CN211981385U - Integrated wire slot - Google Patents

Abstract

The utility model provides an integrated wire slot, which comprises a U-shaped shell, wherein the U-shaped shell is formed by a flat plate and two side surfaces which are vertical to the flat plate, the end parts of the two side surfaces are respectively bent towards the inside of the shell to form blocking surfaces, and a gap between the blocking surfaces at the two sides forms a wire slot opening; set up separation portion on the flat board, the wire casing is separated into the holding tank more than two by a plurality of separation parts. The utility model discloses an integral type wire casing, simple structure, processing are convenient to when the installation is more convenient, only need buckle the wire casing can realize the fixed of wire casing on the wall. The setting of separation portion in the wire casing for separate the holding tank that holds different kinds of circuits in the wire casing, be convenient for to the categorised arrangement of circuit. And the side of the wire groove is provided with the hollow parts, so that the wire can conveniently extend out of the wire groove from the required position through the hollow parts.

Description

Integrated wire slot

Technical Field

The utility model relates to a wiring field specifically relates to an integral type wire casing.

Background

Along with the demand of saving household space for people, more and more wall-mounted washing machines, wall-mounted water heaters and the like enter the lives of people. The wall-mounted electrical appliance capable of saving the household space inevitably brings about the problem that the lines need to be arranged on the wall surface. If the unfixed line freely hangs down from the line, the arrangement of the line is disordered firstly, and the beauty and the sanitation of the environment are affected. Secondly, safety hazards may also arise, such as a messy line that is prone to tripping. As described above, it is necessary to design a wire duct for wiring on a wall surface or the like.

The patent number is 201720423520.2's chinese utility model patent, the patent name is a wire casing of easily making the line. The utility model relates to a wire casing of easily making line, including the wire casing body, the wire casing body be equipped with a plurality of parallel arrangement's division wall, division wall divide wire casing body inner space into a plurality of pencil chambeies that are used for installing the pencil respectively, division wall and wire casing body on all be equipped with and be used for the pencil that compresses tightly the pencil in the pencil chamber and compress tightly the part. Compared with the prior art, the utility model discloses wire casing simple structure, the line of making of the stranded pencil of being convenient for, the pencil is fixed firm. However, the structure of the wire slot of the utility model is not suitable for installation on the wall, and the wire slot of the utility model is installed on the wall and leads to the wire slot to cover the whole circuit.

The patent number is 201721872786.1's chinese utility model patent, and the patent name is an integral type wire casing. The utility model discloses an integral type wire casing, including wire casing body and wire casing lid, wire casing body and wire casing lid junction are soft tie, soft tie links into an organic whole structure with wire casing body and wire casing lid. The utility model relates to an integral type wire casing structure, wall and wall crown installation wire cell body and wire casing lid operation's problem about the repetition is solved to the integral type structure. The wire casing is made through soft or hard coextrusion technique, and cell body, soft tie and capping integrated into one piece, processing is convenient and the practicality is strong. However, the utility model discloses an in the wire casing not cut apart different holding tanks, all circuits all hold in same cell body, are not convenient for seek the circuit. And this utility model does not consider to set up the fretwork deconstruction in the side of wire casing, and the circuit can only wear out and then be connected to the position that needs from the wire casing bottom promptly, can not wear out from the optional position of wire casing according to the needs of circuit.

Therefore, at present, the wire slots are integrally formed, but most of the wire slots need to be fastened with the wire slot cover and then fixed on the wall surface, and the number of the wire slots which can be directly fastened and fixed on the wall surface is small. And fix the wire casing on the wall, often inside also do not consider to set up a plurality of holding tanks and be used for the categorised arrangement circuit of kind according to the circuit, and the wire casing generally does not consider to set up the fretwork in the side and is convenient for the circuit to take out from the wire casing.

