CN210889911U

CN210889911U - Bradyseism structure and use its booster pump bradyseism system

Info

Publication number: CN210889911U
Application number: CN201921766108.6U
Authority: CN
Inventors: 杨耀球; 白晓峰; 冯永刚
Original assignee: Guangdong Wapu Technology Co Ltd
Current assignee: Guangdong Lingshang Water Purification Technology Co Ltd
Priority date: 2019-10-21
Filing date: 2019-10-21
Publication date: 2020-06-30
Anticipated expiration: 2029-10-21

Abstract

The utility model provides a cushioning structure, its installation is connected between mounting panel and the bradyseism support that is used for bearing electrical equipment, including first bradyseism piece and with connect set up in the second bradyseism piece of first bradyseism piece below, the first bradyseism piece its periphery is provided with and appears cyclic annular first dress groove, the second bradyseism piece its periphery is provided with and appears cyclic annular second dress groove; the shock absorption bracket is provided with a first installation position, and the first shock absorption block is matched and installed in the first installation position through the first installation groove; the mounting plate is provided with a second mounting position, and the second shock absorption block is matched and mounted in the second mounting position through the second mounting groove; through the setting of this bradyseism structure, be formed with corresponding soft contact between the mounting panel that makes its dress connect and the bradyseism support and be connected to make the mounting structure who uses it can improve bradyseism and noise reduction effect effectively.

Description

Bradyseism structure and use its booster pump bradyseism system

Technical Field

The utility model relates to a bradyseism equipment technical field, concretely relates to bradyseism structure and use its booster pump bradyseism system.

Background

At present, in the water purifier industry, a method for fixing a booster pump is to arrange corresponding soft rubber pads on a mounting plate and a mounting bracket, and then to cross-connect with a screw rod and screw down and fix with a nut; however, in the connecting structure, the screw, the nut, the mounting plate and the mounting bracket are in hard contact connection, so that vibration and noise generated during the operation of the booster pump can still be transmitted outwards through the screw and nut part, and the cushioning and noise reduction effects are not ideal.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a cushioning structure and a booster pump cushioning system using the same.

The shock absorption structure is arranged and connected between the mounting plate and a shock absorption bracket for supporting electrical equipment, and comprises a first shock absorption block and a second shock absorption block which is connected and arranged below the first shock absorption block, wherein the periphery of the first shock absorption block is provided with an annular first mounting groove, and the periphery of the second shock absorption block is provided with an annular second mounting groove; the shock absorption bracket is provided with a first installation position, and the first shock absorption block is matched and installed in the first installation position through the first installation groove; the mounting plate is provided with a second mounting position, and the second shock absorption block is matched and mounted in the second mounting position through the second mounting groove.

Furthermore, the first shock absorption block and the second shock absorption block are both sleeve-shaped, a first through hole is formed in the center of the first shock absorption block in a vertically through mode, a second through hole is formed in the center of the second shock absorption block in a vertically through mode, and the first through hole and the second through hole are coaxially arranged; the shock absorption device is characterized by further comprising a cross-connecting screw rod, wherein the cross-connecting screw rod is in cross connection with the first cross-connecting hole and the second cross-connecting hole and is in threaded connection with a nut, so that the first shock absorption block, the second shock absorption block and the shock absorption support and/or the mounting plate are fixed.

Further, the upper end of the cross-connecting screw rod is provided with a supporting portion, the nut is screwed at the lower end position of the cross-connecting screw rod, a first gasket is arranged between the supporting portion and the upper end position of the first shock absorption block, and a second gasket is arranged between the nut and the lower end position of the second shock absorption block.

Furthermore, the outer diameter of the first shock absorption block is smaller than that of the second shock absorption block, and the lower end of the first shock absorption block is supported and contacted with the upper end of the second shock absorption block.

Further, the first installation position comprises an installation groove with an opening, wherein the installation groove is arranged on the periphery side of the cushioning support, and the first installation groove is in clamping fit with the installation groove.

