CN215598475U - Integrated radar wave open channel flowmeter structure - Google Patents

Integrated radar wave open channel flowmeter structure Download PDF

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Publication number
CN215598475U
CN215598475U CN202122011357.8U CN202122011357U CN215598475U CN 215598475 U CN215598475 U CN 215598475U CN 202122011357 U CN202122011357 U CN 202122011357U CN 215598475 U CN215598475 U CN 215598475U
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channel
rigid coupling
wall
frame
radar wave
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CN202122011357.8U
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Chinese (zh)
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于晓岩
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Dalian Boyan Technology Co ltd
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Dalian Boyan Technology Co ltd
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Abstract

The utility model discloses an integrated radar wave open channel flowmeter structure which comprises a channel, wherein an installation assembly is arranged above the channel, the outer side of the lower part of a frame is attached to the inner surface of grooves, the grooves are formed in the middle inner wall of the upper part of a square block, and the inner side of the square block is fixedly connected to the outer side of the upper part of the channel. Compared with the prior art, the integrated radar wave open channel flowmeter structure has the following advantages: through the cooperation between channel and the installation component, make the frame insert in the recess on the square of channel both sides, rotate the handle and drive the lead screw and rotate to inboard removal in the screw hole, the lead screw of both sides supports tightly respectively in the below of frame, makes the frame install fast on the channel, thereby makes external flowmeter install fast on the channel, need not appurtenance, the installation effectiveness is high, has solved current integrated radar wave open channel flowmeter structure, needs appurtenance can just install, and is slow in speed, the problem of inefficiency.

