KR102632052B1 - Power supply apparatus for electrical equipment testing equipment - Google Patents

Abstract

As the disclosed power supply device for electrical product testing equipment includes a power supply body member, a current conducting member, and a connection magnet member, it has the advantage of being universally applicable to electrical product testing equipment with a variety of power connection terminals. There is.

Description

Power supply apparatus for electrical equipment testing equipment}

The present invention relates to a power supply device for electrical product testing equipment.

Electrical product test equipment is used to check whether electrical products such as various circuit boards operate normally, and the power supply device for electrical product test equipment is what supplies power to the electrical product test equipment.

An example of a power supply device for electrical product testing equipment is that of the patent document presented below.

However, in the past, while the power connection terminals of the electrical product test equipment were applied in various numbers, such as 2 or 3, the power supply device for the electrical product test equipment was used for testing the electrical products with a various number of power connection terminals. There was a problem in that it could not be universally applied to equipment, and a power supply device for the electrical product test equipment had to be manufactured and applied specifically for each of the electrical product test equipment.

Registered Patent No. 10-1205955, Registration Date: 2012.11.22, Title of Invention: Power supply device for burn-in test system

The purpose of the present invention is to provide a power supply device for electrical product testing equipment that can be universally applied to electrical product testing equipment having a variety of power connection terminals.

According to one aspect of the present invention, a power supply device for electrical product testing equipment includes a base panel containing a magnetic material, a power supply unit connected to the base panel, and electrical energy supplied from the outside through the power supply unit to test the test target. Applies to electrical product testing equipment including a test performance unit that performs testing on electrical products,

