Search

CN-224214873-U - Micro-water density transmitter

CN224214873UCN 224214873 UCN224214873 UCN 224214873UCN-224214873-U

Abstract

The utility model discloses a micro-water density transmitter, and relates to the technical field of transmitters. The utility model comprises a pipeline, wherein a transmitter body is arranged above the pipeline, and the utility model further comprises a mounting mechanism which is arranged outside the transmitter body and is used for mounting and connecting the transmitter body and the pipeline, and the mounting mechanism comprises a clamping assembly used for reinforcing and connecting the transmitter body and the pipeline. According to the utility model, the clamping assembly is arranged, the supporting frame is shifted to be parallel to the pipeline, the knob is rotated clockwise to drive the bidirectional threaded rod to rotate, the bidirectional threaded rod rotates to drive the two arc clamping plates to be close to each other through the two moving blocks, the pipeline is clamped and fixed when the two arc clamping plates are close to each other, the anti-skid convex blocks increase friction force to improve the clamping effect, the supporting frame drives the transmitter body to slightly approach the pipeline, the installation and reinforcement of the transmitter body and the pipeline are realized, the looseness or displacement of the transmitter body is prevented, and the firm using effect of the lifting device is improved.

Inventors

  • JIANG ZHIJIE
  • TANG XINLEI
  • ZHOU WENHAO
  • ZHENG ZIHAN

Assignees

  • 江苏海立普电力科技有限公司

Dates

Publication Date
20260508
Application Date
20250722

Claims (7)

  1. 1. Micro-water density transmitter, including pipeline (111), pipeline (111) top is provided with transmitter body (112), its characterized in that still includes: The installation mechanism (2) is arranged outside the transmitter body (112), and the installation mechanism (2) is used for installing and connecting the transmitter body (112) and the pipeline (111); The mounting mechanism (2) comprises clamping assemblies (22) used for reinforcing and connecting a transmitter body (112) with a pipeline (111), the number of the clamping assemblies (22) is two, the two groups of the clamping assemblies (22) contain identical parts, and the clamping assemblies (22) located on the right side comprise arc clamping plates (221).
  2. 2. The micro water density transmitter according to claim 1, wherein a connecting pipe (113) is welded on the top of the pipeline (111), the outer surface of the bottom of the transmitter body (112) is in threaded connection with the inner wall of the connecting pipe (113), and a sleeve (114) for supporting is welded on the bottom of the transmitter body (112).
  3. 3. The micro water density transmitter of claim 1, wherein the mounting mechanism (2) further comprises: The supporting component (21) is connected with the transmitter body (112), the supporting component (21) is used for supporting and limiting the clamping component (22), and The sealing assembly (23), sealing assembly (23) and changer body (112) butt, sealing assembly (23) are used for sealing the junction of changer body (112) and connecting pipe (113).
  4. 4. A micro water density transmitter according to claim 3, wherein the supporting component (21) comprises a supporting frame (211), an inner ring of the supporting frame (211) is rotationally connected with a limit sliding rail (212), an inner wall of the limit sliding rail (212) is welded with an outer surface of the transmitter body (112), fixing plates (214) are welded at four corners of the bottom of the supporting frame (211), and limit sliding grooves (213) are formed in the left side and the right side of the bottom of the supporting frame (211).
  5. 5. The micro water density transmitter according to claim 1, wherein the number of the arc clamping plates (221) is two, a plurality of anti-slip bumps (222) are mounted on the corresponding sides of the two arc clamping plates (221), and the sides of the plurality of anti-slip bumps (222) away from the arc clamping plates (221) are in contact with the outer surface of the pipeline (111).
  6. 6. The micro water density transmitter according to claim 5, wherein the tops of the two arc clamping plates (221) are welded with moving blocks (225), one side, far away from the arc clamping plates (221), of each moving block (225) is in sliding connection with the inside of the limiting chute (213), two inner threads of each moving block (225) are connected with two-way threaded rods (224), the outer surfaces of the two-way threaded rods (224) are in rotational connection with the inside of the two right fixing plates (214), the two-way threaded rods (224) penetrate through the front fixing plates (214) and extend to the front, and knobs (223) are welded on the front surfaces of the two-way threaded rods (224); The inside of the limiting chute (213) is matched with the top of the moving block (225).
  7. 7. A micro water density transmitter according to claim 3, wherein the sealing assembly (23) comprises a sealing rubber ring (231), the inner ring of the sealing rubber ring (231) is in contact with the outer surface of the connecting pipe (113), a mounting frame (232) is mounted on the outer ring of the sealing rubber ring (231), the mounting frame (232) is sleeved outside the sleeve (114), and the mounting frame (232) is connected with the sleeve (114) through a plurality of mounting bolts (233); Wherein the mounting frame (232) is arranged in a concave mode.

