CN113417965A - Mounting structure of industrial equipment - Google Patents

Abstract

The utility model belongs to the technical field of the technique of industrial equipment installation and specifically relates to a mounting structure of industrial equipment is related to, including the equipment body and the mount table that is used for placing the equipment body, the mounting groove has been seted up on the mount table, be provided with the damping device who is used for slowing down equipment body vibrations on the diapire of mounting groove, the removal mouth with the mounting groove intercommunication is seted up to one side of mount table, it is provided with the accessory plate that is used for the auxiliary assembly body to remove to the mounting groove to remove to rotate on the mouth, be provided with the stabilizing component who is used for the fixed equipment body in the mounting groove and on the two adjacent inside walls of accessory plate, the standing groove has been seted up in the mount table, be provided with the adjusting device who is used for manipulating stabilizing component in the standing groove, the axis of rotation of accessory plate extends to in the standing groove and adjusting device connects. This application has the effect of the stability of lifting means during operation.

Description

Mounting structure of industrial equipment

Technical Field

The application relates to the technical field of industrial equipment installation, in particular to an installation structure of industrial equipment.

Background

Industrial equipment refers to equipment for industrial production and all kinds of lathe, because the volume of these equipment devices is great, industrial equipment need put it on supporting platform, realizes the support operation to whole industrial equipment through supporting platform, and in order to promote industrial equipment's stability and be convenient for the installation, the auxiliary fixing frame is usually installed fixedly to equipment.

But after fixing industrial equipment, industrial equipment can produce great vibrations at the during operation, and the vibrations of production can transmit auxiliary stand and supporting platform on, influence supporting platform's stability, industrial equipment itself can produce great vibrations simultaneously, leads to the poor stability of equipment, influences the working property of equipment.

Disclosure of Invention

In order to improve the stability of equipment during operation, this application provides an industrial equipment's mounting structure.

The application provides an industrial equipment's mounting structure adopts following technical scheme:

the utility model provides an installation structure of industrial equipment, includes the equipment body and is used for placing the mount table of equipment body, the mounting groove has been seted up on the mount table, be provided with the damping device who is used for slowing down equipment body vibrations on the diapire of mounting groove, the removal mouth with the mounting groove intercommunication is seted up to one side of mount table, it is provided with the accessory plate that is used for the auxiliary assembly body to remove to the mounting groove to move to remove mouthful to rotate, be provided with the stabilizing component who is used for the fixed equipment body on the two inside walls adjacent with the accessory plate in the mounting groove, set up the standing groove in the mount table, be provided with the adjusting device who is used for manipulating stabilizing the component in the standing groove, the axis of rotation of accessory plate extends to in the standing groove and adjusting device connects.

Through adopting above-mentioned technical scheme, expand the accessory plate and place one side and place subaerial and be the tilt state, then pass through accessory plate propelling movement to mounting groove with the equipment body in, then rotate accessory plate to closure state, when rotating the accessory plate, handle stable assembly through adjusting device, after the accessory plate is closed, fix the position of equipment body through stable assembly, slow down vibrations through damping device simultaneously, promote the stability of equipment body during operation.

Optionally, the damping device includes an intermediate plate, a placing plate, a first damping member and a second damping member, the intermediate plate and the placing plate are arranged at intervals in the direction perpendicular to the bottom wall of the mounting groove in the mounting groove, the first damping member is arranged between the intermediate plate and the mounting groove, the second damping member is arranged between the intermediate plate and the placing plate, the side surface of the intermediate plate and the placing plate are arranged in the mounting groove in a sliding manner in the arrangement direction of the placing plate, and the device body is placed on the placing plate.

Through adopting above-mentioned technical scheme, set up damping member one and damping member two on placing board and intermediate lamella, carry out the shock attenuation step by step through the vibrations that damping member one and damping member two pairs of equipment bodies produced, cushion the vibrations of production, promote the stability of equipment during operation.

Optionally, the placing groove is communicated with the mounting groove, and the stabilizing assembly comprises a stabilizing rod and a stabilizing plate; the one end of stabilizer bar is at the standing groove internal rotation setting, and the other end and steadying plate are connected, steadying plate deviates from one side and the equipment body butt of stabilizer bar, adjusting device and stabilizer bar are connected.

Through adopting above-mentioned technical scheme, drive the stabilizer bar through adjusting device and rotate, the stabilizer bar rotates, drives the steadying plate and rotates, and the butt is fixed the equipment body to steadying plate and equipment body side.

