CN220066843U - Different medium pipeline is with slot layout structure - Google Patents

Abstract

The utility model discloses a different-medium pipeline same-groove layout structure, which comprises the following steps: the middle partition plate is arranged in the concrete groove and is used for dividing the concrete groove into a liquid pipeline cavity and a cable pipeline cavity; the middle support is arranged in the concrete groove and used for fixing the middle partition plate; the liquid pipeline bracket is arranged in the liquid pipeline cavity; the cable pipeline bracket is arranged in the cable pipeline cavity; and the cover plate is buckled on the concrete groove and is abutted against the top of the middle support. The structure of the patent is relatively simple, the quick processing and manufacturing are convenient, the supply channels of parts are wide, the purchasing period is short, and parts or components with different materials can be selected according to different types of application scenes; the sleeving technology can be designed integrally, and can also be used for manufacturing components and installing the components on site.

Description

Different medium pipeline is with slot layout structure

Technical Field

The utility model relates to the technical field of groove pipeline layout, in particular to a different-medium pipeline and groove layout structure.

Background

In the practical engineering application, in order to save construction cost and improve the single engineering space utilization rate of the cable or liquid pipeline groove, different medium pipelines such as cables and liquid pipelines are laid in the same groove, and are laid in a mixed groove according to the electrical equipment installation specification and the liquid pipeline layout specification. According to the requirements of application scenes, some are based on cost control in a design stage, and some are based on actual operation management requirements in the later period of engineering construction.

Through investigation of the existing engineering application scene layout, the following defects and shortcomings are found:

1. the environment in the groove is bad and messy, and foreign matters such as mouse carcasses, local debris and garbage accumulation are often found, and sewage sediment is stored at the bottom of the groove; the environment-friendly image of engineering, the service life of equipment and the health and state of operation and maintenance personnel are greatly influenced, and particularly in hot summer, peculiar smell is bad and smelly;

2. the grooves are distributed for a long distance, and local cables or electric and optical cables at corners are distributed in a crossing way with the hydraulic oil pipeline; during the maintenance of the oil pipeline, disassembling and reloading are carried out; when the operation of the cable or the optical cable is abnormal, the line fault investigation is not facilitated;

3. when a partition plate is absent between the cable or the electric optical cable in the groove and the hydraulic oil pipeline, once oil is sprayed at the joint of the hydraulic oil pipeline, the oil is sprayed to the cable, so that the cleaning area is enlarged or the cleaning is difficult, and the workload is increased;

4. the groove full-closed cover plate is not beneficial to the investigation of equipment anomalies in the groove, such as pipeline oil leakage, cable/cable fire and the like.

Disclosure of Invention

The utility model aims to provide a different-medium pipeline and groove layout structure so as to solve the technical problems in the background technology.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

a hetero-dielectric pipeline and trench layout structure comprising: the middle partition plate is arranged in the concrete groove and is used for dividing the concrete groove into a liquid pipeline cavity and a cable pipeline cavity; the middle support is arranged in the concrete groove and used for fixing the middle partition plate; the liquid pipeline bracket is arranged in the liquid pipeline cavity; the cable pipeline bracket is arranged in the cable pipeline cavity; and the cover plate is buckled on the concrete groove and is abutted against the top of the middle support.

In some embodiments, the cover plate is provided with a hollowed-out grid at a position opposite to the liquid pipeline cavity.

In some embodiments, the top and bottom of the middle support are provided with a plurality of ventilation holes.

In some embodiments, the middle support comprises support columns arranged on two sides, wherein opposite limiting fixing grooves are formed between the two support columns, and a containing cavity formed by the two limiting fixing grooves is used for limiting the middle support.

In some embodiments, the liquid conduit support comprises a first support column arranged vertically and a first support frame arranged horizontally, the first support column is arranged close to the side wall of the liquid conduit cavity, and the first support frame is arranged on the first support column through a connecting plate.

In some embodiments, the cable duct support includes a second support column disposed vertically and a second support frame disposed horizontally, the second support column disposed proximate to a sidewall of the cable duct cavity, the second support frame disposed on the second support column through a connection plate.

In some embodiments, the second support frame has a higher level than the first support frame.

In some embodiments, a deflector is arranged at the bottom of the cable duct cavity, the deflector is obliquely arranged, and the bottom end of the deflector is arranged against the air holes below the middle bracket; the high end of the deflector is arranged against the side wall of the cable duct cavity.

Compared with the prior art, the utility model has the following beneficial effects:

1. and the operation and maintenance management efficiency of equipment in the groove is improved.

2. Maintaining insulation stability and operation reliability of the cable equipment;

3. the expansion of the leakage accident of the liquid pipeline is prevented, the emergency treatment range is reduced, and the treatment period is shortened;

4. the utilization rate of the limited space of the single engineering is improved, the cost control of the whole engineering is facilitated, and references are provided for engineering design and construction management;

5. technical support is provided for engineering environment protection, and references are provided for equipment facility layout and installation specification implementation.