In view of the above problems, the present invention is especially provided.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the structure of integral type wire casing in the past is improved for the integral type wire casing does not need the line capping of opening and shutting when the installation, only need with the wire casing detain on the wall can. In the wire casing of integral type lock installation, the circuit often sets up in same cell body, and is more troublesome when needing to look for a certain circuit. In the conventional wire slot which is integrally buckled, wires usually uniformly extend out of the bottom of the wire slot and then extend to a required interface position; that is, the design of the wire slot can not lead the circuit inside the wire slot to extend out of the wire slot according to the required position.

In order to solve the technical problem, the utility model provides an integrated wire slot, which comprises a U-shaped shell, wherein the U-shaped shell is enclosed by a flat plate and two side surfaces perpendicular to the flat plate, the end parts of the two side surfaces are respectively bent towards the inside of the shell to form blocking surfaces, and a gap between the blocking surfaces at the two sides forms a wire slot opening; set up separation portion on the flat board, the wire casing is separated into the holding tank more than two by a plurality of separation parts.

The utility model provides an integral type wire casing mainly comprises the separation portion that sets up on casing and the casing, simple structure, convenient processing. The utility model discloses the shell structure of wire casing for only need when the installation wire casing with its lock on the wall can, simple to operate. The setting of separation portion on the casing for separate different holding tanks in the wire casing, be used for placing different kinds of circuit in different holding tanks. And the utility model discloses the separation portion of wire casing and the structural design who blocks the face can prevent that the circuit from spilling by in the wire casing.

Furthermore, 2 blocking parts are arranged in the wire slot, and the wire slot is divided into 3 accommodating grooves by the 2 blocking parts; comprises a water inlet pipe accommodating groove, a drain pipe accommodating groove and a power line accommodating groove; the width of drain pipe holding tank > the width of inlet tube holding tank > the width of power cord holding tank.

The utility model has the advantages that the wire casing is provided with the water inlet pipe holding tank, the drain pipe holding tank and the power line holding tank, so that the wire casing can sort the water inlet pipe, the drain pipe and the power line; and the space of each accommodating groove in the wire distributing groove is distributed according to the sizes of the water inlet pipe, the water discharging pipe and the power line.

As an embodiment, the utility model provides a concrete structure of separation portion: the blocking part covers the whole length of the shell and comprises a partition part extending from a flat plate of the shell to the opening of the wire groove; the extended end parts of the partition parts are respectively bent towards two sides to form inverted hook parts. That is, the utility model discloses the partition portion of well separation portion is used for separating different holding tanks with the wire casing, and the overhead kick of separation portion is used for preventing that the circuit from spilling from the wire casing.

Furthermore, the two side bends respectively point to the flat plate from the end part of the separating part along the direction of inclination of the two sides; two sides connected with the same partition part are bent to form a V-shaped barb part; preferably, the included angle between the two side bends is an obtuse angle. The structure design of the inverted hook part can play a role in positioning and guiding the line in the wire slot, and the line is blocked when the line leaks from the wire slot.

Further, the distance between the blocking surface and the flat plate is greater than the distance that the blocking portion extends from the flat plate. The blocking surface can surround the blocking part in the direction perpendicular to the flat plate, and the structure enables the circuit to be placed in through a longitudinal gap between the blocking surface and the blocking part and is beneficial to the attaching installation of the blocking surface and the wall surface.

Further, in the water inlet pipe accommodating groove and the power supply line accommodating groove, the distance of the blocking surface extending from the side surface to the inside of the shell is smaller than the distance between the blocking part and the side surface. This arrangement allows the line to be inserted through the transverse gap between the blocking surface and the blocking portion.

Further, in the drain pipe accommodating groove, there is a gap between the bent flat plate-directed ends of the 2 blocking parts. I.e. in the drain receiving groove, the line can be put in by the gap between 2 adjacent barriers.

As an embodiment, the wire casing is provided with a plurality of hollows, and each hollow penetrates through two side surfaces and the blocking part of the shell along the horizontal direction; all the hollow parts have the same size and shape. The side surface of the wire slot is provided with the hollow out, so that the wire in the wire slot can conveniently penetrate out of the wire slot through the hollow out of the wire slot at the required position.

