CN216307078U

CN216307078U - Assembled antidetonation support

Info

Publication number: CN216307078U
Application number: CN202121951585.7U
Authority: CN
Inventors: 谭美娟
Original assignee: Likeva
Current assignee: Likeva
Priority date: 2021-08-19
Filing date: 2021-08-19
Publication date: 2022-04-15
Anticipated expiration: 2031-08-19

Abstract

The utility model relates to the technical field of anti-seismic supports and discloses an assembled anti-seismic support which comprises two suspender mechanisms. According to the utility model, the lateral supporting mechanisms can be detachably connected to the side surfaces of the two suspender mechanisms, and the first supporting mechanism and the second supporting mechanism are detachably connected between the two suspender mechanisms, so that the mechanisms are assembled and fixed in a spring compression clamping manner, and a troublesome and low-efficiency spiral connection is replaced.

Description

Assembled antidetonation support

Technical Field

The utility model relates to the technical field of anti-seismic supports, in particular to an assembled anti-seismic support.

Background

In the existing engineering construction process, pipelines are often required to be laid for conveying tap water, fire water, natural gas and the like. If these pipelines are directly fixed on the wall, when an earthquake occurs, the pipelines often fall easily, so that safety accidents are caused, and therefore, the pipelines are supported and protected by using anti-seismic supports.

The assembled antidetonation support on the existing market is because the bolt is connected mostly between each structure of support, leads to very troublesome when installation and dismantlement, influences work efficiency, and supporting structure is too simple, can not expand according to the quantity of actual pipeline, inconvenient use.

We have therefore proposed an assembled anti-seismic support in order to solve the problems set out above.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In view of the defects of the prior art in the background art, the present invention aims to provide an assembled anti-seismic support to solve the problems that in some assembled anti-seismic supports in the current market proposed in the background art, due to the fact that the structures of the supports are mostly connected by bolts, the installation and the disassembly are very troublesome, the work efficiency is affected, the support structure is too simple, the expansion cannot be performed according to the number of actual pipelines, and the use is inconvenient.

(II) technical scheme

In order to achieve the purpose, the utility model is realized by the following technical scheme:

the utility model provides an assembled antidetonation support, includes two jib mechanism, two the side of jib mechanism all can be dismantled and be connected with side direction supporting mechanism, and two can dismantle between the jib mechanism and be connected with first supporting mechanism and second supporting mechanism, just swing joint between first supporting mechanism and the second supporting mechanism.

Preferably, the suspender mechanism comprises a suspender rod body, a first mounting groove is formed in the side surface of the suspender rod body, two first spring compression cavities are formed in the inner end surface of the first mounting groove, a first compression spring and a first limiting plate are arranged in each first spring compression cavity, one end of each first compression spring is in contact with the inner end surface of each first spring compression cavity, the other end of each first compression spring is in contact with the side surface of each first limiting plate, a first push block is fixedly connected to the other side surface of each first limiting plate, a second mounting groove is formed in the position, close to the bottom end, of the other side surface of the suspender rod body, a second spring compression cavity is formed in the inner end surface of each second mounting groove, a second compression spring and a second limiting plate are arranged in each second spring compression cavity, one end of each second compression spring is in contact with the inner end surface of each second spring compression cavity, the other end of the second compression spring is in contact with the side surface of the second limiting plate, the other side surface of the second limiting plate is fixedly connected with a second push block, the inner side surface of the first mounting groove is provided with two third spring compression cavities, a third compression spring and a third limiting plate are arranged inside the third spring compression cavities, one end of the third compression spring is in contact with the inner end surface of the third spring compression cavity, the other end of the third compression spring is in contact with the side surface of the third limiting plate, the other side surface of the third limiting plate is fixedly connected with a first clamping column, a first traction line is fixed at the central position of the side surface of the third limiting plate, the side surface of the suspender body is provided with a first chute, the first chute is communicated with the third spring compression cavities, a first pressing plate is connected onto the first chute in a sliding manner, one end of the first traction line is connected with the side surface of the first pressing plate, a fourth spring compression cavity is formed in the inner side face of the second mounting groove, a fourth compression spring and a fourth limiting plate are arranged inside the fourth spring compression cavity, one end of the fourth compression spring is in contact with the inner end face of the fourth spring compression cavity, the other end of the fourth compression spring is in contact with the side face of the fourth limiting plate, a second clamping column is fixedly connected to the other side face of the fourth limiting plate, a second pull-off line is fixedly arranged at the center position of the side face of the fourth limiting plate, a second sliding groove is formed in the side face of the suspender rod body, the second sliding groove is communicated with the fourth spring compression cavity, a second pressing plate is slidably connected to the second sliding groove, one end of the second pull-off line is connected with the side face of the second pressing plate, and a suspender fixing plate is fixedly connected to the top of the suspender rod body.