Optionally, adjusting device is including adjusting pole, slider, gear and drive assembly, the slider slides in the standing groove and sets up, slider and stabilizer bar set up in same horizontal plane, the draw-in groove has been seted up to the one side that deviates from the stabilizer plate on the stabilizer bar, the one end and the slider of adjusting the pole are connected, and the other end is provided with the regulating block, the regulating block slides along the length direction of stabilizer bar in the draw-in groove and sets up, the regulating block is at the draw-in groove internal rotation setting, the tooth's socket has been seted up to the one side that the slider deviates from the stabilizer bar, gear and tooth's socket meshing, drive assembly sets up in the standing groove and gear connection.

Through adopting above-mentioned technical scheme, drive gear revolve through transmission assembly, gear revolve drives the slider and slides, and the slider removes and drives the regulation pole and remove, adjusts the pole and removes to drive the regulating block and slide and rotate in the draw-in groove, drives the stabilizer bar and rotates, and then adjusts the position of steadying plate, fixes the position of equipment body.

Optionally, the transmission assembly includes a turbine and a worm, an intermediate rod is disposed between the turbine and the worm, a rotation center of the turbine and a rotation center of the gear are disposed on the same line, the worm and the turbine are engaged, and a bevel gear set for connecting with the worm is disposed on a rotation shaft of the auxiliary plate.

Through adopting above-mentioned technical scheme, the accessory plate rotates and drives gear revolve through turbine and scroll bar, and turbine and scroll bar cooperation have the auto-lock nature, promote the stability after the slider removes, and then promote the stability of steadying plate.

Optionally, a rotating member for adjusting the position of the stabilizing plate is provided on the rotating shaft of the stabilizing plate, and the stabilizing plate rotates in a direction toward the auxiliary plate to abut against the side surface of the stabilizing rod.

Through adopting above-mentioned technical scheme, under the initial condition, rotate the piece and drive the steadying plate and be in the tilt state to the equipment body removes to between the steadying plate, reduces the steadying plate and appears interfering the phenomenon that the equipment body removed, promotes the installation effectiveness.

Optionally, one side interval that the steadying plate deviates from the stabilizer bar is provided with the shock attenuation board, be provided with the shock attenuation piece three that is used for slowing down vibrations between shock attenuation board and the steadying plate, shock attenuation board and equipment body butt.

Through adopting above-mentioned technical scheme, it is fixed to the side butt of equipment body through three pairs of shock attenuation pieces, slows down the vibrations through the transmission of shock attenuation board through three shock attenuation pieces simultaneously.

Optionally, a plurality of rollers are rotatably disposed on one side of the auxiliary plate close to the inside of the mounting groove, and the rollers are uniformly spaced on the auxiliary plate.

Through adopting above-mentioned technical scheme, set up through gyro wheel and equipment body butt, reduce the frictional force between equipment body and the accessory plate to adjust the position of equipment body.

Optionally, a buffer assembly is arranged on the inner wall of one side of the mounting groove corresponding to the auxiliary plate, the buffer assembly comprises a buffer plate and a buffer piece used for buffering vibration, and the buffer plate is abutted to one side of the equipment body, which is far away from the auxiliary plate.

Through adopting above-mentioned technical scheme, set up buffer board and buffer, reduce the vibrations that the equipment body transmitted on the mount table through the steadying plate, promote the stability of equipment during operation.

Optionally, one side of the auxiliary plate, which is away from the mounting groove, is provided with a limiting component for fixing the auxiliary plate, the limiting component comprises a limiting plate and a limiting rod, the limiting plate is provided with two groups, the two groups of limiting plates are respectively arranged on the auxiliary plate and the mounting table, one end of the limiting rod is rotatably arranged between the limiting plates on the mounting table, the other end of the limiting rod is slidably arranged between the limiting plates on the auxiliary plate, a through hole is formed in the side face of the limiting plate on the mounting table in a penetrating manner, a through hole is also formed in the position, corresponding to the through hole, of the limiting rod, and a bolt for fixing the limiting rod is inserted into the through hole.

Through adopting above-mentioned technical scheme, when receiving the accessory plate, the gag lever post rotates to between two sets of limiting plates, then inserts the bolt in the through-hole, restricts the position of gag lever post, and then restricts the position of accessory plate, promotes the stability of accessory plate.

Drawings

Fig. 1 is a schematic structural view of a mounting structure of an industrial apparatus according to an embodiment of the present application.