Furthermore, the wire casing is provided with hollows along the length direction of the wire casing at intervals of a first set distance from the end part of the wire casing. And hollowing is arranged at fixed intervals, so that the length estimation is facilitated.

Furthermore, the outer walls of the blocking faces on the two sides are provided with double-faced adhesive tapes, and the double-faced adhesive tapes cover the whole length of the blocking faces. The utility model discloses a wire casing sets up the double faced adhesive tape on blockking the face, conveniently installs this wire casing on any wall of people.

After adopting the technical scheme, compared with the prior art, the invention has the following beneficial effects:

1) the utility model discloses an integral type wire casing has integrated into one piece's structure, simple structure, processing convenience. And the utility model discloses a structure of wire casing for when the installation, only need buckle the wire casing can realize the fixed of wire casing on the wall, promptly the utility model discloses a wire casing simple to operate.

2) The utility model discloses an integral type wire casing, inside setting and the integrative separation portion of wire casing, separation portion separates the wire casing for the holding tank of a plurality of differences, can arrange different kinds of circuit in the holding tank of difference in order. Namely the utility model discloses a but wire casing classification arrangement circuit makes the circuit arrange neatly more on the wire inslot, does benefit to the quick seek circuit to prevent different types of circuit from influencing each other.

3) The utility model discloses an integral type wire casing sets up the portion of colluding that falls in the separation portion of wire casing, the portion of colluding that falls is used for fixing a position the circuit in the wire casing. The design of the inverted hook part can prevent the line from falling out of the wire slot when the opening of the wire slot is downward in the process of installing the wire slot. The utility model provides a structural design of separation portion is more reasonable, still plays the effect to the circuit location except playing the effect that blocks.

4) The utility model discloses an integral type wire casing sets up the fretwork that pierces through wire casing side and separation portion in the wire casing for the circuit is worn out from the side of wire casing. Namely, the utility model discloses the circuit in the well wire casing can be worn out from the optional position in the wire casing according to actual need.

5) The utility model discloses an integral type wire casing sets up the double faced adhesive tape in the wire casing for utilize the double faced adhesive tape alright fix the wire casing on the wall more conveniently.

The following detailed description of embodiments of the invention refers to the accompanying drawings

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention, are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without limiting the invention to the right. It is obvious that the drawings in the following description are only some embodiments, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Figure 1 is a schematic view of a trunking of the present invention;

figure 2 is an isometric schematic view of a trunking of the present invention;

figure 3 is a schematic side view of the wire chase of the present invention;

fig. 4 is a wiring diagram of the wire slot of the present invention;

fig. 5 is a schematic side view of another wire duct according to embodiment 3 of the present invention.

Reference numerals in the drawings indicate: 1. a housing; 2. a side surface; 3. a blocking surface; 4. a flat plate; 5. a blocking section; 6. an outer wall; 7. double-sided adhesive tape; 8. a water inlet pipe accommodating groove; 9. a drain pipe accommodating groove; 10. a power line accommodating groove; 11. a partition portion; 12. folding back; 13. a reverse hook part; 14. hollowing out; 15. a water inlet pipe; 16. a drain pipe; 17. a power line.

It should be noted that the drawings and the description are not intended to limit the scope of the inventive concept in any way, but to illustrate it by a person skilled in the art with reference to specific embodiments.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following describes the defect management mode in the embodiments in detail with reference to the drawings in the embodiments of the present invention.

Example 1

As shown in fig. 1 and 2, the present embodiment provides an integrated trunking comprising a U-shaped housing 1, the U-shaped housing 1 is surrounded by an extended flat plate 4 and two side surfaces 2 extending in a direction perpendicular to the flat plate 4, and the housing 1 forms exactly one slot for accommodating a circuit in the housing 1.

