CN213932682U

CN213932682U - Artificial intelligence flow monitoring sensor convenient to accomodate and place

Info

Publication number: CN213932682U
Application number: CN202022536509.1U
Authority: CN
Inventors: 吕林波; 黄山; 谭学超; 乔少康
Original assignee: Xi'an Ruier Era Information Technology Co ltd
Current assignee: Xi'an Ruier Era Information Technology Co ltd
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2021-08-10
Anticipated expiration: 2030-11-05

Abstract

The utility model relates to a flow monitoring sensor technical field just discloses an artificial intelligence flow monitoring sensor convenient to accomodate and place, the pipeline comprises a pipe, the top fixedly connected with storage seat of pipeline has seted up same groove of accomodating on the top inner wall of pipeline and the bottom of storage seat, has all seted up the spacing groove on the both sides inner wall of accomodating the groove, and equal sliding connection has the gag lever post in two spacing grooves, and the one end that two gag lever posts are close to each other all extends to accomodate inslot and fixedly connected with sliding plate. The utility model discloses simple structure, convenient operation, can be fast convenient accomodate the storage seat with flow monitoring sensor main part in, prevented that the flow of the liquid in the pipeline from causing certain jam, influence the condition of the flow of liquid in the pipeline and appear, horizontal migration through two closing plates is sealed accomodating the groove, has prevented the corruption of liquid to flow monitoring sensor main part, has satisfied the needs that use.

Description

Artificial intelligence flow monitoring sensor convenient to accomodate and place

Technical Field

The utility model relates to a flow monitoring sensor technical field especially relates to an artificial intelligence flow monitoring sensor convenient to accomodate and place.

Background

The flow monitoring device is generally used for detecting the output or inflow amount of fluid in a unit time, but in the measurement of some large-diameter pipelines, the existing device is generally difficult to accurately measure, because the large diameter of the existing device causes a large cross section, so that in the existing measuring device, it is generally difficult to find the measuring device matched with the existing measuring device, and the existing measuring device is generally a single-point type measurement, so when measuring the large-diameter pipelines, because the existing measuring device cannot uniformly measure each point of the device, accurate measurement data cannot be effectively obtained. The method has a great influence on actual data control and application.

The existing flow monitoring sensor is arranged in a pipeline, and the function of containing the flow monitoring sensor is not realized, so that certain blockage is caused to the flow of liquid in the pipeline, the flow of the liquid in the pipeline is influenced, and the use requirement cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving prior art intermediate-quantity monitoring sensor and setting up in the pipeline, because of not possessing the function of accomodating flow monitoring sensor, consequently can cause certain jam to the flow of the liquid in the pipeline, influence the flow of liquid in the pipeline, can not satisfy the problem of the needs that use, and the artificial intelligence flow monitoring sensor who places is convenient for accomodate that provides.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an artificial intelligence flow monitoring sensor convenient for storage and placement comprises a pipeline, wherein a storage seat is fixedly connected to the top of the pipeline, the inner wall of the top of the pipeline and the bottom of the storage seat are provided with a same storage groove, the inner walls of two sides of the storage groove are provided with limit grooves, limit rods are slidably connected in the two limit grooves, one ends of the two limit rods, which are close to each other, extend into the storage groove and are fixedly connected with a sliding plate, the bottom end of the sliding plate extends into the pipeline and is fixedly connected with a flow monitoring sensor main body, the top end of the sliding plate is provided with a threaded groove, the top of the storage seat is provided with a rotating hole, the rotating hole is communicated with the storage groove, a lead screw is rotatably installed in the rotating hole, the bottom end of the lead screw extends into the threaded groove and is in threaded connection with the threaded groove, the top of the storage seat is fixedly connected with a rotating motor, and the top end of the lead screw extends to the upper part of the storage seat and is fixedly connected with an output shaft of the rotating motor, all seted up the seal groove on the both sides inner wall of accomodating the groove, equal sliding connection has the closing plate in two seal grooves, and two closing plates all with accomodate the groove seal cooperation, first spout has all been seted up on the top inner wall of two seal grooves, the first slider of the equal fixedly connected with in top of two closing plates, and two first sliders respectively with corresponding first spout sliding connection, the spread groove has all been seted up on the both sides inner wall of first spout, same reciprocal lead screw is installed to two spread grooves and first spout internal rotation, and the one end that two reciprocal lead screws are close to each other runs through corresponding first slider respectively and with corresponding first slider threaded connection.