a power supply main body that can be placed on the base panel; an electricity conducting member connected to the power supply unit while the power supply main body member is placed on the base panel, and capable of conducting electricity between the power supply unit and an external power source; and such that the power supply main body member is detachably coupled to the base panel by magnetism in a state where the power supply main member is placed on the base panel so that the conductive member can conduct electricity between the power supply unit and the external power source. It includes a connecting magnet member,
The power supply main body member includes a power supply protruding main body formed in a form that stands on the base panel at a predetermined height when the power supply main body member is placed on the base panel, and the power supply main body member is positioned on the base panel. When placed, it includes a power supply extension body that extends from the power supply protruding body to the upper part of the power supply unit,
The power supply protruding body and the power supply extension are made of an insulator, and the connection magnet member is disposed on the bottom of the power supply protruding body and can be connected to the base panel,
When the power supply main body member is placed on the base panel, the current-conducting member is formed in a shape that extends from the power supply extension toward the power supply at a predetermined height and is capable of conducting electricity with the power supply and the current-conducting extension made of an insulator. an electricity-carrying terminal made of a conductor and capable of being inserted into the electricity-carrying extension at a predetermined depth when in contact with the power supply unit for electricity supply, and the electricity-carrying terminal interposed between the electricity-carrying extension and the electricity-carrying terminal and inserted into the electricity-carrying extension. Includes a current-carrying elastic body that can push toward the power supply unit,
The current-carrying member includes a current-carrying side connection magnet that is inserted into the current-carrying terminal so that the current-carrying terminal is detachably coupled to the power supply unit by magnetism,
The power supply device for electrical product testing equipment further includes a clamping member formed on the energizing side connection magnet and the energizing terminal to fix the connection state of the energizing terminal and the power connection terminal,
The clamping member includes a magnet-side recessed hole formed in a shape that is vertically recessed to a predetermined depth from the upper center of the current-side connection magnet, and a magnet that can be inserted into the magnet-side recessed hole and raised and lowered along the magnet-side recessed hole. A side elevation body, a magnet-side elastic body such as a compression spring that is placed at the bottom of the magnet-side depression hole and supports the bottom of the magnet-side elevation body and provides elastic force to the magnet-side elevation body, and a portion of the bottom of the magnet-side depression hole. As long as a pair of outer extensions extend outward from both sides of the current-carrying terminal on extension lines in both lateral directions, and each end of each outer extension is bent upward in parallel with the current-carrying terminal. A pair of outer parallel bodies, a pair of outer lifting holes each elongated in the vertical direction inside each of the outer parallel bodies, the energizing side connection magnet, and the energizing terminal on both sides of the bottom of the magnet side recessed hole. , a pair of outer extension connection holes that pass through each of the outer extensions and each of the outer parallel bodies to communicate with the bottom of the magnet side recessed hole and each of the outer lifting holes, respectively, and a connection between the current carrying terminal and the power connection terminal. It includes a pair of protruding tong members that protrude from each of the outer lifting holes to grip each outer surface of the power connection terminal so that the state can be fixed,
In a state where the energizing terminal and the power connection terminal are not in contact, the magnet-side elevating body is raised by the elastic force of the magnet-side elastic body, and the upper part of the magnet-side elevating body is outside the magnet-side recessed hole. is in a protruding state, and each of the protruding tong members remains inserted into each of the outer lifting holes,
When the energizing terminal and the power connection terminal come into contact, the magnet-side elevating body is pushed by the power connection terminal and is lowered into the magnet-side recessed hole, and thus the air inside the magnet-side recessed hole is transferred to the magnet side. A state in which each protruding clamp member is raised from each outer lifting hole and can pinch each outer surface of the power connection terminal by being compressed while being pressed by a lifting body and flowing into each of the outer lifting holes through each of the outer extension connection holes. becomes,
The protruding tong member includes a protruding clamping elevating member that can be raised and lowered along the outer elevating hole, and is formed on an upper part of the protruding clamping elevating member and protrudes by a predetermined length toward the outside of the current-carrying terminal compared to the protruding clamping elevating member. a protruding clamping tongs body consisting of a protruding clamping tongs body, a protruding clamping through hole formed in the vertical direction of the protruding clamping elevating body so that the outer elevating hole and the bottom communicate with each other, and a portion of the protruding clamping tongs body facing the outer surface of the current-carrying terminal; A protruding clamping tongs moving hole formed in a shape that penetrates the protruding clamping tongs body so that the protruding clamping through hole communicates with it, and an external part that can protrude out of the protruding clamping tongs body while moving along the protruding clamping tongs moving hole. It includes a protruding moving tong and a protruding clamping through opening/closing valve connected to the bottom of the protruding clamping elevating body, capable of opening and closing the bottom of the protruding clamping through hole, and made of an elastic material in the form of a flat plate,
When the energizing terminal and the power connection terminal come into contact, the protruding clamping through-opening/closing valve is maintained in a closed state, and the protruding clamping elevating body rises due to the pressure of air flowing into the outer elevating hole, thereby causing the protruding clamping elevating body to rise. As the protruding clamping lifting body and the protruding clamping tongs body protrude into the upper space of the outer elevating hole, the external protruding moving tongs face the power connection terminal at a distance from each other,
When the pressure of the air flowing into the outer lifting hole reaches the preset lifting pressure and the protruding clamping through opening/closing valve yields, the protruding clamping through opening/closing valve opens the protruding clamping through hole, and accordingly, the protruding clamping through opening/closing valve opens the protruding clamping through hole. As the lifting and lowering of the sieve is stopped, some of the air flowing into the outer lifting hole rises through the protruding clamping through hole and then flows into the protruding clamping claw moving hole, so that the external protruding moving claw moves inside the protruding clamping claw moving hole. By being pushed out, the external protruding moving tongs come into contact with the outer wall of the power connection terminal, allowing the protruding tong member to grip the outer wall of the power connection terminal.

According to the power supply device for electrical product testing equipment according to one aspect of the present invention, as the power supply device for electrical product testing equipment includes a power supply main body member, an electricity conducting member, and a connection magnet member, various numbers of power sources are provided. It has the effect of being universally applicable to electrical product testing equipment with connection terminals.