In this embodiment, the extended end portions of the two side surfaces 2 are respectively bent toward the inside of the housing 1 to form the blocking surfaces 3. The gaps between the blocking surfaces 3 on the two sides form the openings of the wire grooves after bending. The line is placed into the tank 1 through this opening or taken out of the tank 1 through this opening. The blocking surface 3 formed by bending inward can prevent the circuit from leaking out of the housing 1, i.e. the blocking surface 3 can block part of the circuit in the housing 1 from leaking out no matter how the housing 1 is placed, even if the opening of the housing 1 is placed downward. Secondly the face 3 that blocks of buckling can be used for with the wall laminating, when the outer wall that will block face 3 with the wall laminating on, casing 1 just encloses into a kind of only upper and lower end open-ended enclosed construction with the wall jointly, can be used for fixing the circuit wherein, makes the circuit regular good to can play the effect of protection to the circuit. Therefore, in this embodiment, the double-sided adhesive tape 7 is disposed on the outer wall 6 of each of the two blocking surfaces 3, and the double-sided adhesive tape 7 covers the entire length of the blocking surface 3. The double faced adhesive tape 7 that sets up on the face 3 is faced in this embodiment in the group can play the effect of quick fixed wire casing to use the double faced adhesive tape 7 fixed wire casing not to punch to the wall, it is more convenient and be applicable to all kinds of walls. The two blocking surfaces 3 in this embodiment can first block the circuit to prevent the circuit from leaking out of the housing 1. Secondly block the setting of face 3, conveniently with the wire casing lock on the wall to the cooperation uses double faced adhesive tape 7, makes the wire casing can be fixed on any wall easily.

In this embodiment, set up a plurality of by dull and stereotyped 4 to on the flat board 4 of casing 1 wire casing opening extension's separation portion 5, a plurality of separation portions 5 and side 2 arrange side by side, and the wire casing is separated for the holding tank more than two by a plurality of separation portions 5 that parallel. In this embodiment, the blocking portion 5 is used to separate the wire slot into a plurality of accommodating grooves, and each accommodating groove can be used to accommodate different types of wires. The wire casing of this embodiment can be with the categorised arrangement of circuit according to the kind promptly for the circuit is cleaner and tidier, avoids influencing each other between the different kinds of circuit. Specifically, this embodiment has set up 2 barrier portions 5 and has separated the wire casing for 3 holding tanks. The 3 accommodating grooves comprise a water inlet pipe accommodating groove 8, a drain pipe accommodating groove 9 and a power line accommodating groove 10; and the width of drain pipe holding tank 9 > the width of inlet tube holding tank 8 > the width of power cord holding tank 10. Because general wall-hanging electrical apparatus all has inlet tube, drain pipe, power cord, the event sets up inlet tube holding tank 8, drain pipe holding tank 9, power cord holding tank 10 in the wire casing in this embodiment, can make the circuit in general wall-hanging electrical apparatus according to inlet tube, drain pipe, the categorised arrangement of power cord. And because the diameter of often the drain pipe > the diameter of inlet tube > the diameter of power cord, so this embodiment is the width that the width of drain pipe holding tank 9 > the width of inlet tube holding tank 8 > the width of power cord holding tank 10 to the spatial distribution of inlet tube holding tank 8, drain pipe holding tank 9, power cord holding tank 10 for drain pipe holding tank 9. This embodiment promptly, the spatial distribution of each holding tank divides according to the general size of certain wire casing that each holding tank held for the size of the different holding tanks of this embodiment divided is more reasonable.

In this embodiment, the blocking portion 5 is provided with a hook-shaped structure, and the hook-shaped structure has the same function as the blocking surface 3, and can block a line in the line slot. Stop the structure combined action that colludes on face 3 and the separation portion 5, alright make the wire casing when any position, the circuit in the wire casing all is difficult to spill, especially when the opening of wire casing is down, collude the structure of form and stop face 3 and can prevent that the circuit from spilling by the wire casing.