Preferably, the fixing grooves are formed in the inner walls of the two sides of the accommodating groove, the inner wall injury of one side, far away from each other, of the two fixing grooves is a circular groove, and the circular groove and the fixing grooves rotate to be provided with the same circular rod.

Preferably, the end that two circular poles are close to each other all extends to and accomodates the inslot and fixedly connected with first conical gear, and the fixed cover in the outside of lead screw is equipped with second conical gear, and two first conical gear all mesh with second conical gear mutually.

Preferably, the same mounting groove is formed in the inner wall, close to each other, of one side of the first sliding groove and the fixing groove, the outer sides of the two reciprocating screw rods are meshed with chains, and the two reciprocating screw rods are in transmission connection with the corresponding screw rods through the two chains respectively.

Preferably, the outer ring of the bearing is fixedly connected in the rotating hole, and the screw rod is fixedly connected with the inner ring of the bearing.

Preferably, the inner walls of the bottoms of the two first sliding grooves are provided with second sliding grooves, the bottoms of the two first sliding blocks are fixedly connected with second sliding blocks, and the two second sliding blocks are respectively in sliding connection with the corresponding second sliding grooves.

Compared with the prior art, the utility model provides an artificial intelligence flow monitoring sensor convenient to accomodate and place possesses following beneficial effect:

1. according to the artificial intelligence flow monitoring sensor convenient to store and place, the output shaft of the rotating motor drives the screw rod to rotate by starting the rotating motor, the screw rod drives the sliding plate to move through the threaded groove, the sliding plate drives the two limiting rods to slide in the two limiting grooves, and the sliding plate drives the flow monitoring sensor main body to move, so that the flow monitoring sensor main body is stored in the storage groove;

2. the artificial intelligence flow monitoring sensor convenient to store and place drives the second bevel gear to rotate through the lead screw, the second bevel gear drives the two first bevel gears to rotate, the two first bevel gears drive the two circular rods to rotate, the two circular rods drive the two reciprocating lead screws to rotate through the two chains, the two reciprocating lead screws drive the two first sliding blocks to move, the two first sliding blocks drive the two sealing plates to move, the two sealing plates are moved to be in the storage grooves, and the two sealing plates are mutually abutted to seal the storage grooves;

3. according to the artificial intelligent flow monitoring sensor convenient to store and place, the two sealing plates are moved into the two sealing grooves by starting the rotating motor anticlockwise, and the flow monitoring sensor main body is moved into a pipeline;

and the part that does not relate to among the device all is the same with prior art or can adopt prior art to realize, the utility model discloses simple structure, convenient operation, can be fast convenient accomodate the storage seat with flow monitoring sensor main part in, prevented that the flow of the liquid in the pipeline from causing certain jam, the condition that influences the flow of liquid in the pipeline appears, horizontal migration through two closing plates is sealed accomodating the groove, has prevented the corruption of liquid to flow monitoring sensor main part, has satisfied the needs of using.

Drawings

Fig. 1 is a schematic view of a main view structure of an artificial intelligence flow monitoring sensor convenient for storage and placement;

fig. 2 is a schematic structural view of a part a of an artificial intelligence flow monitoring sensor convenient for storage and placement;

fig. 3 is the utility model provides a B part schematic structure convenient to accomodate artificial intelligence flow monitoring sensor who places.

