CN220206910U - Ultrasonic heat meter with adjusting structure - Google Patents

Abstract

The utility model discloses an ultrasonic heat meter with an adjusting structure, and relates to the field of wave heat meters. Including detecting the pipeline, detect pipeline both ends department and be equipped with the screw thread and to the interface, detect and be equipped with the gauge outfit on the pipeline, be connected with detection probe on the gauge outfit, be equipped with adjustment mechanism between detection pipeline and the gauge outfit, connect cutting ferrule movable mounting on detecting the pipeline, offered spacing hole on the cutting ferrule, fixedly mounted has the connection stabilizer blade on the cutting ferrule, connect the terminal fixedly mounted of stabilizer blade and have the butt joint base, butt joint base four corners position is equipped with the butt joint through-hole, the butt joint through-hole department fixed mounting in the connection cutting ferrule outside has stop gear. The connecting support leg can drive the gauge outfit to rotate after rotating the connecting clamping sleeve, so that the angle of the gauge outfit can be adjusted, the inhaul cable can be loosened after the angle adjustment of the gauge outfit is finished, and the limiting spring can push the spring seat forwards after loosening the inhaul cable, so that the limiting rod is embedded into the connecting clamping sleeve, and then the connecting clamping sleeve is limited, so that the gauge outfit is kept motionless.

Description

Ultrasonic heat meter with adjusting structure

Technical Field

The utility model relates to the field of wave heat meters, in particular to an ultrasonic heat meter with an adjusting structure.

Background

The ultrasonic heat meter measures the flow in the pipe through ultrasonic reflection, and the two platinum resistors measure the water supply temperature and the water return temperature respectively, and the heat dissipation value is calculated. Compared with the traditional mechanical meter, the meter has the advantages of no moving parts, no abrasion, accurate metering, difficult blockage, simple maintenance, small pressure loss, simple installation, long service life and high temperature resistance of 150 ℃. The ultrasonic heat meter is generally connected to the pipeline through a threaded interface on two sides, the meter head of the ultrasonic heat meter can face downwards after being fixed, and the indication number on the meter head is unchanged when a user observes, so that the ultrasonic heat meter with an adjusting structure is needed, and the angle of the meter head can be adjusted.

Disclosure of Invention

The utility model mainly aims to provide an ultrasonic heat meter with an adjusting structure, which can effectively solve the problems in the background art.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides an ultrasonic heat meter with adjusting structure, includes the detection pipeline, detection pipeline both ends department is equipped with the screw thread and to the interface, be equipped with the gauge outfit on the detection pipeline, be connected with the detection probe on the gauge outfit, be equipped with adjustment mechanism between detection pipeline and the gauge outfit, adjustment mechanism is including connecting cutting ferrule, spacing hole, connection stabilizer blade, docking base and butt joint through-hole, connection cutting ferrule movable mounting is on detecting the pipeline, the spacing hole has been seted up on the connection cutting ferrule, fixedly mounted has the connection stabilizer blade on the connection cutting ferrule, the terminal fixedly mounted of connection stabilizer blade has the docking base, docking base four corners position is equipped with the butt joint through-hole, the butt joint through-hole department fixedly mounted in the connection cutting ferrule outside has stop gear, stop gear includes cable, mechanism shell, stop spring, stop lever and spring holder, movable mounting has the stop lever in the mechanism shell, be located the stop lever on the fixed mounting spring holder in the mechanism shell, stop lever one end is connected at the cable.

Furthermore, the butt joint through hole is internally provided with a screw, and the butt joint base is fixed on the back of the gauge outfit through the screw.

Furthermore, one end of the connecting support leg is fixed on the butt joint base, the other end of the connecting support leg is fixed on the connecting clamping sleeve, and the connecting support leg is movably mounted on the detection pipeline through the connecting clamping sleeve.

Further, the two ends of the mechanism shell are provided with movable holes, and the limiting rod is movably arranged in the mechanism shell through the movable holes.

Furthermore, one end of the limiting spring is connected to the docking base, the other end of the limiting spring is connected to one end of the mechanism shell, and the limiting rod is embedded into the connecting clamping sleeve through the limiting hole.

Furthermore, the gauge outfit is connected on detecting the pipeline through adjustment mechanism.

