CN113685486B

CN113685486B - Damping device of phosphorous acid mixed processing equipment

Info

Publication number: CN113685486B
Application number: CN202111231038.6A
Authority: CN
Inventors: 郭君华; 郑玉龙
Original assignee: Nantong Huishun Chemical Co ltd
Current assignee: Nantong Huishun Chemical Co ltd
Priority date: 2021-10-22
Filing date: 2021-10-22
Publication date: 2021-12-31
Anticipated expiration: 2041-10-22
Also published as: CN113685486A

Abstract

The invention provides a damping device of phosphorous acid mixing processing equipment, which relates to the field of damping devices and aims to solve the problems that when the existing damping device for mixing processing is used, a phosphorous acid mixing reactor cannot be assisted to be cooled, and the transverse vibration amplitude of the mixing reactor cannot be reduced. The bottom outside of spread groove is the arc structure, and the top at the buffer block is seted up to the spread groove. After the buffer block drives the inserted bar and moves, the outer end of the inserted bar can move in the slot, so that the inserted bar can move upwards, and meanwhile, the top end of the inserted bar is inserted into the stress slot to push, so that the fixed block can move simultaneously, and then the inner end of the inserted bar is contacted with the phosphorous acid mixing reactor, and then the mixing reactor is clamped and fixed, and the vibration transverse vibration displacement amplitude of the mixing reactor is controlled.

Description

Damping device of phosphorous acid mixed processing equipment

Technical Field

The invention belongs to the technical field of damping devices, and particularly relates to a damping device of phosphorous acid mixing processing equipment.

Background

Phosphorous acid generally needs to use the mixing reactor when the production processing, and the mixing reactor produces the vibration when using easily, and the main reason mainly lies in: (1) the structure is unreasonable; (2) the processing quality of the parts does not meet the requirements; (3) the assembly process is incorrect, liquid or solid in the mixing shearing tank body needs to be stirred and mixed when the mixing reactor runs, the axial force and the radial force are applied, and simultaneously, the raw materials are added stage by stage, so that the two forces are continuously changed to cause the generation of vibration, and a damping device is needed;

current damping device directly utilizes the spring to carry out the shock attenuation usually when using, and it is relatively poor to utilize and remove the inertia effect and carry out absorbing effect, and the impact force transformation direction that produces when unable with the shock attenuation can't strengthen fixed effect in the absorbing, and simultaneously when using, unable supplementary phosphorous acid mixing reactor cools off, can't reduce mixing reactor's transverse vibration range.

Disclosure of Invention

In order to solve the technical problems, the invention provides a damping device of phosphorous acid mixing processing equipment, which is used for solving the problems that when the existing damping device is used, a spring is generally directly utilized for damping, the damping effect by utilizing the moving inertia effect is poor, the impact force generated during damping can not be changed in direction, the fixing effect can not be enhanced during damping, and meanwhile, when the damping device is used, a phosphorous acid mixing reactor can not be assisted for cooling, and the transverse vibration amplitude of the mixing reactor can not be reduced.

The invention relates to a damping device of phosphorous acid mixing processing equipment, which is realized by the following specific technical means:

a damping device of phosphorous acid hybrid processing equipment comprises: a main body; the main part is circular platelike structure, and the outside of main part is slope column structure, and the main part is the metal material, and the inside intermediate position of main part is equipped with hexagonal hole, and the top internally mounted of main part has six cyclic annular arrangement's buffer block, the buffer block is H shape structure, and the buffer block embedding is equipped with the round hole in the inside of kerve and apical trough, and the round bar of kerve has been inserted in the inside of round hole, and the buffer block is including: the connecting grooves are L-shaped structures, the outer sides of the bottoms of the connecting grooves are arc-shaped structures, twelve connecting grooves are arranged, and every two connecting grooves are formed in the top end of one buffer block; the top plate is of a circular plate-shaped structure and made of metal, and the top plate is installed at the top end of the main body; the cooling piece, the cooling piece is the ring annular structure, and the inside annular groove that is equipped with in top of cooling piece, the cooling piece passes through the backup pad to be fixed on the top of main part, and the cooling piece is including: the outer end of the fixing block is of a middle-shaped structure, the inner end of the fixing block is of an arc-shaped structure, the section of the inner end of the fixing block is of a T-shaped structure, a rubber plate is arranged on the surface of the inner end of the fixing block, and the rear end of the fixing block is embedded into a middle-shaped groove of the mounting block.

