CN213130493U - Tower crane gas-electricity separation box - Google Patents

Abstract

A gas-electric separation box of a tower crane comprises a box body, wherein an upper fixing plate and a lower fixing plate are respectively arranged on the upper surface and the lower surface of the box body, the box body also comprises a gas source plate, a first box plate, a second box plate, a first isolation plate and a second isolation plate, the first box plate, the second box plate and the second isolation plate enclose a box body outline, the first isolation plate is arranged in the box body, the first isolation plate is connected with the gas source plate and encloses a gas cavity together with the gas source plate, the second isolation plate comprises two sections of circuit threading plates, the second isolation plate is connected with the first isolation plate through two sections of circuit threading plates and encloses a wire arranging cavity together with the first isolation plate, the second isolation plate encloses a first electric cavity together with the first isolation plate and the first box plate, the second isolation plate encloses a second electric cavity together with the first isolation plate and the second box plate, and the gas-electric separation box of the tower crane, the gas circuit and the circuit used in the tower crane can be separated, thereby improving the safety of the medical tower crane in use.

Description

Tower crane gas-electricity separation box

Technical Field

The utility model relates to a medical treatment tower crane technical field, concretely relates to tower crane gas-electricity separator box.

Background

The tower crane is the essential air supply medical equipment for the modern operating room of the hospital, and is generally used for terminal switching of medical gases such as oxygen supply, suction, compressed air, nitrogen and the like in the operating room. One of its main functions is to provide the medical gas supply and the strong and weak electricity supply required by the relevant medical equipment. The medical gas required by the general equipment is high-pressure gas, and the strong electricity is a 220V power supply.

If the plug of the medical equipment generates electric arc in the plugging process or the socket and the electric wire are in poor contact to generate electric arc, namely, high-temperature and high-conductivity free gas is generated, and other inflammable gas accumulates at the moment, dangerous accidents are easy to happen after the plug and the electric wire are in contact. However, the traditional medical tower crane gas electric box does not completely separate gas from electricity, so that potential safety hazards exist.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a gas-electricity separation box of a tower crane, which can separate the gas circuit and the circuit used in the tower crane, thereby improving the safety when the medical tower crane is used.

The technical scheme of the utility model as follows:

the utility model provides a tower crane gas-electricity separator box, includes the box, the box top is equipped with the upper fixed plate, the box below is equipped with the bottom plate, the box still includes gas source plate, first circuit board, second circuit board, first division board and second division board, the gas source plate both ends are connected with first circuit board and second circuit board respectively, the other end of first circuit board and second circuit board is connected with second division board both ends respectively, first circuit board, second circuit board and second division board enclose into the box outline, and are preferred, gas source plate and first circuit board, second circuit board junction to and second division board and first circuit board, second circuit board junction all adopt the circular arc transition mode, avoid scraping the people.

Further, be provided with first division board in the box, first division board is connected with the air supply board to enclose synthetic gas cavity together with the air supply board, be used for placing all kinds of trachea that are connected with the air supply board. The second isolation plate comprises two sections of circuit threading plates, is connected with the first isolation plate through the two sections of circuit threading plates, and encloses a winding displacement cavity together with the first isolation plate for placing various pipelines. The second isolation plate, the first isolation plate and the first electric box plate define a first electric cavity together, and the second isolation plate, the first isolation plate and the second electric box plate define a second electric cavity together. Through the mode that sets up the circuit board respectively in box both sides, the person of facilitating the use connects the power in the optional position more.

The gas terminal is arranged on the gas source plate. And the first and second electrical box boards are provided with power sockets and weak current interfaces.

According to the gas-electricity separation box of the tower crane, the first electric box plate and the second electric box plate are obliquely connected with the gas source plate respectively, and the inclination angle is 60-85 degrees, so that the size of the gas-electricity separation box is reduced. Preferably, the first electric box board and the second electric box board are symmetrically arranged, and the appearance is attractive and elegant.

According to the gas-electricity separation box of the tower crane, the first isolation plate comprises two sections of gas-electricity separation plates and a gas circuit threading plate, and the two sections of gas-electricity separation plates are respectively arranged in parallel with the first electric box plate and the second electric box plate so as to be beneficial to wire arrangement. The gas circuit threading plate is positioned between the two sections of gas-electric separation plates, and a plurality of gas circuit holes are distributed on the gas circuit threading plate.