Drawings

FIG. 1 is a schematic diagram of a layout structure of a different-medium pipeline and a trench according to the present utility model.

Fig. 2 is a schematic structural view of an intermediate partition plate provided by the utility model.

Fig. 3 is a schematic structural view of an intermediate bracket provided by the present utility model.

Fig. 4 is a schematic view of the cooperation of the intermediate partition and the intermediate bracket provided by the utility model.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions in the preferred embodiments of the present utility model will be described in more detail with reference to the accompanying drawings in the preferred embodiments of the present utility model. In the drawings, the same or similar reference numerals refer to the same or similar components or components having the same or similar functions throughout. The described embodiments are some, but not all, embodiments of the utility model. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiments of the present utility model will be described in detail below with reference to the accompanying drawings.

In the description of the present utility model, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be fixedly connected, or indirectly connected through intermediaries, for example, or may be in communication with each other between two elements or in an interaction relationship between the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship of the drawings, merely to facilitate description of the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or display that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed or inherent to such process, method, article, or display.

A detailed description of a layout structure of a hetero-dielectric pipeline and a trench according to an embodiment of the present utility model will be given below with reference to fig. 1 to 4. It is noted that the following examples are only for explaining the present utility model and are not to be construed as limiting the present utility model.

Example 1:

the utility model provides a different-medium pipeline and groove layout structure, which is based on engineering application scenes of the same-groove layout of cables and liquid pipelines, combines one or more current situations of the defects and the defects under the condition of meeting the design specification of power cables and the layout specification of liquid pipelines, and aims at the improved design of the same-groove layout of different-medium pipelines so as to realize the clean and orderly layout of the same-groove layout of the cables and the liquid pipelines, environmental protection, sanitation, space separation, easy observation, convenient operation and maintenance management, long-term reliable operation of equipment and improvement of operation and maintenance management efficiency.

As shown in figures 1-4 of the drawings, the identical-groove layout structure of the different-medium pipeline mainly comprises N sets of middle partition plates 4, N sets of middle brackets 5 and N sets of cover plates 2. The middle support is arranged in the concrete groove 1 and is used for fixing the middle partition plate; the liquid pipeline bracket 7 is arranged in the liquid pipeline cavity; the cable duct support 6 is arranged in the cable duct cavity; the cover plate is buckled on the concrete groove, and the cover plate is abutted to the top of the middle support.

The middle partition plate is arranged in the concrete groove and is used for dividing the concrete groove into a liquid pipeline cavity and a cable pipeline cavity; the middle partition board 4 has the function of enabling the different medium pipelines 8 (such as electric cables or electric optical cables and hydraulic oil pipes) to realize space separation in the limited space arranged in the same groove; the partition board can be made of light alloy material (aluminum alloy) and is a thin plate with a certain thickness; the upper end part and the lower end part of the partition plate respectively keep a certain area, and are fully distributed with N through holes with slightly smaller diameters (the diameter D of the through holes is less than or equal to 2 CM) so as to facilitate ventilation, outward heat dissipation and gas dissipation of two cavities in the groove, communication of liquid medium at the bottom and drainage of accumulated liquid; the middle part of the middle partition board is solid so as to prevent the liquid pipeline from leaking and splashing to the cable in the cable pipeline cavity at the opposite side; the size of the partition plate needs to be measured in advance, the upper end part is flush with the lower edge of the reserved cover plate groove of the side wall of the trench concrete, and the lower end part is placed at the bottom of the middle bracket.

In some embodiments, the middle support comprises support columns arranged on two sides, wherein opposite limiting fixing grooves are formed between the two support columns, and a containing cavity formed by the two limiting fixing grooves is used for limiting the middle support. The middle support 5 is mainly used for vertically fixing the middle partition plate 4, the support can be anchored in the middle area of the groove concrete bottom plate in a punching mode (can be fixed by bolts), and then the middle partition plate 4 is placed in a fixing groove of the middle support 5, and the width of the middle partition plate needs to be matched and adapted with the partition plate.

In some embodiments, the cover plate is provided with a hollowed-out grid at a position opposite to the liquid pipeline cavity. The cover plate is a semi-grid semi-closed integral cover plate 2 and is used for forming a semi-closed space, so that operation and maintenance personnel can observe inwards, the pressure-bearing passing person can pass through, the cover plate can be uncovered manually, and emergency disposal and maintenance at any time are facilitated. The cover plate consists of a grid and a sealing part, wherein the grid side is formed by welding metal or alloy in a square shape, and the sealing side is formed by welding a grid and a thin plate (the surface is provided with lines and is anti-skid); the cover plate is required to be light in weight and convenient to take and place; the lower part of the grid corresponds to the liquid medium pipeline area, and the closed space corresponds to the cable area. This is because the liquid pipes are mostly made of stainless steel tubes, which are basically water-resistant and strong, whereas the cable tubes are mostly made of plastic skins, which are not water-resistant and are sun-proof.