Figure 1 is a front view showing the power supply for electrical product testing equipment according to the first embodiment of the present invention connected to the electrical product testing equipment.
Figure 2 is a perspective view of the power supply for electrical product testing equipment according to the first embodiment of the present invention, viewed obliquely from above.
Figure 3 is an enlarged cross-sectional view of a portion of the power supply device for electrical product testing equipment according to the first embodiment of the present invention.
Figure 4 is an upside down view of the power supply for electrical product testing equipment according to the second embodiment of the present invention, looking down from above.
Figure 5 is a view looking down from above of the power supply device for electrical product testing equipment according to the third embodiment of the present invention.
Figure 6 is an enlarged cross-sectional view of a portion of a power supply device for electrical product testing equipment according to a fourth embodiment of the present invention.
Figure 7 is an enlarged cross-sectional view of part of the portion shown in Figure 6.

Hereinafter, a power supply device for electrical product testing equipment according to embodiments of the present invention will be described with reference to the drawings.

Figure 1 is a front view showing the power supply for electrical product testing equipment according to the first embodiment of the present invention connected to the electrical product testing equipment, and Figure 2 is a front view showing the power supply for electrical product testing equipment according to the first embodiment of the present invention. It is a perspective view of the turned-over power supply device viewed obliquely from above, and Figure 3 is an enlarged cross-sectional view of a portion of the power supply device for electrical product test equipment according to the first embodiment of the present invention.

Referring to FIGS. 1 to 3 together, the power supply device 100 for electrical product testing equipment according to this embodiment is applied to the electrical product testing equipment 1, and includes a power supply main body member 110 and a current conducting member. It includes (120) and a connection magnet member (140).

The electrical product testing equipment 1 includes a base panel 10 containing a magnetic material such as iron, a power supply unit 30 connected to the base panel 10, and supply from the outside through the power supply unit 30. It includes a test performance unit 20 that receives electrical energy and performs a test on the electrical product being tested.

The base panel 10 is formed in the shape of a large plate with a predetermined area, and the power supply unit 30 and the test performing unit 20 are combined on the base panel 10, and the power supply unit 30 is It is connected to the test performing unit 20 for electricity supply.

The power supply body member 110 can be placed on the base panel 10 and includes a power supply protruding body 111 and a power supply extension body 112.

The power supply protruding body 111 is formed to stand at a predetermined height on the base panel 10 when the power supply main body member 110 is placed on the base panel 10.

The power supply extension body 112 is formed to extend from the power supply protruding body 111 to the sky above the power supply unit 30 when the power supply main body member 110 is placed on the base panel 10. It will happen.

The power supply protruding body 111 is formed in the form of a wall with a predetermined thickness and a predetermined height, and the power supply extension 112 is formed in a vertically bent form at the top of the power supply protruding body 111, The power supply main body member 110 may be formed overall in an 'L' shape.

A support side wall 115 is formed on one side of the power supply protrusion body 111 and the power supply extension body 112, and the power supply is supplied by the power supply protrusion body 111 and the support side wall 115. The supply body member 110 can be stably erected.

The power supply protruding body 111, the power supply extension 112, and the support side wall 115 may be made of an insulator such as plastic.

The connection magnet member 140 is connected to the power supply body member 110 when the power supply body member 110 is placed on the base panel 10 so that the conductive member 120 can conduct electricity between the power supply unit 30 and an external power source. The power supply body member 110 is magnetically coupled to the base panel 10 in a detachable manner.

The connection magnet member 140 is disposed on the bottom surface of the power supply protruding body 111 and can be connected to the base panel 10 by magnetic force.

The connecting magnet member 140 may be composed of a plurality of pieces and arranged to be spaced apart from each other on the bottom surface of the power supply protruding body 111.

The electricity conducting member 120 is connected to the power supply unit 30 while the power supply main body member 110 is placed on the base panel 10, and can conduct electricity between the power supply unit 30 and the external power source. It includes an energizing extension body 121, an energizing terminal 130, and an energizing elastic body 125.

