CN212701364U - Novel disc tube type reverse osmosis equipment high-pressure pump shock-absorbing structure - Google Patents

Abstract

The utility model discloses a novel disc tube type reverse osmosis equipment high-pressure pump damping structure, which comprises a skid-mounted base, a high-pressure pump and a high-pressure pump mounting rack, wherein the high-pressure pump is fixedly mounted on the high-pressure pump mounting rack; the skid-mounted base comprises frame rods, an upper beam rod, a lower beam rod, a connecting block and longitudinal supporting rods, wherein the frame rods, the upper beam rod, the lower beam rod, the connecting block and the longitudinal supporting rods are arranged on two sides of the skid-mounted base. Compared with the base frame of the existing dish tube type reverse osmosis equipment, the skid-mounted base with the double-layer beam structure has higher bearing capacity, stronger torsion resistance, novel structure and lighter overall weight; the double-layer cross beam leveling design of the base improves the shock absorption capacity of the equipment in the operation process; the utility model discloses increase the shock pad in high-pressure pump mounting bracket bottom to fix it on the base: the shock pad has been in the within range of high-pressure pump mounting bracket with the effectual control of vibration of high-pressure pump, and the vibration that conducts out through the shock pad has been very limited, utilizes the shock-absorbing capacity dispersion surplus vibration of base itself to reach the effect that reduces equipment vibration itself.

Description

Novel disc tube type reverse osmosis equipment high-pressure pump shock-absorbing structure

Technical Field

The utility model relates to a dish tubular reverse osmosis equipment field especially relates to a novel dish tubular reverse osmosis equipment high-pressure pump shock-absorbing structure.

Background

In the operation process of the existing high-pressure pump, the vibration is large, nearby pipelines can be driven to vibrate, and nearby instruments are easy to damage. And some great dish tubular reverse osmosis unit of scale, length is very long, weight is very big, as shown in figure 1, current dish tubular reverse osmosis unit high-pressure pump structure includes base 1, high-pressure pump connecting seat 2, high-pressure pump mounting bracket 3 and high-pressure pump 4, the high-pressure pump is fixed in the high-pressure pump connecting seat through the high-pressure pump mounting bracket, the high-pressure pump connecting seat is two connecting rods, the crossbearer is on the base, the base is by the frame pole at both ends, whole base is constituteed to horizontal branch and vertical branch between the frame pole, two connecting rods pass through the bolt crossbearer on the base with vertical branch and frame pole fixed connection on the base.

The base of the high-pressure pump structure of the disc tube type reverse osmosis equipment is of a single-layer structure, the anti-seismic and pressure-bearing capacity is limited, and after the high-pressure pump vibrates on the base, the high-pressure pump is easy to deform, bend and even break and is inconvenient to hoist. Meanwhile, effective shock absorption is lacked between the high-pressure pump and the base, the high-pressure pump vibrates greatly when being opened, the noise is high, the bolt part is easy to loosen and cause larger vibration, and the damage to equipment is large.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model designs a novel dish tubular reverse osmosis equipment high-pressure pump shock-absorbing structure.

The utility model adopts the following technical scheme:

the utility model provides a novel dish tubular reverse osmosis equipment high-pressure pump shock-absorbing structure, including sled dress base, high-pressure pump and high-pressure pump mounting bracket, high-pressure pump fixed mounting is on high-pressure pump mounting bracket, sled dress base includes the frame pole of both sides, the entablature pole, the bottom end rail, connecting block and vertical branch, entablature pole and bottom end rail cross frame are between the frame pole of both sides, the up end of entablature pole and the bottom end face of bottom end rail keep level with the frame pole up and down end face of both sides respectively, support through connecting block fixed connection between crossbeam pole and bottom end rail, be connected with multirow vertical branch between the entablature pole, fixedly connected with stiffener between vertical branch, stiffener up end keeps level with the frame pole, respectively fixedly connected with shock pad on stiffener and the frame pole, the stabilizer blade bottom of the fixed connection high-pressure pump mounting bracket of shock pad.

Preferably, an accumulator is added at the rear end of the high-pressure pump.

Preferably, the inlet and the outlet of the high-pressure pump are connected by a high-pressure hose.

Preferably, the outer sides of the frame rods on the two sides are fixedly connected with lifting lugs respectively.

Preferably, the reinforcing connecting rod is a solid connecting rod.

The utility model has the advantages that: (1) compared with the base frame of the existing dish tube type reverse osmosis equipment, the skid-mounted base with the double-layer beam structure has higher bearing capacity, stronger torsion resistance, novel structure and lighter overall weight; the double-layer cross beam leveling design of the base improves the shock absorption capacity of the equipment in the operation process; (2) the utility model discloses increase the shock pad in high-pressure pump mounting bracket bottom to fix it on the base: the vibration of the high-pressure pump is effectively controlled within the range of the high-pressure pump mounting frame by the shock pad, the vibration conducted out by the shock pad is very limited, and the residual vibration is dispersed by utilizing the shock absorption capacity of the base so as to achieve the effect of reducing the vibration of the equipment; (3) the utility model discloses increase the energy storage ware behind the high-pressure pump: the pressure output of the high-pressure pump is more stable, so that the vibration of the high-pressure pump is reduced; (4) the utility model discloses import and export at the high-pressure pump and adopt the high-pressure hose to connect, utilize the flexible buffering high-pressure pump's of hose vibration output to reduce the harm to near pipeline and instrument.

