CN216954113U - Anti-freezing structure of indirect air cooling auxiliary engine sector partition in alpine region - Google Patents

Abstract

The utility model discloses an anti-freezing structure of an indirect air-cooling auxiliary machine sector partition in a severe cold area, which comprises an auxiliary machine assembly, a first air-cooling auxiliary machine assembly and a second air-cooling auxiliary machine assembly, wherein the auxiliary machine assembly comprises a first sector, a second sector and a bypass pipeline, the second sector is arranged on one side of the first sector, and the bypass pipeline is arranged on one side of the second sector; the first control assembly is arranged on one side of the first sector, and comprises a first water inlet pipe arranged on one side of the first sector, a first water return pipe arranged on one side of the first sector, and a first water drain pipe arranged on one side of the first water return pipe; the second control assembly is arranged on one side of the second sector and comprises a second water return pipe arranged on one side of the second sector and a second water inlet pipe arranged on one side of the second sector. The device provided by the utility model can prevent the auxiliary machine indirect air cooling auxiliary machine sector from being frost-cracked in cold seasons, ensure the safe and stable operation of the unit in cold seasons, increase the auxiliary machine standby sectors and reduce the non-stop risk of the unit.

Description

Anti-freezing structure of indirect air cooling auxiliary engine sector partition in alpine region

Technical Field

The utility model relates to the technical field of technical transformation engineering of indirect air-cooling auxiliary machine sectors, in particular to an anti-freezing structure of an indirect air-cooling auxiliary machine sector partition in a severe cold area.

Background

A cooling sector of an auxiliary machine sector is designed in the existing indirect cooling tower and comprises 10 cooling triangles, each machine in the prior art is arranged to be an independent sector and provided with 10 cooling triangles, each cooling triangle is 25m high, and the total heat exchange area is 950423m 2.

SUMMERY OF THE UTILITY MODEL

This section is for the purpose of summarizing some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the abstract and the title of the application to avoid obscuring the purpose of this section, the abstract and the title of the application, and such simplifications or omissions are not intended to limit the scope of the utility model.

The utility model is provided in view of the above and/or the problems of the existing anti-freezing structure of the sector partition of the indirect air-cooling auxiliary machine in the alpine region.

Therefore, the utility model aims to solve the problem that the auxiliary machine indirect air cooling auxiliary machine sector is not frost-cracked in cold seasons, the safe and stable operation of the unit in cold seasons is ensured, the auxiliary machine standby sector is added, and the non-stop risk of the unit is reduced.

In order to solve the technical problems, the utility model provides the following technical scheme: the anti-freezing structure for indirectly air-cooling the auxiliary machine sector in the alpine region comprises an auxiliary machine assembly and a control module, wherein the auxiliary machine assembly comprises a first sector, a second sector arranged on one side of the first sector and a bypass pipeline arranged on one side of the second sector; the first control assembly is arranged on one side of the first sector and comprises a first water inlet pipe arranged on one side of the first sector, a first water return pipe arranged on one side of the first sector and a first water drain pipe arranged on one side of the first water return pipe; the second control assembly is arranged on one side of the second sector and comprises a second water return pipe arranged on one side of the second sector, a second water inlet pipe arranged on one side of the second sector and a second water drain pipe arranged on one side of the second water inlet pipe; the mounting assembly is arranged on the outer sides of the first water drain pipe and the second water drain pipe and comprises a mounting block arranged on the outer sides of the first water drain pipe and the second water drain pipe, a first inserting block arranged in the mounting block and a fixing bolt arranged on the outer side of the mounting block; and the supporting component is arranged on the outer side of the first water return pipe and the second water inlet pipe and comprises a supporting rod arranged on the outer side of the first water return pipe and the second water inlet pipe, a lower clamping plate arranged at the top of the supporting rod and an upper clamping plate arranged at the top of the lower clamping plate.

As a preferred scheme of the anti-freezing structure of the sector partition of the indirect air-cooling auxiliary engine in the alpine region, the anti-freezing structure comprises the following steps: the first sector comprises a blind plate arranged on one side.

