A flange gasket presser

Abstract

The utility model discloses a flange gasket presser, include: machine body shell, and the flange body of machine body shell lower extreme connection, the outside of flange body is equipped with the preset hole, and the upside of flange body is installed with gasket body, still include: driving motor, its installation machine body shell upside, and the lower extreme of driving motor is connected with drive link, the middle part of drive link is connected with push frame. This flange gasket presser, in the process of using, the device is installed in the one side of flank conveniently, makes the user easy fastly to connect device and flange, avoids the use efficiency of device to be affected, improves the downtime of device, simultaneously after device use is completed, the extrusion spare is disassembled conveniently, makes the operator easy to maintain replacement to the extrusion spare of breakage after device use is completed, improves the maintenance efficiency of device, has better use effect.

Description

Technical Field

[0001] This utility model relates to the field of flange gasket pressing technology, specifically a flange gasket presser. Background Technology

[0002] A flange gasket is a sealing element, typically made of metallic or non-metallic materials, used to fill the tiny gaps between flange joint surfaces. Its core function is to prevent leakage of media such as liquids, gases, or dust, while also compensating for flange surface defects and installation errors. During installation, the flange gasket needs to be pressed down to ensure it is effectively installed between the two flanges.

[0003] However, existing flange gasket clamps are not convenient to install quickly on one side of the flange during use, making it difficult for users to quickly connect the device to the flange, which affects the efficiency of the device and reduces the downtime of the device.

[0004] Therefore, in order to address the above problems, there is an urgent need for innovative design based on the existing flange gasket clamps. Utility Model Content

[0005] The purpose of this utility model is to provide a flange gasket clamp to solve the problem mentioned in the background art that it is inconvenient to quickly install the device on one side of the flange during use, which makes it difficult for users to quickly connect the device to the flange, thus affecting the efficiency of the device and reducing the downtime of the device.

[0006] To achieve the above objectives, the present invention provides the following technical solution: a flange gasket clamping device, comprising: a machine body shell, and a flange body connected to the lower end of the machine body shell, wherein a preset hole is provided on the outer side of the flange body, and a gasket body is installed on the upper side of the flange body.

[0007] Also includes:

[0008] A drive motor is mounted on the upper side of the outer casing of the machine body, and a drive rod is connected to the lower end of the drive motor. A push frame is connected to the middle of the drive rod, and a first guide block is connected to the middle of the push frame. An installation block is installed at the lower end of the push frame, and an extrusion plate is installed at the lower end of the installation block. A flexible contact plate is attached to the lower end of the extrusion plate.

[0009] A guide rod is installed on the outside of the machine body shell, and a baffle plate is provided on the outside of the guide rod. A second spring is nested in the middle of the guide rod, and a support block is connected to the inside of the second spring. A clamping frame is provided at the lower end of the support block, and a quick-limiting component is provided on the outside of the mounting block.

[0010] In one possible implementation, the drive rod is threadedly connected to the pusher frame, and the pusher frame is slidably connected to the first guide block.

[0011] In one possible implementation, the first guide block has a "T" shaped cross-section and is symmetrically arranged about the central axis of the push frame.

[0012] In one possible implementation, the support block and the guide rod are slidably connected relative to each other, and the guide rods are evenly spaced in the middle of the support block.

[0013] In one possible scenario, the clamping frame is engaged with the flange body, and the clamping frame is positioned at an equal angle at the lower end of the machine housing.

[0014] In one possible implementation, the quick-stop assembly includes a locking block mounted on the outside of the mounting block, and a second guide block is provided on the outside of the locking block. An operating handle is mounted in the middle of the locking block, and a first spring is nested in the middle of the operating handle.

[0015] The locking block is engaged with the extrusion plate, and the locking block is symmetrically arranged about the central axis of the mounting block.

[0016] In one possible implementation, the second guide block is slidably connected to the mounting block, and the second guide block is symmetrically arranged about the central axis of the locking block.

[0017] Compared with the prior art, the beneficial effects of this utility model are as follows: This flange gasket clamp facilitates quick and easy installation on one side of the flange during use, allowing users to easily and quickly connect the device to the flange, avoiding any impact on the device's efficiency and reducing downtime. Furthermore, it facilitates the disassembly and assembly of the extruded parts after use, enabling operators to easily maintain and replace damaged extruded parts, thus improving maintenance and repair efficiency and resulting in a better overall performance. Specific details are as follows:

[0018] 1. The second spring, in conjunction with the guide rod, pushes the support block to move inward, causing the support block to move the clamping frame at its lower end inward. At this time, the clamping frame that moves inward connects with the flange body to fix the position of the machine body shell, making it easier for the operator to quickly connect and fix the machine body shell, thus improving the stability of the device.