Description

Micro-water density transmitter Technical Field The utility model belongs to the technical field of transmitters, and particularly relates to a micro-water density transmitter. Background In industrial production and in numerous fields involving fluid monitoring, micro-water density transmitters play a vital role, and can accurately monitor and feed back micro-water density of a medium in a pipeline in real time, so as to provide key data support for control, quality control and safe operation of equipment in the production process. However, in the actual installation and use process of the existing micro water density transmitter, some technical problems to be solved are often faced, and the problems affect the measurement accuracy, stability and service life of the transmitter to a great extent, so that the full play of the performance of the transmitter is limited. When the traditional micro-water density transmitter is installed on a pipeline, a simpler connection mode is generally adopted, such as direct threaded connection or flange connection, and the like, and in the long-term use process of the connection mode, due to the influence of various factors such as medium pressure fluctuation, temperature change, equipment vibration and the like in the pipeline, the connection between the transmitter body and the pipeline is easy to loosen or displace, for example, under the condition that effective reinforcing measures are not available, long-term pressure impact can enable the transmitter body to gradually deviate from an original installation position, so that the sealing performance between the transmitter body and a pipeline connecting pipe is reduced, medium leakage can be caused, resource waste and potential safety hazards are caused, external impurities can enter the transmitter to influence the measurement accuracy of the transmitter, even the transmitter is possibly damaged, normal operation cannot be realized, the reliability and stability of the device are seriously influenced, and the micro-water density transmitter is provided. Disclosure of utility model The utility model aims to provide a micro-water density transmitter, through arranging a clamping component, particularly, a stirring support frame is parallel to a pipeline, an operator rotates a knob clockwise to drive a bidirectional threaded rod to rotate, the bidirectional threaded rod rotates to drive two arc clamping plates to be close to each other through two moving blocks, the two arc clamping plates are clamped and fixed to the pipeline when being close to each other, friction force is increased to improve clamping effect by anti-slip convex blocks, and when the arc clamping plates clamp the pipeline, the support frame drives the transmitter body to be slightly close to the pipeline, so that the mounting and reinforcement of the transmitter body and the pipeline are realized, the problem that the traditional micro-water density transmitter is normally connected by adopting a simpler connection mode, such as direct threaded connection or flange connection, and the like, is easy to cause looseness or displacement of the connection between the transmitter body and the pipeline due to the influence of various factors such as medium pressure fluctuation, temperature change, equipment vibration and the like in the pipeline in the long-term use process is solved, for example, under the condition that no effective reinforcement measures are available, the long-term pressure impact can gradually separate the transmitter body from the original mounting position, the sealing performance between the transmitter body and the pipeline is reduced, the transmitter body and the pipeline can not cause leakage and medium, the problem that the transmitter is seriously damaged, and the safety and the stability can not be influenced, and the quality of the transmitter can not be normally measured. In order to solve the technical problems, the utility model is realized by the following technical scheme: The utility model relates to a micro water density transmitter, which comprises a pipeline, wherein a transmitter body is arranged above the pipeline, and the micro water density transmitter further comprises: The mounting mechanism is arranged outside the transmitter body and is used for mounting and connecting the transmitter body with the pipeline; The installation mechanism comprises clamping assemblies used for reinforcing and connecting the transmitter body and the pipeline, the number of the clamping assemblies is two, the parts contained in the clamping assemblies are identical, and the clamping assemblies located on the right side comprise arc clamping plates. Further, the connecting pipe is welded at the top of the pipeline, the outer surface of the bottom of the transmitter body is in threaded connection with the inner wall of the connecting pipe, and the sleeve for supporting is welded at the bottom of the transmitter body. Further, the moun