Further, the second mounting portion includes a mounting hole provided vertically through the mounting plate, and the second attaching groove is attached to the mounting hole by interference fit.

Furthermore, the first shock absorption block and/or the second shock absorption block are made of soft rubber.

The cushioning system of the booster pump comprises a mounting plate and a cushioning support, wherein a bearing station for bearing the booster pump is arranged at the central position of the cushioning support, and a plurality of first mounting positions are symmetrically arranged on two sides of the cushioning support; the mounting plate is provided with a plurality of second mounting positions corresponding to the first mounting positions, and the first mounting positions and the second mounting positions are connected through the cushioning structure.

The beneficial effects of the utility model reside in that:

through the setting of this bradyseism structure, be formed with corresponding soft contact between the mounting panel that makes its dress connect and the bradyseism support and be connected to make the mounting structure who uses it can improve bradyseism and noise reduction effect effectively.

Drawings

FIG. 1 is a schematic view of the combination of the cushioning system of the booster pump of the present invention;

FIG. 2 is a schematic view of the installation structure of the shock absorbing structure of the present invention;

FIG. 3 is a schematic view of the combined structure of the first and second shock absorbing blocks of the present invention;

description of reference numerals:

the damping support 1, the supporting station 10, the mounting groove 11, the mounting plate 2, the first damping block 3, the first mounting groove 31, the first through hole 32, the second damping block 4, the second mounting groove 41, the second through hole 42, the through screw 5, the abutting part 51, the nut 61, the first gasket 62 and the second gasket 63.

Detailed Description

In order to make the technical solution, objects and advantages of the present invention more clearly understood, the present invention is further explained with reference to the accompanying drawings and embodiments.

As shown in fig. 1 to 3, the utility model discloses a booster pump cushioning system, which comprises a mounting plate 2 and a cushioning support 1, wherein the cushioning support 1 comprises a supporting station 10 arranged at the center thereof for supporting the booster pump, two groups of first mounting positions are symmetrically arranged on two sides of the cushioning support 1, and at least two first mounting positions are arranged on each group; and second installation positions are arranged on the installation plate 2 corresponding to the first installation positions, and the first installation positions and the second installation positions are connected in a cushioning mode through a cushioning structure.

The shock absorption structure comprises a first shock absorption block 3 and a second shock absorption block 4 which is connected and arranged below the first shock absorption block 3, the outer diameter of the first shock absorption block 3 is smaller than that of the second shock absorption block 4, the lower end of the first shock absorption block 3 is in supporting contact with the upper end of the second shock absorption block 4, and therefore the first shock absorption block 3 is supported more stably; the first shock absorption block 3 and the second shock absorption block 4 are both made of soft rubber.

The first shock absorption block 3 and the second shock absorption block 4 are both sleeve-shaped, a first through hole 32 is formed in the center of the first shock absorption block 3 in a vertically through mode, a second through hole 42 is formed in the center of the second shock absorption block 4 in a vertically through mode, and the first through hole 32 and the second through hole 42 are coaxially arranged; the first shock absorbing block 3 is provided with a first attaching groove 31 in an annular shape at its outer periphery, and the second shock absorbing block 4 is provided with a second attaching groove 41 in an annular shape at its outer periphery.

The cushioning support 1 is provided with a first installation position, the first installation position comprises an installation groove 11 with an opening, the installation groove 11 is arranged on the peripheral side of the cushioning support 1, and the first cushioning block 3 is in clamping fit in the installation groove 11 through the first installation groove 31; the mounting plate 2 is provided with a second mounting position, the second mounting position comprises a mounting hole which is vertically arranged on the mounting plate 2 in a penetrating way, and the second shock absorption block 4 is mounted in the mounting hole in an interference fit mode through the second mounting groove 41.

For the mounting part of the shock absorption bracket or the mounting part of the shock absorption bracket which needs to be frequently replaced and adjusted, the first mounting groove 31 clamped on the mounting part is convenient to disassemble and assemble through the side opening arrangement of the mounting groove 11 of the first mounting position and the soft rubber characteristic of the first shock absorption block, so that the assembly efficiency is improved; and the mounting part of the mounting plate 2 which is not required to be frequently replaced and adjusted is provided with a mounting hole, so that the second shock absorption block is assembled in an interference fit manner, and the application requirement of stable assembly is met.

