RU202004U1 - Mechanical seal assembly device - Google Patents

Abstract

The claimed utility model relates to the field of hydraulic seals at nuclear power plants (NPP) and, in particular, to a device for disassembling a mechanical seal, consisting of a sleeve (5) and a movable ring (6), on the outside of which the screw element of the pump (7) is installed ... The device contains a handle (1), a locking screw (2), a large disc (3), an L-shaped ring hook (4) with an outer edge, around the circumference of which there are uniformly distributed threaded through holes, a small disc (8), a pressure sleeve ( 9), nuts (10) and screws (11). The handle (1) is of a rod design, has bosses and is mounted on one end of the set screw (2). The large disc (3) is threadedly connected to the second end of the locking screw (2) installed in its threaded hole. In the center of the surface of one side of the small disc (8), there is a circular recess, in which the second end of the locking screw (2) is installed. On the outer edge around the circumference of the large disk (3), a uniformly distributed row of through-threaded holes is made, concentric with the threaded through holes on the outer edge of the circumference of the L-shaped ring hook (4). The L-shaped ring hook (4) is fixed to the large disc (3) with screws (11) and nuts (10). The diameter of the small disc (8) corresponds to the outer diameter of the movable ring (6). A bushing (5) and a movable ring (6) are concentrically mounted on the side surface of the small disc (8). The end surface of the pump screw element (7) rests on the inner surface of the L-shaped ring hook (4). A pressure bushing (9) is installed on the side surface of the small disc (8). The diameter of the large disc (3) corresponds to the outer diameter of the L-shaped ring hook (4). The technical result is to improve the convenience and simplify the assembly of the mechanical seal without damaging the mechanical seal. 2 wp f-ly, 2 dwg

Description

The field of technology.

The claimed utility model relates to the field of hydraulic seals at nuclear power plants (NPP) and, in particular, to a device for assembling a mechanical seal.

State of the art.

A mechanical seal is an axial end-face sealing device designed for sealing, which is provided by pre-tightening of the end-face sealing pair of the movable and stationary rings by the force of the elastic element, as well as the forces of the medium pressure and the pressure of the elastic element. The mechanical seal is one of the most important and highly accurate hydraulic components in nuclear power plants. During the operation of the equipment, the mechanical seal must be replaced periodically to ensure safe and reliable operation of the equipment. The movable ring of the mechanical seal is mounted on the shaft sleeve, and the screw pressure element interacts with the shaft sleeve and the moving ring. On the inside of the pump screw element, there are two O-rings as secondary seals. Compression of these radially outer rings of the sliding ring and bushing creates a deformation to seal. Friction occurs due to compression during disassembly and assembly. Therefore, it is difficult to disassemble and assemble without the aid of tools.

A device for installing an oil seal (CN207771715 “Mechanism is beated in to oil blanket)), SUZHOU JINNIU PREC MACHINERY, B25B 27/02, B25B 27/067, 28.08.2018) was adopted as a prototype for the claimed technical solution. As in the claimed technical solution, the prototype contains a guide post with a head, a guide cover, a push part and a push-off support part.

The push-off support part is designed to accommodate the oil seal, which is pressed against the push part. The pressure plate is designed to press the oil seal into the mounting hole.

The technical problem being solved is the difficulty of assembling the mechanical seal. In the prototype, a hammer is used to install the oil seal, which is hit on the head of the guide post. In addition, a press is used to press down the impact head so that the oil-sealed pressure plate is pressed into the mounting hole.

Disclosure of the proposed technical solution.

The technical result provided by the claimed technical solution is to improve the convenience and simplify the assembly of the mechanical seal. Moreover, the claimed device does not damage the mechanical seal.

