CN216773819U - Safe type block terminal - Google Patents
Safe type block terminal Download PDFInfo
- Publication number
- CN216773819U CN216773819U CN202123439912.3U CN202123439912U CN216773819U CN 216773819 U CN216773819 U CN 216773819U CN 202123439912 U CN202123439912 U CN 202123439912U CN 216773819 U CN216773819 U CN 216773819U
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- switch
- insulation board
- row
- wire
- copper bar
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Abstract
A safety electrical box comprising: the box, the component mounting panel, the switch, the copper bar, wear row insulation board, copper bar transparent PC guard plate, copper bar insulated column and cubical switchboard door operating handle, component mounting panel and box internal connection, the switch is connected with component mounting panel upper end, the copper bar is connected with the component mounting panel through wearing row insulation board, copper bar transparent PC guard plate passes through the copper bar insulated column and is connected with the component mounting panel, cubical switchboard door operating handle is connected with the box. Wherein, wear to arrange the insulation board and include: the lead-in switch penetration row insulation board, the lead-in switch penetration row hole, the lead-in switch penetration row insulation board mounting hole, the lead-out switch penetration row insulation board, the lead-out switch penetration row hole and the lead-out switch penetration row insulation board mounting hole. Compared with the prior art, the safety protection performance of the distribution box is effectively met through the design of switching the row to the back of the element mounting plate, electric shock is avoided, and safety is improved.
Description
Technical Field
The utility model relates to a distribution box, in particular to a safety distribution box.
Background
Traditional busbar copper bar all installs the surface at the component mounting panel, and design danger is bigger like this, if hide busbar copper bar in other positions, just can improve the security of block terminal by a wide margin. Design like this, can also adjust other structures to improve the whole capacity of block terminal.
In order to solve the above problems, we have made a series of improvements.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a safety distribution box to overcome the defects in the prior art.
A safety type power distribution box comprising: the switch cabinet comprises a box body, an element mounting plate, a switch, a copper bar, a row-penetrating insulating plate, a copper bar transparent PC (polycarbonate) protection plate, a copper bar insulating column and a switch cabinet door operating handle, wherein the element mounting plate is connected with the inside of the box body;
wherein, the row of insulation board includes: the wire-in switch row-penetrating insulation board is connected with the element mounting board through the wire-in switch row-penetrating insulation board mounting hole, the wire-out switch row-penetrating insulation board is arranged on the wire-in switch row-penetrating insulation board, the wire-out switch row-penetrating insulation board is connected with the element mounting board through the wire-out switch row-penetrating insulation board mounting hole, and the wire-out switch row-penetrating hole is arranged on the wire-out switch row-penetrating insulation board.
Further, be equipped with switch mounting hole, inlet wire switch wear to arrange insulation board mounting hole and outlet wire switch wear to arrange insulation board mounting hole on the component mounting panel, the switch mounting hole is connected with the switch, outlet wire switch wear to arrange insulation board mounting hole is symmetrical to be located inlet wire switch wear to arrange insulation board mounting hole both sides, inlet wire switch wear to arrange insulation board mounting hole and inlet wire switch wear to arrange the insulation board and be connected, outlet wire switch wear to arrange insulation board mounting hole and outlet wire switch wear to arrange the insulation board and be connected.
Further, the box is internally provided with an installation stand column, the installation stand column is connected with the box, and the installation stand column is connected with the element installation plate.
Further, the switch includes: the incoming line switch and the outgoing line switch are connected with the switch mounting hole.
Further, the copper bar includes: the incoming line switch copper bar, the outgoing line switch copper bar, the A-phase vertical busbar, the B-phase vertical busbar and the C-phase vertical busbar are connected, the incoming line switch copper bar is connected with the incoming line switch row penetrating hole, the outgoing line switch copper bar is connected with the outgoing line switch row penetrating hole, and the A-phase vertical busbar, the B-phase vertical busbar and the C-phase vertical busbar are connected with the outgoing line switch copper bar.
The utility model has the beneficial effects that:
connect the safety protection performance that the copper bar changes to the design behind the component mounting panel through wearing row insulation board through adopting the block terminal in, effectively satisfied the block terminal through adjusting the circuit breaker for horizontal installation has effectively increased the inside installation space of block terminal, has designed switch operating handle in addition on the block terminal outer door plant and has made its simple operation. And make the connection copper bar in the distribution cabinet become standardized copper bar through this design, can effectively improve enterprise production efficiency and save the cost of labor of enterprise. The safety problem that the electric shock is caused when the electric shock generator touches a charged part due to narrow operation space and non-standard operation on a construction site is effectively solved. And the problems of low production efficiency and high labor cost of production enterprises are solved.
Description of the drawings:
FIG. 1 is a schematic view of the present invention.
Fig. 2 is a schematic structural view of the copper bar of the present invention.
