CN202255698U

CN202255698U - Ultrasonic wave calorimeter straight tube section structure

Info

Publication number: CN202255698U
Application number: CN2011203723447U
Authority: CN
Inventors: 韩君儒
Original assignee: NINGBO KEJIAN INSTRUMENT CO Ltd
Current assignee: NINGBO KEJIAN INSTRUMENT CO Ltd
Priority date: 2011-10-08
Filing date: 2011-10-08
Publication date: 2012-05-30
Anticipated expiration: 2021-10-08

Abstract

The utility model discloses an ultrasonic wave calorimeter straight tube section structure, comprising a tube body, the sidewall of which is provided with a probe connecting aperture. The characteristics are that the tube body is provided with two ball-type curve rectifier tanks; one end in the ball-type curve rectifier tanks is provided with a reflector and the other end in the ball-type curve rectifier tanks is provided with an energy transducer. An energy transducer pressure plate is located above the energy transducer; the energy transducer pressure plate is in fixed connection with the tube body. The bottom of the reflector is provided with a reflector press ring which is in fixed connection with the tube body. Diversion tubes are arranged in the tube body between the two ball-type curve rectifier tanks and fit closely with the tube body. According to the utility model, an original straight tube section is improved by providing the two ball-type curve rectifier tanks on positions on two ends of the diversion tubes for installing the reflector, which can solve the problems that the pressure loss is heavy and rotational flow and bubbles are easy to generate; the bottom of the reflector is provided with a dismounting-proof lid, which can effectively avoid the self dismounting of users.

Description

Ultrasonic calorimeter straight length structure

Technical field

The utility model relates to a kind of ultrasonic calorimeter parts, and in particular, the utility model relates to a kind of ultrasonic calorimeter straight length structure.

Background technology

At present; Present ultrasonic calorimeter on the market is straight length mostly; Mozzle and mirror assembly are installed in the pipeline section centre position, generally occurred crushing big, be easy to generate problems such as eddy flow and bubble, reduced the measuring accuracy of ultrasonic calorimeter greatly; So need improve former straight length, make it to have solved crushing big, be easy to generate problems such as eddy flow and bubble.

The Chinese patent notification number is CN 201340313, and authorizing open day is on November 04th, 2009, and the name of utility model is called ultrasonic calorimeter fitting structure; This application case discloses a kind of ultrasonic calorimeter fitting structure; Comprise hot-water line, barretter, the angle between hot-water line and the barretter is an acute angle, and the middle part of barretter is a straight tube; The going into of straight tube, the joint that water delivering orifice is fixed with ring-type grid pipe arm respectively; The other end of the joint of ring-type grid pipe arm is fixedly connected with closing cap respectively, in closing cap, is provided with ultrasonic transmission device, and the water inlet joint of ring-type grid pipe arm is arranged in the hot-water line water inlet; The water delivering orifice joint of ring-type grid pipe arm is arranged in the hot-water line water delivering orifice, and straight tube passes from the pipe shaft of hot-water line and hot-water line is blocked.Wherein weak point is that mozzle and mirror assembly are installed in the pipeline section centre position, generally occurred crushing big, be easy to generate problems such as eddy flow and bubble.

The utility model content

The purpose of the utility model is that solution has installation mozzle and mirror assembly in the pipeline section centre position now; The problem that crushing is big, be easy to generate eddy flow and bubble etc. generally occurred, the ultrasonic calorimeter straight length structure that a kind of crushing is little, be not easy to produce eddy flow and bubble is provided.

For realizing above purpose, the technical scheme of the utility model is a kind of ultrasonic calorimeter straight length structure, comprises body; The probe connecting hole is arranged on the tube wall, it is characterized in that, described body is provided with two ball-type curve rectifier tanks; An end is provided with catoptron in the described ball-type curve rectifier tank; The other end is provided with transducer in the described ball-type curve rectifier tank, and described transducer top is provided with the transducer pressing plate, and described transducer pressing plate is fixedly connected with body; Described catoptron bottom is provided with the catoptron pressure ring; Described catoptron pressure ring is fixedly connected with body, is arranged with mozzle in the body between described two ball-type curve rectifier tanks, and described mozzle and body are fitted.A pair of temperature sensor is installed in respectively on the ascending tube and down pipe through heat transport fluid; Flowmeter is installed on fluid intake or the recirculatory pipe; Flowmeter sends the pulse signal that is directly proportional with flow; A pair of temperature sensor provides the simulating signal of expression temperature height, and the integrating instrument collection utilizes the integrating formula to calculate the heat that heat-exchange system obtains from the signal of flow and temperature sensor; The utility model is installed catoptron at the mozzle two ends position has increased by two ball-type curve rectifier tanks, solved crushing big, be easy to generate problems such as eddy flow and bubble.

As preferably, be provided with the transducer pressure ring between described transducer and the transducer pressing plate.Between transducer and the transducer pressing plate transducer pressure ring is arranged, the transducer pressure ring can make transducer and body closely cooperate, and increases the stability of transducing work.