Description

Integrated radar wave open channel flowmeter structure
Technical Field
The utility model relates to the technical field of chemical machinery, in particular to an integrated radar wave open channel flow meter structure.
Background
The radar open channel flowmeter is suitable for non-contact flow measurement of rivers, pipelines, channels and the like, can be mounted by a wall or an anchor ear, and can be directly fixed on a wall or a bridge by expansion screws or fixed on a cross arm by the anchor ear.
However, the existing integrated radar wave open channel flow meter structure can be installed only by auxiliary tools, the speed is low, and the efficiency is low.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide an integrated radar wave open channel flow meter structure, which solves the problems that the existing integrated radar wave open channel flow meter structure in the background art needs auxiliary tools to be installed, and is low in speed and efficiency.
In order to achieve the purpose, the utility model provides the following technical scheme: an integrated radar wave open channel flow meter structure comprises a channel, wherein a mounting assembly is arranged above the channel;
the mounting assembly comprises a frame, a groove, a square block, a threaded hole, a screw rod and a handle;
the utility model discloses a channel, including frame, recess, inner wall in the middle of the top of square, the below outside of frame all laminates with the internal surface of recess mutually, the recess is all seted up at the top of square middle inner wall, the inboard rigid coupling respectively in the top outside of channel of square, one side inner wall of square is seted up threaded hole, the equal threaded connection of internal surface of threaded hole has the lead screw, the equal rigid coupling of one end of lead screw has the handle, the inboard of lead screw is supported tightly in the below one end of frame respectively. The external flowmeter is quickly installed on a channel without auxiliary tools, and the installation efficiency is high.
Preferably, a body is arranged above the channel and electrically connected with an external power supply through a wire. The external power supply supplies power to the body through a wire.
Preferably, a vertical rod is fixedly connected to the middle of the bottom end of the body, a round block is fixedly connected to the outer wall below the vertical rod, and a round plate is fixedly connected to the outer wall of the round block. The circular plate enables the body on the vertical rod to be stably supported through the circular block.
Preferably, the other end of the upper part of the frame is provided with a moving assembly;
the moving assembly comprises a transverse plate, a bent plate, a servo motor, a threaded rod, a connecting sleeve, a sliding block and a sliding groove;
it is a plurality of the one end of diaphragm rigid coupling is in the top other end outside of frame respectively, one side the top rigid coupling of diaphragm has the bent plate, the one end rigid coupling of bent plate has servo motor, servo motor's output shaft rigid coupling threaded rod, the outside of threaded rod is rotated with the diaphragm through inside bearing respectively and is linked to each other, the middle outer wall threaded connection of threaded rod has the adapter sleeve, the one end rigid coupling of adapter sleeve has the plectane, one side of adapter sleeve is provided with the slider, the top rigid coupling of slider has the plectane, slider and spout slip joint, the top inner wall at the frame is seted up to the spout. The body can measure the channels in a large range.
Preferably, the outer wall of the lead is provided with a limiting component;
the limiting assembly comprises a rubber sleeve, a sleeve block and a curved rod;
the middle inner wall of the rubber sleeve is tightly attached to the outer wall of the root of the wire, the outer wall of the rubber sleeve is fixedly connected with a sleeve block, the top end of the sleeve block is fixedly connected with a curved rod, and one end of the curved rod is fixedly connected to the top end of the rear side of the body. The root of the lead is prevented from being broken.
Compared with the prior art, the utility model has the beneficial effects that: compared with the prior art, the integrated radar wave open channel flowmeter structure has the following advantages:
the frame is inserted into the grooves on the blocks on the two sides of the channel through the matching between the channel and the mounting assembly, the rotating handle drives the screw rods to rotate and move towards the inner side in the threaded holes, the screw rods on the two sides are respectively abutted against the lower part of the frame, so that the frame is quickly mounted on the channel, an external flowmeter is quickly mounted on the channel, auxiliary tools are not needed, the mounting efficiency is high, and the problems that the existing integrated radar wave open channel flowmeter structure can be mounted only by auxiliary tools, the speed is low and the efficiency is low are solved;
through the frame, remove the subassembly, a body, the montant, the cooperation between circle piece and the plectane, servo motor's output shaft drives the threaded rod and passes through the inner bearing respectively and just rotates in the diaphragm of both sides, the positive and negative rotation of threaded rod makes the adapter sleeve drive the plectane and passes through the slider and slide from side to side in the spout on the frame, make the body measure on a large scale the channel, conveniently obtain comprehensive data, and make the judgement, solved current integrated radar wave open channel flowmeter structure, it is limited to channel measuring range, the problem of data singleness.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of the structure of the lead, rubber ring and nest block of FIG. 1;