Further, the body includes: the spring-type water heater comprises a main body, bottom grooves, a spring, a top groove, a water tank and a water tank, wherein the bottom grooves are T-shaped structures, round rods are arranged inside the bottom grooves, the springs are sleeved on the outer sides of the round rods, the six bottom grooves are annularly arranged inside the main body, the water tank is provided with a top groove, a top groove is provided with a T-shaped structure, a top groove is arranged above each bottom groove, and two rectangular through grooves are arranged on the outer sides of the top groove, the bottom grooves are arranged in an annular arrangement; the main body further includes: the outer grooves are rectangular structures, six outer grooves are arranged, the six outer grooves are annularly arranged on the outer side of the top end of the main body, and the outer grooves are communicated with the rectangular through grooves of the top groove; the supporting block is of a hexagonal structure, a hexagonal hole is formed in the supporting block, the supporting block is made of hard rubber, and the supporting block is fixed in the middle of the top end of the main body; the main body further includes: the plug board is of a T-shaped plate structure, the top end of the plug board is of a wedge-shaped structure, the number of the plug boards is six, the six plug boards are respectively inserted into the six outer grooves, the bottom end of the inner part of each plug board is provided with two slots, and the inner parts of the slots are of wedge-shaped structures.

Further, the buffer block further includes: the two ends of the inner end of each inserted rod are both wedge-shaped structures, twelve inserted rods are arranged, each two inserted rods are respectively fixed on two sides of the top end of one buffer block, and the outer ends of the inserted rods are inserted into the slots; the auxiliary blocks are rectangular plate-shaped structures, twelve auxiliary blocks are arranged, every two auxiliary blocks are respectively fixed on two sides of one buffer block, and the auxiliary blocks are embedded in two sides of the bottom groove; the buffer block further includes: the auxiliary plate is of an H-shaped structure, the whole auxiliary plate is made of rubber, the inner part of the auxiliary plate is of an arc-shaped structure, the inner end of the auxiliary plate is connected with the auxiliary block through two inclined plates and a trapezoidal plate, two sides of the auxiliary plate are respectively provided with an ejector block, and the ejector blocks are of arc-shaped structures.

Further, the top plate includes: the connecting rod is of a hexagonal structure and is arranged at the bottom of the top plate, and the bottom of the connecting rod is inserted into the hexagonal hole of the supporting block; the top plate further includes: the buffer board, the buffer board comprises two slope platelike structures, and the buffer board is the spring board material, and the bottom of buffer board is equipped with the inner mass, and the inner mass is cylindrical structure, and the bottom and the inner mass embedding of buffer board are in the inside of spread groove, and the inside of buffer board is equipped with two arm-tie, and the arm-tie is the spring board material, and the buffer board is equipped with six altogether, and six buffer boards are cyclic annular arrangement and fix the bottom at the buffer board.

Further, the cooling member further includes: the cooling device comprises a cooling piece, an extension plate, a support plate and a cooling device, wherein the extension plate is of an arc-shaped plate structure and made of metal aluminum, the number of the extension plates is six, the six extension plates are annularly arranged and fixed in the top end of the cooling piece, the bottom of the cooling piece is provided with six annularly arranged support plates, and the support plates are of a U-shaped plate structure; the cooling member further includes: the mounting blocks are of a pentagonal structure, the six mounting blocks are arranged in a ring shape and fixed between the support plates, and a middle-character-shaped groove is formed in the inner side of each mounting block; the stress groove is of a wedge-shaped structure and is arranged in the fixed block, and the top end of the inserting plate is inserted into the stress groove.

Compared with the prior art, the invention has the following beneficial effects:

1. in the device, a connecting groove is arranged and is used for being arranged at the top end of the buffer block, so that the bottom of the buffer plate and the inner block can be embedded in the connecting groove, when in use, the top piece moves up and down by receiving vibration, so that the inner block and the buffer plate can be stressed to push the buffer block, the buffer plate is made of a spring plate material, the buffer plate can transmit impact force to the buffer block while buffering by the buffer plate, the impact force is converted into direction, the vibration sense can be gradually eliminated, the device can utilize the moving inertia effect during falling to perform damping and buffering, simultaneously the buffer block performs damping and buffering through a spring outside the round rod and an auxiliary plate made of rubber material, so that the damping effect is better, when the vibration amplitude is larger, the buffer block drives the inserted rod to displace, the inserted plate can control the movement of the fixed block to enhance the fixing effect, and the service life of the phosphorous acid mixing reactor at the top roof is longer, maintenance times can be effectively reduced, and maintenance cost is further saved;

