CN216668833U - Novel intelligent flow sensor - Google Patents

Novel intelligent flow sensor Download PDF

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Publication number
CN216668833U
CN216668833U CN202220219094.1U CN202220219094U CN216668833U CN 216668833 U CN216668833 U CN 216668833U CN 202220219094 U CN202220219094 U CN 202220219094U CN 216668833 U CN216668833 U CN 216668833U
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cavity
signal acquisition
quick plug
connecting cavity
flow sensor
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CN202220219094.1U
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Chinese (zh)
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李洪元
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Langfang Jinzhuang Machinery Equipment Co ltd
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Langfang Jinzhuang Machinery Equipment Co ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A20/00Water conservation; Efficient water supply; Efficient water use

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Abstract

The utility model discloses a novel intelligent flow sensor which comprises a shell, impellers, a signal acquisition quick plug, a water inlet quick plug and a water outlet quick plug, wherein a signal acquisition cavity is arranged in the middle of the shell, an electromagnetic flow meter is arranged in the signal acquisition cavity, a first connecting cavity is arranged on one side of the upper part of the signal acquisition cavity, one end of the first connecting cavity is communicated with the signal acquisition cavity, a first internal thread is arranged at the other end of the first connecting cavity, an installation cavity is arranged on the lower side of the signal acquisition cavity, two ends of the installation cavity are respectively connected with a second connecting cavity and a third connecting cavity in a penetrating manner, second internal threads are arranged on the inner sides of the second connecting cavity and the third connecting cavity, supports are arranged at the joints of the second connecting cavity, the third connecting cavity and the installation cavity, a connecting shaft is arranged between the two supports, and the impellers positioned on the lower side of the signal acquisition cavity are arranged in the middle of the connecting shaft. The novel intelligent flow sensor adopting the structure is small in size, saves space, can be quickly mounted and dismounted, and saves time.

