CN201683957U - Electromagnetic shock wave source - Google Patents

Abstract

The utility model discloses an electromagnetic shock wave source, which comprises an outer casing, a water sac, an electromagnetic shock wave source and a radiation component. The water sac is arranged above the outer casing, the electromagnetic shock wave source is arranged inside the outer casing corresponding to the water sac, the radiation component comprises a refrigerating sheet and a radiation fan, the refrigerating sheet comprises a cold end and a hot end, the cold end of the refrigerating sheet contacts with the electromagnetic shock wave source, and the hot end of the refrigerating sheet contacts with the radiation fan. The shock wave source has more excellent cooling effect, can realize miniaturization and microminiaturization for the shock wave source, can be used for an extracorporeal shock wave stone crusher, a shock wave therapy machine, a shock wave physical instrument, a shock wave weight reduction machine and the like.

Description

The electromagnetic impact wave source

Technical field

This utility model relates to a kind of electromagnetic impact wave source, refers specifically to a kind of electromagnetic impact wave source that is used for extra chock wave lithotriptor, shock wave treatment machine, shock wave physiotherapy table and shock wave defatting machine or the like.

Background technology

All electromagnetic impact wave sources in the course of the work, because of the big electric current of coil pass through generate heat, cause the WATER AS FLOW MEDIUM heating up, deal with improperly and can scald the patient.Therefore, the type of cooling of now all electromagnetic impact wave sources all is to provide the recirculated water cooling of lowering the temperature in work process to wave source, the water for cooling cooling has many shortcomings, water tank circulation cooling system except the needs complexity, the most outstanding shortcoming is to have necessarily required two water pipes to enter wave source, and this brings a difficult problem with regard to the miniaturization of giving wave source.

The utility model content

The purpose of this utility model is to provide a kind of electromagnetic impact wave source, and it not only has preferable cooling effect to wave source, and can realize miniaturization, the microminiaturization of shock wave source.

In order to achieve the above object, this utility model is realized by following technical scheme.

A kind of electromagnetic impact wave source, comprise shell, water pocket, electromagnetic impact wave source and radiating subassembly, described water pocket is located at the shell top, the corresponding water pocket of electromagnetic impact wave source is located in the shell, it is characterized in that: described radiating subassembly comprises cooling piece and radiator fan, cooling piece comprises a cold junction and a hot junction, and the cold junction of cooling piece contacts with the electromagnetic impact wave source, and the hot junction of cooling piece contacts with radiator fan.

This utility model beneficial effect is, electromagnetic impact wave source of the present utility model cools off with semiconductor chilling plate, the operation principle of semiconductor chilling plate is to pass through electric current, its the cold junction hot junction that turns cold rapidly then generates heat, require it ceaselessly to freeze, just must produce heat to its hot junction and take away by radiator fan.It not only has preferable cooling effect to the electromagnetic impact wave source, and can realize miniaturization, the microminiaturization of shock wave source.Can be widely used in the electromagnetic impact wave source of extra chock wave lithotriptor, shock wave treatment machine, shock wave physiotherapy table and shock wave defatting machine or the like.

Description of drawings

Fig. 1 is this utility model structural profile sketch map

The specific embodiment

Below in conjunction with accompanying drawing the specific embodiment of the present utility model is done to describe in further detail.

A kind of electromagnetic impact wave source as shown in Figure 1 comprises shell 1, water pocket 2, electromagnetic impact wave source 3 and radiating subassembly, and described water pocket 2 is located at shell 1 top, and water pocket 2 is provided with a gland 21, and gland 21 connects bottom 22, and bottom 22 connects shell 1 top.

A kind of electromagnetic impact wave source as shown in Figure 1, electromagnetic impact wave source 3 corresponding water pockets 2 are located in the shell 1.Electromagnetic impact wave source 3 of the present utility model also includes coil 31, and coil 31 is located on the coil chassis 32.Radiating subassembly described in the utility model comprises cooling piece 41 and radiator fan 42, and cooling piece 41 is a semiconductor chilling plate, and cooling piece 41 comprises a cold junction and a hot junction, and the cold junction of cooling piece 41 contacts with electromagnetic impact wave source 3.In the present embodiment, the cold junction of cooling piece 41 contact coil chassis 32.The hot junction of cooling piece 41 contacts with radiator fan 42, and in the present embodiment, radiator fan 42 contacts with the hot junction of cooling piece 41 by the seat 43 of conducting heat.This utility model also is provided with cooling stand 44 in the both sides of the seat 43 that conducts heat, and cooling stand 44 is used for fixing radiator fan 42; This utility model also is provided with chassis pressure ring 45 in the both sides of cooling piece 41, and chassis pressure ring 45 connects bottom 22.

A kind of electromagnetic impact wave source as shown in Figure 1, in the use, the electromagnetic impact wave source that this utility model is made of semiconductor refrigeration radiating utilizes cooling piece 41 to be close to the solenoid chassis 32 of heating in the course of the work, the heat of cooling piece 41 passes to radiator fan 42 by the seat 43 that conducts heat, by radiator fan 42 heat is dispersed into vent 46, and the cold junction of cooling piece 41 is directly passed to 32 coolings of coil chassis, pass through the chassis pressure ring 45 and bottom 22 conduction coolings of metal in addition, pass to the water of 2 li of water pockets, temperature is reduced.Facts have proved that this cooling effect is very good, realized miniaturization, the microminiaturization of shock wave source, for the application of expanding shock wave lays the foundation.This utility model can be widely used in the electromagnetic impact wave source of extra chock wave lithotriptor, shock wave treatment machine, shock wave physiotherapy table and shock wave defatting machine or the like.

Claims (7)

1. electromagnetic impact wave source, comprise shell, water pocket, electromagnetic impact wave source and radiating subassembly, described water pocket is located on the shell, the corresponding water pocket of electromagnetic impact wave source is located in the shell, it is characterized in that: described radiating subassembly comprises cooling piece and radiator fan, cooling piece comprises a cold junction and a hot junction, and the cold junction of cooling piece contacts with the electromagnetic impact wave source, and the hot junction of cooling piece contacts with radiator fan.

2. electromagnetic impact wave source according to claim 1 is characterized in that: water pocket is provided with a gland, and gland connects bottom, and bottom connects shell.

3. electromagnetic impact wave source according to claim 1 is characterized in that: described electromagnetic impact wave source also includes coil, and coil is located on the coil chassis.

4. electromagnetic impact wave source according to claim 3 is characterized in that: the cold junction contact coil chassis of cooling piece.

5. electromagnetic impact wave source according to claim 1 is characterized in that: radiator fan contacts with the hot junction of cooling piece by the seat that conducts heat.

6. electromagnetic impact wave source according to claim 5 is characterized in that: the both sides of the seat that conducts heat also are provided with cooling stand.

7. electromagnetic impact wave source according to claim 1 is characterized in that: the both sides of cooling piece also are provided with the chassis pressure ring, and the chassis pressure ring connects bottom.

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