2. in this device, the fixed block has been set up, the fixed block is used for installing and removes in the installation piece is inside, make the buffer block drive the inserted bar after removing, the outer end of inserted bar can remove in the inside of slot, make the inserted bar can the rebound, the top of inserted bar inserts the inside promotion in the atress groove simultaneously, make the fixed block can displace simultaneously, and then contact its inner and phosphorous acid mixing reactor, and then it is fixed to mix reactor centre gripping, the vibration lateral displacement amplitude of control mixing reactor, and then reduce the vibration, simultaneously ice water and ice-cube can be added to the inside of cooling part, make the cooling part can pass through ice water and ice-cube and give mixing reactor with the temperature transfer, increase the cooling area through the extension board of aluminium matter simultaneously, make the cooling effect better, can effectually save every two ten thousand yuan of cooling arrangement.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of the present invention in a partially sectioned bottom view.

Fig. 3 is an exploded perspective view of the present invention.

Fig. 4 is an exploded bottom view of the present invention.

FIG. 5 is a schematic view of a main body of the present invention in partial cross section and exploded configuration.

Fig. 6 is a schematic perspective and sectional structure view of the buffer block of the present invention.

Fig. 7 is a schematic bottom view of the top plate of the present invention.

Fig. 8 is a bottom exploded view of the cooling element of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a main body; 101. a bottom groove; 102. a top groove; 103. an outer tank; 104. a support block; 105. inserting plates; 106. a slot; 2. a buffer block; 201. connecting grooves; 202. inserting a rod; 203. an auxiliary block; 204. an auxiliary plate; 205. a top block; 3. a top plate; 301. a connecting rod; 302. a buffer plate; 303. an inner block; 304. pulling a plate; 4. a cooling member; 401. an extension plate; 402. a support plate; 403. mounting blocks; 404. a fixed block; 405. a stress groove.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides a damping device of phosphorous acid mixing processing equipment, which comprises a main body 1; main part 1 is circular platelike structure, main part 1's the outside is slope column structure, can increase the area of contact with ground, it is better to make 1 fixed effects of main part, main part 1 is the metal material, make main part 1 can be harder, the inside intermediate position of main part 1 is equipped with hexagonal hole, be used for supplementary erection joint pole 301, make connecting rod 301 have the migration space, the top internally mounted of main part 1 has six cyclic annular buffer block 2 of arranging, buffer block 2 is H-shaped structure, the inside at kerve 101 and top groove 102 of buffer block 2 embedding, be used for installing at kerve 101 and the inside gliding of top groove 102, and then supplementary buffering impact force, buffer block 2's inside is equipped with the round hole, the round bar that has kerve 101 has been inserted to the inside of round hole, buffer block 2 is including: the connecting groove 201 is of an L-shaped structure and is used for embedding and mounting the bottom of the buffer plate 302 and the inner block 303, so that the connecting groove is not easy to separate after being embedded, meanwhile, power can be transmitted to the buffer block 2, the buffer block 2 can be displaced to assist in buffering and damping, the outer side of the bottom of the connecting groove 201 is of an arc-shaped structure, so that the inner block 303 can slightly rotate in the connecting groove, the inclination angle of the buffer plate 302 can be adjusted in a self-adaptive mode, twelve connecting grooves 201 are arranged, and every two connecting grooves 201 are arranged at the top end of one buffer block 2; the top plate 3 is of a circular plate-shaped structure, the top plate 3 is made of metal materials, so that the buffer plate 302 can be effectively pushed to incline, the top plate 3 cannot deform, and the top plate 3 is installed at the top end of the main body 1; the cooling piece 4 is of an annular structure, so that the cooling piece 4 can be installed on the outer side of the mixing reactor, the inner side of the cooling piece 4 and the inner side of the extension plate 401 can be attached to the outer wall of the mixing reactor, an annular groove is formed in the top end of the cooling piece 4 and is used for adding ice blocks and ice water, the cooling piece 4 is fixed to the top end of the main body 1 through the support plate 402, and the cooling piece 4 comprises: fixed block 404, the outer end of fixed block 404 is well style of calligraphy structure, move in order to can install the well style of calligraphy inslot portion of installing block 403, the inner of fixed block 404 is the arc structure, the inner cross-section of fixed block 404 is T shape structure, the inner surface of fixed block 404 is equipped with the rubber slab, be in order to can with mixed reactor outside antiskid and buffer contact, the rear end embedding of fixed block 404 is in the well style of calligraphy inslot portion of installing block 403, make fixed block 404 adjustable position, and then the tight mixed reactor of clamp.

