CN205017737U - Electric control cabinet and wire passing structure thereof - Google Patents

Abstract

The utility model relates to an automatically controlled cabinet and lead to line structure thereof, it discloses a lead to line structure of automatically controlled cabinet, include: the cabinet plate is sequentially distributed along the Y direction and is respectively arranged on a first hole group and a second hole group of the cabinet plate, the first hole group comprises a first through hole, and the second hole group comprises a second through hole; wherein the first through hole and the second through hole are arranged in a staggered manner; in the adjacent first through hole and the second through hole, a gap is formed between the Y-direction center line of the first through hole and the second through hole. The utility model discloses a through wire structure of an electric control cabinet, which avoids the second through wire hole from influencing the wiring of the first through wire hole, can realize the wiring of the electric wire along the Y direction, and effectively shortens the wiring path of the electric wire, thereby shortening the length of the electric wire and reducing the cost of the electric wire; meanwhile, the potential safety hazard of the electric is also reduced.

Description

Electrical control cubicles and logical line structure thereof

Technical field

The utility model relates to electrical control cubicles technical field, more particularly, relates to a kind of electrical control cubicles and logical line structure thereof.

Background technology

Electrical control cubicles needs to introduce and draw electric wire, and particularly, the cabinet of electrical control cubicles is provided with logical line structure, and supply lines is introduced and drawn.

As shown in Figure 1, in Fig. 1, arrow line represents wiring path, and the logical line structure of electrical control cubicles is: threading hole 12 is concentrated and is located on a cabinet plate 11, and threading hole 12 is in two row's multiple row distributions, two threading holes 12 often arranged are along Y-direction distribution, and namely the hole heart line of two threading holes 12 is parallel to Y-direction; The threading hole 12 often arranged is along X to distribution.The size of threading hole 12 coordinates with electric wire, and two row's threading holes 12 are along Y-direction and to homonymy cabling.Wherein, X is to perpendicular to Y-direction, and X is to being vertical direction or horizontal direction.

In above-mentioned logical line structure, because the hole heart line of two threading holes 12 often arranged is parallel to Y-direction, and along Y-direction cabling, then, the threading hole 12 of a row affects threading hole 12 cabling of last row, need the electric wire being bent through last row's threading hole 12 to walk around the threading hole 12 of next row, cause the wiring path of electric wire longer, then required electric wire is longer, makes electric wire cost higher.

In addition, due to walking in line process to need to bend electric wire, more easily cause electric wire damaged, and in order to walk around the threading hole of next row, also easier appearance dish line intersect, is wound around electric wire, connect up the situation such as dense, there is larger electrical safety hidden danger.

In sum, how shortening wire length, to reduce electric wire cost, is current those skilled in the art's problem demanding prompt solution.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of logical line structure of electrical control cubicles, shortens wire length, to reduce electric wire cost.Another object of the present utility model is to provide a kind of electrical control cubicles with above-mentioned logical line structure.

In order to achieve the above object, the utility model provides following technical scheme:

A logical line structure for electrical control cubicles, comprising: cabinet plate, and distribute successively along Y-direction and be all located at the first hole group and the second hole group of described cabinet plate, described first hole group comprises the first threading hole, and described second hole group comprises the second threading hole; Wherein,

Described first threading hole and described second threading hole are staggered; In adjacent described first threading hole and described second threading hole, between the Y-direction center line of described first threading hole and described second threading hole, there is gap.

Preferably, in adjacent described first threading hole and described second threading hole, between the Y-direction center line of described second threading hole and described first threading hole, there is gap.

Preferably, described first threading hole is at least two, and described second threading hole is at least two.

Preferably, described first threading hole distributes successively along the first straight line, and described second threading hole distributes successively along the second straight line, and described first straight line and described second straight line are all perpendicular to Y-direction.

Preferably, the number of described first threading hole is equal with the number of described second threading hole.

Preferably, described cabinet plate is side plate, and described Y-direction is vertical direction.

Preferably, described first threading hole is the threading hole that power supply source line passes through, and described second threading hole is the threading hole passed through for holding wire.

Preferably, the diameter of described first threading hole and the equal diameters of described second threading hole.

Preferably, the logical line structure of above-mentioned electrical control cubicles also comprises: the cable lock being installed on described first threading hole and described second threading hole.

