CN2509509Y - High-frequency induction fast hot water transducer - Google Patents

Abstract

The utility model relates to a high-frequency induction fast hot water transducer, which comprise an upper water sleeve end head and a lower water sleeve end head, wherein, the upper water sleeve end head is provided with a water outlet, and the lower water sleeve end head is provided with a water inlet; the utility model also has a water sleeve casing whose outer wall has an insulation heat preservation layer that is winded with coil, and the outside of the coil is sealed with a protective layer, the coil is connected with the outer high-frequency power supply; moreover, the water sleeve casing is internally provided with a transducer, and clearance is arranged between the inner wall of the water sleeve casing and the outer wall of the transducer; the upper water sleeve end head and the lower water sleeve end head are respectively stuck together by use of an adhesive layer and the two ends of the water sleeve casing, and the transducer is sealed at the middle of the water sleeve casing. By use of the heat produced by the high-frequency induction, the utility model quickly increases the water temperature so as to achieve the aim of providing heating hot water and living hot water and realize the effect of opening and heating. Besides, due to the heat produced by electromagnetic vortex technology, the utility model separates water and electricity, thereby greatly improving the safety and reliability.

Description

High-frequency induction rapid hot water transducing head

Affiliated technical field

The utility model relates to the electricity consumption heating equipment of a kind of heating hot water, life usefulness hot water.

Background technology

Existing heating hot water, life all adopt electric heating tube to heat with hot water, and its heating efficiency is low and need heat storage water tank; Electric heating tube is inner electrothermal wire heating in addition, heat can be delivered in the water through insulation material and metal shell, in case the insulating materials of electric heating tube and metal shell damage produce electric leakage, its consequence is hardly imaginable.

Summary of the invention

Of the present utility model in the face of being to provide a kind of high-frequency induction rapid hot water transducing head, the heat that it utilizes the high-frequency induction eddy current to produce improves water temperature to reach rapidly provides heating hot water and the purpose of life with hot water, and can reach the effect of instant-heating.

The technical solution of the utility model is as follows:

A kind of high-frequency induction rapid hot water transducing head comprises: a upper water sleeve termination and a lower water jacket termination, and the upper water sleeve termination is provided with the water outlet interface, and the lower water jacket termination is provided with into water interface; One water jacket shell, its outer wall has the thermal insulating layer, and the thermal insulating layer is tied with coil outward, and the outside of coil is sealed by protective layer, and coil is connected with the external high frequency power supply; The inside of water jacket shell is provided with transducer, and is gapped between the inwall of water jacket shell and the outer wall of transducer; Upper water sleeve termination and lower water jacket the termination two ends by rubberised layer and water jacket shell respectively bond together and transducer are enclosed in the centre of water jacket shell.

As the further feature of technology, also have:

Transducer is the sealing drum structure, is provided with each four L shaped stent support up and down between the inwall of itself and water jacket shell.

Transducer is a ring pipe, and insert respectively in the groove that upper water sleeve termination and lower water jacket termination match with it at the two ends of this ring pipe.

Inner water sleeve is equipped with in the inside of ring pipe, leaves the gap between the two, and the two ends of inner water sleeve are inserted respectively in the groove that upper water sleeve termination and lower water jacket termination match with it and be bonding by rubberised layer.And

The cross section of upper water sleeve termination and lower water jacket termination, water jacket shell, sealing drum and ring pipe, inner water sleeve is circle or ellipse or rectangle or geometries such as square or abnormity.And

The protective layer of described coil outside is insulator shell or rubberised layer.

The material of transducer can be stainless steel or ferrous material.

Described coil is the twisted shape coiling by the multiply enamel-covered wire and forms.

The utility model adopts high-frequency induction to be delivered to magnetic field on the surface of stainless steel in the transducing head or ferrous metal transducer by the insulator shell, utilize electromagnetic eddy to make stainless steel or ferrous metal surface produce heat, make water enter into the heat absorption that can directly rapidly its surface be produced from the water inlet interface, thereby reach the object of the invention from the process of water outlet interface outflow.