According to the gas-electric separation box of the tower crane, the two sections of circuit threading plates of the second isolation plate are connected with the gas circuit threading plate of the first isolation plate, and the circuit threading plate is provided with a plurality of circuit holes. The conducting wire in the electric cavity is led into the wiring cavity through the circuit hole.

Furthermore, the second isolation plate comprises a back plate and two sections of circuit threading plates, and the circuit threading plates are located at two ends of the same side of the back plate. The back plate comprises a straight plate or an arc-shaped plate, and two ends of the back plate are respectively connected with the first electric box plate and the second electric box plate.

The beneficial effects of the utility model reside in that: the utility model discloses a tower crane gas electricity separator box has built gas cavity, first electric cavity, second electric cavity and winding displacement cavity inside the box through first division board and second division board, can be used for arranging all kinds of gas terminals, supply socket and light current terminal etc. respectively, has realized the inside gas electricity separation of tower crane, has improved the security that the tower crane used. In addition, each air line and circuit line led out from the air source plate and the electric box plate respectively enter the wire arranging cavity through the word air cavity and the electric cavity, so that the neatness of each line is ensured, and the maintenance is convenient.

Drawings

The aspects and advantages of the present application will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention.

In the drawings:

FIG. 1 is a schematic structural diagram of a gas-electric separation box of a tower crane in the embodiment 1;

FIG. 2 is a schematic structural view of a first separator plate;

FIG. 3 is a schematic structural view of a second separator plate;

the components represented by the reference numerals in the figures are:

1. the gas source board, 2, first electric box board, 3, second electric box board, 4, first division board, 41, gas electricity separator plate, 42, gas circuit threading board, 43, gas circuit hole, 5, second division board, 51, circuit threading board, 52, backplate, 53, circuit hole, 6, gas cavity, 7, first electric cavity, 8, second electric cavity, 9, winding displacement cavity.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. It should be noted that these embodiments are provided so that this disclosure can be more completely understood and fully conveyed to those skilled in the art, and the present disclosure may be implemented in various forms without being limited to the embodiments set forth herein.

Example 1

Referring to fig. 1, fig. 1 is a schematic structural diagram of a gas-electric separation box of a tower crane, which includes a box body, an upper fixing plate is arranged above the box body, a lower fixing plate is arranged below the box body, the box body further includes a gas source plate 1, a first electric box plate 2, a second electric box plate 3, a first isolation plate 4 and a second isolation plate 5, and the gas source plate 1 is a straight plate, so that a gas terminal can be conveniently arranged. The two ends of the first electric box plate are respectively connected with the first electric box plate 2 and the second electric box plate 3, the first electric box plate 2 and the second electric box plate 3 are of U-shaped or L-shaped structures and are located on the side face of the box body, one end of the first electric box plate is connected with the air source plate 1, the other end of the first electric box plate is connected with the second isolation plate 5, and the first electric box plate 2, the second electric box plate 3 and the second isolation plate 5 are enclosed to form the outer contour of the box body. Preferably, the joints of the air source plate 1 and the first electric box plate 2 and the second electric box plate 3, and the joints of the second isolation plate 5 and the first electric box plate 2 and the second electric box plate 3 all adopt an arc transition mode, so that people scraping is avoided.

Further, be provided with first division board 4 in the box, first division board 4 structure refers to fig. 2, and is open structure, and open part is connected with air supply board 1 to enclose synthetic gas cavity 6 together with air supply board 1 for place all kinds of trachea that are connected with air supply board 1.

Referring to fig. 3, the second isolation board 5 includes a back board 52 and two circuit threading boards 51, and the circuit threading boards 51 are located at two ends of the same side of the back board 52. The back plate 52 in this embodiment is a straight plate structure, and two ends of the back plate are respectively connected to the first electrical box plate 2 and the second electrical box plate 3. The second isolation plate 5 is connected with the first isolation plate 4 through two sections of circuit threading plates 51, and encloses a winding displacement cavity 9 together with the first isolation plate 4 for placing various pipelines. The second isolation plate 5, the first isolation plate 4 and the first electric box plate 2 define a first electric cavity 7, and the second isolation plate 5, the first isolation plate 4 and the second electric box plate 3 define a second electric cavity 8. Through the mode that sets up the circuit board respectively in box both sides, the person of facilitating the use connects the power in the optional position more.