As shown in fig. 5, wherein the main body 1 includes: the bottom groove 101 is of a T-shaped structure, so that the bottom of the buffer block 2, the auxiliary block 203 and the auxiliary plate 204 can be embedded in the bottom groove to move, the auxiliary plate 204 can have an installation space, a round rod is arranged in the bottom groove 101, a spring is sleeved on the outer side of the round rod and used for assisting in pushing the buffer block 2, six bottom grooves 101 are arranged in the bottom groove 101, six bottom grooves 101 are arranged in the main body 1 in an annular mode, a top groove 102 is arranged above each bottom groove 101, each top groove 102 is of a T-shaped structure and used for assisting in installing the top end of the buffer block 2, and two rectangular through grooves are formed in the outer side of the top end of each top groove 102 and used for enabling the inserted rod 202 to pass through; the main body 1 further includes: the outer grooves 103 are rectangular, six outer grooves 103 are arranged in the total number, the six outer grooves 103 are arranged on the outer side of the top end of the main body 1 in a ring shape, so that the inserting plate 105 can move up and down in the outer grooves, and the outer grooves 103 are communicated with the rectangular through grooves of the top groove 102; the supporting block 104 is of a hexagonal structure, a hexagonal hole is formed in the supporting block 104, the supporting block 104 is made of hard rubber and is used for being directly contacted with the bottom of the top plate 3, vibration is buffered at the first time, and the supporting block 104 is fixed in the middle of the top end of the main body 1; the main body 1 further includes: the inserting plates 105 are T-shaped plate structures, the top ends of the inserting plates 105 are wedge-shaped structures and are used for being inserted into the stress grooves 405, the fixing blocks 404 can be forced to move, six inserting plates 105 are arranged, the six inserting plates 105 are respectively inserted into the six outer grooves 103, the bottom end of the inner portion of each inserting plate 105 is provided with two inserting grooves 106, the inner portions of the inserting grooves 106 are wedge-shaped structures and are used for being inserted into the outer ends of the inserting rods 202, and the inserting rods 105 can be pushed to move upwards when the inserting rods 202 follow the buffer blocks 2 to buffer and move.

As shown in fig. 7, wherein the top plate 3 includes: the connecting rod 301 is of a hexagonal structure, the connecting rod 301 is arranged at the bottom of the top plate 3 and is used for being inserted into the hexagonal holes of the main body 1 and the supporting block 104, after the top plate 3 moves downwards, the connecting rod 301 can assist in controlling the top plate 3 to avoid the top plate 3 from deviating, and the bottom of the connecting rod 301 is inserted into the hexagonal hole of the supporting block 104; the top plate 3 further includes: buffer board 302, buffer board 302 comprises two slope platelike structures, buffer board 302 is the spring board material, be used for through self elasticity, the buffering vibration, simultaneously can promote 2 displacements of buffer block through interior piece 303, buffer board 302's bottom is equipped with interior piece 303, interior piece 303 is cylindrical structure, buffer board 302's bottom and interior piece 303 embedding are in the inside of spread groove 201, buffer board 302's inside is equipped with two arm-tie 304, arm-tie 304 is the spring board material, be the inside pulling at buffer block 2, and then reinforcing buffering effect, buffer board 302 is equipped with six altogether, six buffer board 302 are cyclic annular arrangement and fix the bottom at buffer board 302.

As shown in fig. 6, the buffer block 2 further includes: the inserting rods 202 are L-shaped, two ends of the inner end of each inserting rod 202 are wedge-shaped, twelve inserting rods 202 are arranged, every two inserting rods 202 are fixed to two sides of the top end of one buffer block 2 respectively, the outer ends of the inserting rods 202 are inserted into the slots 106, so that when the buffer blocks 2 are displaced, the inserting rods 202 can displace along with the displacement, the outer ends of the inserting rods 202 can be inserted into the slots 106, and the inserting plates 105 can be pushed to ascend; the auxiliary blocks 203 are rectangular plate-shaped structures, and are used for assisting in pushing the auxiliary plate 204, so that the auxiliary plate 204 can deform under stress and assist in buffering vibration, twelve auxiliary blocks 203 are arranged, every two auxiliary blocks 203 are respectively fixed on two sides of one buffer block 2, and the auxiliary blocks 203 are embedded in two sides of the bottom groove 101; the buffer block 2 further includes: the auxiliary plate 204 is of an H-shaped structure, the whole auxiliary plate 204 is made of rubber, sound caused by movement of the buffer block 2 is eliminated, and meanwhile the shock absorption effect can be achieved, the auxiliary plate 204 is of an arc-shaped structure, the inner end of the auxiliary plate 204 is connected with the auxiliary block 203 through two inclined plates and a trapezoidal plate, two sides of the auxiliary plate 204 are respectively provided with a top block 205, and the top blocks 205 are of arc-shaped structures and are used for enhancing the buffer effect.