Based on the logical line structure of above-mentioned electrical control cubicles, the utility model additionally provides a kind of electrical control cubicles, and this electrical control cubicles comprises cabinet, and described cabinet has logical line structure; Wherein, described logical line structure is the logical line structure of the electrical control cubicles described in above-mentioned any one.

The operation principle of the logical line structure of the electrical control cubicles that the utility model provides: when the electric wire through the second threading hole is to the side cabling of the second threading hole away from the first threading hole, through the electric wire of the first threading hole when the side cabling of the first threading hole close second threading hole, owing to there is gap between the Y-direction center line of the first threading hole and the second threading hole, electric wire then through the first threading hole can not through the second threading hole after the Y-direction center line cabling of the first threading hole, namely the second threading hole can not affect the cabling of the first threading hole, without the need to walking around the second threading hole, electric wire through the first threading hole can be realized along the Y-direction center line cabling of the first threading hole.

The logical line structure of the electrical control cubicles that the utility model provides, avoid the cabling that the second threading hole affects the first threading hole, electric wire can be realized along Y-direction cabling, then without the need to bending electric wire again to walk around the second threading hole, effectively shorten the wiring path of electric wire, thus shorten wire length, reduce electric wire cost.

Meanwhile, the logical line structure of the electrical control cubicles that the utility model provides, without the need to bending electric wire again to walk around the second threading hole, avoids electric wire damaged because of bending; It also avoid that electric wire appearance dish line intersects, is wound around, connect up the situation such as dense, reduces electrical safety hidden danger.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiment of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

The structural representation of the logical line structure of the electrical control cubicles that Fig. 1 provides for prior art;

The structural representation of the logical line structure of the electrical control cubicles that Fig. 2 provides for the utility model embodiment.

In upper Fig. 1-Fig. 2:

11 be cabinet plate, 12 be cabinet plate for threading hole, 21 be the first hole group, 211 be the first threading hole, 22 be the second hole group, 221 is the second threading hole, 23.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

As shown in Figure 2, in Fig. 2, arrow line represents wiring path.The logical line structure of the electrical control cubicles that the utility model embodiment provides, comprise: cabinet plate 23, distribute successively along Y-direction and be all located at the first hole group 21 of cabinet plate 23 and the second hole group 22, first hole group 21 and comprise the first threading hole 211, second hole group 22 and comprise the second threading hole 221; Wherein, the first threading hole 211 and the second threading hole 221 are staggered; In the first adjacent threading hole 211 and the second threading hole 221, between the Y-direction center line of the first threading hole 211 and the second threading hole 221, there is gap.

In the logical line structure of above-mentioned electrical control cubicles, in order to realize cabling, require that the gap between the Y-direction center line of the first threading hole 211 and the second threading hole 221 is greater than the radius of electric wire.For the concrete numerical value in gap, can design according to the size of the thickness of electric wire and required cabling space, the utility model embodiment does not limit this.

The operation principle of the logical line structure of the electrical control cubicles that the utility model embodiment provides: when the electric wire through the second threading hole 221 is to the side cabling of the second threading hole 221 away from the first threading hole 211, through the electric wire of the first threading hole 211 to the first threading hole 211 when the side cabling of the second threading hole 221, owing to there is gap between the Y-direction center line of the first threading hole 211 and the second threading hole 221, electric wire then through the first threading hole 211 can not through the second threading hole 221 after the Y-direction center line cabling of the first threading hole 211, namely the second threading hole 221 can not affect the cabling of the first threading hole 211, without the need to walking around the second threading hole 221, electric wire through the first threading hole 211 can be realized along the Y-direction center line cabling of the first threading hole 211.

The logical line structure of the electrical control cubicles that the utility model embodiment provides, avoid the cabling that the second threading hole 221 affects the first threading hole 211, electric wire can be realized along Y-direction cabling, then without the need to bending electric wire again to walk around the second threading hole 221, effectively shorten the wiring path of electric wire, thus shorten wire length, reduce electric wire cost.

Meanwhile, the logical line structure of the electrical control cubicles that the utility model embodiment provides, without the need to bending electric wire again to walk around the second threading hole 221, avoids electric wire damaged because of bending; It also avoid that electric wire appearance dish line intersects, is wound around, connect up the situation such as dense, reduces electrical safety hidden danger.