In some embodiments, the top and bottom of the middle bracket are provided with a plurality of ventilation holes 9. The air holes can enable air in the cable pipeline cavity to exchange heat through the air holes, so that the passing effect of the cable pipeline cavity is improved, and heat dissipation is facilitated.

In some embodiments, the liquid conduit support comprises a first support column arranged vertically and a first support frame arranged horizontally, the first support column is arranged close to the side wall of the liquid conduit cavity, and the first support frame is arranged on the first support column through a connecting plate. The cable duct support comprises a second support column which is vertically arranged and a second support frame which is horizontally arranged, wherein the second support column is arranged close to the side wall of the cable duct cavity, and the second support frame is arranged on the second support column through a connecting plate.

The first support column and the second support column are fixed through the clamp, and stability of erection is improved. The horizontal height of the second supporting frame is higher than that of the first supporting frame. The liquid on the side of the liquid conduit is prevented from generally submerging the cables on the cable conduit support.

In order to further improve the drying environment in the cable pipeline cavity, a guide plate is arranged at the bottom of the cable pipeline cavity, the guide plate is obliquely arranged, and the bottom end of the guide plate is propped against an air hole below the middle bracket; the high end of the deflector is arranged against the side wall of the cable duct cavity, so that a small amount of liquid in the cable duct cavity flows into the liquid duct cavity along the deflector.

After the groove engineering is put into operation, the installation of the liquid pipeline and the cable bracket is finished, various different medium pipelines are also laid successively, and the middle partition plate 4, the middle bracket 5 and the semi-grid semi-closed integral cover plate 2 of the three-component set can be assembled in the groove before and after the equipment is put into operation, so that the groove is in a T-shaped structure.

On the premise of fully utilizing the utilization rate of the single engineering of the groove, the space separation layout of different media such as cables and liquid pipelines is realized through the suit, and the pipelines with the same type of media can be laid on the same side, such as the liquid pipeline 3 on the left side in fig. 1 and the cables on the right side; if multiple pipelines with different functions are planned on the same side, the pipelines can be layered up and down, for example, the upper layer on the right side in fig. 1 is a cable, and the lower layer is an electric cable.

When the liquid pipeline is in leakage spraying, the middle partition board 4 of the sleeve can effectively prevent different medium pipelines from interfering with each other, so that the accident influence range is reduced, and the emergency treatment period is shortened. The thin through holes at the upper part and the lower part of the middle partition plate 4 are used for radiating and dispersing air and discharging accumulated liquid in a relatively closed space at the cable side, and preventing mice or other small animals from entering.

The semi-grid semi-closed cover plate 2 realizes the relative closure of the side area of the cable, ensures the neatness and permeability of the internal environment of the groove, maintains the insulation level of the cable and ensures the operation reliability of the cable equipment; the liquid pipeline area can be observed inwards, so that inspection is facilitated; the cover plate can bear pressure and pass, is anti-skidding and easy to uncover, and is convenient for emergency treatment.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. A different medium pipeline and groove layout structure, characterized by comprising:

the middle partition plate is arranged in the concrete groove and is used for dividing the concrete groove into a liquid pipeline cavity and a cable pipeline cavity;

the middle support is arranged in the concrete groove and used for fixing the middle partition plate;

the liquid pipeline bracket is arranged in the liquid pipeline cavity;

the cable pipeline bracket is arranged in the cable pipeline cavity;

and the cover plate is buckled on the concrete groove and is abutted against the top of the middle support.

2. The structure for arranging different-medium pipelines and grooves according to claim 1, wherein the cover plate is provided with a hollowed-out grid at a position opposite to the liquid pipeline cavity.

3. The structure for arranging different medium pipelines and grooves according to claim 1, wherein the top and the bottom of the middle support are provided with a plurality of through ventilation holes.

4. The structure for arranging different-medium pipelines and grooves according to claim 1, wherein the middle support comprises support columns arranged on two sides, opposite limiting fixing grooves are formed between the two support columns, and a containing cavity formed by the two limiting fixing grooves is used for limiting the middle support.

5. The structure for arranging different-medium pipelines and grooves according to claim 1, wherein the liquid pipeline support comprises a first support column arranged vertically and a first support column arranged horizontally, the first support column is arranged close to the side wall of the liquid pipeline cavity, and the first support column is arranged on the first support column through a connecting plate.

6. The structure for arranging different-medium pipelines and grooves according to claim 1, wherein the cable duct support comprises a second support column which is vertically arranged and a second support frame which is horizontally arranged, the second support column is arranged close to the side wall of the cable duct cavity, and the second support frame is arranged on the second support column through a connecting plate.

7. The isodielectric pipeline and trench layout structure as claimed in claim 6, wherein the second supporting frame has a higher level than the first supporting frame.

8. The structure for arranging different-medium pipelines and grooves according to claim 6, wherein a guide plate is arranged at the bottom of the cable pipeline cavity, the guide plate is obliquely arranged, and the bottom end of the guide plate is abutted against an air hole below the middle bracket; the high end of the deflector is arranged against the side wall of the cable duct cavity.