Drawings

FIG. 1 is a schematic diagram of a high-pressure pump structure of a conventional disc-tube type reverse osmosis device;

fig. 2 is a schematic structural view of the present invention;

in fig. 1: 1. base, 2, high-pressure pump connecting seat, 3, high-pressure pump mounting bracket, 4, high-pressure pump.

In fig. 2: 1. skid-mounted base, 2, shock pad, 3, high-pressure hose, 4, energy storage ware, 5, high-pressure pump mounting bracket, 6, reinforcing connecting rod, 7, lug, 8, entablature pole, 9, bottom end rail pole, 10, connecting block, 11, vertical branch, 12, high-pressure pump.

Detailed Description

The technical solution of the present invention is further described in detail by the following specific embodiments in combination with the accompanying drawings:

example (b): as shown in figure 2, the novel disc tube type reverse osmosis equipment high-pressure pump damping structure comprises a skid-mounted base 1, a high-pressure pump 12 and a high-pressure pump mounting frame 5, wherein the high-pressure pump is fixedly mounted on the high-pressure pump mounting frame, the skid-mounted base comprises frame rods and an upper cross beam rod 8 on two sides, lower beam pole 9, connecting block 10 and longitudinal strut 11, entablature pole and lower beam pole horizontal frame are between the frame pole of both sides, the up end of entablature pole and the lower terminal surface of lower beam pole keep equal with the frame pole up and down terminal surface of both sides respectively, support through connecting block fixed connection between crossbeam pole and lower beam pole, be connected with multirow longitudinal strut between the entablature pole, fixedly connected with strengthening link 6 between longitudinal strut, the strengthening link up end keeps equal with the frame pole, respectively fixedly connected with shock pad 2 on strengthening link and the frame pole, the stabilizer blade bottom of shock pad upper end fixed connection high-pressure pump mounting bracket. An energy accumulator 4 is added at the rear end of the high-pressure pump. The inlet and outlet of the high-pressure pump are connected by a high-pressure hose 3. The outer sides of the frame rods on the two sides are respectively fixedly connected with lifting lugs 7. The reinforcing connecting rod is a solid connecting rod.

Compared with the base frame of the existing dish tube type reverse osmosis equipment, the skid-mounted base with the double-layer beam structure has higher bearing capacity, stronger torsion resistance, novel structure and lighter overall weight; the double-layer cross beam leveling design of the base improves the shock absorption capacity of the equipment in the operation process; the utility model discloses increase the shock pad in high-pressure pump mounting bracket bottom to fix it on the base: the vibration of the high-pressure pump is effectively controlled within the range of the high-pressure pump mounting frame by the shock pad, the vibration conducted out by the shock pad is very limited, and the residual vibration is dispersed by utilizing the shock absorption capacity of the base so as to achieve the effect of reducing the vibration of the equipment; the utility model discloses increase the energy storage ware behind the high-pressure pump: the pressure output of the high-pressure pump is more stable, so that the vibration of the high-pressure pump is reduced; the utility model discloses import and export at the high-pressure pump and adopt the high-pressure hose to connect, utilize the vibration output of the flexible buffering high-pressure pump of hose to reduce the harm to near pipeline and instrument.

The above-described embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention in any way, and other variations and modifications may be made without departing from the scope of the claims.

Claims (5)

1. The utility model provides a novel dish tubular reverse osmosis equipment high-pressure pump shock-absorbing structure, including sled dress base, high-pressure pump and high-pressure pump mounting bracket, high-pressure pump fixed mounting is on high-pressure pump mounting bracket, characterized by, sled dress base includes the frame pole, entablature pole, bottom end rail, connecting block and the vertical branch pole of both sides, entablature pole and bottom end rail horizontal frame are between the frame pole of both sides, the up end of entablature pole and the lower terminal surface of bottom end rail keep level with the frame pole of both sides about the terminal surface respectively, support through connecting block fixed connection between crossbeam pole and the bottom end rail, be connected with multirow vertical branch pole between the entablature pole, fixedly connected with stiffener between vertical branch pole, stiffener up end and frame pole keep level, on stiffener and the frame pole respectively fixedly connected with shock pad, the stabilizer blade bottom of shock pad fixed connection high-pressure pump mounting bracket.

2. The novel damping structure for the high-pressure pump of the disc-tube type reverse osmosis equipment as claimed in claim 1, wherein an accumulator is added at the rear end of the high-pressure pump.

3. The novel damping structure for the high-pressure pump of the disc-tube type reverse osmosis equipment as claimed in claim 1, wherein the inlet and the outlet of the high-pressure pump are connected by a high-pressure hose.

4. The novel damping structure for the high-pressure pump of the disc-tube type reverse osmosis equipment as claimed in claim 1, wherein lifting lugs are fixedly connected to the outer sides of the frame rods on the two sides respectively.

5. The novel damping structure for the high-pressure pump of the disc-tube type reverse osmosis equipment as claimed in claim 1, wherein the reinforcing connecting rod is a solid connecting rod.

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