KR101058168B1 - Standby power reducing apparatus - Google Patents

Abstract

PURPOSE: A standby power reducing apparatus is provided to prevent damage and malfunction by securing the stable operation of each device. CONSTITUTION: In a standby power reducing apparatus, a lower case(10) comprises a first barrier rip(11), a secondary barrier rip(12), and a third barrier rip. A contact element is comprised of a first contact member(21), a second contact member(22), and a third contact member(23). A power control unit member(30) includes a first terminal(31), a second terminal(32), an AC voltage switch(33), and a control PTC(34). An upper case(40) has a protrusion pressing the main PTC eccentrically. A first contact member is comprised of first contact member(21-2), a first support panel(21-3), a first variable contact member(21-4), a firs fitting member, and a first elastic support.

Description

Standby power reduction device {STANDBY POWER REDUCING APPARATUS}

The present invention relates to an apparatus for reducing standby power, and more particularly, to stably reduce standby power applied to an induction motor used in a hermetic compressor by using a thermistor and to be cracked by an eccentric force when the thermistor is cracked. The present invention relates to a standby power reduction device for maintaining the isolation state by the separation of the device.

In general, a thermistor device can be divided into a negative temperature coefficient thermistor (NTC) or a positive temperature coefficient thermistor (PTC), which has a characteristic of decreasing or increasing resistance as the temperature increases, unlike ordinary metals. It can be classified into direct type, heat dissipation type, and delay type, and its appearance is various from enlightenment to coin size.

These thermistors have a low heat capacity, which causes rapid resistance change even with minute temperature changes, and thus are widely used as sensors for temperature control.Thermistors are used for measuring temperature, thermometer, hygrometer, barometer, anemometer, microwave power meter, etc. It is used in various fields as an element for automatic gain adjustment of communication lines and circuit measurement or protection of various devices.

However, when the described PTC is used in various devices, if cracks occur for reasons such as deterioration and sparks, the device must be kept in an insulating state to protect the device. Due to the structural cause of the case, there is a problem that the separation of the cracked device is not made smoothly, causing damage and malfunction of the device.

In addition, the existing case structure for fixing the PTC is to use a separate tool to separate the terminals in contact with the device to secure a space for insertion so that the device is not damaged, and then the device is fixed by the elastic force of the terminal. Therefore, the device installation process is very troublesome.

In order to solve the above problems, the present applicant has invented the Republic of Korea Patent No. 0960987. In the registered patent, when the standby power is applied to the PTC, unnecessary energy is wasted because the reduction structure thereof is not considered. There is this.

The present invention has been made to solve the above-mentioned problems of the prior art, by using the thermistor to stably reduce the standby power applied to the induction motor used in the hermetic compressor by the eccentric force when the crack occurs in the thermistor It is an object of the present invention to provide a standby power reduction device for maintaining an insulated state by clearly separating a cracked device.

In order to achieve the above object, the present invention, the first and second partition walls forming a longitudinally divided space in which the groove is formed on both sides of the groove in which the main PTC is inserted vertically, and the end of the first and second partition walls A lower case having a third partition wall disposed on the side to form a divided space; A first contact member installed inside the first partition wall to support one side surface of the main PTC and extending from the first partition to the space divided by the first partition wall; A second contact member having a second elastic support portion extended to the space divided by the second elastic member, and a third elastic support portion extending inside the second partition wall to support the main PTC other side and extending to the space divided by the third partition wall. A contact element composed of three contact members; First and second terminal portions fixed in contact with the first and second elastic support portions disposed in the space divided by the first and second partition walls, and disposed in the space divided by the third partition walls. An AC voltage switch fixed in contact with the third elastic support, and both terminals are connected to the first and second terminal portions, and a gate terminal is connected to the AC voltage switch, wherein the gate terminal is triggered by a control PTC. A power control member; And an upper case fitted with the lower case and the contact element and having a protruding piece for eccentrically pressing the main PTC with the first and second contact members.

As described above, the apparatus for reducing standby power according to the present invention allows the contact elements arranged by utilizing the space divided by the first to third partition walls to be connected to the triac terminals of the power control member so as to stably maintain the PTC thermistor element. By allowing an alternating voltage to be applied, the contact element supports the device eccentrically to facilitate separation by cracking, thereby ensuring stable operation of various devices and preventing device damage and malfunction.

1 is a perspective view showing a standby power reduction apparatus according to the present invention.
Figure 2 is an exploded perspective view showing a standby power reduction device according to the present invention.
Figure 3 is a plan view showing the arrangement of the contact element in the lower case of the standby power reduction apparatus according to the present invention.
Figure 4 is a circuit diagram showing the connection of the power control member of the standby power reduction apparatus according to the present invention.

Hereinafter, an apparatus for reducing standby power according to the present invention will be described with reference to the drawings.