The essence of the claimed technical solution consists in the fact that a device for assembling a mechanical seal, consisting of a sleeve (5), a movable ring (6), on the outside of which the screw element of the pump (7) is installed. It differs in that it contains a handle (1), a locking screw (2), a large disc (3), in the center of which a threaded hole is made, an L-shaped ring hook (4) with an outer edge, along the circumference of which there are uniformly distributed threaded through holes , small disc (8), thrust sleeve (9), nuts (10) and screws (11). In this case, the handle (1) is installed at one end of the locking screw (2), and has a rod structure with left and right ends, which are provided with bosses to prevent falling out. The large disc (3) is threadedly connected to the second end of the locking screw (2) installed in its threaded hole. At the same time, a circular recess is made in the center on the surface of one side of the small disk (8), and the second end of the locking screw (2), which is threadedly connected to the large disk (3), is located in a round recess of the small disk (8). At the same time, on the outer edge around the circumference of the large disc (3), a uniformly distributed row of through-threaded holes is made, which are arranged concentrically with threaded through holes made on the outer edge around the circumference of the L-shaped ring hook (4). In this case, in the holes made on the outer edge around the circumference of the large disk (3) and in the holes made on the outer edge around the circumference of the L-shaped ring hook (4), screws (11) are installed, connected to the nuts (10) to fix L -shaped ring hook (4) on the large disc (3), the diameter of the small disc (8) being the same as the outer diameter of the movable ring (6). The side surface of the small disk (8) is made with the possibility of concentric installation of the sleeve (5) and the movable ring (6), with the screw element of the pump (7) mounted on the outer side of the movable ring (6). In this case, the inner end surface of the L-shaped ring hook (4) is made with the possibility of abutting the upper end surface of the screw element of the pump (7), and a pressure sleeve (9) is installed on the side surface of the small disk (8) to position it on the outer side movable ring (6). In this case, the diameter of the large disc (3) corresponds to the outer diameter of the L-shaped ring hook (4).

The locking screw (2) has a cylindrical shape, and the number of threaded through holes made in a circle on the outer edge of the L-shaped ring hook (4) is four.

The number of threaded through holes evenly spaced around the circumference on the outer edge of the large disc (3) is four.

Brief description of the drawings.

Figure 1 is a schematic view of a mechanical seal assembly device; in fig. 2 - elements of installation of a mechanical seal.

List of reference designations: 1 - handle, 2 - locking screw, 3 - large disc, 4 - L-shaped ring hook, 5 - sleeve, 6 - movable ring, 7 - pump screw element, 8 - small disc, 9 - pressure sleeve , 10 - nut, 11 - screw.

Implementation of the technical solution.

A device for assembling a mechanical seal (Fig. 1, 2) contains: a handle 1, a locking screw 2, a large disc 3, an L-shaped ring hook 4, a small disc 8, a pressure sleeve 9, nuts 10 and screws 11.

The handle 1 is mounted on the end of the locking screw 2. The center of the large disk 3 is threadedly connected to the second end of the locking screw 2. The small disk 8 has a circular recess in the center of the surface of one side. The second end of the stop screw 2, which is threadedly connected to the large disc 3, is located on the circular recess of the small disc 8.

Along the outer edge of the circumference of the large disc 3, a number of through threaded holes are evenly distributed.

The screws 11 pass through the threaded through holes and are connected to the nuts 10 to fix the L-shaped ring hook 4 on the large disk 3.

On the side surface of the small disk 8, the sleeve 5 and the movable ring 6 are concentrically installed, and the screw element of the pump 7 is also installed on the outer side of the movable ring 6, the upper end surface of which is adjacent to the inner end surface of the L-shaped ring hook 4.

On the side surface of the small disk 8, a pressure sleeve 9 is installed, which is located on the outer side of the movable ring 6.

The handle 1 has a rod structure, and its left and right ends are provided with bosses to prevent falling out.

The locking screw 2 has a cylindrical shape. In this case, a threaded through hole is formed in the center of the circumference of the large disc 3 for connection with the second end of the locking screw 2.

On the outer edge of the circumference of the L-shaped ring hook 4, four threaded through holes are evenly distributed. The diameter of the small disc 8 corresponds to the outer diameter of the movable ring 6.

The diameter of the large disc 3 corresponds to the outer diameter of the L-shaped ring hook 4.

