CN215573133U

CN215573133U - Gas-liquid flow meter convenient to fix for thing networking

Info

Publication number: CN215573133U
Application number: CN202122342770.2U
Authority: CN
Inventors: 柏广明; 李密萍
Original assignee: Jiangsu Aoke Instrument Co ltd
Current assignee: Jiangsu Aoke Instrument Co ltd
Priority date: 2021-09-26
Filing date: 2021-09-26
Publication date: 2022-01-18
Anticipated expiration: 2031-09-26

Abstract

The utility model discloses a gas-liquid flowmeter for Internet of things, which comprises a flow tube, a vortex generating body, a vortex frequency detecting element and a signal processing device, wherein the vortex generating body and the vortex frequency detecting element are positioned in the flow tube, the vortex frequency detecting element is connected with the signal processing device, the outer wall of the flow tube, close to the left end part and the right end part of the flow tube, are respectively provided with a clamping sleeve type connector, and the clamping sleeve type connectors are respectively connected on a supporting mechanism which is positioned on the outer wall of the flow tube and can enable the clamping sleeve type connectors to horizontally displace. The product is convenient to butt joint and fasten pipelines, the ferrule type connector cannot fall off from the flow tube, the operation is simple, the occupied space is small, and the problems that the traditional meter connecting mode adopts the occupied space of the connecting flange and the end part of the pipeline needs to be modified are solved.

Description

Gas-liquid flow meter convenient to fix for thing networking

Technical Field

The utility model relates to a flowmeter, in particular to a gas-liquid flowmeter for Internet of things, which is convenient to fix.

Background

At present, the gas-liquid flow meter is widely used for metering management and process control in the industries of textile printing and dyeing, petroleum, chemical industry, metallurgy pharmacy, thermoelectricity, paper making and the like, and the popularization of the internet of things technology brings infinite possibility for intelligent flower metering management and process control. The existing flowmeter is usually installed on a pipeline by adopting flange connection, the flange connection is that two pipelines, pipe fittings or equipment are respectively fixed on a flange plate, then a flange pad is added between the two flange plates, and finally the two flange plates are tightened by bolts to be tightly combined.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the technology, the utility model provides the gas-liquid flow meter for the Internet of things, which is convenient to fix.

In order to solve the technical problems, the utility model adopts the technical scheme that the gas-liquid flowmeter for the internet of things is convenient to fix and comprises a flow tube, a vortex generating body, a vortex frequency detecting element and a signal processing device, wherein the vortex generating body and the vortex frequency detecting element are positioned in the flow tube, the vortex frequency detecting element is connected with the signal processing device, the left end part and the right end part of the outer wall of the flow tube, which are close to the flow tube, are respectively provided with a clamping sleeve type connector, and the clamping sleeve type connectors are respectively connected to a supporting mechanism which is positioned on the outer wall of the flow tube and can enable the clamping sleeve type connectors to horizontally displace.

Furthermore, the supporting mechanism comprises a pore plate and a cross rod, the lower end part of the pore plate is connected with the outer wall of the flow tube, one end of the cross rod is fixed on the pore plate, the other end of the cross rod penetrates through a sleeve hole formed in the outer wall of the ferrule type connector, a nut is connected to the end part of the cross rod, and the rod body setting direction of the cross rod is parallel to the central axis of the flow tube.

Furthermore, the ferrule type connector is at least connected with three supporting mechanisms, the three supporting mechanisms are uniformly distributed in the circumferential direction of the outer wall of the flow pipe, and the three supporting mechanisms are mutually flush at the left and right positions of the outer wall of the flow pipe.

Further, the ferrule type connector comprises a ferrule with an opening to be located on a sealing ring on the inner wall of the ferrule, two end portions of the opening of the ferrule are respectively provided with a nut, a bolt is jointly arranged in the nuts, and the opening of the ferrule is connected through the bolt stretching across the opening.

Furthermore, the signal processing device comprises a signal processor, a display unit and a communication module, the vortex frequency detection element is connected with the signal processor, the signal processor is respectively connected with the communication module and the display unit, and the communication module is connected with an external upper computer and used for receiving and acquiring external data; the communication module is connected with the signal processor simultaneously and is used for transmitting the acquired external data to the signal processor for data processing and receiving the data of the signal processor.

The utility model discloses a gas-liquid flow meter convenient for fixing for Internet of things, which has the advantages that: the utility model discloses a flow tube, including the pipe, the pipe is equipped with the pipe, the pipe is equipped with the pipe.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic block diagram of the structure of the signal processing apparatus of the present invention.

In the figure: 1. a flow tube; 2. a vortex generating body; 3. a vortex frequency detection element; 4. a signal processing device; 5. a ferrule type connector; 6. a support mechanism; 41. a signal processor; 42. a display unit; 43. a communication module; 51. a collar; 52. a seal ring; 53. a nut; 54. a bolt; 61. an orifice plate; 62. a cross bar; 63. and (4) a nut.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The gas-liquid flowmeter for internet of things convenient for fixing as shown in fig. 1 comprises a flow tube 1, a vortex generating body 2, a vortex frequency detecting element 3 and a signal processing device 4, wherein the outer wall of the flow tube 1 and the left end part and the right end part close to the flow tube 1 are respectively provided with a ferrule type connector 5, the ferrule type connector 5 is sleeved outside the outer wall of the flow tube 1, the ferrule type connector 5 comprises a ferrule 51 with an opening to be a sealing ring 52 positioned on the inner wall of the ferrule 51, two end parts at the opening of the ferrule 51 are respectively provided with a nut 53, the nuts 53 are internally and commonly provided with a bolt 54, the bolt 54 can be matched and rotated in the nut 53 at one side end part, the opening of the ferrule 51 is connected through the bolt 54 crossing the opening, the ferrule type connector 5 is used for clamping on the pipeline of the flowmeter to be installed, when in use, the pipeline of the flowmeter to be installed is connected with the flow tube 1, the diameter of the collar 51 is compressed by tightening the bolt 54 at the opening, so that the collar 51 is sleeved at the joint of the pipeline of the flowmeter to be installed and the flow tube 1, and the purpose of clamping is achieved.