As shown in fig. 8, the cooling member 4 further includes: the extension plate 401 is of an arc-shaped plate structure and is used for being attached to the outer wall of the mixing reactor, the extension plate 401 is made of metal aluminum and is used for better transferring temperature, so that the cooling range is larger, the cooling effect is enhanced, the number of the extension plates 401 is six, the six extension plates 401 are annularly arranged and fixed in the top end of the cooling element 4, the bottom of the cooling element 4 is provided with six annularly arranged support plates 402, and the support plates 402 are of U-shaped plate structures, so that the cooling element 4 can be stably supported, and ice water and ice cubes can be firmly used after being added into the cooling element 4; the cooling element 4 further comprises: the mounting blocks 403 are pentagonal, six mounting blocks 403 are arranged, the six mounting blocks 403 are annularly arranged, the mounting blocks 403 are fixed between the support plates 402, and a middle-shaped groove is formed in the inner side of each mounting block 403 and is used for being embedded into the mounting fixed block 404, so that the fixed block 404 can move and adjust the position; atress groove 405, atress groove 405 is the wedge structure, and atress groove 405 establishes in the inside of fixed block 404, and the top of picture peg 105 has been inserted in the inside of atress groove 405, is after picture peg 105 rises, can make atress groove 405 atress, and then drive fixed block 404 and remove, makes fixed block 404 can assist centre gripping mixing reactor, avoids mixing reactor lateral displacement amplitude.

As another implementation manner of the embodiment of the present invention, if it is not necessary to control the fixing block 404 to clamp the mixing reactor, the inserting plate 105 may be controlled to move upward and be pulled out, so that the inserting plate 105 is not pushed to move when the inserting rod 202 is displaced.

When in use: when the device is needed to be used, the device can be firstly placed at a proper position, then the mixing reactor is placed above the top plate 3, the inner part of the cooling part 4 and the inner part of the extension plate 401 can be contacted with the outer wall of the mixing reactor, ice water and ice blocks are added into the cooling part 4, then the mixing reactor is controlled to be used, when the mixing reactor is mixed, vibration can be generated, the vibration sense is transmitted to the top plate 3, the top plate 3 can push the buffer plate 302, the buffer plate 302 can incline, meanwhile, the bottom of the buffer plate 302 and the inner block 303 can slightly rotate in the connecting groove 201, the buffer block 2 can be pushed to displace, the top plate 3 can convert the impact force into the direction, the vibration can be reduced by utilizing the moving inertia effect, the buffer block 2 can be buffered by the spring and the auxiliary plate 204, when the vibration amplitude of the mixing reactor is larger, can promote buffer block 2 and remove great range, make inserted bar 202 follow buffer block 2 displacement, make inserted bar 202 can insert the inside of slot 106, make slot 106 atress, and then make picture peg 105 atress upwards move, in the time of removing, the inside of atress groove 405 is inserted to the top of picture peg 105, make the outer end of fixed block 404 can move at the well style of calligraphy inslot portion of installation piece 403, make the inner of fixed block 404 can contact with the outer wall of hybrid reactor, make hybrid reactor can be pressed from both sides tightly, strengthen fixed effect, reduce the lateral vibration range of hybrid reactor, make the shock attenuation effect better, the inside frozen water and the ice-cube of cooling part 4 transmit the temperature simultaneously, make cooling part 4 and extension board 401 can increase the area of contact with hybrid reactor, make the cooling effect of hybrid reactor better.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a phosphite mixes damping device of processing equipment which characterized in that, damping device includes:

a main body (1);

the outside of main part (1) is slope column structure, and the inside intermediate position of main part (1) is equipped with hexagonal hole, and the top internally mounted of main part (1) has buffer block (2) of cyclic annular range, buffer block (2) embedding is in the inside of kerve (101) and top groove (102), and the inside of buffer block (2) is equipped with the round hole, and the round bar of kerve (101) has been inserted to the inside of round hole, and buffer block (2) are including: the outer side of the bottom of the connecting groove (201) is of an arc-shaped structure, and the connecting groove (201) is formed in the top end of the buffer block (2);

the top plate (3), the said top plate (3) is installed on the top of the body (1);

cooling part (4), the inside annular groove that is equipped with in top of cooling part (4), cooling part (4) are fixed on the top of main part (1) through backup pad (402), cooling part (4) including: the rubber plate is arranged on the surface of the inner end of the fixing block (404), and the rear end of the fixing block (404) is embedded in the middle-shaped groove of the mounting block (403).