The number of threaded through holes evenly distributed over the outer edge of the large disc 3 is four. Threaded through holes, evenly distributed along the outer edge of the large disc 3, are concentric with threaded through holes, which are evenly distributed along the outer edge of the L-shaped ring hook 4.

The order of use.

At the first stage, the L-shaped ring hook 4 is installed concentrically on the screw element of the pump 7 so that the inner end surface of the L-shaped ring hook 4 adjoins the lower end surface of the screw element of the pump 7. The pressure sleeve 9 is installed concentrically on the movable ring 6 so that the lower end surface of the pressure sleeve 9 was attached to the upper end surface of the movable ring 6.

At the second stage, the small disc 8 is installed concentrically on the pressure sleeve 9 so that the lower end surface of the small disc 8 adjoins the upper end surface of the pressure sleeve 9. The large disc 3 is installed concentrically on the small disc 8 and four through holes of the large disc 3 are arranged concentrically with four threaded through holes of the L-shaped ring hook 4. Install four screws 11, respectively, in four through holes on the large disk 3. Screw them, respectively, into four threaded through holes of the L-shaped ring hook 4 and tighten them. The nuts 10 are screwed into the screws 11 so that the lower end surface of each nut 10 corresponds to the upper end surface of the large disc 3.

At the third stage, the handle 1 is installed into the through hole of the head of the locking screw 2. The locking screw 2 is screwed into the threaded through hole in the middle of the large disk 3. The threaded end end of the locking screw 2 adjoins the end surface of the circular recess in the middle of the small disk 8. With slow rotation of the locking screw 2, the screw element of the pump 7 interacts with the movable ring 6 and the sleeve 5, and thus the assembly of the mechanical seal is performed.

The proposed utility model, described in detail above in conjunction with the figures, is not limited to the illustrated implementation example. It is allowed to make changes in the amount of general knowledge of specialists in this field of technology and without changing the essence of the utility model. Details not described can be taken from the prior art.

Claims (3)

1. A device for assembling a mechanical seal, consisting of a sleeve (5) and a movable ring (6), on the outside of which a screw element of the pump (7) is installed, characterized in that it contains a handle (1), a locking screw (2), a large disc (3), in the center of which a threaded hole is made, an L-shaped ring hook (4) with an outer edge, around the circumference of which uniformly distributed threaded through holes are made, a small disc (8), a pressure sleeve (9), nuts (10) and screws (11), while the handle (1) is installed at one end of the locking screw (2) and has a rod structure with left and right ends, which are provided with bosses to prevent falling out, a large disc (3) is threadedly connected to the second end of the locking screw (2) installed in its threaded hole, while in the center on the surface of one side of the small disc (8) there is a round recess, and the second end of the locking screw (2), which is threadedly connected to the large disc lump (3), located in a circular recess of the small disc (8), while on the outer edge around the circumference of the large disc (3) there is a uniformly distributed row of through threaded holes, which are arranged concentrically with threaded through holes made on the outer edge along the circumference L -shaped ring hook (4), while in the holes made on the outer edge around the circumference of the large disk (3), and in the holes made on the outer edge around the circumference of the L-shaped ring hook (4), screws (11) are installed, connected with nuts (10) for fixing the L-shaped ring hook (4) on the large disc (3), the diameter of the small disc (8) corresponding to the outer diameter of the movable ring (6), the side surface of the small disc (8) is made with the possibility of concentric installation of the sleeve (5) and the movable ring (6), with the screw element of the pump (7) installed on the outside of the movable ring (6), while the inner end surface is L-shaped th ring hook (4) is made with the ability to adhere to it the upper end surface of the screw element of the pump (7), and on the side surface of the small disk (8) there is a pressure sleeve (9) for positioning it on the outer side of the movable ring (6), when the diameter of the large disc (3) corresponds to the outer diameter of the L-shaped ring hook (4). 2. The device according to claim 1, characterized in that the locking screw (2) has a cylindrical shape, and the number of threaded through holes made in a circle on the outer edge of the L-shaped ring hook (4) is four. 3. The device according to claim. 2, characterized in that the number of threaded through holes, evenly distributed around the circumference on the outer edge of the large disc (3), is four.

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