The electricity-conducting extension body 121 is formed to extend at a predetermined height from the power supply extension body 112 toward the power supply unit 30 when the power supply body member 110 is placed on the base panel 10. It is made of insulating material such as plastic.

The energizing terminal 130 is made of a conductor such as copper to enable energization with the power supply unit 30, and is inserted into the energizing extension body 121 at a predetermined depth when contacted for energization with the power supply part 30. It is possible.

The energizing elastic body 125 is interposed between the energizing extension 121 and the energizing terminal 130 and can push the energizing terminal 130 inserted into the energizing extension 121 toward the power supply unit 30. As such, compression springs can be presented as an example.

The electricity-carrying extension body 121 protrudes from the bottom of the power supply extension body 112 in parallel with the power supply protruding body 111, and the electricity-carrying terminal 130 protrudes from the electricity-carrying extension body 121 in the shape of a circular cylinder. It will happen.

A power connection terminal 35 connected to the test performance unit 20 is protruding from the upper part of the power supply unit 30, and the external power supply terminal 35 is brought into contact with the power terminal 130. and the test performing unit 20 can be energized.

A hole 122 into which the lower portion of the current-carrying terminal 130 can be inserted is formed inside the current-carrying extension body 121, and the current-carrying elastic body 125 is inserted into the hole 122 to form the current-carrying terminal ( When 130) is in contact with the power connection terminal 35, the energizing terminal 130 may be partially inserted into the hole 122 of the energizing extension body 121, and the energizing elastic body 125 As a result, the energizing terminal 130 is pushed so that contact between the energizing terminal 130 and the power connection terminal 35 can be made reliably.

Since the energizing terminal 130 is in a state of being energized with the external power source, the external power source and the test performing unit 20 can be energized through the energizing terminal 130 and the power connection terminal 35.

The conductive member 120 may be composed of a plurality of pieces and may be formed to be spaced apart from each other on the bottom of the power supply extension 112, and may be formed in accordance with the number of power connection terminals 35 formed according to the electrical appliance being tested. Since the corresponding number of energizing members 120 can be used for energizing, it can be universally applied to the electrical product testing equipment 1 having various numbers of power connection terminals 35.

Meanwhile, the energizing member 120 is inserted into the energizing terminal 130 so that the energizing terminal 130 can be attached or detached from the power supply unit 30 (specifically, the power connection terminal 35) by magnetism. It may include a connection magnet 135 on the energized side that allows for proper coupling.

The body of the energizing side connection magnet 135 is inserted into the inside of the energizing terminal 130, and the upper surface of the energizing side connection magnet 135 is exposed to the upper surface of the energizing terminal 130, When the current-carrying terminal 130 is in contact with the power connection terminal 35, the current-side connection magnet 135 is magnetically coupled to the power connection terminal 35, thereby connecting the current-carrying terminal 130 and the power supply. Ensure stable electricity supply to terminal 35.

As described above, as the power supply device 100 for electrical product testing equipment includes the power supply body member 110, the current conducting member 120, and the connecting magnet member 140, various numbers of It can be universally applied to the electrical product test equipment (1) having the power connection terminal (35).

Hereinafter, a power supply device for electrical product testing equipment according to other embodiments of the present invention will be described with reference to the drawings. In carrying out this description, descriptions that overlap with those already described in the above-described embodiment of the present invention will be replaced and omitted here.

Figure 4 is a view looking down from above of the power supply device for electrical product testing equipment according to the second embodiment of the present invention.

Referring to Figure 4, in this embodiment, support side walls 215 are formed on both sides of the power supply protruding body 211 and the power supply extension body 212 to face each other, so that the power supply protruding body ( 211) and the pair of support side walls 215 allow the power supply main body member 210 to be erected more stably.

Figure 5 is a view looking down from above of the power supply device for electrical product testing equipment according to the third embodiment of the present invention.

Referring to Figure 5, in this embodiment, support side walls 315 are formed on both sides of the power supply protrusion body 311 and the power supply extension body 312 to face each other, and the power supply protrusion body ( The length of 311) and the length of the support side wall 315 are the same.