In the figure: the device comprises a pipeline 1, a storage seat 2, a storage groove 3, a limiting groove 4, a limiting rod 5, a sliding plate 6, a flow monitoring sensor main body 7, a threaded groove 8, a rotating hole 9, a screw rod 10, a rotating motor 11, a sealing groove 12, a sealing plate 13, a first sliding groove 14, a first sliding block 15, a connecting groove 16, a reciprocating screw rod 17, a fixing groove 18, a circular groove 19, a circular rod 20, a first bevel gear 21, a second bevel gear 22, a mounting groove 23 and a chain 24.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-3, an artificial intelligence flow monitoring sensor convenient for storage comprises a pipeline 1, a storage seat 2 is fixedly connected to the top of the pipeline 1, the same storage groove 3 is formed on the inner wall of the top of the pipeline 1 and the bottom of the storage seat 2, limiting grooves 4 are formed on the inner walls of the two sides of the storage groove 3, limiting rods 5 are slidably connected in the two limiting grooves 4, one ends of the two limiting rods 5 close to each other extend into the storage groove 3 and are fixedly connected with a sliding plate 6, the bottom end of the sliding plate 6 extends into the pipeline 1 and is fixedly connected with a flow monitoring sensor main body 7, a threaded groove 8 is formed in the top end of the sliding plate 6, a rotating hole 9 is formed in the top of the storage seat 2, the rotating hole 9 is communicated with the storage groove 3, a lead screw 10 is rotatably installed in the rotating hole 9, the bottom end of the lead screw 10 extends into the threaded groove 8 and is in threaded connection with the threaded groove 8, the top of the receiving seat 2 is fixedly connected with a rotating motor 11, the top end of a screw rod 10 extends to the upper part of the receiving seat 2 and is fixedly connected with an output shaft of the rotating motor 11, the inner walls of the two sides of the receiving groove 3 are both provided with a sealing groove 12, a sealing plate 13 is connected in the two sealing grooves 12 in a sliding way, and two sealing plates 13 are hermetically matched with the accommodating groove 3, the inner walls of the tops of the two sealing grooves 12 are respectively provided with a first sliding groove 14, the tops of the two sealing plates 13 are respectively fixedly connected with a first sliding block 15, and the two first sliding blocks 15 are respectively connected with the corresponding first sliding chutes 14 in a sliding way, the inner walls of the two sides of the first sliding chutes 14 are respectively provided with a connecting groove 16, the two connecting grooves 16 and the first sliding chutes 14 are internally and rotatably provided with the same reciprocating screw rod 17, and one ends of the two reciprocating screw rods 17 close to each other respectively penetrate through the corresponding first sliding blocks 15 and are in threaded connection with the corresponding first sliding blocks 15.

The utility model discloses in, all seted up fixed slot 18 on the both sides inner wall of holding groove 3, circular slot 19 has all been seted up to one side inner wall injury that two fixed slots 18 kept away from each other, and same circular rod 20 is installed to circular slot 19 and the 18 internal rotations of fixed slot.

The utility model discloses in, the one end that two circular poles 20 are close to each other all extends to and accomodates in the groove 3 and the first conical gear 21 of fixedly connected with, and the fixed cover in the outside of lead screw 10 is equipped with second conical gear 22, and two first conical gear 21 all mesh mutually with second conical gear 22.

The utility model discloses in, same mounting groove 23 has been seted up on the one side inner wall that first spout 14 and fixed slot 18 are close to each other, and two reciprocal lead screw 17's the outside all meshes has chain 24, and two reciprocal lead screws 17 are connected with corresponding lead screw 10 transmission respectively through two chains 24.

The utility model discloses in, the outer lane of fixedly connected with bearing in the rotation hole 9, and the inner circle fixed connection of lead screw 10 and bearing.

The utility model discloses in, all seted up the second spout on the bottom inner wall of two first spouts 14, the equal fixedly connected with second slider in bottom of two first sliders 15, and two second sliders respectively with corresponding second spout sliding connection.

