear movement of the slider 3;
[0049] Guide hole 10: The guide hole 10 is opened on the two opposite sides of the threaded bushing 9 at the bottom of the slider 3, and slides with the guide rod 8 to assist the slider 3 to move smoothly in a fixed direction and ensure positioning accuracy;
[0050] Cavity 11: Cavity 11 is located on the top side of slider 3. It is vertical and has an open side wall structure. It is used to cooperate with the clamping block 13 of clamp 1 5 and clamp 2 6 to realize the installation and positioning of clamp assembly.
[0051] Fixed cavity 12: Fixed cavity 12 is located inside the top of slider 3, communicates with and is vertically distributed with clamping cavity 11, provides space for the sliding of clamping block 18, and works with clamping part 4 to fix the clamping fixture assembly;
[0052] Locking block 13: Locking block 13 is symmetrically arranged on the connection side of clamp 1 5, clamp 2 6 and slider 3, and engages with the locking cavity 11 of slider 3. The top is in contact with the clamping block 18 to ensure that the clamp is installed stably.
[0053] Clamping rod 14: The clamping rod 14 is distributed on opposite sides of clamp 1 5 and clamp 2 6, arranged at a 90-degree angle and slidingly engaged with each other, and works with rubber pad 15 to clamp and protect the material;
[0054] Rubber pad 15: The rubber pad 15 is located on the opposite side of the clamping rod 14. It is soft in texture and can effectively prevent scratches and damage to the material surface when clamping the material, thus playing a buffering and protective role.
[0055] Handle 16: Handle 16 is set on the side wall of the clamping part 4 and placed on the outside of the slider 3, which makes it easy for the operator to pull the clamping part 4 to quickly disassemble the clamping assembly, making the operation convenient and efficient.
[0056] Pull rod 17: Pull rod 17 is installed on the side of clamping member 4 away from handle 16, and passes into the fixed cavity 12. By pulling, it drives the clamping block 18 to move, thereby releasing the clamping assembly.
[0057] Clamping block 18: Clamping block 18 is connected to one end of pull rod 17 and slides in the fixed cavity 12. Under the action of spring 19, it presses the clamping block 13 of the clamp assembly to achieve stable installation of the clamp.
[0058] Spring 19: Spring 19 is sleeved on the outside of pull rod 17 and placed in fixed cavity 12. It is always in a compressed state to provide clamping force for clamping block 18 and ensure the fixing effect of clamping part 4 on clamps.
[0059] Working Principle: The automatic loading and unloading airtight sealing welding equipment is correctly installed according to the diagram. When the equipment is working, the drive motor 2 starts, and its bidirectional threaded rod output shaft rotates. Since the threaded bushing 9 at the bottom of the slider 3 is threadedly connected to the output shaft of the drive motor 2, and the guide hole 10 at the bottom of the slider 3 slides with the guide rod 8 in the slide cavity 7, the two sliders 3 move in the same or opposite directions under the limiting action of the threaded transmission and the guide rod 8. When the sliders 3 move, they drive the clamping assembly to move synchronously. Clamp 5 and clamp 6 in the clamping assembly form a rectangular frame structure, placing the material inside. As the two sliders 3 move towards each other, clamp 5 and clamp 6 gradually approach and clamp the material. The rubber pads 15 on opposite sides of the two sets of clamping rods 14 are in contact with the sidewalls of the material, providing sufficient clamping force and protecting the material. The function is to avoid damage to materials during clamping. In terms of clamp replacement, when it is necessary to replace the clamp components, taking clamp 5 as an example, pull the handle 16 on the side wall of the clamping part 4, so that the pull rod 17 drives the clamping block 18 out of the fixed cavity 12. At this time, the spring 19, which is in a compressed state, is further compressed, and the clamping block 18 releases the fixation on the top of the clamping block 13. Then clamp 5 can be pulled out from the clamping cavity 11 for replacement. After the replacement is completed, release the handle 16. Under the action of the spring 19, the clamping block 18 re-clamps into the fixed cavity 12 and presses the clamping block 13, realizing the quick installation and fixation of clamp 5. The replacement of clamp 6 is the same. Throughout the process, the sliding cavity 7 and the guide rod 8 inside the base 1 always ensure the stability of the clamping movement of the two clamping components, prevent the material from having a small displacement, ensure the accurate positioning of the material, and provide a reliable foundation for subsequent airtight sealing welding.