2. A shock-absorbing device of a phosphorous acid mixing processing apparatus as claimed in claim 1, wherein said main body (1) comprises: the spring type water heater comprises a bottom groove (101), a round rod is arranged inside the bottom groove (101), springs are sleeved on the outer side of the round rod, the bottom groove (101) is annularly arranged inside a main body (1), a top groove (102) is arranged above the bottom groove (101), and a rectangular through groove is formed in the outer side of the top end of the top groove (102).

3. A shock-absorbing device of a phosphorous acid mixing processing apparatus as claimed in claim 1, wherein said main body (1) further comprises: the outer grooves (103) are arranged at the top end of the main body (1) in a ring shape, and the outer grooves (103) are communicated with the rectangular through groove of the top groove (102);

the supporting device comprises a supporting block (104), wherein a hexagonal hole is formed in the supporting block (104), and the supporting block (104) is fixed in the middle of the top end of the main body (1).

4. A shock-absorbing device of a phosphorous acid mixing processing apparatus as claimed in claim 1, wherein said main body (1) further comprises: the top end of the inserting plate (105) is of a wedge-shaped structure, the inserting plate (105) is inserted into the outer groove (103), the bottom end of the inner portion of the inserting plate (105) is provided with an inserting groove (106), and the inner portion of the inserting groove (106) is of the wedge-shaped structure.

5. A shock-absorbing device of a phosphorous acid mixing processing apparatus as set forth in claim 1, wherein said buffer block (2) further comprises: the two ends of the inner end of the inserted rod (202) are both wedge-shaped structures, the inserted rod (202) is fixed on the two sides of the top end of the buffer block (2), and the outer end of the inserted rod (202) is inserted into the slot (106);

and auxiliary blocks (203), wherein the auxiliary blocks (203) are fixed on two sides of the buffer block (2), and the auxiliary blocks (203) are embedded in two sides of the bottom groove (101).

6. A shock-absorbing device of a phosphorous acid mixing processing apparatus as set forth in claim 1, wherein said buffer block (2) further comprises: the inner part of the auxiliary plate (204) is of an arc-shaped structure, the inner end of the auxiliary plate (204) is connected with the auxiliary block (203) through an inclined plate and a trapezoidal plate, the outer side of the auxiliary plate (204) is provided with a top block (205), and the top block (205) is of an arc-shaped structure.

7. A vibration damper of a phosphorous acid mixing processing apparatus as claimed in claim 1, wherein said top plate (3) comprises: the connecting rod (301), the connecting rod (301) is established in the bottom of roof (3), and the bottom of connecting rod (301) inserts in the hexagonal hole of supporting shoe (104) inside.

8. A vibration damper of a phosphorous acid mixing processing apparatus as set forth in claim 1, wherein said top plate (3) further comprises: buffer board (302), the bottom of buffer board (302) is equipped with interior piece (303), and the bottom of buffer board (302) and interior piece (303) embedding are in the inside of connecting groove (201), and the inside of buffer board (302) is equipped with two arm-tie (304), and buffer board (302) are cyclic annular arrangement and fix the bottom at buffer board (302).

9. A vibration damper of a phosphorous acid mixing processing apparatus as set forth in claim 1, wherein said cooling member (4) further comprises: the extension plate (401) is annularly arranged and fixed inside the top end of the cooling part (4), the bottom of the cooling part (4) is provided with an annularly arranged support plate (402), and the support plate (402) is of a U-shaped plate structure.

10. A vibration damper of a phosphorous acid mixing processing apparatus as set forth in claim 1, wherein said cooling member (4) further comprises: the mounting blocks (403), the mounting blocks (403) are arranged in a ring shape, the mounting blocks (403) are fixed between the support plates (402), and a middle-shaped groove is formed inside the inner side of each mounting block (403);

the stress groove (405) is arranged inside the fixed block (404), and the top end of the inserting plate (105) is inserted into the stress groove (405).