Description

Novel intelligent flow sensor
Technical Field
The utility model relates to the technical field of flow sensors, in particular to a novel intelligent flow sensor.
Background
Mine mining often needs to use some large-scale equipment, and the normal operating of these equipment usually needs the water, because the mine is mostly remote, can't long distance transfer water, often need handle near the mine water and provide large-scale equipment again, and need carry out flow monitoring to rivers with flow sensor in the work progress, and traditional flow sensor has bulky, the problem of installation difficulty.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a novel intelligent flow sensor which is small in size, saves space, can be quickly installed and disassembled, and saves time.
In order to achieve the purpose, the utility model provides a novel intelligent flow sensor, which comprises a shell, an impeller, a signal acquisition quick plug, a water inlet quick plug and a water outlet quick plug, wherein the middle part of the shell is provided with a signal acquisition cavity, an electromagnetic flow meter is arranged in the signal acquisition cavity, one side of the upper part of the signal acquisition cavity is provided with a first connecting cavity, one end of the first connecting cavity is communicated with the signal acquisition cavity, the other end of the first connecting cavity is provided with a first internal thread, the lower side of the signal acquisition cavity is provided with an installation cavity, two ends of the installation cavity are respectively communicated with a second connecting cavity and a third connecting cavity, the inner sides of the second connecting cavity and the third connecting cavity are respectively provided with a second internal thread, the joints of the second connecting cavity, the third connecting cavity and the installation cavity are respectively provided with a bracket, a connecting shaft is arranged between the two brackets, the middle part of the connecting shaft is provided with an impeller positioned on the lower side of the signal acquisition cavity;
the quick plug of signal acquisition the quick plug of intaking the cross section of the quick plug of play water is hourglass hopper-shaped, the thin end outside of leaking hopper-shaped is equipped with the external screw thread, the wide end inboard that leaks hopper-shaped is equipped with the grafting chamber, the quick plug of signal acquisition with first connection chamber is connected, the quick plug of intaking with the second connection chamber is connected, the quick plug of play water with the third connection chamber is connected.
Preferably, the signal acquisition cavity is connected with the first connection cavity in a mutually perpendicular manner, the signal acquisition cavity is vertically arranged in the middle of the shell, and the first connection cavity is horizontally arranged on one side of the signal acquisition cavity.
Preferably, the installation cavity is horizontally arranged at the lower side of the signal acquisition cavity, and the installation cavity and the first connection cavity are arranged in parallel.
Preferably, the inside of the inserting cavity is provided with a sealing ring.
Therefore, the novel intelligent flow sensor adopting the structure is small in size, saves space, can be quickly installed and disassembled, and saves time.
The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.
Drawings
Fig. 1 is a schematic diagram of an embodiment of a novel intelligent flow sensor of the present invention.
Reference numerals:
1. a housing; 2. an impeller; 3. a signal acquisition quick plug; 4. a water inlet quick plug; 5. a water outlet quick plug; 6. a signal acquisition cavity; 7. a first internal thread; 8. a first connection chamber; 9. a mounting cavity; 10. a second connection chamber; 11. a third connecting cavity; 12. a support; 13. a connecting shaft; 14. a second internal thread; 15. an insertion cavity; 16. and (5) sealing rings.
Detailed Description
The technical solution of the present invention is further illustrated by the accompanying drawings and examples.
Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the present application do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.
Examples
Fig. 1 is a schematic diagram of an embodiment of a novel intelligent flow sensor, and as shown in the figure, the utility model provides a novel intelligent flow sensor, which comprises a shell 1, an impeller 2, a signal acquisition quick plug 3, a water inlet quick plug 4 and a water outlet quick plug 5, wherein a signal acquisition cavity 6 is arranged in the middle of the shell 1, an electromagnetic flowmeter is arranged in the signal acquisition cavity 6, and the electromagnetic flowmeter detects the flow of water flow through electromagnetic induction. One side of the upper portion of the signal acquisition cavity 6 is provided with a first connection cavity 8, one end of the first connection cavity 8 is communicated with the signal acquisition cavity 6, the other end of the first connection cavity 8 is provided with a first internal thread 7, the lower side of the signal acquisition cavity 6 is provided with an installation cavity 9, two ends of the installation cavity 9 are respectively connected with a second connection cavity 10 and a third connection cavity 11 in a penetrating manner, the second connection cavity 10 and the third connection cavity 11 are respectively provided with a second internal thread 14, the second connection cavity 10 and the connection position of the third connection cavity 11 and the installation cavity 9 are respectively provided with a support 12, a connection shaft 13 is arranged between the two supports 12, the middle portion of the connection shaft 13 is provided with an impeller 2 located on the lower side of the signal acquisition cavity 6, two sides of the impeller 2 are rotatably connected with the connection shaft 13 through a pin shaft, and the impeller 2 can rotate under the action of water flow.
The cross section of the signal acquisition quick plug 3, the water inlet quick plug 4 and the water outlet quick plug 5 is funnel-shaped, the outer side of the funnel-shaped thin end is provided with external threads, the inner side of the funnel-shaped wide end is provided with a plug cavity 15, the plug cavity 15 is provided with a larger inner diameter due to the funnel-shaped structure, the plug cavity is conveniently connected with an external component in a plug manner, the inside of the plug cavity 15 is provided with a sealing ring 16, and the sealing performance of the joint is improved. Be equipped with the signal acquisition core of being connected with the electromagnetic flowmeter in the fast plug 3 of signal acquisition, signal acquisition fast plug 3 passes through threaded connection with first connection chamber 8, can realize quick installation and dismantlement to be convenient for maintain and change the signal acquisition core, facilitate the use, the electromagnetic flowmeter transmits the flow data who detects for the signal acquisition core, then the signal acquisition core shows data transmission for the treater again, obtains the flow data of water.
The fast plug 4 of intaking passes through threaded connection with second connecting chamber 10, goes out fast plug 5 of water and third connecting chamber 11 and passes through threaded connection, and the fast plug 4 of intaking passes through the clamp with outside inlet tube and is connected, goes out fast plug 5 of water and passes through the clamp with outside outlet pipe to make rivers enter into installation cavity 9 through the inlet tube and discharge from the outlet pipe behind impeller 2. The fast plug 4 of intaking passes through the screw with the fast plug 5 of play water and is connected with second connecting chamber 10 and third connecting chamber 11 respectively, realizes quick installation, saves time.
The signal acquisition chamber 6 is connected with 8 mutually perpendicular in first connection chamber, the vertical setting in the middle part of casing 1 in signal acquisition chamber 6, 8 levels in first connection chamber set up the one side in signal acquisition chamber 6, install the electromagnetic flowmeter in signal acquisition chamber 6, install the signal acquisition core in 8 departments of first connection chamber, pass through the mode of signal acquisition chamber 6 and 8 mutually perpendicular in first connection chamber promptly, set up signal acquisition core and electromagnetic flowmeter mutually perpendicular, change its mode of installing on same straight line, great reduction sensor holistic volume, be convenient for carry the sensor, the installation and the dismantlement of completion sensor that can relax. The installation cavity 9 level sets up the downside at signal acquisition chamber 6, and installation cavity 9 sets up with first connecting chamber 8 parallel to each other, and the electromagnetic flowmeter of being convenient for detects the flow of rivers, has also saved the space simultaneously.
The specific working process is as follows: the signal acquisition core is connected with the first connecting cavity through the signal acquisition quick plug, the water inlet pipe is connected with the second connecting cavity through the water inlet quick plug, the water outlet pipe is connected with the third connecting cavity through the water outlet quick plug, water flow is discharged from the water outlet pipe after entering the installation cavity through the water inlet pipe and passing through the impeller, the electromagnetic flowmeter detects the flow of the water flow through electromagnetic induction, then the detected flow data is transmitted to the signal acquisition core, the signal acquisition core transmits the data to the processor for display, the flow data of the water flow is obtained, the signal acquisition quick plug, the water inlet quick plug is connected with the water outlet quick plug through threads, quick installation and disassembly can be realized, and the installation time is saved.
Therefore, the novel intelligent flow sensor adopting the structure is small in size, saves space, can be quickly installed and disassembled, and saves time.