FIG. 6 is an enlarged cross-sectional view of a portion of a power supply device for electrical product testing equipment according to a fourth embodiment of the present invention, and FIG. 7 is an enlarged cross-sectional view of a portion of the portion shown in FIG. 6.

Referring to FIGS. 6 and 7 together, the power supply device for electrical product testing equipment according to this embodiment is formed on the energizing side connection magnet 435 and the energizing terminal 430 to connect the energizing terminal 430 and the power supply. It further includes a clamping member 450 that fixes the connection state of the connection terminal.

The clamping member 450 is inserted into the magnet-side recessed hole 451, which is formed to be vertically recessed to a predetermined depth from the upper center of the energizing side connection magnet 435, and the magnet-side recessed hole 451. A magnet-side elevating body 452 that can be raised and lowered along the magnet-side recessed hole 451, and a magnet-side elevating body 452 that is placed on the bottom of the magnet-side recessed hole 451 and supports the bottom of the magnet-side elevating body 452. A magnet-side elastic body 453 such as a compression spring that provides elastic force to the magnet-side elevating body 452, and an amount of the current-carrying terminal 430 on an extension line in the direction of both sides of the bottom of the magnet-side recessed hole 451. A pair of outer extensions 462 and 467 extending outward from the side, respectively, and each end of each of the outer extensions 462 and 467 being bent upward in parallel with the conductive terminal 430. A pair of outer parallel bodies (460, 465), a pair of outer lifting holes (461, 466) formed inside each of the outer parallel bodies (460, 465) in the vertical direction, respectively, and a depression on the magnet side. Penetrating through the energizing side connection magnet 435, the energizing terminal 430, each of the outer extensions 462, 467, and each of the outer parallel bodies 460, 465 in the direction of both sides of the bottom of the hole 451. A pair of outer extension connection holes (454, 455) that communicate with the bottom of the magnet side recessed hole (451) and each of the outer lifting holes (461, 466), respectively, and a connection between the energizing terminal (430) and the power supply. It includes a pair of protruding tong members (470, 490) that protrude from each of the outer lifting holes (461, 466) and are capable of gripping each outer surface of the power connection terminal so that the connection state of the terminal is fixed.

In a state where the energizing terminal 430 and the power connection terminal are not in contact, the magnet-side lifting body 452 is raised by the elastic force of the magnet-side elastic body 453, and the magnet-side lifting body ( The upper part of 452) protrudes out of the magnet side recessed hole 451, and each of the protruding clamp members 470 and 490 remains inserted into each of the outer lifting holes 461 and 466. .

Then, when the energizing terminal 430 and the power connection terminal come into contact, the magnet-side lifting body 452 is pushed by the power connection terminal and is lowered into the magnet-side recessed hole 451, thereby The air inside the magnet-side recessed hole 451 is compressed while being pressed by the magnet-side elevating body 452 and passes through each of the outer extending connection holes 454 and 455 into each of the outer elevating holes 461 and 466. As the protruding clamp members 470 and 490 rise from each of the outer lifting holes 461 and 466, they are in a state where they can grip each outer surface of the power connection terminal.

At this time, the magnet side elastic body 453 is accumulating restoring force, and when the current carrying terminal 430 and the power connection terminal are switched to a state in which they are not in contact, the magnet side elastic body 453 uses the restoring force. The magnet-side lifting body 452 rises again, and as a result, negative pressure is formed inside the magnet-side recessed hole 451, and the air that has flowed into each of the outer lifting holes 461 and 466 flows into the respective outer lifting holes 461 and 466. It can be returned to the magnet-side recessed hole 451 through the outer extension connection holes 454 and 455, and each of the protruding clamp members 470 and 490 is lowered again from each of the outer elevating holes 461 and 466. It can be returned to its original position.