Fig. 2 is a partially cut-away view of a mounting structure of an industrial apparatus of an embodiment of the present application.

Fig. 3 is another perspective view of a mounting table in the mounting structure of the industrial equipment of the embodiment of the present application.

Fig. 4 is a structural view of an adjusting device in a mounting structure of an industrial apparatus according to an embodiment of the present application.

Fig. 5 is a structural view of a damper plate in a mounting structure of an industrial device according to an embodiment of the present application.

Fig. 6 is a structural view of a position restricting assembly in a mounting structure of an industrial apparatus according to an embodiment of the present application.

Reference numerals: 1. an installation table; 11. mounting grooves; 12. moving the port; 13. a placement groove; 2. an auxiliary plate; 21. a roller; 3. a damping device; 31. a middle plate; 32. placing the plate; 33. a first damping part; 34. a second damping part; 4. a buffer assembly; 41. a buffer plate; 42. a buffer member; 5. a stabilizing assembly; 51. a stabilizer bar; 511. a card slot; 52. a stabilizing plate; 521. a rotating member; 6. an adjustment device; 61. adjusting a rod; 611. an adjusting block; 62. a slider; 63. a gear; 631. an intermediate lever; 64. a transmission assembly; 641. a turbine; 642. a scroll bar; 7. a bevel gear set; 8. a damper plate; 81. a third damping part; 9. a limiting component; 91. a limiting plate; 911. a through hole; 92. a limiting rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The application discloses an industrial equipment's mounting structure. Referring to fig. 1 and 2, the installation structure of the industrial equipment includes an installation platform 1 for placing an equipment body, wherein an installation groove 11 is formed in the installation platform 1, the installation groove 11 is used for placing the equipment body, and the equipment body is placed in the installation groove 11 for installation.

Referring to fig. 2 and 3, in order to facilitate moving the equipment into the installation groove 11, a moving port 12 is formed in one side of the installation table 1, the moving port 12 is communicated with the installation groove 11, an auxiliary plate 2 is arranged on the moving port 12, one side of the auxiliary plate 2 close to the bottom of the installation groove 11 is rotatably arranged on the installation table 1, the side of the auxiliary plate 2 can be rotated to abut against the ground, the auxiliary plate 2 is enabled to be in an inclined state, the equipment is pushed into the installation groove 11 through the auxiliary plate 2, after the equipment body is placed in the installation groove 11, the auxiliary plate 2 is rotated to an initial state, the side of the installation groove 11 is sealed, the equipment body is installed, and the installation efficiency is improved.

Referring to fig. 2 and 3, a plurality of rollers 21 are rotatably disposed on the auxiliary plate 2 at a side close to the inside of the mounting groove 11, and the plurality of rollers 21 are uniformly spaced on the auxiliary plate 2, when the device body is mounted, the auxiliary plate 2 abuts against the bottom of the device body through the rollers 21, and the rollers 21 rotate when the device body moves, so that the friction between the device body and the auxiliary plate 2 is reduced, and the position of the device body is adjusted.

Referring to fig. 2 and 3, a damping device 3 for damping vibration is provided in the installation groove 11, the damping device 3 includes an intermediate plate 31, a placing plate 32, a first damping member 33 and a second damping member 34, the intermediate plate 31 and the placing plate 32 are arranged in the installation groove 11 at intervals in a direction perpendicular to the bottom wall of the installation groove 11, the first damping member 33 is provided between the intermediate plate 31 and the bottom wall of the installation groove 11, the second damping member 34 is provided between the intermediate plate 31 and the placing plate 32, both the first damping member 33 and the second damping member 34 are provided with springs, the intermediate plate 31 is slidably provided in the installation groove 11 in a direction toward the intermediate plate 31, the side surface of the placing plate 32 and the side surface of the installation groove 11 are arranged at intervals, after the apparatus body is moved into the installation groove 11, the apparatus body is supported by the placing plate 32, when the apparatus body vibrates, primary damping is performed by the first damping member 33, and the vibration is transmitted to, the second damping member 34 performs secondary damping on the vibration generated by the intermediate plate 31, and buffers the vibration generated by the device body.