As a preferred scheme of the anti-freezing structure of the sector partition of the indirect air-cooling auxiliary engine in the alpine region, the anti-freezing structure comprises the following steps: the first water return pipe comprises a first electric valve arranged on the outer side, and the first drain pipe comprises a second electric valve arranged on the outer side.

As a preferred scheme of the anti-freezing structure of the sector partition of the indirect air-cooling auxiliary engine in the alpine region, the anti-freezing structure comprises the following steps: the second water inlet pipe comprises a third electric valve arranged on the outer side, and the second drain pipe comprises a fourth electric valve arranged on the outer side.

As a preferable scheme of the anti-freezing structure of the sector partition of the indirect air-cooling auxiliary machine in the alpine region, the anti-freezing structure comprises the following components: the mounting block comprises a socket arranged inside and a first threaded hole arranged on the outer side.

As a preferred scheme of the anti-freezing structure of the sector partition of the indirect air-cooling auxiliary engine in the alpine region, the anti-freezing structure comprises the following steps: the first inserting block comprises a second inserting block arranged inside, and one side of the second inserting block is communicated with one end of the first water drain pipe.

As a preferable scheme of the anti-freezing structure of the sector partition of the indirect air-cooling auxiliary machine in the alpine region, the anti-freezing structure comprises the following components: the first inserting block further comprises a second threaded hole formed in the outer side, and the outer side of the fixing bolt is in threaded fit with the inner wall of the second threaded hole.

As a preferable scheme of the anti-freezing structure of the sector partition of the indirect air-cooling auxiliary machine in the alpine region, the anti-freezing structure comprises the following components: the lower clamping plate comprises a fixing block arranged on one side and a fixing shaft arranged at the top of the fixing block.

As a preferred scheme of the anti-freezing structure of the sector partition of the indirect air-cooling auxiliary engine in the alpine region, the anti-freezing structure comprises the following steps: the upper clamping plate comprises a fixing plate arranged on one side.

As a preferable scheme of the anti-freezing structure of the sector partition of the indirect air-cooling auxiliary machine in the alpine region, the anti-freezing structure comprises the following components: the upper clamp plate further comprises a clamping block arranged at the bottom of the fixing plate, and the inner wall of the clamping block is clamped with the outer side of the fixing shaft.

The utility model has the beneficial effects that: according to the utility model, by arranging the auxiliary machine assembly, the first control assembly and the second control assembly, flexible adjustment can be conveniently carried out on the auxiliary machine sector when the temperature difference between winter and summer is larger, the problems that the cooling area is too large, the water temperature is too low and the environment temperature is low during running in winter are avoided, and the effects of quick installation and fixed support are achieved by arranging the installation assembly and the support assembly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

fig. 1 is a structural diagram of an anti-freezing structure of an indirect air-cooling auxiliary machine sector partition in a severe cold area.

Fig. 2 is a mounting component structure diagram of an anti-freezing structure of an indirect air-cooling auxiliary machine sector partition in a severe cold region.

Fig. 3 is a mounting block diagram of an anti-freezing structure of an indirect air-cooling auxiliary machine sector partition in a severe cold region.

Fig. 4 is a structural diagram of a support assembly of an anti-freezing structure of an indirect air-cooling auxiliary machine sector partition in a severe cold area.

Fig. 5 is an enlarged structure view at a position A of an anti-freezing structure of the sector partition of the indirect air-cooling auxiliary machine in the alpine region.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the utility model. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1, 2, 3 and 4, a first embodiment of the present invention provides an anti-freezing structure of an indirect air-cooling auxiliary sector partition in an alpine region, the anti-freezing structure of the indirect air-cooling auxiliary sector partition in the alpine region includes an auxiliary assembly 100, a first control assembly 200, a second control assembly 300, a mounting assembly 400 and a support assembly 500, and by providing the auxiliary assembly 100, the first control assembly 200 and the second control assembly 300, flexible adjustment of the auxiliary sector in winter and summer with a large temperature difference is facilitated, and the problems that a cooling area is too large, a water temperature is too low, and an environmental temperature is too low to prevent freezing in winter operation are avoided, and by providing the mounting assembly 400 and the support assembly 500, an effect of rapid mounting and fixed support is achieved.