1 is a combined perspective view showing a standby power reduction device according to the present invention, Figure 2 is an exploded perspective view showing a standby power reduction device according to the present invention, Figure 3 is a lower case of the standby power reduction device according to the present invention It is a top view which shows the arrangement structure of the inner contact element.

The standby power reduction apparatus according to the present invention basically includes first and second partitions 11 and 12 and end portions of the first and second partitions 11 and 12 that form a space in which the main PTC 1 is divided into two sides. The lower case 10 provided with the 3rd partition 13 which is arrange | positioned at the side, and forms the divided space, and is installed in the 1st-3rd partition 11, 12, 13 side, and eccentric the main PTC 1 The contact element 20 supporting the contact element 20, the power control member 30 connected to the contact element 20 to control AC power, and the lower case 10 and the contact element 20 while being fitted to the contact element 20. The upper case 40 is configured to eccentrically pressurize the main PTC 1.

The lower case 10 includes first and second partitions 11 and 12 that form a space divided in a longitudinal direction on both sides of a recess in which a portion of the main PTC 1 of a disc shape is vertically inserted, and the first and second partitions 11 and 12. The second partition 11 and 12 has a structure having a third partition 13 to form a space divided at the end, whereby the first to third partition 11 in the state where the main PTC (1) is inserted into the groove , 12 and 13) and the main PTC 1 is eccentrically supported by the contact element 20 arranged by utilizing the space divided by the partition wall, so that the main PTC ( While the separation of 1) is made, the electrical connection between the contact element 20 and the power control member 30 is easily performed.

The contact element 20 is installed inside the first partition 11 to support one side of the main PTC 1 and the first elastic support 21-1 extends to a space divided by the first partition 11. A second contact member (2-1) extending from the inner side of the first contact member 21 and the second partition 12 to the space divided by the second partition 12 along the outer side ( 22 and a third elastic support 23-1 extending inside the second partition wall 12 to support the other side surface of the main PTC 1 and extending to the space divided by the third partition wall 13. It is composed of a contact member 23, the first to third elastic support parts (21-1, 22-1, 23-1) is connected to the power control member 30 by the elastic force while the first to third partition 11 , 12, 13) to each of them.

Here, the first contact member 21 is erected by the first fixed contact portion 21-2 penetrating the lower case 10 and the first partition wall 11 integrally with the first fixed contact portion 21-2. A first support panel 21-3 supported to be supported, a first variable contact part 21-4 bent in the horizontal direction from the first support panel 21-3 a plurality of times, and extended to have a horizontal portion and an inclined portion; A first partition 21-5 extending upward from the first support panel 21-3 to be fitted into the protrusion of the upper case 40 and a first partition wall bent from the upper side of the first support panel 21-3. The first elastic piece 21-11 inserted into the space divided by (11) and installed at the end is composed of a first elastic support portion 21-1 fixed to the space divided by the first partition wall 11, The first fixed contact portion 21-2 is connected to various devices that require the main PTC 1, and the first variable contact portion 21-4 supports one side of the main PTC 1. Elastic pieces 21-11 can be divided into divided spaces. As the insert pressed in the direction brought into contact with more than a second terminal 32 of the power control member 30, which is described in detail by its restoring force.

In addition, the second contact member 22 extends above the second fixed contact portion 22-2 and the second fixed contact portion 22-2 penetrating the lower case 10 to the protrusion of the upper case 40. The second elastic piece 22-11, which is bent horizontally to the outer side of the second partition wall 12 integrally with the second fitting portion 22-3 to be fitted and the second fixed contact portion 22-2, and is installed at the end. It consists of the 2nd elastic support part 22-1 fixed to the space divided by this 2nd partition, The 2nd fixed contact part 22-2 is the main PTC 1 with the 1st fixed contact part 21-2. The second elastic piece 22-11 is connected to the first terminal portion 31 of the power control member 30 by its restoring force while being pressed in the vertical direction in the divided space. do.

In addition, the third contact member 23 has the same shape as the second support panel 23-2 and the first variable contact part 21-4, which are supported to be upright by the second partition 12, and has the first variable. The second variable contact portion 23-3 extending from the second support panel 23-2 and the second support panel 23-2 so as to have a height difference in a diagonal direction with the contact portion 21-4 are bent from the upper side. It consists of a third elastic support 23-1, which is inserted into the space divided by the third partition 13 and has a third elastic piece 23-11 connected to the AC voltage switch 33 at the end thereof, Is disposed without contact with the second contact member 22, and the second variable contact portion 23-3 eccentrically presses the main PTC 1 together with the first variable contact portion 21-4 when cracking occurs. In order to ensure device isolation, the third elastic piece 23-11 is inserted in the vertical direction in the divided space.