Hereinafter, the specific configuration of one of the protruding tong members 470 and 490 (470) will be described. However, this description can be equally applied to the other one (490) of the protruding tong members (470 and 490). , the overlapping explanation will be replaced and omitted here.

One of the protruding tong members 470 and 490 (470) includes a protruding clamping elevating body 471 that can be elevated along one of the outer elevating holes 461 and 466 (461), and the protruding clamping elevating body ( A protruding clamping tong body 472 formed on the upper part of the protruding clamping elevating body 471 and protruding by a predetermined length toward the outside of the energizing terminal 430 compared to the protruding clamping elevating body 471, and the outer elevating hole 461 , 466), a protruding clamping through hole 473 formed in the vertical direction of the protruding clamping lifting body 471 so that the bottom communicates with one 461 of the protruding clamping tongs body 472, and the energizing terminal ( A protruding clamping tongs moving hole 474 formed in a shape that penetrates the protruding clamping tongs body 472 so that the portion facing the outer surface of 430 and the protruding clamping through hole 473 communicate with each other, and the protruding clamping tongs moving hole. External protruding moving tongs 475 that can protrude to the outside of the protruding clamping tongs body 472 while moving along (474), and connected to the bottom of the protruding clamping lifting body 471 to the protruding clamping through hole ( 473) and includes a protruding clamping through opening/closing valve 476 that can open and close the bottom of the valve and is made of an elastic material such as rubber in the form of a flat plate.

When configured as above, when the energizing terminal 430 and the power connection terminal come into contact, the protruding clamping through opening/closing valve 476 is maintained in a closed state, and the protruding clamping lifting body 471 is moved to the outer side. It rises due to the pressure of air flowing into one of the lifting holes (461, 466) (461), and accordingly, the protruding clamping lifting body (471) and the protruding clamping claw body (472) move to the outer lifting hole (461). , 466), while protruding into the upper space of one 461, the external protruding moving tongs 475 face the power connection terminal at a distance from each other.

In this state, when the pressure of air flowing into one of the outer lifting holes 461 and 466 (461) reaches a preset lifting pressure and the protruding clamping through opening/closing valve 476 yields, the protruding clamping through opening/closing valve 476 yields. The opening/closing valve 476 opens the protruding clamping through hole 473, and thus the lifting and lowering of the protruding clamping elevating body 471 is stopped and moves to one of the outer elevating holes 461 and 466 (461). Some of the introduced air rises through the protruding clamping through hole 473 and then flows into the protruding clamping tongs moving hole 474, so that the external protruding moving tongs 475 move through the protruding clamping tongs moving hole 474. By being pushed out from the inside, the external protruding moving tongs 475 come into contact with the outer wall of the power connection terminal, and one of the protruding tong members 470 and 490 (470) grips the outer wall of the power connection terminal. It is possible to do so, and the other one (490) of the protruding clamp members (470, 490) also pinches the outer wall of the power connection terminal, and the protruding clamp members (470, 490) both pinch each outer surface of the power connection terminal. It becomes possible.

Meanwhile, one of the protruding clamping members 470 and 490 (470) extends the protruding clamping through hole 473 in the vertical direction of the protruding clamping lifting body 471 so that its bottom is in communication with the protruding clamping through hole 473. A shock absorbing hole 477 formed through and parallel to the shock absorbing hole 477, a shock absorbing elevating member 479 that can be moved up and down along the inside of the shock absorbing hole 477, the protruding clamping through hole 473, and the shock absorbing It further includes a shock absorbing opening/closing valve 478 that can open and close the connected inlet of the hole 477 and is made of an elastic material such as rubber in the form of a flat plate.

When the protruding clamping through opening/closing valve 476 opens and air with a pressure lower than the preset impact pressure flows into the protruding clamping through hole 473 so that the external protruding movement tongs 475 can move, The shock absorption opening/closing valve 478 maintains the entrance to the shock absorption hole 477 in a closed state.