In the utility model, when in use, the rotating motor 11 is started, the rotating motor 11 is powered by commercial power, the rotating motor 11 is controlled by the control switch, the output shaft of the rotating motor 11 drives the screw rod 10 to rotate, the screw rod 10 drives the sliding plate 6 to move through the thread groove 8, the sliding plate 6 drives the two limiting rods 5 to slide in the two limiting grooves 4, the two limiting rods 5 limit the sliding plate 6, meanwhile, the sliding plate 6 drives the flow monitoring sensor main body 7 to move, so that the flow monitoring sensor main body 7 is accommodated in the accommodating groove 3, meanwhile, the screw rod 10 drives the second bevel gear 22 to rotate, the second bevel gear 22 drives the two first bevel gears 21 to rotate, the two first bevel gears 21 drive the two circular rods 20 to rotate, the two circular rods 20 drive the two reciprocating screw rods 17 to rotate through the two chains 24, the two reciprocating screw rods 17 drive the two first sliding blocks 15 to move, the two first sliding blocks 15 drive the two sealing plates 13 to move, the two sealing plates 13 drive the two second sliding blocks to slide in the two second sliding grooves, the two second sliding blocks limit the two sealing plates 13, the two sealing plates 13 are moved to be provided with the accommodating grooves 3, the two sealing plates 13 are mutually abutted to seal the accommodating grooves 3, when the flow monitoring sensor is used, the rotating motor 11 is started anticlockwise to move the two sealing plates 13 into the two sealing grooves 12, and the flow monitoring sensor main body 7 is moved into the pipeline 1, so that the flow monitoring sensor main body 7 can be rapidly and conveniently accommodated into the accommodating seat 2, certain blockage caused to the flow of liquid in the pipeline 1 is prevented, the situation that the flow of the liquid in the pipeline 1 is influenced is generated, the accommodating grooves 3 are sealed through the horizontal movement of the two sealing plates 13, the corrosion of the liquid to the flow monitoring sensor main body 7 is prevented, and the use requirement is met.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. An artificial intelligence flow monitoring sensor convenient to store and place comprises a pipeline (1) and is characterized in that a storage seat (2) is fixedly connected to the top of the pipeline (1), the inner wall of the top of the pipeline (1) and the bottom of the storage seat (2) are provided with the same storage groove (3), the inner walls of two sides of the storage groove (3) are respectively provided with a limiting groove (4), limiting rods (5) are respectively connected in the two limiting grooves (4) in a sliding manner, one ends of the two limiting rods (5) close to each other extend into the storage groove (3) and are fixedly connected with a sliding plate (6), the bottom end of the sliding plate (6) extends into the pipeline (1) and is fixedly connected with a flow monitoring sensor main body (7), the top end of the sliding plate (6) is provided with a threaded groove (8), the top of the storage seat (2) is provided with a rotating hole (9), and the rotating hole (9) is communicated with the storage groove (3), a screw rod (10) is rotatably installed in the rotating hole (9), the bottom end of the screw rod (10) extends into the thread groove (8) and is in threaded connection with the thread groove (8), the top of the containing seat (2) is fixedly connected with a rotating motor (11), the top end of the screw rod (10) extends to the upper part of the containing seat (2) and is fixedly connected with an output shaft of the rotating motor (11), the inner walls of the two sides of the containing groove (3) are respectively provided with a sealing groove (12), sealing plates (13) are respectively and slidably connected in the two sealing grooves (12), the two sealing plates (13) are respectively and hermetically matched with the containing groove (3), the inner walls of the tops of the two sealing grooves (12) are respectively provided with a first sliding groove (14), the tops of the two sealing plates (13) are respectively and fixedly connected with a first sliding block (15), and the two first sliding blocks (15) are respectively and slidably connected with the corresponding first sliding grooves (14), connecting grooves (16) are formed in the inner walls of the two sides of the first sliding groove (14), the two connecting grooves (16) and the first sliding groove (14) are rotatably provided with the same reciprocating screw rod (17), and one end, close to each other, of each of the two reciprocating screw rods (17) penetrates through the corresponding first sliding block (15) and is in threaded connection with the corresponding first sliding block (15).

2. The flow monitoring sensor convenient for storage and placement as claimed in claim 1, wherein the storage groove (3) is provided with fixing grooves (18) on both inner walls, the two fixing grooves (18) are provided with circular grooves (19) on the inner wall of the side away from each other, and the same circular rod (20) is rotatably mounted in the circular grooves (19) and the fixing grooves (18).

3. The flow monitoring sensor convenient for storage and placement as claimed in claim 2, wherein one end of each of the two circular rods (20) close to each other extends into the storage groove (3) and is fixedly connected with a first bevel gear (21), a second bevel gear (22) is fixedly sleeved on the outer side of the screw rod (10), and the two first bevel gears (21) are engaged with the second bevel gear (22).

4. The flow monitoring sensor convenient for storage and placement as claimed in claim 1, wherein the same mounting groove (23) is formed on the inner wall of one side of the first sliding groove (14) and the fixing groove (18) close to each other, the outer sides of the two reciprocating screw rods (17) are respectively engaged with a chain (24), and the two reciprocating screw rods (17) are respectively in transmission connection with the corresponding screw rods (10) through the two chains (24).

5. The flow monitoring sensor convenient for storage and placement as claimed in claim 1, wherein the rotating hole (9) is fixedly connected with an outer ring of a bearing, and the screw rod (10) is fixedly connected with an inner ring of the bearing.

6. The flow monitoring sensor convenient for storage and placement as claimed in claim 1, wherein the inner walls of the bottoms of the two first sliding grooves (14) are respectively provided with a second sliding groove, the bottoms of the two first sliding blocks (15) are respectively and fixedly connected with a second sliding block, and the two second sliding blocks are respectively and slidably connected with the corresponding second sliding grooves.