Referring to fig. 2 and 3, a buffer component 4 is arranged on the mounting groove 11 and on the inner wall of one side corresponding to the auxiliary plate 2, the buffer component 4 comprises a buffer plate 41 and a buffer piece 42, the buffer piece 42 can be set to be a spring, the buffer plate 41 and the inner wall of the mounting groove 11 are arranged at intervals, the buffer piece 42 can be set to be a spring, one end of the spring is abutted against the buffer plate 41, the other end of the spring is abutted against the inner wall of the mounting groove 11, after the equipment body is placed in the mounting groove 11, the buffer plate 41 is abutted against the side face of the equipment body, the equipment body is fixed, and meanwhile, the equipment body is slowed down to stably vibrate when being transmitted to the mounting table 1.

Referring to fig. 3 and 4, in order to improve the stability of the device body, stabilizing assemblies 5 are arranged on two inner side walls adjacent to the auxiliary plate 2 in the installation groove 11, each stabilizing assembly 5 comprises a stabilizing rod 51 and a stabilizing plate 52, a placing groove 13 is arranged in the installation platform 1, and the installation groove 11 is communicated with the placing groove 13; stabilizer bar 51's one end rotates in standing groove 13 and sets up, and the other end is connected with stabilizer plate 52, and stabilizer plate 52 rotates the setting on stabilizer bar 51, is provided with adjusting device 6 that is used for adjusting the stabilizer bar 51 position in standing groove 13, places the equipment body in mounting groove 11 after, drives stabilizer bar 51 through adjusting device 6 and rotates, and stabilizer bar 51 drives stabilizer plate 52 and rotates, and the side butt that is until stabilizer plate 52 and the equipment body is fixed the position of equipment body.

Referring to fig. 3 and 4, the adjusting device 6 includes an adjusting lever 61, a slider 62, a gear 63 and a transmission assembly 64, the slider 62 is slidably disposed in the placing groove 13, the slider 62 and the stabilizing lever 51 are disposed in the same plane, the slider 62 is slidably disposed in the placing groove 13 in a direction toward the auxiliary board 2, the adjusting lever 61 is disposed at one end of the slider 62 close to the stabilizing lever 51, a catching groove 511 is disposed on one side of the stabilizing lever 51 close to the adjusting lever 61, and the catching groove 511 is disposed along a length direction of the stabilizing lever 51. Referring to fig. 5, one end of the adjusting rod 61 is connected with the sliding block 62, the other end of the adjusting rod is provided with an adjusting block 611, the adjusting block 611 slides in the slot 511 along the length direction of the slot 511, and rotates in the slot 511, a tooth space is provided along the sliding direction of one side of the sliding block 62 departing from the adjusting rod 61, the gear 63 is arranged in the placing groove 13 and meshed with the tooth space, the transmission component 64 is arranged in the placing groove 13 and connected with the gear 63, the sliding block 62 is driven by the transmission component 64 to move, the sliding block 62 drives the stabilizing rod 51 to rotate by the adjusting rod 61, and then the position of the stabilizing plate 52 is adjusted until the stabilizing plate 52 abuts against the equipment body, and the equipment body.

Referring to fig. 3 and 4, the transmission assembly 64 includes a worm wheel 641 and a worm 642, an intermediate rod 631 is disposed between the worm wheel 641 and the gear 63, a rotation center of the worm wheel 641 and a rotation center of the gear 63 are disposed on the same straight line, the worm 642 is engaged with the worm wheel 641, the worm wheel 641 is driven to rotate by the worm 642, and the gear 63 is driven to rotate so as to adjust a position of the stabilizer bar 51, and meanwhile, the worm wheel 641 and the worm 642 are self-locking in cooperation, so that stability of the stabilizer plate 52 and the apparatus body after cooperation is improved.

Referring to fig. 3 and 4, in order to facilitate simultaneous adjustment of the positions of the two sets of stabilizing plates 52, the rotating shaft of the auxiliary plate 2 is extended into the placing groove 13, the bevel gear set 7 is arranged on the rotating shaft of the auxiliary plate 2, the rotating shaft of the auxiliary plate 2 is connected with the scroll rods 642 through the bevel gear set 7, when the auxiliary plate 2 is rotated to the retracted state, the auxiliary plate is driven by the two scroll rods 642 through the bevel gear set 7, and further the positions of the two stabilizing plates 52 are adjusted simultaneously, after the auxiliary plate 2 is rotated to the retracted state, the stabilizing plates 52 are abutted to the device body simultaneously, and the adjustment efficiency is improved.