Fig. 3 is a schematic structural view of the perforated insulating plate of the present invention.
Fig. 4 is a schematic structural view of the component mounting board of the present invention.
Reference numerals:
the box body 100, the mounting columns 110, the element mounting plate 200, the switch mounting holes 210, the inlet switch row-through insulating plate mounting holes 220 and the outlet switch row-through insulating plate mounting holes 230.
Switch 300, incoming switch 310, and outgoing switch 320.
The bus bar comprises a copper bar 400, an incoming switch copper bar 410, an outgoing switch copper bar 420, an A-phase vertical bus bar 430, a B-phase vertical bus bar 440 and a C-phase vertical bus bar 450.
The insulation board 500 is arranged in a penetrating way, the inlet switch penetrating way insulation board 510 is arranged in a penetrating way, the inlet switch penetrating way hole 520 is arranged in a penetrating way, the inlet switch penetrating way insulation board mounting hole 530 is arranged in a penetrating way, the outlet switch penetrating way insulation board 540 is arranged in a penetrating way, the outlet switch penetrating way hole 550 is arranged in a penetrating way, and the outlet switch penetrating way insulation board mounting hole 560 is arranged in a penetrating way.
Copper bar transparent PC guard plate 600, copper bar insulating column 700 and cubical switchboard door operating handle 800.
Detailed Description
The present invention will be further described with reference to the following examples. It should be understood that the following examples are illustrative only and are not intended to limit the scope of the present invention.
Example 1
FIG. 1 is a schematic structural diagram of the present invention. Fig. 2 is a schematic structural view of the copper bar of the present invention. Fig. 3 is a schematic structural view of the perforated insulating plate of the present invention. Fig. 4 is a schematic structural view of the component mounting board of the present invention.
As shown in fig. 1-4, a safety type electrical distribution box comprises: box 100, component mounting panel 200, switch 300, copper bar 400, wear row insulation board 500, the transparent PC guard plate 600 of copper bar, copper bar insulated column 700 and cubical switchboard door operating handle 800, component mounting panel 200 and box 100 internal connection, switch 300 is connected with component mounting panel 200 upper end, copper bar 400 is connected with component mounting panel 200 through wearing row insulation board 500, the transparent PC guard plate 600 of copper bar is connected with component mounting panel 200 through copper bar insulated column 700, cubical switchboard door operating handle 800 is connected with box 100.
Wherein, wear row insulating board 500 includes: the incoming line switch row-through insulation board 510, the incoming line switch row-through hole 520, the incoming line switch row-through insulation board mounting hole 530, the outgoing line switch row-through insulation board 540, the outgoing line switch row-through hole 550 and the outgoing line switch row-through insulation board mounting hole 560, the incoming line switch row-through insulation board 510 is connected with the element mounting board 200 through the incoming line switch row-through insulation board mounting hole 530, the incoming line switch row-through hole 520 is arranged on the incoming line switch row-through insulation board 510, the outgoing line switch row-through insulation board 540 is connected with the element mounting board 200 through the outgoing line switch row-through insulation board mounting hole 560, and the outgoing line switch row-through hole 550 is arranged on the outgoing line switch row-through insulation board 540.
The element mounting plate 200 is provided with a switch mounting hole 210, a lead-in switch through row insulation plate mounting hole 220 and a lead-out switch through row insulation plate mounting hole 230, the switch mounting hole 210 is connected with the switch 300, the lead-out switch through row insulation plate mounting holes 230 are symmetrically arranged on two sides of the lead-in switch through row insulation plate mounting hole 220, the lead-in switch through row insulation plate mounting hole 220 is connected with the lead-in switch through row insulation plate 510, and the lead-out switch through row insulation plate mounting hole 230 is connected with the lead-out switch through row insulation plate 540.
The case 100 is provided therein with mounting posts 110, the mounting posts 110 are connected to the case 100, and the mounting posts 110 are connected to the component mounting plate 200.
The switch 300 includes: the incoming line switch 310 and the outgoing line switch 320, and the incoming line switch 310 and the outgoing line switch 320 are connected with the switch mounting hole 210.
The copper bar 400 includes: the incoming switch copper bar 410, the outgoing switch copper bar 420, the A-phase vertical bus bar 430, the B-phase vertical bus bar 440 and the C-phase vertical bus bar 450 are connected, the incoming switch copper bar 410 is connected with the incoming switch row penetrating hole 520, the outgoing switch copper bar 420 is connected with the outgoing switch row penetrating hole 550, and the A-phase vertical bus bar 430, the B-phase vertical bus bar 440 and the C-phase vertical bus bar 450 are connected with the outgoing switch copper bar 420.