Meanwhile, the logical line structure of the electrical control cubicles that the utility model embodiment provides, can realize electric wire along Y-direction cabling, to walk around the second threading hole 221, effectively improves cabling efficiency without the need to bending electric wire again; Meanwhile, the space shared by cabling is also saved.

In order to improve serviceability, in the first threading hole 211 that prioritizing selection is adjacent and the second threading hole 221, between the Y-direction center line of the second threading hole 221 and the first threading hole 211, there is gap.In order to realize cabling, require that the gap between the Y-direction center line of the second threading hole 221 and the first threading hole 211 is greater than the radius of electric wire.For the concrete numerical value in gap, can design according to the size of the thickness of electric wire and required cabling space, the utility model embodiment does not limit this.

The operation principle of the logical line structure of above-mentioned electrical control cubicles: when the electric wire through the first threading hole 211 is to the side cabling of the first threading hole 211 away from the second threading hole 221, through the electric wire of the second threading hole 221 to the second threading hole 221 when the side cabling of the first threading hole 211, owing to there is gap between the Y-direction center line of the second threading hole 221 and the first threading hole 211, electric wire then through the second threading hole 221 can not through the first threading hole 211 after the Y-direction center line cabling of the second threading hole 221, namely the first threading hole 211 can not affect the cabling of the second threading hole 221, without the need to walking around the first threading hole 211, electric wire through the second threading hole 221 can be realized along the Y-direction center line cabling of the second threading hole 221.

The logical line structure of above-mentioned electrical control cubicles, avoid the cabling that the first threading hole 211 affects the second threading hole 221, electric wire can be realized along Y-direction cabling, then without the need to bending electric wire again to walk around the first threading hole 211, effectively shorten the wiring path of electric wire, thus shorten wire length, reduce electric wire cost.Therefore, the logical line structure of above-mentioned electrical control cubicles can realize bilateral cabling, improves serviceability.

In the logical line structure of the electrical control cubicles that above-described embodiment provides, for the number of the first threading hole 211 and the second threading hole 221, need to design according to the number of electric wire.Particularly, the number sum of the first threading hole 211 and the second threading hole 221 equals the number of electric wire.Preferably, the first threading hole 211 is at least two, and the second threading hole 221 is at least two.Like this, selection first threading hole 211 and the second threading hole 221 can be needed according to electric wire, facilitate cabling.Certainly, the first threading hole 211 also can be selected to be one, and the second threading hole 221 is at least one; Or the first threading hole 211 is at least one, the second threading hole 221 is one.

Further, the first threading hole 211 distributes successively along the first straight line, and the second threading hole 221 distributes successively along the second straight line, and the first straight line and the second straight line are all perpendicular to Y-direction.Like this, the first threading hole 211 and the second threading hole 221 all in row's distribution, improve the distribution regularity of the first threading hole 211 and the second threading hole 221.Certainly, the first threading hole 211 also can be selected to distribute successively along broken line or curve, and the second threading hole 221 distributes successively along broken line or curve, is not limited to above-described embodiment.

In order to improve distribution regularity, the number of prioritizing selection first threading hole 211 can be identical with the number of the second threading hole 221.Certainly, the number of the first threading hole 211 also can be selected different with the number of the second threading hole 221, be not limited to above-mentioned situation.

In the logical line structure of above-mentioned electrical control cubicles, for the size and shape of the first threading hole 211 and the second threading hole 221, need to design according to the shape of electric wire and size.Cross section due to electric wire is generally circular, then prioritizing selection first threading hole 211 and the second threading hole 221 are circular port.The diameter of the first threading hole 211 can be equal with the diameter of the second threading hole 221, also can not wait.Conveniently process, the diameter of prioritizing selection first threading hole 211 and the equal diameters of the second threading hole 221.

For the ease of cabling, in the logical line structure of above-mentioned electrical control cubicles, cabinet plate 23 is the side plate of electrical control cubicles, and Y-direction is vertical direction.Namely the first hole group 21 and the second hole group 22 vertically distribute successively, can realize vertically cabling.Certainly, cabinet plate 23 also can be selected to be the top board of electrical control cubicles, and Y-direction is horizontal direction.