[0019] 2. The drive motor, in conjunction with the drive rod, pushes the push frame to move downward along the first guide block, causing the push frame to push the mounting block to move downward. At this time, the mounting block pushes the extrusion plate and the flexible contact plate to extrude the gasket body placed on the upper side of the flange body, making it easier for the operator to stably install the gasket body on the upper side of the flange body. This completes the stable installation of the gasket body, improves the installation stability of the gasket body, and enhances the performance of the gasket body.

[0020] 3. By operating the handle in conjunction with the second guide block, the locking block is moved outward to squeeze the first spring, which causes the locking block to relax its locking limit on the extrusion plate, making it easier for the operator to pull down and remove the extrusion plate. This allows for the quick replacement and maintenance of the extrusion plate and the flexible contact plate, improving the maintenance and repair efficiency of the device. Attached Figure Description

[0021] Figure 1 This is a frontal cross-sectional view of the present invention.

[0022] Figure 2 This is a side view sectional structural diagram of the present invention;

[0023] Figure 3 This is a top view sectional structural diagram of the present invention;

[0024] Figure 4 This utility model Figure 1 Enlarged structural diagram at point A in the middle;

[0025] Figure 5 This is a schematic cross-sectional view of the connection between the support block and the guide rod of this utility model.

[0026] In the diagram: 1. Machine casing; 2. Handheld lever; 3. Drive motor; 4. Drive rod; 5. Push frame; 6. First guide block; 7. Mounting block; 8. Extrusion plate; 9. Flexible contact plate; 10. Locking block; 11. Second guide block; 12. Operating handle; 13. First spring; 14. Guide rod; 15. Blocking plate; 16. Second spring; 17. Support block; 18. Clamping frame; 19. Flange body; 20. Preset hole; 21. Gasket body. Detailed Implementation

[0027] 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.

[0028] Please see Figure 1-5This utility model provides a technical solution: a flange gasket clamping device, including a machine body shell 1, a hand handle 2, a drive motor 3, a drive rod 4, a push frame 5, a first guide block 6, a mounting block 7, a pressing plate 8, a flexible contact plate 9, a locking block 10, a second guide block 11, an operating handle 12, a first spring 13, a guide rod 14, a blocking plate 15, a second spring 16, a support block 17, a clamping frame 18, a flange body 19, a preset hole 20, and a gasket body 21.

[0029] Specifically, such as Figure 1 , Figure 3 and Figure 5 As shown, before using the device, by pulling the clamping frame 18 outward, the clamping frame 18 causes the upper connected support block 17 to move outward. Due to the sliding connection structure between the guide rod 14 and the support block 17, the support block 17 is guided and limited by the guide rod 14 during the outward movement, preventing the support block 17 from shifting position during the movement. At this time, the outwardly moving support block 17, together with the blocking plate 15, compresses the second spring 16, and at the same time, the gasket body 21 is placed on the upper side of the flange body 19. The outer shell of the machine is then held in place by gripping the holding rod 2. 1. Placed on the upper side of the flange body 19, the pull on the clamping frame 18 is released, causing the compressed second spring 16 to lose its tension and generate a rebound reaction force. At this time, the second spring 16 pushes the support block 17 connected to its inner side to move inward along the guide rod 14, causing the support block 17 to drive the clamping frame 18 connected to its lower end to move inward. At this time, due to the engaging connection structure between the clamping frame 18 and the flange body 19, the clamping frame 18, which moves inward, connects to the flange body 19, fixing the position of the machine casing 1, making it convenient for the operator to operate the machine. The outer casing 1 is quickly connected and fixed, improving the stability of the device. After the installation of the outer casing 1 is completed, the drive motor 3 on the upper side of the outer casing 1 is started, causing the drive rod 4 connected to its lower end to rotate inside the outer casing 1. Due to the threaded connection between the drive motor 3 and the drive rod 4, the drive rod 4 can effectively push the push frame 5 inside the outer casing 1 to move downward during the rotation. At this time, due to the "T"-shaped structure of the first guide block 6, the push frame 5 is guided and limited by the first guide block 6 during the downward displacement, preventing the push frame 5 from shifting position during the movement. The downward displacement of the push frame 5 pushes its lower end mounted on the mounting block 7 to move downward, so that the mounting block 7 pushes the extrusion plate 8 and the flexible contact plate 9 to extrude the gasket body 21 placed on the upper side of the flange body 19, making it easier for the operator to stably install the gasket body 21 on the upper side of the flange body 19, thereby completing the stable installation of the gasket body 21, improving the installation stability of the gasket body 21, and improving the performance of the gasket body 21.