The integral type wire casing structure that this embodiment provided is fairly simple, mainly includes casing 1 and the inside separation portion 5 that sets up of casing 1, and integrated into one piece is more convenient processing. When the integral type wire casing of this embodiment is installed, only need will block 3 laminating of face on the wall alright utilize the fixed wire casing of double faced adhesive tape 7 on the face that blocks, the wire casing can directly be detained on the wall promptly, and the installation is fairly simple. The wire casing of this embodiment still utilizes separation portion 5 to separate a plurality of holding tanks, and the wire casing can place different circuit classification in different holding tanks promptly. And the design of the hook-shaped structures on the blocking surface 3 and the blocking part 5 of the wire slot of the embodiment can prevent the wire from leaking out of the wire slot.

Example 2

As shown in the blocking portion 5 in fig. 1 and 2, the present embodiment provides a specific structure of the blocking portion 5 on the basis of the integrated wire chase of embodiment 1. The separation part 5 covers the whole length of the shell 1, the separation part 5 consists of 2 parts, the upper half part of the separation part 5 is a separation part 11 used for separating the wire grooves into different accommodating grooves, and the lower half part of the separation part 5 is a barb part 13 used for preventing the wires from leaking from the wire grooves. The partition 11 extends from the flat plate 4 of the housing 1 to the slot opening, and has a plate-like structure. The bottom end of the partition 11 is bent to both sides to form inverted hook portions 13. The included angle between the inverted hook part 13 and the partition part 11 is smaller than or equal to 90 degrees, that is, the inverted hook part 13 can be perpendicular to the partition part 11 or form an acute angle with the partition part 11. The inverted hook part 13 arranged in this way plays a role in guiding and positioning the line placed in the accommodating groove, and prevents the line from leaking from the accommodating groove. And when the opening of the accommodating groove faces downwards, the circuit in the accommodating groove tends to fall out of the opening of the accommodating groove, and the circuit will touch the barb part 13 firstly. Since the barbs are usually made of elastic material, the barbs 13 will deform to some extent and block the circuit from falling down in a new step.

In the present embodiment, specifically, the two-sided bent portions 12 are respectively directed from the end portions of the partition portion 11 toward the flat plate 4 in directions inclined on both sides; two sides of the same partition part 11 are bent 12 to form a V-shaped barb part 13; preferably, the angle between the two side bends 12 is obtuse. The volume of 12 place holding tanks of turning back when setting up the contained angle between 12 that turn back with both sides to the obtuse angle, for the volume of 12 place holding tanks of turning back when setting up to the condition of acute angle between 12 that turn back of both sides, it is visible to compare, when the contained angle between 12 that turn back when both sides sets up to the obtuse angle, the accommodation space of each holding tank is bigger in the wire casing. When the included angle between 12 is turned back to both sides is littleer, the circuit is compressed tightly in the holding tank more easily, and because the circuit holds in detaining the wire casing on the wall in this embodiment, the wire casing forms the enclosed construction that only has upper and lower both ends opening with the wall, so need not compress tightly the circuit in the holding tank, the wire casing must also be injectd in the holding tank. In order to obtain more accommodating space, the present embodiment only needs to set the included angle between the two side folds 12 to be an obtuse angle. In this embodiment, the blocking portion 5 is designed to separate the wire slot into different accommodating slots for accommodating different types of wires; and can also prevent the circuit from leaking out of the wire casing in the process of installing the wire casing.

In this embodiment, the specific structure of the blocking portion 5 should also consider the problem of being installed on the wall surface, so the distance between the blocking surface 3 and the flat plate 4 is greater than the distance of the blocking portion 5 extending from the flat plate 4. Because in this embodiment, make the wire casing buckle fixed on the wall through will stopping face 3 laminating. If separation portion 5 by dull and stereotyped 4 extended distance be greater than stop face 3 with distance between the dull and stereotyped 4, when the wire casing back-off on the wall, stop face 3 and will unable and install with the wall laminating.