Then, an external impact (such as when the magnet-side lifting body 452 collides with the power connection terminal) is applied to the magnet-side lifting body 452, causing the When air with a pressure higher than the set shock pressure flows in, the shock absorbing on/off valve 478 yields and opens the entrance to the shock absorbing hole 477, thereby flowing into the protruding clamping through hole 473. Some of the air flows into the shock absorption hole 477, causing the shock absorption elevating member 479 to rise to the top of the shock absorption hole 477, and the air inside the protruding clamping through hole 473 The pressure is relieved to a certain level, thereby preventing the external protruding moving tongs 475 from impacting the outer surface of the power connection terminal.

When a predetermined time elapses, the shock absorbing elevating body 479 rises to the upper part of the shock absorbing hole 477 and the upper space of the shock absorbing elevating body 479 among the shock absorbing holes 477 is compressed. As the shock absorbing elevating member 479 is lowered again due to the pressure of the air, the air flowing into the lower space of the shock absorbing elevating member 479 among the shock absorbing holes 477 flows into the protruding clamping through hole 473. ) is slowly re-introduced into the inside, and accordingly, the external protruding moving tongs 475 press the outer surface of the power connection terminal with stronger pressure.

Although the present invention has been shown and described in relation to specific embodiments in the above, those skilled in the art can modify the present invention in various ways without departing from the spirit and scope of the present invention as set forth in the claims below. You will see that it can be changed. However, we would like to make it clear that all such modifications and modified structures are included within the scope of the present invention.

According to the power supply device for electrical product testing equipment according to one aspect of the present invention, it can be universally applied to electrical product testing equipment with a variety of power connection terminals, so it can be said to have high industrial applicability.

100: Power supply device for electrical product testing equipment
110: Power supply body member
120: Absence of electricity supply
140: Connection magnet member

Claims (5)