Referring to fig. 4 and 5, in order to move the device body between the stabilizing plates 52, a rotating member 521 is provided on the rotating shaft of the stabilizing plate 52, the rotating member 521 may be provided as a torsion spring, one end of the torsion spring is connected to the stabilizing rod 51, the other end is connected to the stabilizing plate 52, the stabilizing plate 52 is driven to rotate in a direction toward the auxiliary plate 2 to abut against the stabilizing rod 51, and the side of the stabilizing plate 52 close to the auxiliary plate 2 in the initial state is inclined in a direction away from the device body, so as to move the device body between the stabilizing plates 52.

Referring to fig. 4 and 5, a damping plate 8 is arranged on one side of the stabilizing plate 52, which is far away from the stabilizing rod 51, at intervals, a damping piece three 81 is arranged between the damping plate 8 and the stabilizing plate 52, the damping piece three 81 can be arranged as a spring, one end of the spring is connected with the damping plate 8, the other end of the spring is connected with the stabilizing plate 52, and the stabilizing plate 52 is abutted against the equipment body through the damping plate 8, so that the vibration transmitted to the stabilizing plate 52 when the equipment body works is reduced.

Referring to fig. 3 and 6, in order to fix the position of the auxiliary plate 2 after the auxiliary plate 2 is closed, a limiting component 9 is arranged on one side of the mounting table 1 close to the auxiliary plate 2, the limiting component 9 comprises two groups of limiting plates 91 and a limiting rod 92, one group of the limiting plates 91 is arranged on the mounting table 1, the other group of the limiting plates is arranged on one side of the auxiliary plate 2 away from the mounting groove 11, the two groups of the limiting plates 91 are arranged on the same straight line along the vertical direction, each group of the limiting plates 91 comprises two limiting plates 91 arranged at intervals, one end of each limiting rod 92 is rotatably arranged between the limiting plates 91 on the mounting table 1, the other end of each limiting rod 92 is slidably arranged between the limiting plates 91 on the auxiliary plate 2, a through hole 911 is formed in the side surface of each limiting plate 91 on the mounting table 1, a through hole 911 is also formed in the position of each limiting rod 92 corresponding to the through hole 911, when the auxiliary plate 2 is rotated to the retracted state, limiting rod 92 rotates to limiting plate 91, and through-hole 911 is corresponding simultaneously, then uses the bolt to insert in through-hole 911, fixes limiting rod 92, and then fixes the position of accessory plate 2.

The implementation principle of the application is as follows: expand accessory plate 2 and incline and place, then pass through accessory plate 2 propelling movement to mounting groove 11 with the equipment body in, simultaneously with equipment body and 41 butts of buffer plate, then rotate accessory plate 2, accessory plate 2 passes through bevel gear 7, turbine 641 and scroll 642 drive gear 63 rotate, gear 63 drives slider 62 and removes, it rotates to drive stabilizer bar 51 through adjusting pole 61, and then drive stabilizer plate 52 and rotate, after accessory plate 2 rotates to the closed condition, stabilizer plate 52 and equipment body butt, fix the equipment body, then use the bolt to insert in through-hole 911, fix accessory plate 2, promote the stability of equipment body during operation simultaneously.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A mounting structure of industrial equipment, includes equipment body and mount table (1) that is used for placing the equipment body, its characterized in that: the mounting structure is characterized in that a mounting groove (11) is formed in the mounting table (1), a damping device (3) used for slowing down vibration of the equipment body is arranged on the bottom wall of the mounting groove (11), a moving opening (12) communicated with the mounting groove (11) is formed in one side of the mounting table (1), an auxiliary plate (2) used for assisting the equipment body to move into the mounting groove (11) is arranged on the moving opening (12) in a rotating mode, stabilizing components (5) used for fixing the equipment body are arranged on two adjacent inner side walls of the mounting groove (11) and the auxiliary plate (2), a placing groove (13) is formed in the mounting table (1), an adjusting device (6) used for operating the stabilizing components (5) is arranged in the placing groove (13), and the rotating shaft of the auxiliary plate (2) extends into the placing groove (13) to be connected with the adjusting device (6).

2. The mounting structure of industrial equipment according to claim 1, wherein: the damping device (3) comprises an intermediate plate (31), a placing plate (32), a first damping piece (33) and a second damping piece (34) for damping, wherein the intermediate plate (31) and the placing plate (32) are arranged in the mounting groove (11) at intervals along the direction perpendicular to the bottom wall of the mounting groove (11), the first damping piece (33) is arranged between the intermediate plate (31) and the mounting groove (11) in an abutting mode, the second damping piece (34) is arranged between the intermediate plate (31) and the placing plate (32), the side face of the intermediate plate (31) and the placing plate (32) are arranged in the mounting groove (11) in a sliding mode in the arrangement direction of the intermediate plate and the placing plate (32), and the equipment body is placed on the placing plate (32).