Preferably, the lateral supporting mechanism comprises a lateral supporting rod, one end of the lateral supporting rod is connected with a first rotating plate in a rotating mode, one end of the first rotating plate is fixedly connected with a first clamping plate, two first clamping holes are formed in the surface of the first clamping plate, the other end of the lateral supporting rod is fixedly connected with a second rotating plate, one end of the second rotating plate is fixedly connected with a lateral supporting mechanism fixing plate, the first clamping plate is connected with a first mounting groove in a sliding mode, and the first clamping holes are matched with first clamping columns.

Preferably, the first supporting mechanism comprises a supporting pipe, a plurality of first connecting columns which are linearly and uniformly distributed are fixedly connected to the upper surface of the supporting pipe, a first pipe bundle piece is fixedly connected to the top end of each first connecting column, an adaptive sliding groove is formed in the side surface of the supporting pipe, and a plurality of fixed limiting holes which are linearly and uniformly distributed are formed in the lower surface of the supporting pipe.

Preferably, the second supporting mechanism comprises a supporting column, one end of the supporting column is fixedly connected with a third clamping plate, a third clamping hole is formed in the third clamping plate, a position, close to the other end, of the lower surface of the supporting column is provided with a limiting column adapting hole, a fifth spring compression cavity is formed in the inner end surface of the limiting column adapting hole, a fifth compression spring and a fifth limiting plate are arranged in the fifth spring compression cavity, one end of the fifth compression spring is in contact with the inner top wall of the fifth spring compression cavity, the other end of the fifth compression spring is in contact with the upper surface of the fifth limiting plate, a limiting column adapted to the fixed limiting hole is fixedly connected to the upper surface of the fifth limiting plate, the limiting column is in sliding connection with the limiting column adapting hole, a plurality of rotating grooves which are linearly and uniformly distributed are formed in the surface of the supporting column, and a rotating ring is rotatably connected to the rotating grooves, the lower surface of the rotating ring is provided with a fixed hole, the side surface of the rotating ring is fixedly connected with a second connecting column which is arranged into a hollow structure, one end of the second connecting column is fixedly connected with a second pipe bundle piece, the surface of the second connecting column is movably sleeved with a press ring, the inside of the second connecting column is slidably connected with a press block, the press block is connected with the press ring, the side surface of the rotating groove is provided with a sixth spring compression cavity, a sixth compression spring and a sixth limiting plate are arranged in the sixth spring compression cavity, one end of the sixth compression spring is in contact with the inner end surface of the sixth spring compression cavity, the other end of the sixth compression spring is in contact with the side surface of the sixth limiting plate, the other side surface of the sixth limiting plate is fixedly connected with a fixed column, the fixed column is in sliding connection with the inside of the second connecting column, the fixed column is matched with the fixed hole, and the support column is movably sleeved with the support pipe, the second connecting column is connected with the adaptive sliding groove in a sliding mode.