Specifically, the auxiliary device assembly 100 includes a first sector 101, a second sector 102 disposed on a side of the first sector 101, and a bypass duct 103 disposed on a side of the second sector 102. The ten cooling triangles of an original single auxiliary machine sector are transformed into a first sector 101 and a third sector 102, the first sector 101 is provided with six cooling triangles, the second sector 102 is provided with four cooling triangles, the auxiliary machine first sector 101 is operated when the environmental temperature is lower than 0 ℃, the auxiliary machine second sector 102 is operated when the environmental temperature is lower than-10 ℃, the first sector 101 and the second sector 102 run in parallel when the environmental temperature is higher than 10 ℃, and therefore the purposes of flexible adjustment and freeze prevention are achieved, the problems that the cooling area is too large, the water temperature is too low and the environmental temperature is too low to prevent freezing when the auxiliary machine runs in winter are avoided.

Preferably, the first control assembly 200, disposed on one side of the first sector 101, includes a first water inlet pipe 201 disposed on one side of the first sector 101, a first water return pipe 202 disposed on one side of the first sector 101, and a first water drain pipe 203 disposed on one side of the first water return pipe 202. The water quantity is conveniently controlled by arranging the first water inlet pipe 201, the first water return pipe 202 and the first water drain pipe 203.

Preferably, the second control component 300 is disposed at one side of the second sector 102, and includes a second water return pipe 301 disposed at one side of the second sector 102, a second water inlet pipe 302 disposed at one side of the second sector 102, and a second water outlet pipe 303 disposed at one side of the second water inlet pipe 302. The water quantity is conveniently controlled by arranging the second water return pipe 301, the second water inlet pipe 302 and the second drain pipe 303.

Preferably, the mounting assembly 400 is disposed outside the first and second drains 203 and 303, and includes a mounting block 401 disposed outside the first and second drains 203 and 303, a first insertion block 402 disposed inside the mounting block 401, and a fixing bolt 403 disposed outside the mounting block 401. Through setting up installation piece 401, one side and the one end intercommunication of first wash-out pipe 203 and second wash-out 303 of installation piece 401 are fixed first inserted block 402 through fixing bolt 403 to reach the effect easy to assemble and dismantle, improved practicality and convenience greatly.

Preferably, the supporting assembly 500 is disposed outside the first water return pipe 202 and the second water inlet pipe 302, and includes a supporting rod 501 disposed outside the first water return pipe 202 and the second water inlet pipe 302, a lower clamp plate 502 disposed on top of the supporting rod 501, and an upper clamp plate 503 disposed on top of the lower clamp plate 502. Through setting up bracing piece 501, bracing piece 501's top fixedly connected with lower plate 502, one side of lower plate 502 is rotated through the pivot and is connected with punch holder 503 to support and fix first return pipe 202 and second inlet pipe 302, improved stability greatly.

When the device is used, ten cooling triangles of an original single auxiliary machine sector are transformed into a first sector 101 and a third sector 102, the first sector 101 is provided with six cooling triangles, the second sector 102 is provided with four cooling triangles, the auxiliary machine first sector 101 is operated when the ambient temperature is lower than 0 ℃, the auxiliary machine second sector 102 is operated when the ambient temperature is lower than-10 ℃, and the first sector 101 and the second sector 102 are operated in parallel when the ambient temperature is higher than 10 ℃, so that the purposes of flexible adjustment and freeze prevention are achieved, the problems that the cooling area is too large, the water temperature is too low and the ambient temperature is too low to prevent freezing in winter operation are avoided, the water quantity is conveniently controlled by arranging the first water inlet pipe 201, the first water return pipe 202 and the first water drain pipe 203, and the water quantity is conveniently controlled by arranging the second water return pipe 301, the second water inlet pipe 302 and the second water drain pipe 303, through setting up installation piece 401, one side and the one end intercommunication of first wash-out pipe 203 and second wash-out 303 of installation piece 401, fix first inserted block 402 through fixing bolt 403, thereby the effect easy to assemble and dismantlement has been reached, practicality and convenience have been improved greatly, through setting up bracing piece 501, the top fixedly connected with lower plate 502 of bracing piece 501, one side of lower plate 502 is rotated through the pivot and is connected with punch holder 503, thereby support and fix first return pipe 202 and second inlet tube 302, the stability is greatly improved.