Owing to adopt above technical scheme, the utlity model has following advantage:

1, heater area of the present utility model is big, and thermal conversion efficiency is very high, and is more energy-conservation than traditional electric heater, can fully be transformed into heat energy in the water rapidly;

2, do not need heat storage water tank, water by down obtaining heating through the heater surface evenly flows to the process of delivery port, can reach the effect of instant-heating from water inlet;

3, owing to adopt the electromagnetic eddy technology to produce heat, can accomplish electricity separation, improve security reliability greatly.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples.

Fig. 1 is the sectional structural map of first embodiment of the present utility model.

Fig. 2 is a kind of situation (circular configuration) of the A-A cutaway view of Fig. 1.

Fig. 3 is the another kind of situation (rectangular configuration) of the A-A cutaway view of Fig. 1.

Fig. 4 is the sectional structural map of second embodiment of the present utility model.

Fig. 5 is a kind of situation (circular configuration) of the B-B cutaway view of Fig. 4.

Fig. 6 is the another kind of situation (rectangular configuration) of the B-B cutaway view of Fig. 4.

Fig. 7 is the sectional structural map of the 3rd embodiment of the present utility model.

Fig. 8 is a kind of situation (circular configuration) of the C-C cutaway view of Fig. 7.

Fig. 9 is the another kind of situation (rectangular configuration) of the C-C cutaway view of Fig. 7.

The specific embodiment

Referring to shown in Figure 1, present embodiment is a kind of high-frequency induction rapid hot water transducing head that seals the cartridge type transducer.Its structure is: comprising:

An one upper water sleeve termination 4 and a lower water jacket termination 3, upper water sleeve termination 4 is provided with water outlet interface 41, and lower water jacket termination 3 is provided with into water interface 31; One water jacket shell 1, its outer wall has thermal insulating layer 9, is tied with coil 2 outside the thermal insulating layer 9, and described coil 2 can be the twisted shape coiling by the multiply enamel-covered wire and form.The outside of coil 2 is by protective layer 11 sealings, and coil 2 is connected with the external high frequency power supply; The inside of water jacket shell 1 is provided with transducer 5, and this transducer 5 is the sealing drum structure, between the outer wall of the inwall of water jacket shell 1 and transducer 5 gapped 6; Upper water sleeve termination 4 and lower water jacket termination 3 two ends by rubberised layer 12 and water jacket shell 1 respectively bond together and transducer 5 are enclosed in the centre of water jacket shell 1.Be provided with each four L shaped stent support 7 up and down between the inwall of sealing tubular transducer 5 and water jacket shell 1, to guarantee existing of gap 6.As conventional design, upper water sleeve termination 4 and lower water jacket termination 3 and corresponding water outlet interface 41,31 designs of water inlet interface are on same axis.Water outlet interface 41, water inlet interface 31 and external component can adopt the connecting mode of multiple routine, thread connection as shown in the figure etc.

Shown in Fig. 2,3, the cross section of the transducer 5 of upper water sleeve termination 4 and lower water jacket termination 3, water jacket shell 1, sealing tubular all can be circle or ellipse or rectangle or geometries such as square or abnormity.The protective layer 11 of described coil 2 outsides can be insulator shell (illustrating among the figure) or rubberised layer.The material of transducer 5 can be stainless steel or ferrous material.

Water is realized goal of the invention from enter into the heat absorption that can directly rapidly transducer 5 surfaces be produced from the process of water outlet interface 41 outflows (flowing through route as shown by arrows) from water inlet interface 31.