(III) advantageous effects

Compared with the prior art, the utility model has the beneficial effects that:

(1) the utility model can detachably connect the lateral support mechanisms on the side surfaces of the two suspender mechanisms, and a first supporting mechanism and a second supporting mechanism are detachably connected between the two suspender mechanisms, so that the mechanisms are assembled and fixed in a spring compression clamping way, the troublesome and low-efficiency spiral connection is replaced, and through the movable connection between the first supporting mechanism and the second supporting mechanism, the second supporting mechanism can be pulled out from the first supporting mechanism for expanded use according to actual conditions, so that the problems that the mounting and dismounting are very troublesome and the working efficiency is influenced because the structures of the brackets are mostly connected by bolts in some assembled anti-seismic brackets in the current market are solved, and the support structure is too simple, can not expand according to the quantity of actual pipeline, inconvenient problem of using.

(2) According to the utility model, the first pressing plate and the second pressing plate are connected to the side surface of the suspender rod body in a sliding manner, so that the anti-seismic support is convenient to disassemble quickly, and the working efficiency is improved.

Drawings

FIG. 1 is a first structural schematic view of an assembled seismic support according to the present invention;

FIG. 2 is a second structural schematic view of the assembled seismic support of the present invention;

FIG. 3 is a third structural view of the assembled seismic support of the present invention;

FIG. 4 is a first cross-sectional structural view of the assembled seismic support of the present invention;

FIG. 5 is a first enlarged partial schematic view of a cross-sectional view of the assembled seismic brace of the present invention;

FIG. 6 is a second enlarged partial schematic view of a cross-sectional structure of the assembled seismic support of the present invention;

FIG. 7 is a third enlarged partial schematic view of a sectional structure of the assembled earthquake-resistant support according to the present invention;

FIG. 8 is a second cross-sectional structural view of the assembled seismic brace of the present invention;

FIG. 9 is a fourth enlarged partial schematic view of a cross-sectional structure of the assembled seismic support of the present invention;

FIG. 10 is an enlarged, fragmentary, fifth cross-sectional view of the assembled seismic brace of the present invention;

FIG. 11 is a third cross-sectional structural view of the assembled seismic brace of the present invention;

fig. 12 is a sixth partially enlarged schematic view of a sectional structure of the assembled earthquake-resistant support according to the present invention.

Wherein: 1 boom mechanism, 101 boom body, 1011 first spring compression chamber, 1012 second spring compression chamber, 1013 third spring compression chamber, 1014 fourth spring compression chamber, 102 first compression spring, 103 first limit plate, 104 first push block, 105 second compression spring, 106 second limit plate, 107 second push block, 108 third compression spring, 109 third limit plate, 110 first clamp column, 111 first pull wire, 112 first press plate, 113 fourth compression spring, 114 fourth limit plate, 115 second clamp column, 116 second pull wire, 117 second press plate, 118 boom fixing plate, 2 lateral support mechanism, 201 lateral support rod, 202 first rotation plate, 203 first clamp plate, 204 second rotation plate, 205 lateral support mechanism fixing plate, 3 first support mechanism, 301 support tube, 3011 adapting chute, 302 first connection column, 303 first tube bundle piece, 4 second support mechanism, 401 support column, 4011 fifth spring compression chamber, 4012 sixth spring compression chamber, 402 third joint plate, 403 fifth compression spring, 404 fifth limiting plate, 405 spacing post, 406 rotating ring, 4061 fixed hole, 407 second connecting post, 408 second tube bundle piece, 409 press ring, 410 briquetting, 411 sixth compression spring, 412 sixth limiting plate, 413 fixed post.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-12, the present invention provides an assembled anti-seismic support; the lifting device comprises two lifting rod mechanisms 1, wherein the side surfaces of the two lifting rod mechanisms 1 can be detachably connected with lateral supporting mechanisms 2, a first supporting mechanism 3 and a second supporting mechanism 4 are detachably connected between the two lifting rod mechanisms 1, and the first supporting mechanism 3 is movably connected with the second supporting mechanism 4;