In electrical control cubicles, electric wire comprises power line and holding wire.Control cubicle needs to check circuit in debug process.The conveniently inspection of line, by distribute clearly each threading hole walk the home type (main line and holding wire) of circuit, namely divide the character of threading hole institute cabling.For the ease of dividing, prioritizing selection power line is by the first threading hole 211, and holding wire is by the second threading hole 221.Particularly, the threading hole that the first threading hole 211 passes through for power supply source line, the second threading hole 221 is the threading hole passed through for holding wire.Like this, in circuit checking process, power line and holding wire can be found exactly, quickly, thus be convenient to the inspection of line.Certainly, also can adopt other modes to distribute each threading hole walk the home type of circuit, be not limited to above-described embodiment.

In order to improve IP (INGRESSPROTECTION) degree of protection, the logical line structure of above-mentioned electrical control cubicles also comprises: the cable lock being installed on the first threading hole 211 and the second threading hole 221.Like this, by cable lock, improve electric wire and the sealing between the first threading hole 211 and the second threading hole 221, thus improve the IP degree of protection of electrical control cubicles; Also save the cleaning cost of electrical control cubicles; Meanwhile, the installation of electric wire is also very easy to.

Based on the logical line structure of the electrical control cubicles that above-described embodiment provides, the utility model additionally provides a kind of electrical control cubicles, and this electrical control cubicles comprises cabinet, and this cabinet has logical line structure; Wherein, this logical line structure logical line structure that is the electrical control cubicles described in above-described embodiment.

The logical line structure of the electrical control cubicles provided due to above-described embodiment has above-mentioned technique effect, and the electrical control cubicles that the utility model provides has the logical line structure of above-mentioned electrical control cubicles, then the electrical control cubicles that the utility model provides also has corresponding technique effect, repeats no more herein.

To the above-mentioned explanation of the disclosed embodiments, those skilled in the art are realized or uses the utility model.To be apparent for a person skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from spirit or scope of the present utility model, can realize in other embodiments.Therefore, the utility model can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. the logical line structure of an electrical control cubicles, comprise: cabinet plate (23), distribute successively along Y-direction and be all located at the first hole group (21) and the second hole group (22) of described cabinet plate (23), described first hole group (21) comprises the first threading hole (211), and described second hole group (22) comprises the second threading hole (221); It is characterized in that,

Described first threading hole (211) and described second threading hole (221) are staggered; In adjacent described first threading hole (211) and described second threading hole (221), between the Y-direction center line of described first threading hole (211) and described second threading hole (221), there is gap.

2. the logical line structure of electrical control cubicles according to claim 1, it is characterized in that, in adjacent described first threading hole (211) and described second threading hole (221), between the Y-direction center line of described second threading hole (221) and described first threading hole (211), there is gap.

3. the logical line structure of electrical control cubicles according to claim 1, is characterized in that, described first threading hole (211) is at least two, and described second threading hole (221) is at least two.

4. the logical line structure of electrical control cubicles according to claim 3, it is characterized in that, described first threading hole (211) distributes successively along the first straight line, described second threading hole (221) distributes successively along the second straight line, and described first straight line and described second straight line are all perpendicular to Y-direction.

5. the logical line structure of electrical control cubicles according to claim 1, is characterized in that, the number of described first threading hole (211) is equal with the number of described second threading hole (221).

6. the logical line structure of electrical control cubicles according to claim 1, is characterized in that, the diameter of described first threading hole (211) and the equal diameters of described second threading hole (221).

7. the logical line structure of electrical control cubicles according to claim 1, is characterized in that, the side plate that described cabinet plate (23) is electrical control cubicles, described Y-direction is vertical direction.

8. the logical line structure of electrical control cubicles according to claim 1, is characterized in that, the threading hole that described first threading hole (211) is passed through for power supply source line, and described second threading hole (221) is the threading hole passed through for holding wire.

9. according to the logical line structure of the electrical control cubicles in claim 1-8 described in any one, it is characterized in that, also comprise: the cable lock being installed on described first threading hole (211) and described second threading hole (221).

10. an electrical control cubicles, comprises cabinet, and described cabinet has logical line structure; It is characterized in that, the logical line structure that described logical line structure is the electrical control cubicles in claim 1-9 described in any one.