Referring to shown in Figure 4, present embodiment is a kind of high-frequency induction rapid hot water transducing head of circle shaped tube type transducer.The difference of itself and embodiment 1 is: transducer 5 is ring pipe, and insert respectively in the groove 13 that upper water sleeve termination 4 and lower water jacket termination 3 match with it at the two ends of this ring pipe.Because the difference of structure, upper water sleeve termination 4 is designed on different axis with lower water jacket termination 3 and corresponding water outlet interface 41, the interface 31 of intaking, and shifts to install, and has long flow through route and heat exchange effect preferably to guarantee current.

Referring to Fig. 5,6, the cross section of ring pipe can be done circular or oval or rectangle or geometries such as square or abnormity, and all the other are all identical with embodiment 1.

Shown in Fig. 7,8,9, present embodiment is a kind of high-frequency induction rapid hot water transducing head of annular pipe racks inner water sleeve formula transducer.The difference of itself and embodiment 2 is that the inside of annular tubular transducer 5 is equipped with inner water sleeve 10, leave gap 8 between the two, the two ends of inner water sleeve 10 are inserted in the groove 14 that upper water sleeve termination 4 and lower water jacket termination 3 match with it bonding by rubberised layer 12 respectively.All the other structures are all identical with embodiment 2, describe no longer one by one.

Claims (10)

1, a kind of high-frequency induction rapid hot water transducing head is characterized in that, comprises a upper water sleeve termination and a lower water jacket termination, and the upper water sleeve termination is provided with the water outlet interface, and the lower water jacket termination is provided with into water interface; One water jacket shell, its outer wall has the thermal insulating layer, and the thermal insulating layer is tied with coil outward, and the outside of coil is sealed by protective layer, and coil is connected with the external high frequency power supply; The inside of water jacket shell is provided with transducer, and is gapped between the inwall of water jacket shell and the outer wall of transducer; Upper water sleeve termination and lower water jacket the termination two ends by rubberised layer and water jacket shell respectively bond together and transducer are enclosed in the centre of water jacket shell.

2, high-frequency induction rapid hot water transducing head according to claim 1 is characterized in that, described transducer is the sealing drum structure, is provided with each four L shaped stent support up and down between the inwall of itself and water jacket shell and upper and lower water jacket termination.

3, high-frequency induction rapid hot water transducing head according to claim 1 is characterized in that, described transducer is a ring pipe, and insert respectively in the groove that upper water sleeve termination and lower water jacket termination match with it at the two ends of this ring pipe.

4, high-frequency induction rapid hot water transducing head according to claim 3, it is characterized in that, inner water sleeve is equipped with in the inside of ring pipe, leaves the gap between the two, and the two ends of inner water sleeve are inserted respectively in the groove that upper water sleeve termination and lower water jacket termination match with it and be bonding by rubberised layer.

5, high-frequency induction rapid hot water transducing head according to claim 2 is characterized in that, it is square or special-shaped that the cross section of described upper water sleeve termination and lower water jacket termination, water jacket shell, sealing drum is circle or ellipse or rectangle.

6, high-frequency induction rapid hot water transducing head according to claim 3 is characterized in that, it is square or special-shaped that the cross section of described upper water sleeve termination and lower water jacket termination, water jacket shell, ring pipe is circle or ellipse or rectangle.

7, high-frequency induction rapid hot water transducing head according to claim 4 is characterized in that, it is square or special-shaped that the cross section of described upper water sleeve termination and lower water jacket termination, water jacket shell, ring pipe, inner water sleeve is circle or ellipse or rectangle.

8, according to arbitrary described high-frequency induction rapid hot water transducing head in the claim 1 to 7, it is characterized in that described upper water sleeve termination and lower water jacket termination, water jacket shell are insulating materials, described protective layer is insulator shell or rubberised layer.

9, high-frequency induction rapid hot water transducing head according to claim 8 is characterized in that, the material of described transducer is stainless steel or ferrous material.

10, high-frequency induction rapid hot water transducing head according to claim 9 is characterized in that, described coil is the twisted shape coiling by the multiply enamel-covered wire and forms.

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