as shown in fig. 4 to 6 and fig. 9 to 10, as a preferred embodiment of the present invention: the suspension rod mechanism 1 comprises a suspension rod body 101, a first installation groove is formed in the side surface of the suspension rod body 101, two first spring compression cavities 1011 are formed in the inner end surface of the first installation groove, a first compression spring 102 and a first limiting plate 103 are arranged inside the first spring compression cavities 1011, one end of the first compression spring 102 is in contact with the inner end surface of the first spring compression cavity 1011, the other end of the first compression spring 102 is in contact with the side surface of the first limiting plate 103, a first push block 104 is fixedly connected to the other side surface of the first limiting plate 103, a second installation groove is formed in the position, close to the bottom end, of the other side surface of the suspension rod body 101, a second spring compression cavity 1012 is formed in the inner end surface of the second installation groove, a second compression spring 105 and a second limiting plate 106 are arranged inside the second spring compression cavity 1012, one end of the second compression spring 105 is in contact with the inner end surface of the second spring compression cavity 1012, the other end of the second compression spring 105 contacts with the side of the second limit plate 106, the other side of the second limit plate 106 is fixedly connected with a second push block 107, the inner side of the first mounting groove is provided with two third spring compression cavities 1013, a third compression spring 108 and a third limit plate 109 are arranged inside the third spring compression cavities 1013, one end of the third compression spring 108 contacts with the inner end face of the third spring compression cavity 1013, the other end of the third compression spring 108 contacts with the side of the third limit plate 109, the other side of the third limit plate 109 is fixedly connected with a first clamping column 110, a first pull wire 111 is fixed at the center position of the side of the third limit plate 109, the side of the boom rod body 101 is provided with a first chute, the first chute is communicated with the third spring compression cavities 1013, a first pressing plate 112 is connected to the first chute in a sliding manner, one end of the first pull wire 111 is connected with the side of the first pressing plate 112, a fourth spring compression chamber 1014 is formed on the inner side surface of the second mounting groove, a fourth compression spring 113 and a fourth limit plate 114 are arranged inside the fourth spring compression chamber 1014, one end of the fourth compression spring 113 is in contact with the inner end surface of the fourth spring compression chamber 1014, the other end of the fourth compression spring 113 contacts with the side of the fourth limiting plate 114, the other side of the fourth limiting plate 114 is fixedly connected with a second clamping column 115, the center position of the side of the fourth limiting plate 114 is fixed with a second traction line 116, the side of the suspender rod body 101 is provided with a second sliding groove, the second sliding groove is communicated with a fourth spring compression cavity 1014, a second pressing plate 117 is connected to the second sliding groove in a sliding manner, one end of a second pulling line 116 is connected to the side surface of the second pressing plate 117, a boom fixing plate 118 is fixedly connected to the top of the boom body 101, the clamping assembly of the mechanisms of the anti-seismic support is realized through the matching of the structures in the spring cavity;

as a preferred technical solution of the present invention, as shown in fig. 4 to 5: the lateral supporting mechanism 2 comprises a lateral supporting rod 201, one end of the lateral supporting rod 201 is rotatably connected with a first rotating plate 202, one end of the first rotating plate 202 is fixedly connected with a first clamping plate 203, the surface of the first clamping plate 203 is provided with two first clamping holes, the other end of the lateral supporting rod 201 is fixedly connected with a second rotating plate 204, one end of the second rotating plate 204 is fixedly connected with a lateral supporting mechanism fixing plate 205, the first clamping plate 203 is slidably connected with a first mounting groove, the first clamping holes are matched with the first clamping columns 110, and the lateral supporting mechanism 2 is conveniently connected with an external wall through rotary connection between structures;

as shown in fig. 4 and 7, and fig. 12, as a preferred embodiment of the present invention: the first supporting mechanism 3 comprises a supporting tube 301, one end of the supporting tube 301 is fixedly connected with a second clamping plate, a second clamping hole is formed in the second clamping plate, the upper surface of the supporting tube 301 is fixedly connected with a plurality of first connecting columns 302 which are uniformly distributed in a linear mode, the top ends of the first connecting columns 302 are fixedly connected with a first tube bundle piece 303, an adaptive sliding groove 3011 is formed in the side surface of the supporting tube 301, the lower surface of the supporting tube 301 is provided with a plurality of fixed limiting holes which are uniformly distributed in a linear mode, the second clamping plate is connected with a second mounting groove in a sliding mode, the second clamping hole is matched with a second clamping column 115, and the supporting tube 301 and the adaptive sliding groove 3011 are arranged to facilitate pulling out and shrinking of the second supporting mechanism 4;