The shock absorber further comprises a cross-connecting screw rod 5, the upper end of the cross-connecting screw rod 5 is provided with an abutting part 51, the cross-connecting screw rod 5 is in cross connection with the first cross-connecting hole 32 and the second cross-connecting hole 42 to form connection of the first shock absorption block and the second shock absorption block, and a first gasket 62 is arranged between the abutting part 51 and the upper end of the first shock absorption block 3; the lower end of the cross-connecting screw rod 5 is in threaded connection with a nut 61, and a second gasket 63 is arranged between the nut 61 and the lower end of the second shock absorption block 4; the first gasket 62 and the second gasket 63 are made of metal.

The buffering support arranged on the first mounting groove 11 and the mounting plate 2 arranged on the second mounting groove 11 are fixedly connected to the first buffering block 3 and the second buffering block 4 in a soft contact manner by screwing the nuts 61, so that the buffering application requirement is met.

The above is only the preferred embodiment of the present invention, and to the technical personnel in the technical field, without departing from the present invention, the embodiment can still be modified, and the corresponding modification should also be regarded as the protection scope of the present invention.

Claims

1. The shock absorption structure is arranged and connected between the mounting plate and a shock absorption bracket for supporting electrical equipment, and is characterized by comprising a first shock absorption block and a second shock absorption block which is connected and arranged below the first shock absorption block, wherein the periphery of the first shock absorption block is provided with an annular first mounting groove, and the periphery of the second shock absorption block is provided with an annular second mounting groove; the shock absorption bracket is provided with a first installation position, and the first shock absorption block is matched and installed in the first installation position through the first installation groove; the mounting plate is provided with a second mounting position, and the second shock absorption block is matched and mounted in the second mounting position through the second mounting groove.

2. The cushioning structure of claim 1, wherein the first cushioning block and the second cushioning block are both sleeve-shaped, a first through hole is vertically formed in the center of the first cushioning block, a second through hole is vertically formed in the center of the second cushioning block, and the first through hole and the second through hole are coaxially arranged; the shock absorption device is characterized by further comprising a cross-connecting screw rod, wherein the cross-connecting screw rod is in cross connection with the first cross-connecting hole and the second cross-connecting hole and is in threaded connection with a nut, so that the first shock absorption block, the second shock absorption block and the shock absorption support and/or the mounting plate are fixed.

3. The seismic isolation structure of claim 2, wherein an abutting portion is arranged at the upper end of the cross-connecting screw rod, the nut is screwed at the lower end position of the cross-connecting screw rod, a first gasket is arranged between the abutting portion and the upper end position of the first seismic isolation block, and a second gasket is arranged between the nut and the lower end position of the second seismic isolation block.

4. The seismic structure of claim 2, wherein the first seismic mass has an outer diameter less than the outer diameter of the second seismic mass, and wherein the lower end of the first seismic mass is supported in contact with the upper end of the second seismic mass.

5. The cushioning structure of claim 1, wherein the first mounting location comprises an open mounting slot disposed about the periphery of the cushioning frame, the first mounting slot snap-fitting into the mounting slot.

6. The cushioning structure of claim 1, wherein said second attachment location comprises an attachment hole disposed vertically through said mounting plate, said second attachment slot being attached in said attachment hole by interference fit.

7. The seismic structure of claim 1, wherein the first seismic mass and/or the second seismic mass is made of soft rubber.

8. The booster pump cushioning system is characterized by comprising a mounting plate and a cushioning support, wherein a bearing station for bearing the booster pump is arranged at the central position of the cushioning support, and a plurality of first mounting positions are symmetrically arranged on two sides of the cushioning support; a plurality of second installation positions are arranged on the installation plate corresponding to the first installation positions, and the first installation positions and the second installation positions are connected through the cushioning structure of any one of claims 1 to 7.