Example 2

Referring to fig. 1 to 4, a second embodiment of the present invention is based on the above embodiment.

Specifically, the first sector 101 includes a blind plate 101a disposed at one side. A blind plate 101a is additionally arranged at the boundary of the first sector 101 and the second sector 102, so that the two auxiliary sectors are ensured to be independent.

Preferably, the first water return pipe 202 includes a first motor-operated valve 202a provided on the outside, and the first drain pipe 203 includes a second motor-operated valve 203a provided on the outside. The first water return pipe 202 and the first drain pipe 203 are easily controlled by providing the first electric valve 202a and the second electric valve 203 a.

Preferably, the second water inlet pipe 302 includes a third electric valve 302a provided on the outside, and the second drain pipe 303 includes a fourth electric valve 303a provided on the outside. The third electric valve 302a and the fourth electric valve 303a are arranged to conveniently control the second water inlet pipe 302 and the second drain pipe 303.

Preferably, the mounting block 401 includes a socket 401a provided at the inside, and a first screw hole 401b provided at the outside. The first insertion block 402 can be conveniently inserted into the installation block 401 by arranging the insertion block 401a, and the fixing bolt 403 can be conveniently fixed by arranging the first screw hole 401 b.

Preferably, the first insertion block 402 includes a second insertion block 402a provided inside, and one side of the second insertion block 402a communicates with one end of the first drain pipe 203. The second insertion block 402a is inserted into the first insertion block 402, which facilitates the assembly.

Preferably, the first insertion block 402 further includes a second threaded hole 402b disposed on an outer side, and an outer side of the fixing bolt 403 is in threaded engagement with an inner wall of the second threaded hole 402 b. The first insert 402 is fixed by the fixing bolt 403 through the second screw hole 402 b.

When the device is used, ten cooling triangles of an original single auxiliary machine sector are transformed into a first sector 101 and a third sector 102, the first sector 101 is provided with six cooling triangles, the second sector 102 is provided with four cooling triangles, the auxiliary machine first sector 101 is operated when the ambient temperature is lower than 0 ℃, the auxiliary machine second sector 102 is operated when the ambient temperature is lower than-10 ℃, and the first sector 101 and the second sector 102 are operated in parallel when the ambient temperature is higher than 10 ℃, so that the purposes of flexible adjustment and freeze prevention are achieved, the problems that the cooling area is too large, the water temperature is too low and the ambient temperature is too low to prevent freezing in winter operation are avoided, the water quantity is conveniently controlled by arranging the first water inlet pipe 201, the first water return pipe 202 and the first water drain pipe 203, and the water quantity is conveniently controlled by arranging the second water return pipe 301, the second water inlet pipe 302 and the second water drain pipe 303, by arranging the mounting block 401, one side of the mounting block 401 is communicated with one end of the first drain pipe 203 and one end of the second drain pipe 303, and the first insert block 402 is fixed by the fixing bolt 403, thereby achieving the effect of convenient mounting and dismounting, greatly improving the practicability and convenience, by arranging the support rod 501, the top of the support rod 501 is fixedly connected with the lower clamp plate 502, one side of the lower clamp plate 502 is rotatably connected with the upper clamp plate 503 by a rotating shaft, thereby supporting and fixing the first return pipe 202 and the second water inlet pipe 302, greatly improving the stability, additionally arranging the blind plate 101a at the boundary of the first sector 101 and the second sector 102, ensuring that the two auxiliary sectors are independent, conveniently controlling the first return pipe 202 and the first drain pipe 203 by arranging the first electric valve 202a and the second electric valve 203a, conveniently controlling the second return pipe 302 and the second drain pipe 303 by arranging the third electric valve 302a and the fourth electric valve 303a, make things convenient for first inserted block 402 to insert installation piece 401 in through setting up inserted block 401a, make things convenient for fixing bolt 403 to fix through setting up first screw hole 401b, inside second inserted block 402a inserted first inserted block 402, conveniently accomplish the equipment, make things convenient for fixing bolt 403 to fix first inserted block 402 through setting up second screw hole 402 b.

