KR101195594B1 - Cooling device motor for lacerated observation equipment - Google Patents

Abstract

The present invention relates to a cooler motor for thermal imaging equipment, and to provide a motor for a thermal imaging equipment cooler that provides functionality that can improve the durability by maintaining assembly and with excellent watertightness.
That is, in the present invention, the rotor cover is further installed to be positioned between the rotor which is coupled to the drive shaft and rotates at a high speed and the stator fixed to the motor case to support the drive shaft and to place the stator in a closed structure. It provides a cooler motor for thermal observation equipment that can completely block leakage of helium gas without sealing the assembly hole, and the rotor connected to the inside of the cooler's body is wrapped by the rotor cover which is tightly coupled to the body. It reacts with the stator attached to the motor case in the installed state, and can completely eliminate the problem of leaking helium gas by sealing the stator completely without sealing the wire assembly hole formed in the motor case. It is possible to operate the cooler and improve the observation performance of the thermal imaging equipment. It can be killed.

Description

Cooling device motor for lacerated observation equipment

The present invention relates to a cooler motor for thermal observation equipment, and more particularly, to provide a motor for a thermal observation equipment cooler that provides functionality that can improve the durability by improving assembly as well as maintaining excellent watertightness with the outside. will be.

Cooled infrared detectors, such as thermal imaging cameras and night vision equipment, use photon detectors for observing infrared or thermal images, and these are essentially cooled by a cooler that provides cryogenic temperatures.

The cooler 1 generally used has a compressor piston assembly 3 in which two pistons 3a and 3b are arranged at right angles inside the body 2, as shown in FIGS. 1 and 2. One side of the body 2 is assembled with a regenerator protective cover 4, the regenerator assembly 5 is installed therein.

In addition, the two pistons 3a and 3b are coupled to the eccentric shaft 11a formed on the drive shaft 11 of the motor 10 so that the two pistons 3a and 3b alternately operate inside the body 2. Water-filled helium gas is circulated between the regenerator assembly 5 and the compressor piston assembly 3 so that the temperature of the regenerator protective cover 4 is cooled to cryogenic temperatures of -196 to -200 ° C within 3 to 5 minutes. Doing.

The motor 10 for driving the cooler 1 of this configuration is coupled to the motor case 12 to the body 2 to support the drive shaft 11, the rotor 13 is installed on the drive shaft 11 To rotate at high speed, and the motor case 12 is configured to have a stator 14 to which external power is supplied.

This configuration is connected to the space in which the compressor piston assembly 3 inside the body 2 is installed and the space in which the stator 14 and the rotor 13 inside the motor case 12 are located.

In the case of such a configuration, there is a difficulty in sealing the wire assembly holes 16 and the like in which the wires 15 are assembled together with the interview portions of the body 2 and the motor case 12.

In particular, the sealing of the wire assembly hole 16 to which the wire 15 is assembled must be selected to withstand high pressures in the interior and conform to shrinkage due to seasonal temperature changes. There are many difficulties, and the cause of the failure such as helium gas leak is also the situation occurring around the motor case 12, which is a situation that is required to improve the technology.

The present inventors have developed the present invention to solve the above-mentioned problems in the conventional cooler for thermal imaging equipment, in the present invention, by improving the assembly performance with maintaining the excellent watertightness with the outside, the ability to increase the mechanical durability The present invention has been made with the technical problem in providing the motor of the cooler for thermal imaging equipment to provide.

The motor provided by the present invention as a means for solving the problem is to further install the rotor cover to be located between the rotor is coupled to the drive shaft and rotates at high speed and the stator fixed to the motor case to support the drive shaft and seal the rotor It was located in the structure to provide a cooler motor for thermal observation equipment that can completely block the leakage of helium gas without sealing the wire assembly hole.

In the case of using the cooler motor for thermal observation equipment provided by the present invention, the rotor connected to the inside of the body of the cooler and the stator coupled to the motor case in a state of being installed by being wrapped by a rotor cover tightly coupled to the body and By reacting, it is possible to eliminate the problem of leaking helium gas by completely sealing the rotor side without sealing the wire assembly hole formed in the motor case.

Therefore, stable cooler operation is possible and the observation performance of the thermal imaging equipment can be further improved.

Figure 1 is a front sectional view showing a preferred embodiment of the conventional thermal imaging equipment cooler
Figure 2 is a side cross-sectional view showing a preferred embodiment of the conventional thermal imaging equipment cooler
Figure 3 is a front view showing a preferred embodiment of the cooler for thermal imaging equipment to which the motor provided in the present invention is applied.
Figure 4 is a front sectional view showing a preferred embodiment of the cooler for thermal imaging equipment to which the motor provided in the present invention is applied.
5 is a cross-sectional view of the rotor cover applied to the present invention

Hereinafter, an embodiment of a cooler motor for a thermal imaging apparatus provided by the present invention will be described with reference to the accompanying drawings. However, the same member as in the prior art is to use the same reference numeral to help the understanding of the present invention.