FIG. 3 is a schematic structural view of the circular plate, the sliding block and the sliding groove in FIG. 1;
fig. 4 is a schematic structural view of the threaded hole, the lead screw and the handle in fig. 1.
In the figure: 1. the device comprises a body, 2, a lead wire, 3, a vertical rod, 4, a mounting component, 401, a frame, 402, a groove, 403, a square block, 404, a threaded hole, 405, a lead screw, 406, a handle, 5, a moving component, 501, a transverse plate, 502, a curved plate, 503, a servo motor, 504, a threaded rod, 505, a connecting sleeve, 506, a sliding block, 507, a sliding groove, 6, a limiting component, 601, a rubber ring, 602, a sleeve block, 603, a curved rod, 7, a round block, 8, a round plate, 9 and a channel.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-4, the present invention provides a technical solution: an integrated radar wave open channel flow meter structure comprises a channel 9, a mounting assembly 4 is mounted above the channel 9, the mounting assembly 4 comprises a frame 401, a groove 402, a square 403, a threaded hole 404, a screw rod 405 and a handle 406, the outer side of the lower portion of the frame 401 is attached to the inner surface of the groove 402, the grooves 402 are arranged on the middle inner wall of the upper portion of the square 403, the inner sides of the square 403 are fixedly connected to the outer side of the upper portion of the channel 9, the frame 401 is inserted into the grooves 402 on the square 403 on the two sides of the channel 9, the threaded hole 404 is arranged on the inner wall of one side of the square 403, the screw rod 405 is in threaded connection with the inner surface of the threaded hole 404, the handle 406 is fixedly connected to one end of the screw rod 405, the inner side of the screw rod 405 is tightly connected to one end of the lower portion of the frame 401, the handle 406 is rotated to drive the screw rod 405 to rotate and move towards the inner side in the threaded hole 404, the screw rods 405 on the two sides are tightly connected to the lower portion of the frame 401, allowing the frame 401 to be quickly mounted over the channel 9.
A body 1 is arranged above the channel 9, the body 1 is a radar wave open channel flowmeter with the model number being RD-600, the body 1 is electrically connected with an external power supply through a lead 2, and the external power supply supplies power to the body 1 through the lead 2.
A vertical rod 3 is fixedly connected to the middle of the bottom end of the body 1, a round block 7 is fixedly connected to the outer wall of the lower portion of the vertical rod 3, a round plate 8 is fixedly connected to the outer wall of the round block 7, and the round plate 8 enables the body 1 on the vertical rod 3 to be stably supported through the round block 7.
The other end of the upper part of the frame 401 is provided with a moving component 5, the moving component 5 comprises a transverse plate 501, a curved plate 502, a servo motor 503, a threaded rod 504, a connecting sleeve 505, a sliding block 506 and a sliding groove 507, one end of the two transverse plates 501 is respectively and fixedly connected with the outer side of the other end of the upper part of the frame 401, the top end of the transverse plate 501 at one side is fixedly connected with the curved plate 502, one end of the curved plate 502 is fixedly connected with the servo motor 503, the output shaft of the servo motor 503 is fixedly connected with the threaded rod 504, the outer side of the threaded rod 504 is respectively and rotatably connected with the transverse plates 501 through internal bearings, the output shaft of the servo motor 503 drives the threaded rod 504 to respectively and forwardly and reversely rotate in the transverse plates 501 at the two sides through the internal bearings, the middle outer wall of the threaded rod 504 is in threaded connection with the connecting sleeve 505, one end of the connecting sleeve 505 is fixedly connected with the circular plate 8, one side of the connecting sleeve 505 is provided with the sliding block 506, the top end of the sliding block 506 is slidably clamped with the sliding groove 507, the sliding groove 507 is arranged on the upper inner wall of the frame 401, the threaded rod 504 rotates forward and backward to enable the connecting sleeve 505 to drive the circular plate 8 to slide left and right in the sliding groove 507 on the frame 401 through the sliding block 506, the channel 9 is measured on a large scale by the body 1, and the sliding groove 507 prevents the sliding block 506 from derailing.
Spacing subassembly 6 is installed to the outer wall of wire 2, spacing subassembly 6 includes rubber sleeve 601, sleeve piece 602 and curved bar 603, the middle inner wall of rubber sleeve 601 closely laminates with the root outer wall of wire 2, the outer wall rigid coupling of rubber sleeve 601 has sleeve piece 602, the top rigid coupling of sleeve piece 602 has curved bar 603, the one end rigid coupling of curved bar 603 is on the rear side top of body 1, pass the rubber circle 601 on the sleeve piece 602 with wire 2, and rubber circle 601 makes 2 roots of wire spacing, avoid 2 roots of wire bending fracture.