Claims (4)

1. The utility model provides a novel intelligence flow sensor which characterized in that: comprises a shell, an impeller, a signal acquisition quick plug, a water inlet quick plug and a water outlet quick plug, wherein the middle part of the shell is provided with a signal acquisition cavity, an electromagnetic flowmeter is arranged in the signal acquisition cavity, a first connecting cavity is arranged at one side of the upper part of the signal acquisition cavity, one end of the first connecting cavity is communicated with the signal acquisition cavity, the other end of the first connecting cavity is provided with a first internal thread, the lower side of the signal acquisition cavity is provided with a mounting cavity, two ends of the mounting cavity are respectively connected with the second connecting cavity and the third connecting cavity in a penetrating way, second internal threads are arranged on the inner sides of the second connecting cavity and the third connecting cavity, brackets are arranged at the joints of the second connecting cavity, the third connecting cavity and the mounting cavity, a connecting shaft is arranged between the two brackets, and an impeller positioned on the lower side of the signal acquisition cavity is arranged in the middle of the connecting shaft;
the quick plug of signal acquisition the quick plug of intaking the cross section of the quick plug of play water is hourglass hopper-shaped, the thin end outside of leaking hopper-shaped is equipped with the external screw thread, the wide end inboard that leaks hopper-shaped is equipped with the grafting chamber, the quick plug of signal acquisition with first connection chamber is connected, the quick plug of intaking with the second connection chamber is connected, the quick plug of play water with the third connection chamber is connected.
2. The novel intelligent flow sensor of claim 1, wherein: the signal acquisition cavity is connected with the first connecting cavity in a mutually perpendicular mode, the signal acquisition cavity is vertically arranged in the middle of the shell, and the first connecting cavity is horizontally arranged on one side of the signal acquisition cavity.
3. The novel intelligent flow sensor of claim 1, wherein: the installation cavity is horizontally arranged on the lower side of the signal acquisition cavity, and the installation cavity and the first connecting cavity are arranged in parallel.
4. The novel intelligent flow sensor of claim 1, wherein: and sealing rings are arranged inside the inserting cavities.
CN202220219094.1U 2022-01-26 2022-01-26 Novel intelligent flow sensor Active CN216668833U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202220219094.1U CN216668833U (en) 2022-01-26 2022-01-26 Novel intelligent flow sensor

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202220219094.1U CN216668833U (en) 2022-01-26 2022-01-26 Novel intelligent flow sensor

Publications (1)

Publication Number Publication Date
CN216668833U true CN216668833U (en) 2022-06-03

Family

ID=81763919

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202220219094.1U Active CN216668833U (en) 2022-01-26 2022-01-26 Novel intelligent flow sensor

Country Status (1)

Country Link
CN (1) CN216668833U (en)

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