Compared with the prior art, the utility model has the following beneficial effects:

can outwards pulling cable during the use, the gag lever post will break away from and connect the cutting ferrule after outwards pulling the cable, can rotate after the gag lever post breaks away from and connect the cutting ferrule, connect the stabilizer blade and will drive the gauge outfit rotation after rotating and connect the cutting ferrule to adjust the angle of gauge outfit, can loosen the cable after the angle modulation of gauge outfit is accomplished, the spacing spring can promote the spring holder forward after loosening the cable, thereby in making the gag lever post imbeds and connect the cutting ferrule, and then will connect the cutting ferrule and limit, make the gauge outfit keep motionless.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of an adjustment mechanism according to the present utility model;

fig. 3 is a schematic view of a limiting mechanism according to the present utility model.

In the figure: 1. a detection probe; 2. a gauge head; 3. detecting a pipeline; 4. a thread interface; 5. an adjusting mechanism; 501. a connecting clamping sleeve; 502. a limiting hole; 503. a connecting support leg; 504. a butt joint base; 505. butt joint through holes; 6. a limiting mechanism; 601. a guy cable; 602. a mechanism housing; 603. a limit spring; 604. a limit rod; 605. spring seat.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

As shown in fig. 1 to 3, an ultrasonic heat meter with an adjusting structure comprises a detecting pipeline 3, screw thread butt joint ports 4 are arranged at two ends of the detecting pipeline 3, a gauge outfit 2 is arranged on the detecting pipeline 3, a detecting probe 1 is connected to the gauge outfit 2, an adjusting mechanism 5 is arranged between the detecting pipeline 3 and the gauge outfit 2, a limiting mechanism 6 is fixedly arranged at a butt joint through hole 505 at the outer side of a connecting clamping sleeve 501, the gauge outfit 2 is connected to the detecting pipeline 3 through the adjusting mechanism 5, the detecting probes 1 are respectively arranged on an ascending pipe and a descending pipe which pass through heat transfer fluid, the detecting pipeline 3 is arranged on a fluid inlet or a return pipe, a pulse signal proportional to the flow is sent by the flowmeter, a pair of detecting probes 1 gives out an analog signal representing the temperature, an integrating instrument collects signals from the flow and the detecting probes 1, and the heat obtained by a heat exchange system is calculated by an integrating formula.

Be equipped with adjustment mechanism 5 between detection pipeline 3 and gauge outfit 2, adjustment mechanism 5 includes connection cutting ferrule 501, spacing hole 502, connect stabilizer blade 503, docking base 504 and butt joint through-hole 505, connection cutting ferrule 501 movable mounting is on detection pipeline 3, spacing hole 502 has been seted up on the connection cutting ferrule 501, fixedly mounted has connection stabilizer blade 503 on the connection cutting ferrule 501, connection stabilizer blade 503 end fixed mounting has docking base 504, docking base 504 four corners position is equipped with docking through-hole 505, in the use can be through the screw in the butt joint through-hole 505 with gauge outfit 2 fixed on docking base 504, wherein connection stabilizer blade 503 one end is fixed on docking base 504, connection stabilizer blade 503 other end is fixed on connection cutting ferrule 501, then rotate and connect cutting ferrule 501 after the gauge outfit 2 will be with who connects cutting ferrule 501 rotation, thereby the angle of gauge outfit 2 is adjusted.

The butt joint through hole 505 department fixed mounting in the outside of connecting the cutting ferrule 501 has stop gear 6, stop gear 6 includes cable 601, mechanism shell 602, stop spring 603, gag lever post 604 and spring holder 605, mechanism shell 602 fixed mounting is on connecting the cutting ferrule 501, movable mounting has gag lever post 604 in the mechanism shell 602, be located on gag lever post 604 fixed mounting in the mechanism shell 602, be located on gag lever post 604 cover in the mechanism shell 602 and be equipped with stop spring 603, gag lever post 604 one end is connected at cable 601, stop spring 603 can provide elasticity for spring holder 605 in the use, thereby spring holder 605 moves forward, gag lever post 604 will move forward after the spring holder 605 moves forward, it can imbed in connecting the cutting ferrule 501 through spacing hole 502 after the gag lever post 604 moves forward, thereby the rotation of limiting connecting the cutting ferrule 501, make gauge outfit 2 keep motionless.