The power control member 30 is fixed in contact with the first and second elastic support parts 21-1 and 22-1 disposed in the space divided by the first and second partitions 11 and 12. An AC voltage switch 33 fixed in contact with the first and second terminal parts 31 and 32 and the third elastic support part 23-1 disposed in the space divided by the third partition wall 13; And a control PTC 34 having both terminals connected to the first and second terminal parts 31 and 32 and a gate terminal connected to the AC voltage switch 33, wherein the gate terminal is separate from the main PTC. Triggered by the personal control PTC 34.

Referring to FIG. 4, the operation principle of the power control member 30 will be described in more detail. When power is applied, a trigger signal is applied to the gate terminal GATE of the AC voltage switch through a control PTC (C-PTC). Thus, A1 and A2 of the AC voltage switch are turned on, and as time passes, the main PTC (M-PTC) increases its resistance to self-heating and the current decreases, and the control PTC (C-PTC) also As the temperature rises due to self-heating, the current flowing through the gate terminal of the AC voltage switch decreases, and the gate signal decreases, thereby reducing the width of the voltage and current applied to A1 and A2, and induction motors of equipment such as hermetic compressors. The standby power applied to the sub-terminal side among the three terminals C (common), M (main), and S (sub) decreases, and the resistor R1 is used for noise reduction.

For reference, the first to third partitions 11, 12, and 13 form an installation space for insulation and connection between the main PTC 1, the contact element 20, and the power control member 30. As described above, various structures may be considered, such as processing each partition structure according to the shape of the contact element 20 or providing an auxiliary support at a position facing the partition.

Claims (4)

First and second partitions 11 and 12 which form a space divided in the longitudinal direction in which the grooves are formed on both sides of the groove into which the main PTC 1 is vertically inserted, and the first and second partitions 11 and 12. A lower case 10 disposed at an end side and having a third partition wall 13 forming a divided space;
A first contact member installed inside the first partition wall 11 to support one side of the main PTC 1 and to extend the first elastic support 21-1 to a space divided by the first partition wall 11; 21, a second contact member 22 in which the second elastic support part 22-1 extends from the inner side of the second partition wall 12 to the space divided by the second partition wall 12, and The third contact member 23 installed inside the second partition 12 to support the other side of the main PTC 1 and to extend the third elastic support 23-1 to the space divided by the third partition 13. A contact element (20) consisting of;
First and second terminal parts fixed in contact with the first and second elastic support parts 21-1 and 22-1 disposed in the space divided by the first and second partition walls 11 and 12. (31, 32), an AC voltage switch (33) fixed in contact with the third elastic support (23-1) disposed in the space divided by the third partition (13), and the first And a power control member 30 which is connected to both terminals of the second terminal portions 31 and 32 and a gate terminal of the AC voltage switch 33, wherein the gate terminal is triggered by the control PTC 34;
The upper case 40 is fitted with the lower case 10 and the contact element 20 and provided with a protruding piece 41 for causing the first and second contact members 21 and 23 to eccentrically press the main PTC. Consisting of;
The first contact member 21 is formed by the first fixed contact portion 21-2 passing through the lower case 10 and the first partition wall 11 integrally with the first fixed contact portion 21-2. The first support panel 21-3 supported to stand upright and the first variable contact part 21-4 bent in the horizontal direction from the first support panel 21-3 a plurality of times to extend to have a horizontal portion and an inclined portion. And a first fitting portion 21-5 extending above the first supporting panel 21-3 and fitted into the protrusion of the upper case 40, and bent from an upper side of the first supporting panel 21-3. First elastic support portion 21-1 in which the first elastic piece 21-11 is inserted into the space divided by the first partition wall 11 and is installed at the end thereof and is fixed to the space divided by the first partition wall 11. Standby power reduction device characterized in that consisting of. delete The method according to claim 1,
The second contact member 22 extends upwardly from the second fixed contact portion 22-2 passing through the lower case 10 and the second fixed contact portion 22-2 to the protrusion of the upper case 40. A second elastic piece 22- bent horizontally to the outer surface of the second partition 12 integrally with the second fitting portion 22-3 to be fitted and the second fixed contact portion 22-2; 11) is a standby power reduction device, characterized in that the second elastic support portion (22-1) is fixed to the space divided by the second partition wall. The method according to claim 1,
The third contact member 23 has the same shape as the second support panel 23-2 and the first variable contact part 21-4 supported by the second partition 12 to be upright, and the first variable contact part. The second variable contact portion 23-3 extending from the second support panel 23-2 and the second support panel 23-2 so as to have a height difference in a diagonal direction with 21-2, is bent from the upper side. The third elastic support 23-1 is inserted into the space divided by the third partition 13 and is provided with a third elastic piece 23-11 connected to the AC voltage switch 33 at an end thereof. Standby power reduction device.

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