as shown in fig. 3 and fig. 6 to 7, and fig. 12, as a preferred embodiment of the present invention: the second supporting mechanism 4 comprises a supporting column 401, one end of the supporting column 401 is fixedly connected with a third clamping plate 402, a third clamping hole is arranged on the third clamping plate 402, a position close to the other end of the lower surface of the supporting column 401 is provided with a limit column adapting hole, the inner end surface of the limit column adapting hole is provided with a fifth spring compression cavity 4011, a fifth compression spring 403 and a fifth limit plate 404 are arranged in the fifth spring compression cavity 4011, one end of the fifth compression spring 403 is contacted with the inner top wall of the fifth spring compression cavity 4011, the other end of the fifth compression spring 403 is contacted with the upper surface of the fifth limit plate 404, the upper surface of the fifth limit plate 404 is fixedly connected with a limit column 405 which is matched with the fixed limit hole, the limit column 405 is connected with the limit column adapting hole in a sliding manner, the surface of the supporting column 401 is provided with a plurality of rotating grooves which are linearly and uniformly distributed, and a rotating ring 406 is rotationally connected in the rotating groove, the lower surface of the rotating ring 406 is provided with a fixing hole 4061, the side surface of the rotating ring 406 is fixedly connected with a second connecting column 407 which is a hollow structure, one end of the second connecting column 407 is fixedly connected with a second tube bundle piece 408, the surface of the second connecting column 407 is movably sleeved with a press ring 409, the inside of the second connecting column 407 is slidably connected with a press block 410, the press block 410 is connected with the press ring 409, the side surface of the rotating groove is provided with a sixth spring compression cavity 4012, a sixth compression spring 411 and a sixth limiting plate 412 are arranged in the sixth spring compression cavity 4012, one end of the sixth compression spring 411 is in contact with the inner end surface of the sixth spring compression cavity 4012, the other end of the sixth compression spring 411 is in contact with the side surface of the sixth limiting plate 412, the other side surface of the sixth limiting plate 412 is fixedly connected with a fixing column 413, the fixing column 413 is in sliding connection with the inside of the second connecting column 407, and the fixing column 413 is matched with the fixing hole 4061, support column 401 and support tube 301 activity cup joint, second spliced pole 407 and adaptation spout 3011 sliding connection, through the cooperation of fifth compression spring 403 and fifth limiting plate 404 and spacing post 405, can fix support column 401, avoid it to take place to rotate in support tube 301.

The working principle of the embodiment is as follows: when the assembled anti-seismic support is used, as shown in fig. 1 to 12, the device is composed of a suspender mechanism 1, a lateral support mechanism 2, a first support mechanism 3, and a second support mechanism 4 as a whole, the first clamping plate 203 is inserted into a first mounting groove, the first push block 104 is pressed into a first spring compression cavity 1011, the first clamping column 110 is ejected and inserted into a first clamping hole to fix the first clamping plate 203, the lateral support mechanism 2 is assembled on the suspender mechanism 1, the third clamping plate 402 is inserted into a second mounting groove, the second push block 107 is pressed into a second spring compression cavity, the second clamping column 115 is ejected and inserted into a third clamping hole 1012 to fix the third clamping plate 402, the second support mechanism 4 is assembled on the suspender mechanism 1, and similarly, the second clamping plate is inserted into a second mounting groove to fix the second clamping plate, assembling the first support mechanism 3 on the boom mechanism 1, when expansion is needed, pressing the limiting column 405 to press the limiting column into the fifth spring compression cavity 4011, pulling the support column 401 to pull the second connection column 407 out of the adaptive chute 3011, pressing the press ring 409 to drive the press block 410 to press the fixing column 413 into the sixth spring compression cavity 4012, rotating the second connection column 407 and the second tube bundle 408 through the rotating ring 406, and fixing the second tube bundle 408 through the matching of the fixing column 413 and the fixing hole 4061 to complete expansion;