3. The mounting structure of industrial equipment according to claim 1, wherein: the placing groove (13) is communicated with the mounting groove (11), and the stabilizing assembly (5) comprises a stabilizing rod (51) and a stabilizing plate (52); one end of the stabilizer bar (51) is rotatably arranged in the placing groove (13), the other end of the stabilizer bar is connected with the stabilizer plate (52), one side of the stabilizer plate (52) departing from the stabilizer bar (51) is abutted against the equipment body, and the adjusting device (6) is connected with the stabilizer bar (51).

4. The mounting structure of industrial equipment according to claim 3, wherein: the adjusting device (6) comprises an adjusting rod (61), a sliding block (62), a gear (63) and a transmission assembly (64), the sliding block (62) is arranged in the placing groove (13) in a sliding mode, the sliding block (62) and the stabilizing rod (51) are arranged in the same horizontal plane, and a clamping groove (511) is formed in one side, away from the stabilizing plate (52), of the stabilizing rod (51); one end of the adjusting rod (61) is connected with the sliding block (62), the other end of the adjusting rod is provided with an adjusting block (611), the adjusting block (611) is arranged in the clamping groove (511) in a sliding mode along the length direction of the stabilizing rod (51), the adjusting block (611) is arranged in the clamping groove (511) in a rotating mode, one side, away from the stabilizing rod (51), of the sliding block (62) is provided with a tooth groove, the gear (63) is meshed with the tooth groove, and the transmission assembly (64) is arranged in the placing groove (13) and connected with the gear (63).

5. The mounting structure of industrial equipment according to claim 4, wherein: the transmission assembly (64) comprises a turbine (641) and a worm rod (642), an intermediate rod (631) is arranged between the turbine (641) and the worm rod (642), the rotation center of the turbine (641) and the rotation center of the gear (63) are arranged on the same straight line, the worm rod (642) is meshed with the turbine (641), and a bevel gear set (7) connected with the worm rod (642) is arranged on the rotation shaft of the auxiliary plate (2).

6. The mounting structure of industrial equipment according to claim 5, wherein: a rotating member (521) for adjusting the position of the stabilizing plate (52) is provided on the rotating shaft of the stabilizing plate (52), and the stabilizing plate (52) is rotated in the direction toward the auxiliary plate (2) to abut against the side surface of the stabilizing bar (51).

7. The mounting structure of industrial equipment according to claim 6, wherein: one side interval that stabilizer plate (52) deviate from stabilizer bar (51) is provided with shock attenuation board (8), be provided with between shock attenuation board (8) and the stabilizer plate (52) and be used for slowing down the shock attenuation piece three (81) of vibrations, shock attenuation board (8) and equipment body butt.

8. The mounting structure of industrial equipment according to claim 1, wherein: a plurality of rollers (21) are rotatably arranged on one side of the auxiliary plate (2) close to the interior of the mounting groove (11), and the rollers (21) are uniformly arranged on the auxiliary plate (2) at intervals.

9. The mounting structure of industrial equipment according to claim 8, wherein: be provided with buffering subassembly (4) on mounting groove (11) and one side inner wall that auxiliary plate (2) correspond, buffering subassembly (4) are including buffer board (41) and be used for slowing down bolster (42) of vibrations, one side butt that buffer board (41) and equipment body deviate from auxiliary plate (2).

10. The mounting structure of industrial equipment according to claim 9, wherein: one side that accessory plate (2) deviates from mounting groove (11) is provided with spacing subassembly (9) that are used for fixed accessory plate (2), spacing subassembly (9) are including limiting plate (91) and gag lever post (92), limiting plate (91) are provided with two sets ofly, and are two sets ofly limiting plate (91) set up respectively on accessory plate (2) and mount table (1), rotate between limiting plate (91) on mount table (1) and set up, and the other end slides between limiting plate (91) on accessory plate (2) and sets up, limiting plate (91) side on mount table (1) is run through and has been seted up through-hole (911), through-hole (911) have also been seted up with the position that through-hole (911) correspond on gag lever post (92), the interpolation of through-hole (911) is equipped with the bolt that is used for fixed gag lever post (92).

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