As preferably, described body is provided with dog screw, and described dog screw is threaded with body.Dog screw is arranged on the body, and dog screw is with the mozzle location and be fixed on body inside, prevents moving of mozzle, to the wearing and tearing of catoptron noise, reduces the measuring accuracy of ultrasonic calorimeter.

As preferably, be equipped with O-ring seal between described catoptron pressure ring, transducer and dog screw and the body.O-ring seal is all arranged between catoptron pressure ring, transducer and dog screw and the body, and O-ring seal plays sealing function, prevents that the inner fluid of body from flowing out through the slit between each part.

As preferably, described catoptron pressure ring is provided with the tamper end cap, and described tamper end cap is penetrated mirror pressure ring buckle with the side and is connected.The tamper end cap is arranged on the catoptron pressure ring, the catoptron bottom design tamper lid, effectively prevented user's the behavior of tearing open certainly.

The utlity model has following beneficial effect: former straight length is improved, and the position that catoptron is installed at the mozzle two ends has increased by two ball-type curve rectifier tanks, make it to have solved crushing big, be easy to generate problems such as eddy flow and bubble; The catoptron bottom design tamper lid, effectively prevented user's the behavior of tearing open certainly.

Description of drawings

Fig. 1 is a kind of structural representation of the utility model;

Fig. 2 is a kind of plan structure synoptic diagram of Fig. 1.

1, body; 2, dog screw; 3, transducer pressure ring; 4, transducer pressing plate; 5, transducer; 6, tamper end cap; 7, catoptron pressure ring; 8, catoptron; 9, mozzle; 10, O-ring seal; 11, ball-type curve rectifier tank; 12, probe connecting hole.

Embodiment

Below in conjunction with specific embodiment, and combine accompanying drawing, the technical scheme of the utility model be further described:

Embodiment: ultrasonic calorimeter straight length structure, comprise body 1, probe connecting hole 12 is arranged on body 1 sidewall; Two ball-type curve rectifier tanks 11 are arranged on the body 1, and catoptron 8 is equipped with in the lower end in the ball-type curve rectifier tank 11, and there is transducer 5 upper end in the ball-type curve rectifier tank 11; Transducer pressing plate 4 is equipped with in transducer 5 tops, and transducer pressing plate 4 is connected with body 1 bolt, between transducer 5 and the transducer pressing plate 4 transducer pressure ring 3 is housed; Catoptron pressure ring 7 is equipped with in catoptron 8 bottoms, and catoptron pressure ring 7 is threaded with body 1, and tamper end cap 6 is housed on the catoptron pressure ring 7; Tamper end cap 6 is connected with catoptron pressure ring 7 buckles; Be with mozzle 9 in the body between two ball-type curve rectifier tanks 11, mozzle 9 is fitted with body 1, and dog screw 2 is arranged on the body 1; Dog screw 2 is threaded with body 1, and O-ring seal 10 is all arranged between catoptron pressure ring, transducer and dog screw and the body.

A pair of temperature sensor is installed in respectively on the ascending tube and down pipe through heat transport fluid; Flowmeter is installed on fluid intake or the recirculatory pipe; Flowmeter sends the pulse signal that is directly proportional with flow; A pair of temperature sensor provides the simulating signal of expression temperature height, and the integrating instrument collection utilizes the integrating formula to calculate the heat that heat-exchange system obtains from the signal of flow and temperature sensor; The utility model improves former straight length, and the position that catoptron is installed at the mozzle two ends has increased by two ball-type curve rectifier tanks, make it to have solved crushing big, be easy to generate problems such as eddy flow and bubble; The catoptron bottom design tamper lid, effectively prevented user's the behavior of tearing open certainly.

Above-mentioned embodiment is used for the utility model of explaining; Rather than the utility model limited; In the protection domain of the spirit of the utility model and claim,, all fall into the protection domain of the utility model to any modification and the change that the utility model is made.

Claims

1. a ultrasonic calorimeter straight length structure comprises body, and the probe connecting hole is arranged on the tube wall; It is characterized in that described body is provided with two ball-type curve rectifier tanks, an end is provided with catoptron in the described ball-type curve rectifier tank; The other end is provided with transducer in the described ball-type curve rectifier tank, and described transducer top is provided with the transducer pressing plate, and described transducer pressing plate is fixedly connected with body; Described catoptron bottom is provided with the catoptron pressure ring; Described catoptron pressure ring is fixedly connected with body, is arranged with mozzle in the body between described two ball-type curve rectifier tanks, and described mozzle and body are fitted.

2. ultrasonic calorimeter straight length structure according to claim 1 is characterized in that, is provided with the transducer pressure ring between described transducer and the transducer pressing plate.

3. ultrasonic calorimeter straight length structure according to claim 1 and 2 is characterized in that described body is provided with dog screw, and described dog screw is threaded with body.

4. ultrasonic calorimeter straight length structure according to claim 1 and 2 is characterized in that, is equipped with O-ring seal between described catoptron pressure ring, transducer and dog screw and the body.

5. ultrasonic calorimeter straight length structure according to claim 4 is characterized in that described catoptron pressure ring is provided with the tamper end cap, and described tamper end cap is connected with catoptron pressure ring buckle.