When the integrated radar wave open channel flowmeter structure is used, firstly, a circular plate 8 enables a body 1 on a vertical rod 3 to be stably supported through a circular block 7, a frame 401 is inserted into grooves 402 on blocks 403 on two sides of a channel 9, a handle 406 is rotated to drive lead screws 405 to rotate and move towards the inner side in threaded holes 404, the lead screws 405 on the two sides respectively abut against the lower side of the frame 401, the frame 401 is quickly installed on the channel 9, the body 1 is quickly installed on the channel 9, a lead 2 penetrates through rubber rings 601 on sleeve blocks 602, the root parts of the lead 2 are limited by the rubber rings 601 to avoid bending and breaking of the root parts of the lead 2, the external power supply supplies power to the body 1 through the lead 2, meanwhile, the external power supply of a servo motor 503 is switched on, the servo motor 503 works, an output shaft of the servo motor 503 drives a threaded rod 504 to respectively positively and negatively rotate in transverse plates 501 on the two sides through internal bearings, the threaded rod 503 positively and negatively and positively and negatively rotates to drive the circular plate 8 through a sliding block 506 in a sliding groove 507 on the frame 401 And sliding right to enable the body 1 to measure the channel 9 in a large range.
In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.
In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "disposed," "connected," "secured," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an integration radar wave open channel flowmeter structure, includes channel (9), its characterized in that: a mounting component (4) is arranged above the channel (9);
the mounting component (4) comprises a frame (401), a groove (402), a square block (403), a threaded hole (404), a screw rod (405) and a handle (406);
the inside surface of the below outside of frame (401) all laminates with recess (402) mutually, inner wall in the middle of the top of square (403) is all seted up in recess (402), the inboard rigid coupling in the top outside of channel (9) respectively of square (403), threaded hole (404) has been seted up to one side inner wall of square (403), the equal threaded connection of internal surface of threaded hole (404) has lead screw (405), the equal rigid coupling in one end of lead screw (405) has handle (406), the inboard of lead screw (405) supports tightly below one end at frame (401) respectively.
2. The integrated radar wave open channel flow meter structure of claim 1, wherein: the utility model discloses a solar energy channel, including channel (9), the top of channel (9) is provided with body (1), body (1) is through wire (2) and external power source electric connection.
3. The integrated radar wave open channel flow meter structure of claim 2, wherein: the fixed connection has montant (3) in the middle of the bottom of body (1), the below outer wall rigid coupling of montant (3) has circle piece (7), the outer wall rigid coupling of circle piece (7) has plectane (8).
4. The integrated radar wave open channel flow meter structure of claim 1, wherein: the other end of the upper part of the frame (401) is provided with a moving assembly (5);
the moving assembly (5) comprises a transverse plate (501), a curved plate (502), a servo motor (503), a threaded rod (504), a connecting sleeve (505), a sliding block (506) and a sliding groove (507);
it is a plurality of the one end of diaphragm (501) rigid coupling is in the top other end outside of frame (401) respectively, one side the top rigid coupling of diaphragm (501) has bent board (502), the one end rigid coupling of bent board (502) has servo motor (503), the output shaft rigid coupling of servo motor (503) has threaded rod (504), the outside of threaded rod (504) rotates with diaphragm (501) through interior bearing respectively and links to each other, the middle outer wall threaded connection of threaded rod (504) has adapter sleeve (505), the one end rigid coupling of adapter sleeve (505) has plectane (8), one side of adapter sleeve (505) is provided with slider (506), the top rigid coupling of slider (506) has plectane (8), slider (506) and spout (507) slip joint, the top inner wall at frame (401) is seted up in spout (507).
5. The integrated radar wave open channel flow meter structure of claim 2, wherein: the outer wall of the lead (2) is provided with a limiting component (6);
the limiting assembly (6) comprises a rubber sleeve (601), a sleeve block (602) and a curved rod (603);
the middle inner wall of rubber sleeve (601) closely laminates with the root outer wall of wire (2), the outer wall rigid coupling of rubber sleeve (601) has a cover piece (602), the top rigid coupling of cover piece (602) has curved bar (603), the one end rigid coupling of curved bar (603) is on the rear side top of body (1).
CN202122011357.8U 2021-08-25 2021-08-25 Integrated radar wave open channel flowmeter structure Active CN215598475U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122011357.8U CN215598475U (en) 2021-08-25 2021-08-25 Integrated radar wave open channel flowmeter structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122011357.8U CN215598475U (en) 2021-08-25 2021-08-25 Integrated radar wave open channel flowmeter structure

Publications (1)

Publication Number Publication Date
CN215598475U true CN215598475U (en) 2022-01-21

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ID=79882749

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202122011357.8U Active CN215598475U (en) 2021-08-25 2021-08-25 Integrated radar wave open channel flowmeter structure

Country Status (1)

Country Link
CN (1) CN215598475U (en)

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