Example 3

Referring to FIGS. 1-5, a third embodiment of the present invention is based on the first two embodiments.

Specifically, the lower clamp plate 502 includes a fixing block 502a disposed at one side and a fixing shaft 502b disposed at the top of the fixing block 502 a. A fixing block 502a is fixedly connected to one side of the lower clamp plate 502, and a fixing shaft 502b is fixedly connected to the top of the fixing block 502 a.

Preferably, the upper clamp plate 503 includes a fixing plate 503a disposed at one side. A fixing plate 503a is fixedly connected to one side of the upper clamp plate 503.

Preferably, the upper clamp plate 503 further includes a latch 503b disposed at the bottom of the fixing plate 503a, and an inner wall of the latch 503b is engaged with an outer side of the fixing shaft 502 b. The pipe is fixed by clamping the fixture blocks 503b on the fixed shaft 502 b.

When the device is used, ten cooling triangles of an original single auxiliary machine sector are transformed into a first sector 101 and a third sector 102, the first sector 101 is provided with six cooling triangles, the second sector 102 is provided with four cooling triangles, the auxiliary machine first sector 101 is operated when the ambient temperature is lower than 0 ℃, the auxiliary machine second sector 102 is operated when the ambient temperature is lower than-10 ℃, and the first sector 101 and the second sector 102 are operated in parallel when the ambient temperature is higher than 10 ℃, so that the purposes of flexible adjustment and freeze prevention are achieved, the problems that the cooling area is too large, the water temperature is too low and the ambient temperature is too low to prevent freezing in winter operation are avoided, the water quantity is conveniently controlled by arranging the first water inlet pipe 201, the first water return pipe 202 and the first water drain pipe 203, and the water quantity is conveniently controlled by arranging the second water return pipe 301, the second water inlet pipe 302 and the second water drain pipe 303, by arranging the mounting block 401, one side of the mounting block 401 is communicated with one end of the first drain pipe 203 and one end of the second drain pipe 303, the first insert block 402 is fixed by the fixing bolt 403, thereby achieving the effect of convenient mounting and dismounting, greatly improving the practicability and convenience, by arranging the support rod 501, the top of the support rod 501 is fixedly connected with the lower clamp plate 502, one side of the lower clamp plate 502 is rotatably connected with the upper clamp plate 503 through the rotating shaft, thereby supporting and fixing the first return pipe 202 and the second inlet pipe 302, greatly improving the stability, additionally arranging the blind plate 101a at the boundary of the first sector 101 and the second sector 102, ensuring that the two auxiliary machine sectors are independent, conveniently controlling the first return pipe 202 and the first drain pipe 203 by arranging the first electric valve 202a and the second electric valve 203a, conveniently controlling the second inlet pipe 302 and the second drain pipe 303 by arranging the third electric valve 302a and the fourth electric valve 303a, make things convenient for first inserted block 402 to insert installation piece 401 through setting up inserted block 401a in, make things convenient for fixing bolt 403 to fix through setting up first screw hole 401b, second inserted block 402a inserts inside first inserted block 402, conveniently accomplish the equipment, make things convenient for fixing bolt 403 to fix first inserted block 402 through setting up second screw hole 402b, one side fixedly connected with fixed block 502a of lower plate 502, the top fixedly connected with fixed axle 502b of fixed block 502a, one side fixedly connected with fixed plate 503a of punch holder 503, carry out the joint through fixture block 503b in fixed axle 502b and fix the pipeline.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. The anti-freezing structure of indirect air cooling auxiliary engine sector subregion in alpine region, its characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