In the present embodiment, the first electrical box board 2 and the second electrical box board 3 are disposed with an electrical outlet and a weak electrical interface. The structure of the gas-electric separation box adopts an inclined U shape, and the inclined angle formed between the first and second electric box plates 2 and 3 and the gas source plate 1 is 67 degrees so as to reduce the whole size of the gas-electric separation box. Preferably, the first and second electrical box boards 2 and 3 are symmetrically arranged, so that the appearance is attractive and elegant.

In this embodiment, the first isolation board 4 is an open U-shaped structure, and has a section of gas-electric separation board 41 at each of the left and right ends thereof, and a gas circuit threading board 42 in the middle, and the two sections of gas-electric separation boards 41 are respectively arranged in parallel with the first and second electric box boards 2 and 3 so as to facilitate wire arrangement. A plurality of air passage holes 43 are distributed on the air passage threading plate 42. The air passage in the air cavity 6 penetrates into the flat cable cavity from the air passage hole 43.

In this embodiment, the two circuit threading plates 51 of the second isolation plate 5 are perpendicular to the back plate 52, and then are connected with the gas circuit threading plate 42 of the first isolation plate 4, and the specific positions thereof are located outside the gas circuit holes 43, so as to facilitate circuit arrangement. The circuit threading plate 51 is provided with a plurality of circuit holes 53, and the conducting wires in the electric cavity are led into the flat cable cavity 9 through the circuit holes 53.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. A gas-electric separation box of a tower crane comprises a box body, wherein an upper fixing plate is arranged above the box body, a lower fixing plate is arranged below the box body, and the gas-electric separation box is characterized by further comprising a gas source plate (1), a first circuit board (2), a second circuit board (3), a first isolation plate (4) and a second isolation plate (5), two ends of the gas source plate (1) are respectively connected with the first circuit board (2) and the second circuit board (3), the other ends of the first circuit board (2) and the second circuit board (3) are respectively connected with two ends of the second isolation plate (5), the first circuit board (2), the second circuit board (3) and the second isolation plate (5) enclose a box outer contour, a first isolation plate (4) is arranged in the box body, the first isolation plate (4) is connected with the gas source plate (1) and encloses a synthetic gas cavity (6) together with the gas source plate (1), the second isolation plate (5) comprises two sections of circuit threading plates (51), the second isolation plate (5) is connected with the first isolation plate (4) through the two sections of circuit threading plates (51) and encloses a wire arranging cavity (9) together with the first isolation plate (4), the second isolation plate (5) encloses a first electric cavity (7) together with the first isolation plate (4) and the first electric box plate (2), and the second isolation plate (5) encloses a second electric cavity (8) together with the first isolation plate (4) and the second electric box plate (3).

2. A tower crane gas and electric separation box according to claim 1, characterized in that gas terminals are arranged on the gas source plate (1).

3. A tower crane gas and electric separation box according to claim 1, characterized in that said first (2) and second (3) box boards are arranged with power sockets and weak electric interfaces.

4. The gas-electric separation box of the tower crane according to claim 1, wherein the first electric box plate (2) and the second electric box plate (3) are respectively connected with the gas source plate (1) in an inclined manner, and the inclined angle is 60-85 degrees.

5. A tower crane gas and electric separation box according to claim 4, characterized in that the first (2) and second (3) electrical box plates are arranged symmetrically.

6. The gas-electric separation box of the tower crane according to any one of claims 1-5, wherein the first isolation plate (4) comprises two sections of gas-electric separation plates (41) and a gas circuit threading plate (42), the two sections of gas-electric separation plates (41) are respectively arranged in parallel with the first electric box plate (2) and the second electric box plate (3), the gas circuit threading plate (42) is positioned between the two sections of gas-electric separation plates (41), and a plurality of gas circuit holes (43) are distributed on the gas circuit threading plate (42).

7. The gas-electric separation box of the tower crane as claimed in claim 6, wherein the two sections of circuit threading plates (51) of the second isolation plate (5) are connected with the gas circuit threading plate (42) of the first isolation plate (4), and the circuit threading plate (51) is provided with a plurality of circuit holes (53).

8. A tower crane gas-electric separation box according to claim 7, wherein the second isolation plate (5) comprises a back plate (52) and two sections of circuit threading plates (51), and the circuit threading plates (51) are located at two ends of the same side of the back plate (52).

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