as shown in fig. 2, with reference to fig. 1-12, when disassembling, the lateral support mechanism 2, the first support mechanism 3, and the second support mechanism 4 can be disassembled from the boom mechanism 1 by only pressing down the first pressing plate 112 and the second pressing plate 117, and pulling back the first clamping column 110 and the second clamping column 115 into the corresponding spring compression cavities through the first pulling line 111 and the second pulling line 116, respectively, to release the locking and fixing, which is the working process of the whole device, and the content not described in detail in this specification is the prior art well known to those skilled in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it should be noted that, in the present invention, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, may be fixedly connected or detachably connected; or indirectly through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations; it will be apparent to those skilled in the art that modifications and equivalents may be made in the embodiments and/or portions thereof without departing from the spirit and scope of the present invention.

Claims

1. The utility model provides an assembled antidetonation support, includes two jib mechanism (1), its characterized in that, two the side of jib mechanism (1) all can be dismantled and be connected with side direction supporting mechanism (2), and two can dismantle between jib mechanism (1) and be connected with first supporting mechanism (3) and second supporting mechanism (4), just swing joint between first supporting mechanism (3) and the second supporting mechanism (4).

2. The assembled anti-seismic support according to claim 1, wherein the suspension rod mechanism (1) comprises a suspension rod body (101), a first installation groove is formed in the side surface of the suspension rod body (101), two first spring compression cavities (1011) are formed in the inner end surface of the first installation groove, a first compression spring (102) and a first limiting plate (103) are arranged inside the first spring compression cavities (1011), one end of the first compression spring (102) is in contact with the inner end surface of the first spring compression cavity (1011), the other end of the first compression spring (102) is in contact with the side surface of the first limiting plate (103), a first push block (104) is fixedly connected to the side surface of the first limiting plate (103), a second installation groove is formed in the position, close to the other bottom end, of the suspension rod body (101), and a second spring compression cavity (1012) is formed in the inner end surface of the second installation groove, the inside of second spring compression chamber (1012) is provided with second compression spring (105) and second limiting plate (106), one end of second compression spring (105) contacts with the inner end face of second spring compression chamber (1012), and the other end of second compression spring (105) contacts with the side face of second limiting plate (106), another side face of second limiting plate (106) is fixedly connected with second push block (107), two third spring compression chambers (1013) are provided on the inner side face of first mounting groove, the inside of third spring compression chamber (1013) is provided with third compression spring (108) and third limiting plate (109), one end of third compression spring (108) contacts with the inner end face of third spring compression chamber (1013), and the other end of third compression spring (108) contacts with the side face of third limiting plate (109), the side face of third limiting plate (109) is fixedly connected with first clamping column (110), a first traction line (111) is fixed at the center of the side of the third limiting plate (109), a first chute is formed in the side of the suspender rod body (101), the first chute is communicated with a third spring compression cavity (1013), the first chute is connected with a first pressing plate (112) in a sliding manner, one end of the first traction line (111) is connected with the side of the first pressing plate (112), a fourth spring compression cavity (1014) is formed in the inner side of the second mounting groove, a fourth compression spring (113) and a fourth limiting plate (114) are arranged in the fourth spring compression cavity (1014), one end of the fourth compression spring (113) is in contact with the inner end face of the fourth spring compression cavity (1014), the other end of the fourth compression spring (113) is in contact with the side of the fourth limiting plate (114), and a second clamping column (115) is fixedly connected to the side of the fourth limiting plate (114), the central point of fourth limiting plate (114) side puts and is fixed with the second and leads line (116), the second spout has been seted up to the side of the jib body of rod (101), the second spout is linked together with fourth spring compression chamber (1014), just sliding connection has the second to press according to pressure board (117) on the second spout, the one end and the second of the second that lead line (116) are pressed according to pressure board (117) side and are connected, the top fixedly connected with jib fixed plate (118) of the jib body of rod (101).