[0030] Specifically, such as Figure 1 , Figure 2 and Figure 4 As shown, after the device is used, by repeatedly pulling the clamping frame 18 outward, the clamping frame 18 causes the support block 17 connected to its upper side to move outward again along the guide rod 14, releasing the locking limit on the flange body 19, making it easier for the operator to pull the outer casing 1 outward. At this time, another flange is placed on the upper side of the flange body 19, and the bolts are passed through the interior of the preset hole 20 to connect and lock the two. At this time, the operating handle 12 is pulled outward, causing the locking block 10 connected to its inner side to move outward. Due to the sliding connection structure between the second guide block 11 and the mounting block 7, the locking block 10 is guided and limited by the second guide block 11 during the outward displacement and compression of the first spring 13, preventing the locking block 10 from moving outward. During the movement, a positional shift occurs. At this time, due to the engaging connection structure between the locking block 10 and the extrusion plate 8, the locking block 10 relaxes its engagement limit on the extrusion plate 8 as it moves outward, making it easier for the operator to pull down and remove the extrusion plate 8. At this time, the new extrusion plate 8 and flexible contact plate 9 are reinstalled at the lower end of the mounting block 7. Simultaneously, the pull on the operating handle 12 is released, causing the compressed first spring 13 to lose its tension limit and generate a rebound reaction force. At this time, the first spring 13 pushes the locking block 10 connected to its inner side to move inward along the second guide block 11, so that the inwardly moving locking block 10 locks and limits the extrusion plate 8. This completes the quick replacement and maintenance of the extrusion plate 8 and flexible contact plate 9, improving the maintenance and repair efficiency of the device.

[0031] All standard parts used in this utility model can be purchased from the market, and irregular parts can be customized according to the description and drawings. The specific connection methods of each part adopt conventional methods such as bolts, rivets, and welding that are mature in the prior art. The machinery, parts and equipment adopt conventional models in the prior art. In addition, the circuit connection adopts conventional connection methods in the prior art, which will not be described in detail here. The contents not described in detail in this specification belong to the prior art known to those skilled in the art.

[0032] 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 flange gasket clamping device, comprising: The outer casing (1) and the flange body (19) connected to the lower end of the outer casing (1) are provided with a preset hole (20) on the outer side of the flange body (19) and a gasket body (21) is installed on the upper side of the flange body (19). Its characteristic is that it further includes: A drive motor (3) is installed on the upper side of the outer shell (1) of the machine body, and a drive rod (4) is connected to the lower end of the drive motor (3). A push frame (5) is connected to the middle part of the drive rod (4), and a first guide block (6) is connected to the middle part of the push frame (5). An installation block (7) is installed at the lower end of the push frame (5), and an extrusion plate (8) is installed at the lower end of the installation block (7). A flexible contact plate (9) is attached to the lower end of the extrusion plate (8). A guide rod (14) is installed on the outside of the outer shell (1) of the machine body, and a baffle plate (15) is provided on the outside of the guide rod (14). A second spring (16) is nested in the middle of the guide rod (14), and a support block (17) is connected to the inside of the second spring (16). A clamping frame (18) is provided at the lower end of the support block (17), and a quick-limiting component is provided on the outside of the mounting block (7).

2. The flange gasket clamping device according to claim 1, characterized in that: The drive rod (4) is threadedly connected to the push frame (5), and the push frame (5) is slidably connected to the first guide block (6).

3. A flange gasket clamping device according to claim 1, characterized in that: The first guide block (6) has a "T" shaped cross section and is symmetrically arranged about the central axis of the push frame (5).

4. A flange gasket clamping device according to claim 1, characterized in that: The support block (17) is slidably connected to the guide rod (14), and the guide rod (14) is evenly spaced in the middle of the support block (17).

5. A flange gasket clamping device according to claim 1, characterized in that: The clamping frame (18) is engaged with the flange body (19), and the clamping frame (18) is set at the lower end of the outer shell (1) at an equal angle.

6. A flange gasket clamping device according to claim 1, characterized in that: The quick-stop assembly includes a locking block (10) installed on the outside of the mounting block (7), and a second guide block (11) is provided on the outside of the locking block (10). An operating handle (12) is installed in the middle of the locking block (10), and a first spring (13) is nested in the middle of the operating handle (12). The locking block (10) is engaged with the pressing plate (8), and the locking block (10) is symmetrically arranged about the central axis of the mounting block (7).

7. A flange gasket clamping device according to claim 6, characterized in that: The second guide block (11) is slidably connected to the mounting block (7), and the second guide block (11) is symmetrically arranged about the central axis of the locking block (10).

Images