The ferrule type connectors 5 are respectively connected to supporting mechanisms 6 which are located on the outer wall of the flow tube 1 and enable the ferrule type connectors 5 to horizontally displace, each supporting mechanism 6 comprises a hole plate 61 and a cross rod 62, the lower end portion of the hole plate 61 is connected with the outer wall of the flow tube 1, one end of the cross rod 62 is fixed on the hole plate 61 in a welding mode, the other end of the cross rod 62 penetrates through a sleeve hole formed in the outer wall of the ferrule type connector 5 and is connected with a nut 63 at the end portion of the cross rod 62, the nut 63 prevents the other end of the cross rod 62 from falling off from the sleeve hole formed in the outer wall of the ferrule type connector 5, the rod body setting direction of the cross rod 62 is parallel to the central axis of the flow tube 1, at least three supporting mechanisms 6 are connected to the ferrule type connector 5, the three supporting mechanisms 6 are uniformly distributed in the circumferential direction of the outer wall of the flow tube 1, the three supporting mechanisms 6 are mutually flush with the left and right positions of the outer wall of the flow tube 1, guarantee that cutting ferrule formula connector 5 can be along the steady left and right sides displacement of direction of horizontal pole 62, when in the cutting ferrule formula connector, convenient and treat pipeline butt joint, fastening work, cutting ferrule formula connector 5 can not drop from flow tube 1 simultaneously, easy operation, occupation space are little, have overcome traditional counter connected mode and have adopted flange occupation space and need repack the problem of pipeline tip.

The vortex generating body 2 and the vortex frequency detecting element 3 of the gas liquid flowmeter are positioned in the flow tube 1, the vortex frequency detecting element 3 is connected with the signal processing device 4, as shown in fig. 2, the signal processing device 4 comprises a signal processor 41, a display unit 42 and a communication module 43, the vortex frequency detecting element 3 is connected with the signal processor 41, the signal processor 41 is respectively connected with the communication module 43 and the display unit 42, and the communication module 43 is connected with an external upper computer for receiving and collecting external data; the communication module is connected with the signal processor 41 and is used for transmitting the acquired external data to the signal processor 41 for data processing and receiving the data of the signal processor 41, so that intelligent tracking and monitoring functions of the internet of things are realized.

The above embodiments are not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art may make variations, modifications, additions or substitutions within the technical scope of the present invention.

Claims

1. The utility model provides a gaseous fluid flowmeter for thing networking convenient to it is fixed, it includes flow tube (1), swirl generating body (2), swirl frequency detecting element (3) and signal processing apparatus (4), and swirl generating body (2) and swirl frequency detecting element (3) are located flow tube (1), and signal processing apparatus (4), its characterized in that are connected to swirl frequency detecting element (3): the flow tube (1) is characterized in that a clamping sleeve type connector (5) is respectively arranged on the outer wall of the flow tube (1) and the left end part and the right end part of the flow tube (1), and the clamping sleeve type connector (5) is respectively connected to a supporting mechanism (6) which is positioned on the outer wall of the flow tube (1) and enables the clamping sleeve type connector (5) to be capable of horizontally displacing.

2. The gas-liquid flow meter for internet of things convenient for fixation of claim 1, wherein: the support mechanism (6) comprises a pore plate (61) and a cross rod (62), the lower end part of the pore plate (61) is connected with the outer wall of the flow tube (1), one end of the cross rod (62) is fixed on the pore plate (61), the other end of the cross rod (62) penetrates through a sleeve hole formed in the outer wall of the ferrule type connector (5) and a nut (63) is connected to the end part of the cross rod (62), and the rod body setting direction of the cross rod (62) is parallel to the central axis of the flow tube (1).

3. The gas-liquid flow meter for internet of things convenient for fixation of claim 2, wherein: the ferrule type connector (5) is at least connected with three supporting mechanisms (6), the three supporting mechanisms (6) are uniformly distributed in the circumferential direction of the outer wall of the flow pipe (1), and the three supporting mechanisms (6) are level with each other at the left and right positions of the outer wall of the flow pipe (1).

4. The gas-liquid flow meter for internet of things convenient for fixation of claim 3, wherein: the ferrule type connector (5) comprises a lantern ring (51) with an opening, a sealing ring (52) is arranged on the inner wall of the lantern ring (51), nuts (53) are respectively arranged at two end parts of the opening of the lantern ring (51), bolts (54) are jointly arranged in the nuts (53), and the opening of the lantern ring (51) is connected through the bolts (54) stretching across the opening.

5. The gas-liquid flow meter for internet of things convenient for fixation of claim 4, wherein: the signal processing device (4) comprises a signal processor (41), a display unit (42) and a communication module (43), the vortex frequency detection element (3) is connected with the signal processor (41), the signal processor (41) is respectively connected with the communication module (43) and the display unit (42), and the communication module (43) is connected with an external upper computer and used for receiving and collecting external data; the communication module is simultaneously connected with the signal processor (41) and used for transmitting the acquired external data to the signal processor (41) for data processing and receiving the data of the signal processor (41).