In this embodiment, the structural design of the blocking portion 5 also allows for the wires to enter each receiving groove. In the inlet tube accommodating groove 8 and the power supply line accommodating groove 10, the distance that the blocking surface 3 extends from the side surface 2 to the inside of the housing 1 is smaller than the distance between the blocking portion 5 and the side surface 2. Namely, in the water inlet pipe accommodating groove 8 and the power line accommodating groove 10, a gap is left between the end part of the blocking surface 3 extending towards the inside of the shell 1 and the blocking part 5 in the accommodating groove. A gap is reserved between the blocking face 3 and the blocking part 5 along the horizontal direction, so that a circuit can be ensured to enter the accommodating groove from the gap. Because the general wire casing adopts elastic material more, so do not restrict the size of gap.

In this embodiment, there are two blocking portions 5 in the drain pipe accommodating groove 9, and a gap is provided at the end of the bend 12 of the two blocking portions 5 pointing to the flat plate 4. A gap is provided between the bends 12 so that the line can enter the drain receiving channel 9 through said gap.

In this embodiment, the structural design of separation portion 5 is more reasonable, not only can play and separate the wire casing and divide out the effect that different holding tanks are used for the categorised arrangement of circuit, can also prevent that the circuit from spilling from the wire casing. The included angle between the two side surfaces 2 forming the inverted hook part 13 in the embodiment is set to be an obtuse angle, so that each accommodating groove in the wire casing obtains a larger volume. And between the barb portion 13 of separation portion 5 and the face 3 that blocks in this embodiment, the distance design between barb portion 13 and the both sides face 2, between barb portion 13 and barb portion 13 is more reasonable for the circuit can get into each holding tank.

Example 3

As shown in fig. 2 and fig. 3, this embodiment provides a scheme of providing a hollow 14 on a side surface of the wire chase on the basis of the integrated wire chase provided in embodiment 2. When the wire casing lock of this embodiment was on the wall, formed the structure that only upper and lower both ends opening other positions were sealed between wire casing and the wall, so can only take out the circuit from the upper and lower end opening of wire casing. The structural design is not beneficial to taking out the line from the wire slot. Especially when wiring situations occur as shown in fig. 5, the drain pipe 16 needs to be connected to a floor drain on the ground, the inlet pipe 15 needs to be connected to a tap, and the power cord 17 needs to be connected to a socket. The floor drain, the faucet and the socket are respectively positioned at different heights; if the lines can only extend out of the bottom of the wire groove, the water inlet pipe 15 communicated with the faucet and the power line 17 communicated with the socket need to extend out of the bottom of the wire groove and then upwards fold back to the required height, and therefore the lines are wasted. Therefore, in the embodiment, the hollowed parts 14 are arranged on the side surfaces of the wire grooves, so that the wires can penetrate out of the hollowed parts 14 on the side surfaces of the wire grooves, and the wire grooves can be extended out of the hollowed parts 14 according to the required positions of the wires.

In the embodiment, the wire casing is provided with a plurality of hollow parts 14, and each hollow part 14 penetrates through the two side surfaces 2 and the blocking part 5 of the shell 1 along the horizontal direction; all the openings 14 are identical in size and shape. The fretwork 14 that this embodiment set up pierces through casing 1 and separation portion 5, can make the circuit no matter all can wear out to the wire casing in any holding tank outside. Fretwork 14 is arranged on the wire casing along the length direction of the wire casing at intervals of a first set distance from the end part of the wire casing. The advantage of providing the cuts 14 at equal intervals on the wire troughs is that the length can be easily estimated without the use of a ruler. For example, a wire slot with a certain length is needed, and the wire slot with the length approximately equal to the needed length can be cut according to the number of the hollow parts 14 by knowing the size of the first set value of the interval between the hollow parts 14 on the wire slot and the length of the hollow parts 14.