[0060] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. An automatic loading and unloading airtight sealing welding device, characterized in that: include: The base (1) and the drive motor (2) are provided on the side wall of the base (1). The drive motor (2) is fixedly connected to the side wall of the base (1) by the adapter bolt. The output shaft of the drive motor (2) is a bidirectional threaded rod, and the output shaft of the drive motor (2) is inserted into the interior of the base (1). The base (1) has an axially symmetrically distributed sliding cavity (7) inside, and two axially symmetrically distributed guide rods (8) are provided inside the sliding cavity (7). The top of the sliding cavity (7) has a sliding groove, which is slidably connected to the clamping assembly. The output shaft of the drive motor (2) passes through the two sliding cavities (7). The clamping assembly is set on the top of the base (1), and the bottom of the clamping assembly is inserted into the interior of the base (1) and is slidably connected to the interior of the base (1). The bottom of the clamping assembly is threadedly connected to the output shaft of the drive motor (2). The clamping assembly includes a slider (3) and a clamping member (4). The main body of the clamping assembly is the slider (3). The top of the slider (3) is provided with a clamping member (4), and the clamping member (4) is correspondingly engaged inside the slider (3). The bottom of the slider (3) is slidably connected to the inside of the sliding cavity (7), and the bottom of the slider (3) is provided with a threaded bushing (9), which is threadedly connected to the output shaft of the drive motor (2). The bottom of the slider (3) is provided with guide holes (10) on two opposite sides of the threaded bushing (9), which are slidably connected to the guide rod (8). The top side of the slider (3) is provided with two axially symmetrically distributed clamping cavities (11), which are vertically placed and have open side walls. The top of the slider (3) is provided with two axially symmetrically distributed fixing cavities (12), which are connected to the clamping cavities (11) and are vertically distributed. The clamping member (4) has a handle (16) on its side wall. The handle (16) is placed on the outside of the slider (3). The clamping member (4) has two sets of pull rods (17) arranged symmetrically on the side away from the handle (16). The pull rods (17) are inserted into the fixed cavity (12). The shaft end of the pull rod (17) away from the handle (16) is provided with a clamping block (18). The clamping block (18) is slidably connected to the inside of the fixed cavity (12). The clamping block (18) is provided with a spring (19) on the side of the pull rod (17). The spring (19) is sleeved on the outside of the pull rod (17) and placed inside the fixed cavity (12). A clamping assembly, positioned between two clamping components, is used to clamp and secure materials. The clamping assembly includes clamp one (5) and clamp two (6). Clamp one (5) and clamp two (6) are symmetrically distributed, and clamp one (5) and clamp two (6) are engaged with the corresponding clamping components on opposite sides. Clamp one (5) and clamp two (6) form a rectangular frame structure.
2. The automatic loading and unloading airtight sealing welding equipment according to claim 1, characterized in that: The clamp (5) is provided with two symmetrically distributed locking blocks (13) on one side of the slider (3). The locking blocks (13) are engaged with the inside of the locking cavity (11), and the top of the locking blocks (13) is in contact with the bottom of the clamping block (18). The clamp (5) is provided with two sets of clamping rods (14) distributed at ninety degrees on the side away from the slider (3). The inside of the clamping rods (14) are slidably connected with the clamping rods of the clamp (6). The two sets of clamping rods (14) are provided with rubber pads (15) on opposite sides.