It should be noted that, in practical use, the ultrasonic heat meter with the adjusting structure can pull the cable 601 outwards, the stop lever 604 is separated from the connecting sleeve 501 after the cable 601 is pulled outwards, the stop lever 604 is separated from the connecting sleeve 501 and then can rotate the connecting sleeve 501, because the screw is arranged in the docking through hole 505, the docking base 504 is fixed on the back of the gauge outfit 2 through the screw, one end of the connecting support leg 503 is fixed on the docking base 504, the other end of the connecting support leg 503 is fixed on the connecting sleeve 501, the connecting support leg 503 is movably mounted on the detecting pipeline 3 through the connecting sleeve 501, then the connecting support leg 503 drives the gauge outfit 2 to rotate after the connecting sleeve 501 is rotated, thereby adjusting the angle of the gauge outfit 2, the cable 601 can be released after the angle adjustment of the gauge outfit 2 is completed, because the two ends of the mechanism housing 602 are provided with movable holes, the stop lever 604 is movably mounted in the mechanism housing 602, one end of the stop spring 603 is connected on the docking base 504, the other end of the stop spring 603 is connected on one end of the mechanism housing 602, one end of the stop lever 604 is embedded in the connecting sleeve 501 through the stop hole 502, the stop spring 603 is pushed by the stop spring 603, and then the stop spring 603 is pushed forward after the stop spring 603 is pushed, the stop spring seat 605 is pushed forward, thereby keeping the gauge outfit 2 is not embedded in the sleeve 501, and the gauge outfit 2 is kept to be connected.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. An ultrasonic heat meter with adjusting structure, characterized in that: including detecting pipeline (3), detect pipeline (3) both ends department is equipped with screw thread butt joint mouth (4), be equipped with gauge outfit (2) on detecting pipeline (3), be connected with detection probe (1) on gauge outfit (2), be equipped with adjustment mechanism (5) between detecting pipeline (3) and gauge outfit (2), adjustment mechanism (5) are including connecting cutting ferrule (501), spacing hole (502), connection stabilizer blade (503), docking base (504) and docking through-hole (505), connect cutting ferrule (501) movable mounting on detecting pipeline (3), spacing hole (502) have been seted up on connecting cutting ferrule (501), fixedly mounted has connection stabilizer blade (503) on connecting cutting ferrule (501), connection stabilizer blade (503) end fixed mounting has docking base (504), docking through-hole (505) are equipped with in docking through-hole (504) in docking through-hole (505) in the four corners position, docking through-hole (505) department fixed mounting in the outside of connecting cutting ferrule (501) has stop gear (6) including cable (601), mechanism housing (603), spacing spring (604) and spacing rod (605) and spring holder (605) are fixed on connecting cutting ferrule (501), the novel cable stay wire mechanism is characterized in that a limiting rod (604) is movably mounted in the mechanism shell (602), a spring seat (605) is fixedly mounted on the limiting rod (604) in the mechanism shell (602), a limiting spring (603) is sleeved on the limiting rod (604) in the mechanism shell (602), and one end of the limiting rod (604) is connected to the cable stay wire (601).

2. An ultrasonic heat meter having an adjustment structure according to claim 1, wherein: the butt joint base (504) is fixed on the back of the gauge outfit (2) through screws.

3. An ultrasonic heat meter having an adjustment structure according to claim 2, wherein: one end of each connecting support leg (503) is fixed on the butt joint base (504), the other end of each connecting support leg (503) is fixed on the connecting clamping sleeve (501), and each connecting support leg (503) is movably mounted on the corresponding detecting pipeline (3) through the corresponding connecting clamping sleeve (501).

4. An ultrasonic heat meter having an adjustment structure according to claim 3, wherein: the two ends of the mechanism shell (602) are provided with movable holes, and the limiting rod (604) is movably arranged in the mechanism shell (602) through the movable holes.

5. An ultrasonic heat meter having an adjustment structure according to claim 4, wherein: one end of the limiting spring (603) is connected to the butt joint base (504), the other end of the limiting spring (603) is connected to one end of the mechanism shell (602), and the limiting rod (604) is embedded into the connecting clamping sleeve (501) through the limiting hole (502).

6. An ultrasonic heat meter having an adjustment structure according to claim 5, wherein: the gauge outfit (2) is connected on detecting pipeline (3) through adjustment mechanism (5).