Electrical product testing including a base panel containing a magnetic material, a power supply unit connected to the base panel, and a test performance unit that receives electrical energy supplied from the outside through the power supply unit and performs a test on the electrical product being tested. As a power supply device for electrical product test equipment applied to equipment,
a power supply main body that can be placed on the base panel;
an electricity conducting member connected to the power supply unit while the power supply main body member is placed on the base panel, and capable of conducting electricity between the power supply unit and an external power source; and
In a state where the power supply body member is placed on the base panel so that the power supply member can conduct electricity between the power supply unit and the external power source, the power supply body member is detachably coupled to the base panel by magnetism. Includes a connecting magnet member;
The power supply main body member is
a power supply protruding body formed to stand at a predetermined height on the base panel when the power supply main body member is placed on the base panel; and a power supply protruding body formed when the power supply main body member is placed on the base panel. It includes a power supply extension body that extends from the main body to the upper part of the power supply unit,
The power supply protruding body and the power supply extension are made of an insulator, and the connection magnet member is disposed on the bottom of the power supply protruding body and can be connected to the base panel,
When the power supply main body member is placed on the base panel, the current-conducting member is formed in a shape that extends from the power supply extension toward the power supply at a predetermined height and is capable of conducting electricity with the power supply and the current-conducting extension made of an insulator. an electricity-carrying terminal made of a conductor and capable of being inserted into the electricity-carrying extension at a predetermined depth when in contact with the power supply unit for electricity supply, and the electricity-carrying terminal interposed between the electricity-carrying extension and the electricity-carrying terminal and inserted into the electricity-carrying extension. Includes a current-carrying elastic body that can push toward the power supply unit,
The current-carrying member includes a current-carrying side connection magnet that is inserted into the current-carrying terminal so that the current-carrying terminal is detachably coupled to the power supply unit by magnetism,
The power supply device for the electrical product test equipment is
It further includes a clamping member formed on the energizing side connection magnet and the energizing terminal to fix the connection state of the energizing terminal and the power connection terminal,
The clamping member includes a magnet-side recessed hole formed in a shape that is vertically recessed to a predetermined depth from the upper center of the current-side connection magnet, and a magnet that can be inserted into the magnet-side recessed hole and raised and lowered along the magnet-side recessed hole. A side elevation body, a magnet-side elastic body such as a compression spring that is placed at the bottom of the magnet-side depression hole and supports the bottom of the magnet-side elevation body and provides elastic force to the magnet-side elevation body, and a portion of the bottom of the magnet-side depression hole. As long as a pair of outer extensions extend outward from both sides of the current-carrying terminal on extension lines in both lateral directions, and each end of each outer extension is bent upward in parallel with the current-carrying terminal. A pair of outer parallel bodies, a pair of outer lifting holes each elongated in the vertical direction inside each of the outer parallel bodies, the energizing side connection magnet, and the energizing terminal on both sides of the bottom of the magnet side recessed hole. , a pair of outer extension connection holes that pass through each of the outer extensions and each of the outer parallel bodies to communicate with the bottom of the magnet side recessed hole and each of the outer lifting holes, respectively, and a connection between the current carrying terminal and the power connection terminal. It includes a pair of protruding tong members that protrude from each of the outer lifting holes to grip each outer surface of the power connection terminal so that the state can be fixed,
In a state where the energizing terminal and the power connection terminal are not in contact, the magnet-side elevating body is raised by the elastic force of the magnet-side elastic body, and the upper part of the magnet-side elevating body is outside the magnet-side recessed hole. is in a protruding state, and each of the protruding tong members remains inserted into each of the outer lifting holes,
When the energizing terminal and the power connection terminal come into contact, the magnet-side elevating body is pushed by the power connection terminal and is lowered into the magnet-side recessed hole, and thus the air inside the magnet-side recessed hole is transferred to the magnet side. A state in which each protruding clamp member is raised from each outer lifting hole and can pinch each outer surface of the power connection terminal by being compressed while being pressed by a lifting body and flowing into each of the outer lifting holes through each of the outer extension connection holes. becomes,
The protruding tong member includes a protruding clamping elevating member that can be raised and lowered along the outer elevating hole, and is formed on an upper part of the protruding clamping elevating member and protrudes by a predetermined length toward the outside of the current-carrying terminal compared to the protruding clamping elevating member. a protruding clamping tongs body consisting of a protruding clamping tongs body, a protruding clamping through hole formed in the vertical direction of the protruding clamping elevating body so that the outer elevating hole and the bottom communicate with each other, and a portion of the protruding clamping tongs body facing the outer surface of the current-carrying terminal; A protruding clamping tongs moving hole formed in a shape that penetrates the protruding clamping tongs body so that the protruding clamping through hole communicates with it, and an external part that can protrude out of the protruding clamping tongs body while moving along the protruding clamping tongs moving hole. It includes a protruding moving tong and a protruding clamping through opening/closing valve connected to the bottom of the protruding clamping elevating body, capable of opening and closing the bottom of the protruding clamping through hole, and made of an elastic material in the form of a flat plate,
When the energizing terminal and the power connection terminal come into contact, the protruding clamping through-opening/closing valve is maintained in a closed state, and the protruding clamping elevating body rises due to the pressure of air flowing into the outer elevating hole, thereby causing the protruding clamping elevating body to rise. As the protruding clamping lifting body and the protruding clamping tongs body protrude into the upper space of the outer elevating hole, the external protruding moving tongs face the power connection terminal at a distance from each other,
When the pressure of the air flowing into the outer lifting hole reaches the preset lifting pressure and the protruding clamping through opening/closing valve yields, the protruding clamping through opening/closing valve opens the protruding clamping through hole, and accordingly, the protruding clamping through opening/closing valve opens the protruding clamping through hole. As the lifting and lowering of the sieve is stopped, some of the air flowing into the outer lifting hole rises through the protruding clamping through hole and then flows into the protruding clamping claw moving hole, so that the external protruding moving claw moves inside the protruding clamping claw moving hole. By being pushed out, the external protruding moving tongs come into contact with the outer wall of the power connection terminal, allowing the protruding tong member to grip the outer wall of the power connection terminal. . delete delete delete delete