In this embodiment, all the openings 14 may be closed patterns as shown in fig. 2 and 3. If the cut-out 14 on the wire slot is provided with an opening, the blocking portion 5 and/or the blocking surfaces 3 on the two side surfaces 2 through which the cut-out 14 passes may have an opening, and the opening of the blocking portion 5 and/or the blocking surfaces 3 on the two side surfaces 2 may cause the function of the blocking portion 5 and/or the blocking surfaces 3 for blocking the wire leaking line slot to be affected, and may even cause the wire to leak out of the wire slot directly. Therefore, the wire groove is set to be a closed graph in the embodiment, and the situation can be avoided. Or the wiring duct is designed as a hollow 14 as shown in fig. 5, and the hollow 14 has an opening so that the larger circuit can be taken out from the hollow 14. The dimensioning of the track 14 must be taken into account here to prevent the lines which do not have to be removed from the openings 14 from leaking directly out of the openings 14. In this embodiment, the design of the size and the shape of fretwork 14 is favorable to the circuit to wear out from the side of wire casing, and the size and the shape design of fretwork 14 are more reasonable in this embodiment, can not make the circuit that need not take out from side fretwork 14 spill from fretwork 14. This embodiment sets up the fretwork in the side of wire casing, can make this kind of lock wire casing on the wall in this embodiment, can make the circuit wear out the wire casing from the optional position of wire casing according to actual need equally.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. An integrated wire slot comprises a U-shaped shell (1), wherein the U-shaped shell (1) is surrounded by a flat plate (4) and two side faces (2) perpendicular to the flat plate (4), and is characterized in that the end parts of the two side faces (2) are respectively bent towards the inside of the shell (1) to form blocking faces (3), and a wire slot opening is formed in a gap between the blocking faces (3) at the two sides;

set up separation portion (5) on dull and stereotyped (4), the wire casing is separated for more than two holding tanks by a plurality of separation portions (5).

2. The integrated wire duct of claim 1, wherein 2 baffles (5) are provided in the wire duct, and the wire duct is divided into 3 accommodating grooves by the 2 baffles (5);

comprises a water inlet pipe accommodating groove (8), a drain pipe accommodating groove (9) and a power line accommodating groove (10);

the width of the drain pipe accommodating groove (9) is larger than the width of the water inlet pipe accommodating groove (8) and larger than the width of the power line accommodating groove (10).

3. An integrated trunking according to claim 2, wherein the barrier (5) comprises a partition (11) extending from the flat plate (4) of the housing (1) towards the trunking opening;

the extended end portions of the partition portion (11) are respectively bent (12) to both sides to form inverted hook portions (13).

4. An integrated trunking according to claim 3, characterized in that the two side bends (12) are directed from the end of the partition (11) towards the plate (4) in a direction inclined on both sides;

two sides of the same partition part (11) are bent (12) to form a V-shaped barb part (13);

the included angle between the two side bends (12) is an obtuse angle.

5. An integrated wireway as claimed in any one of claims 1 to 4, characterised in that the distance between the blocking surface (3) and the plate (4) is greater than the distance that the blocking portion (5) extends from the plate (4).

6. An integrated wire slot according to any of claims 2-4, characterized in that in the inlet pipe receiving slot (8) and the power supply line receiving slot (10), the distance that the blocking surface (3) extends from the side surface (2) to the inside of the housing (1) is smaller than the distance between the blocking part (5) and the side surface (2).

7. Integrated trunking according to claim 4, characterized in that in the drain accommodating channel (9) there is a gap between the ends of the bends (12) of the 2 barriers (5) pointing towards the flat plate (4).

8. The integrated wire casing according to claim 1, wherein the wire casing is provided with a plurality of hollows (14), and each hollow (14) penetrates through two side surfaces (2) and the blocking part (5) of the casing (1) along the horizontal direction;

all the hollow parts (14) have the same size and shape.

9. The integrated wire casing of claim 8, wherein the wire casing is provided with hollows (14) at a first set distance from the end of the wire casing along the length direction of the wire casing.

10. An integrated trunking according to any one of claims 1 to 4 wherein the outer walls (6) of the two side blocking faces (3) are provided with double sided adhesive tapes (7), the double sided adhesive tapes (7) covering the full length of the blocking faces (3).

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