3 and 4 are a front view and a front sectional view showing a preferred embodiment of a cooler for a thermal observation apparatus to which the motor provided in the present invention is applied, Figure 5 is a cross-sectional view of the rotor cover applied to the present invention will be.

The commonly used cooler 1 for thermal imaging equipment includes a compressor piston assembly 3 in which two pistons 3a and 3b are disposed at right angles inside the body 2 as shown in FIGS. 1 and 2. And drive the drive shaft 11 eccentrically coupled to the pistons 3a and 3b by the motor 10, and the regenerator assembly 5 inside the regenerator protective cover 4 assembled on one side of the body 2; 2 pistons 3a and 3b are alternately operated to circulate between the regenerator assembly 5 and the compressor piston assembly 3 with helium gas, which is watertightly filled in the body 2, and the regenerator protection cover 4 ) Is cooled to cryogenic temperatures of -196 ~ -200 ℃ within 3 ~ 5 minutes.

In the present invention, the invention of the motor 10 coupled to the cooler 1 for thermal imaging equipment configured as described above is actively improved and invented.

That is, in the present invention, the configuration of the motor 10, the rotor 13 is coupled to the drive shaft 11, the stator 14 is coupled to the motor case 12, the motor case 12, the external power source The wire 15 is coupled to the wire assembly hole 16 through the wire assembly hole 16 so that the drive shaft 11 and the rotor 13 are sealed by the rotor cover 17.

The rotor cover 17 forms a thin cylinder 17a between the rotor 13 and the stator 14 and forms a shaft 17b at one end of the cylinder 17a to drive the drive shaft 11. It is supported by the bearing 18, the flange (17d) formed with a packing groove (17c) is formed on the side in contact with the body (2), the other end of the cylinder (17a) and the nonferrous metal seal 19 in the packing groove (17c) In the intervening state, the body 2 and the fixing means are fixed by the fastener 20 assembled by bolts and nuts (not shown).

The non-ferrous metal chamber 19 is to select and use a material having excellent ductility, preferably to use lead.

And a screw hole (17e) is formed on the outside of the shaft portion 17b to fix the motor case 12 with the bolt (21).

The rotor cover 17 is made of a nonmagnetic material, and preferably titanium.

In the case of using the cooler motor 10 for thermal imaging equipment provided in the present invention configured as described above, the drive shaft 11 and the rotor 13 are coupled to the body 2 in a state covered with the rotor cover 17. Therefore, it is possible to fully maintain the sealed state inside the cooler (1) is to improve the functionality of the cooler (1) for thermal imaging equipment.

In the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the protection scope of the present invention should not be limited to the described embodiments, but should be defined by equivalents as well as the following claims.

The present invention can be applied to the motor 10 as a driving means for driving the cooler 1 applied to the thermal imaging equipment.

1: cooler (for thermal imaging equipment) 2: body
3: compressor piston assembly 3a, 3b: piston
4: Regenerator Protective Cover 5: Regenerator Assembly
10: motor 11: drive shaft
11a: eccentric shaft 12: motor case
13: rotor 14: stator
15: wire 16: wire assembly hole
17: rotor cover 17a: cylinder
17b: Storage part 17c: Packing groove
17d: flange 17e: threaded
18: Bearing 19: Non-ferrous metal seal
20: Fixture 21: Bolt

Claims (2)

delete The rotor 13 is coupled to the drive shaft 11 to drive the compressor piston assembly 3 installed inside the body 2 of the cooler 1 for thermal imaging equipment, and the stator 14 to the motor case 12. The motor case 12 is coupled to the wire 15 through the wire assembly hole 16 so that external power is supplied to the motor case 12, the drive shaft 11 and the rotor 13 is the rotor cover 17 In the motor 10 configured to be sealed by
The rotor cover 17 forms a thin cylinder 17a between the rotor 13 and the stator 14 and forms a shaft 17b at one end of the cylinder 17a to drive the drive shaft 11. Supported by bearings 18,
The body 2 in a state in which a flange 17d having a packing groove 17c is formed at a side in contact with the body 2, which is the other end of the cylinder 17a, and a nonferrous metal seal 19 is interposed in the packing groove 17c. Cooler motor for thermal imaging equipment, characterized in that the pressurized and fixed by the fastener 20 is assembled by means of bolts and nuts.

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