3. The assembled earthquake-proof support according to claim 2, wherein the lateral support mechanism (2) comprises a lateral support rod (201), one end of the lateral support rod (201) is rotatably connected with a first rotating plate (202), one end of the first rotating plate (202) is fixedly connected with a first clamping plate (203), two first clamping holes are formed in the surface of the first clamping plate (203), the other end of the lateral support rod (201) is fixedly connected with a second rotating plate (204), one end of the second rotating plate (204) is fixedly connected with a lateral support mechanism fixing plate (205), the first clamping plate (203) is slidably connected with a first mounting groove, and the first clamping holes are matched with the first clamping columns (110).

4. The assembled anti-seismic support according to claim 2, wherein the first supporting mechanism (3) comprises a supporting tube (301), one end of the supporting tube (301) is fixedly connected with a second clamping plate, the second clamping plate is provided with a second clamping hole, the upper surface of the supporting tube (301) is fixedly connected with a plurality of first connecting columns (302) which are linearly and uniformly distributed, the top end of each first connecting column (302) is fixedly connected with a first pipe bundle piece (303), the side surface of the supporting tube (301) is provided with an adaptation sliding groove (3011), the lower surface of the supporting tube (301) is provided with a plurality of fixed limiting holes which are linearly and uniformly distributed, the second clamping plate is slidably connected with a second mounting groove, and the second clamping hole is adapted to the second clamping column (115).

5. The assembled anti-seismic support according to claim 4, wherein the second support mechanism (4) comprises a support column (401), one end of the support column (401) is fixedly connected with a third clamping plate (402), a third clamping hole is formed in the third clamping plate (402), a position, close to the other end, of the lower surface of the support column (401) is provided with a limit column adapting hole, a fifth spring compression cavity (4011) is formed in the inner end surface of the limit column adapting hole, a fifth compression spring (403) and a fifth limiting plate (404) are arranged in the fifth spring compression cavity (4011), one end of the fifth compression spring (403) is in contact with the inner top wall of the fifth spring compression cavity (4011), the other end of the fifth compression spring (403) is in contact with the upper surface of the fifth limiting plate (404), and a limit column (405) adapted to the fixed limit hole is fixedly connected to the upper surface of the fifth limiting plate (404), the limiting column (405) is connected with the limiting column adaptive hole in a sliding manner, a plurality of rotating grooves which are linearly and uniformly distributed are formed in the surface of the supporting column (401), a rotating ring (406) is connected in the rotating groove in a rotating manner, a fixing hole (4061) is formed in the lower surface of the rotating ring (406), a second connecting column (407) which is of a hollow structure is fixedly connected to the side surface of the rotating ring (406), a second tube bundle piece (408) is fixedly connected to one end of the second connecting column (407), a pressing ring (409) is sleeved on the surface of the second connecting column (407), a pressing block (410) is connected to the inside of the second connecting column (407) in a sliding manner, the pressing block (410) is connected with the pressing ring (409), a sixth spring compression cavity (4012) is formed in the side surface of the rotating groove, and a sixth compression spring (411) and a sixth limiting plate (412) are arranged in the sixth spring compression cavity (4012), one end of a sixth compression spring (411) is in contact with the inner end face of a sixth spring compression cavity (4012), the other end of the sixth compression spring (411) is in contact with the side face of a sixth limiting plate (412), another side face of the sixth limiting plate (412) is fixedly connected with a fixing column (413), the fixing column (413) is in sliding connection with the inside of a second connecting column (407), the fixing column (413) is matched with a fixing hole (4061), a supporting column (401) is movably sleeved with a supporting tube (301), the second connecting column (407) is in sliding connection with an adapting sliding groove (3011), a third clamping plate (402) is in sliding connection with a second mounting groove, and the third clamping hole is matched with a second clamping column (115).