The working principle of the utility model is that when the breaker is used, after the box body 100 is electrified, the through insulating plate 500 is arranged at the corresponding position after the hole is opened, then the copper bar 400 in the distribution box is transferred to the back of the element mounting plate 200 through the through insulating plate 500, the safety protection performance of the distribution box is effectively met, the mounting space in the distribution box is effectively increased by adjusting the breaker to be horizontally arranged, and in addition, the operation handle 800 of the switch cabinet door is designed on the outer door plate of the box body 100 of the distribution box, so that the operation is convenient. The utility model can enable the connecting copper bar in the distribution box to be a standardized copper bar, effectively improve the production efficiency of enterprises, save the labor cost of the enterprises, avoid electric shock and improve the safety.
While the present invention has been described with reference to the specific embodiments, the present invention is not limited thereto, and various changes may be made without departing from the spirit of the present invention.
Claims (5)
1. The utility model provides a safe type block terminal which characterized in that includes: the copper bar transparent PC protection plate comprises a box body (100), an element mounting plate (200), a switch (300), a copper bar (400), a row penetrating insulation plate (500), a copper bar transparent PC protection plate (600), a copper bar insulation column (700) and a switch cabinet door operation handle (800), wherein the element mounting plate (200) is connected with the inside of the box body (100), the switch (300) is connected with the upper end of the element mounting plate (200), the copper bar (400) is connected with the element mounting plate (200) through the row penetrating insulation plate (500), the copper bar transparent PC protection plate (600) is connected with the element mounting plate (200) through the copper bar insulation column (700), and the switch cabinet door operation handle (800) is connected with the box body (100);
wherein the row-through insulation plate (500) comprises: the wire-in switch row-penetrating insulation board comprises a wire-in switch row-penetrating insulation board (510), a wire-in switch row-penetrating hole (520), a wire-in switch row-penetrating insulation board mounting hole (530), a wire-out switch row-penetrating insulation board (540), a wire-out switch row-penetrating hole (550) and a wire-out switch row-penetrating insulation board mounting hole (560), wherein the wire-in switch row-penetrating insulation board (510) is connected with an element mounting board (200) through the wire-in switch row-penetrating insulation board mounting hole (530), the wire-in switch row-penetrating insulation board (520) is arranged on the wire-in switch row-penetrating insulation board (510), the wire-out switch row-penetrating insulation board (540) is connected with the element mounting board (200) through the wire-out switch row-penetrating insulation board mounting hole (560), and the wire-out switch row-penetrating hole (550) is arranged on the wire-out switch row-penetrating insulation board (540).
2. The safety power distribution box of claim 1, wherein: be equipped with switch mounting hole (210), inlet wire switch and wear to arrange insulation board mounting hole (220) and the switch of being qualified for the next round of competitions and wear to arrange insulation board mounting hole (230) on component mounting panel (200), switch mounting hole (210) are connected with switch (300), outlet wire switch wears to arrange insulation board mounting hole (230) symmetry and locates inlet wire switch and wears to arrange insulation board mounting hole (220) both sides, inlet wire switch wears to arrange insulation board mounting hole (220) and inlet wire switch and wears to arrange insulation board (510) and be connected, outlet wire switch wears to arrange insulation board mounting hole (230) and outlet wire switch and wears to arrange insulation board (540) and be connected.
3. The safety electrical box of claim 1, wherein: the box (100) is internally provided with an installation upright post (110), the installation upright post (110) is connected with the box (100), and the installation upright post (110) is connected with an element installation plate (200).
4. The safety electrical box of claim 2, wherein: the switch (300) comprises: the incoming line switch (310) and the outgoing line switch (320), wherein the incoming line switch (310) and the outgoing line switch (320) are connected with the switch mounting hole (210).
5. The safety electrical box of claim 1, wherein: the copper bar (400) includes: incoming line switch copper bar (410), outgoing line switch copper bar (420), the perpendicular female (430) of A looks, the perpendicular female (440) of B looks and the perpendicular female (450) of C looks, incoming line switch copper bar (410) and incoming line switch wear to arrange hole (520) and are connected, outgoing line switch copper bar (420) and outgoing line switch wear to arrange hole (550) and be connected, the perpendicular female (430) of arranging of A looks, the perpendicular female (440) of B looks and the perpendicular female (450) of C looks are arranged with outgoing line switch copper bar (420) and are connected.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202123439912.3U CN216773819U (en) | 2021-12-31 | 2021-12-31 | Safe type block terminal |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202123439912.3U CN216773819U (en) | 2021-12-31 | 2021-12-31 | Safe type block terminal |
Publications (1)
Publication Number | Publication Date |
---|---|
CN216773819U true CN216773819U (en) | 2022-06-17 |
Family
ID=81970690
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202123439912.3U Active CN216773819U (en) | 2021-12-31 | 2021-12-31 | Safe type block terminal |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN216773819U (en) |
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2021
- 2021-12-31 CN CN202123439912.3U patent/CN216773819U/en active Active
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