an auxiliary assembly (100) including a first sector (101), a second sector (102) provided on the first sector (101) side, and a bypass duct (103) provided on the second sector (102) side;

the first control assembly (200) is arranged on one side of the first sector (101) and comprises a first water inlet pipe (201) arranged on one side of the first sector (101), a first water return pipe (202) arranged on one side of the first sector (101) and a first water drain pipe (203) arranged on one side of the first water return pipe (202);

the second control component (300) is arranged on one side of the second sector (102) and comprises a second water return pipe (301) arranged on one side of the second sector (102), a second water inlet pipe (302) arranged on one side of the second sector (102) and a second drain pipe (303) arranged on one side of the second water inlet pipe (302);

the mounting assembly (400) is arranged on the outer sides of the first drain pipe (203) and the second drain pipe (303), and comprises a mounting block (401) arranged on the outer sides of the first drain pipe (203) and the second drain pipe (303), a first inserting block (402) arranged in the mounting block (401), and a fixing bolt (403) arranged on the outer side of the mounting block (401); and (c) a second step of,

the supporting assembly (500) is arranged on the outer sides of the first water return pipe (202) and the second water inlet pipe (302), and comprises a supporting rod (501) arranged on the outer sides of the first water return pipe (202) and the second water inlet pipe (302), a lower clamping plate (502) arranged at the top of the supporting rod (501), and an upper clamping plate (503) arranged at the top of the lower clamping plate (502).

2. The anti-freezing structure for the sector partition of the indirect air-cooling auxiliary machine in the alpine region as claimed in claim 1, characterized in that: the first sector (101) includes a blind plate (101a) disposed at one side.

3. The anti-freezing structure for the sector partition of the indirect air-cooling auxiliary machine in the alpine region as claimed in claim 2, characterized in that: the first water return pipe (202) includes a first electric valve (202a) provided on the outside, and the first drain pipe (203) includes a second electric valve (203a) provided on the outside.

4. The anti-freezing structure of the sector partition of the indirect air-cooling auxiliary machine as claimed in claim 2 or 3 in the alpine region is characterized in that: the second water inlet pipe (302) comprises a third electric valve (302a) arranged on the outer side, and the second drain pipe (303) comprises a fourth electric valve (303a) arranged on the outer side.

5. The anti-freezing structure of the sector partition of the indirect air-cooling auxiliary engine in the alpine region as claimed in claim 4, characterized in that: the mounting block (401) comprises a socket (401a) arranged inside and a first threaded hole (401b) arranged outside.

6. The anti-freezing structure of the indirect air-cooling auxiliary section partition in the alpine region according to claim 5, characterized in that: the first inserting block (402) comprises a second inserting block (402a) arranged inside, and one side of the second inserting block (402a) is communicated with one end of the first water drain pipe (203).

7. The anti-freezing structure of the indirect air-cooling auxiliary section partition in the alpine region according to claim 6, characterized in that: the first inserting block (402) further comprises a second threaded hole (402b) formed in the outer side, and the outer side of the fixing bolt (403) is in threaded fit with the inner wall of the second threaded hole (402 b).

8. The anti-freezing structure of the sector partition of the indirect air-cooling auxiliary machine of claim 6 or 7 in the alpine region is characterized in that: the lower clamping plate (502) comprises a fixing block (502a) arranged on one side and a fixing shaft (502b) arranged at the top of the fixing block (502 a).

9. The anti-freezing structure for the sector partition of the indirect air-cooling auxiliary engine in the alpine region according to claim 8, characterized in that: the upper clamp plate (503) includes a fixing plate (503a) disposed at one side.

10. The anti-freezing structure for the sector partition of the indirect air-cooling auxiliary machine in the alpine region as claimed in claim 9, characterized in that: the upper clamping plate (503) further comprises a clamping block (503b) arranged at the bottom of the fixing plate (503a), and the inner wall of the clamping block (503b) is clamped with the outer side of the fixing shaft (502 b).

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