CN209989837U - Underground compact pipe gallery structure - Google Patents

Abstract

The utility model discloses an underground compact pipe gallery structure, which comprises a pipe gallery main body, wherein the pipe gallery main body is provided with a pipe gallery cavity, and a power pipeline, a communication pipeline, a fire pipeline, a water supply pipeline and a fire pipeline are arranged in the pipe gallery cavity; the outer surface of the power pipeline is provided with a cable type temperature sensing cable detector so as to send out an alarm signal when the temperature of the power pipeline is greater than or equal to a temperature threshold value. Through the mode, on the one hand, the volume of reduction piping lane structure that can be very big to reduce the cost of installation and maintenance. On the other hand, the temperature fault of the power pipeline can be detected in real time, and the fire safety is guaranteed.

Description

Underground compact pipe gallery structure

Technical Field

The utility model relates to a well small region's underground piping management field especially involves secret compact type pipe gallery structure.

Background

In the existing pipe gallery structure, because the functions of multiple sides need to be met, the pipe gallery structure is generally arranged to be large, and in order to achieve the purposes of water prevention and partition management, the pipe gallery structure is generally provided with a plurality of chambers for respectively installing different wire pipes. Therefore, the cost is high, the occupied area is large, and underground pipeline systems in middle and small areas such as schools, gardens and the like are not facilitated.

In the prior art, a low-cost compact pipe gallery structure which can meet the requirements of middle and small areas such as schools, residential districts, complex building groups and the like does not exist.

SUMMERY OF THE UTILITY MODEL

The utility model provides a compact pipe gallery structure in the underground to solve the too big and too high problem of cost of prior art pipe gallery structure volume.

In order to solve the technical problem, one technical solution adopted by the present invention is to provide a pipe gallery structure, which is characterized in that the pipe gallery structure comprises a pipe gallery main body, wherein a pipe gallery cavity is formed in the pipe gallery main body, and a power pipeline, a communication pipeline, a fire pipeline, a water supply pipeline and a fire pipeline are arranged in the pipe gallery cavity; the outer surface of the power pipeline is provided with a cable type temperature sensing cable detector so as to send out an alarm signal when the temperature of the power pipeline is greater than or equal to a temperature threshold value.

According to the utility model discloses an embodiment, the piping lane main part includes roof, left side wall, diapire and right side wall, the roof the left side wall the diapire reaches right side wall end to end in proper order is in order to form the piping lane cavity.

According to the utility model relates to an embodiment, the roof is close to one side of piping lane cavity is equipped with the smoke detector.

According to the utility model discloses an embodiment, the diapire is close to one side of piping lane cavity is equipped with the water catch bowl, the water catch bowl is used for collecting sewage in the piping lane cavity.

According to the utility model discloses an embodiment, the diapire is close to the surface of piping lane cavity is the slope setting for the horizontal direction, so that sewage in the piping lane cavity flows to under the action of gravity the water catch bowl.

According to the utility model discloses an embodiment, be equipped with sewage discharge mechanism in the water catch bowl, sewage discharge mechanism be used for with sewage discharge in the water catch bowl extremely the outside of piping lane main part.

According to the utility model relates to an embodiment, still be equipped with electric power pipeline mounting bracket, communication pipeline mounting bracket, fire pipeline mounting bracket, water supply pipe mounting bracket and fire pipeline mounting bracket in the piping lane cavity, electric power pipeline mounting bracket the communication pipeline mounting bracket reaches the fire pipeline mounting bracket with left side wall connection, water supply pipe mounting bracket and fire pipeline mounting bracket with right side wall connection.

According to the utility model discloses an embodiment, the electric power pipeline mounting bracket the communication pipeline mounting bracket reaches the fire control pipeline mounting bracket divides into first mount frame group, water supply pipe mounting bracket and fire control pipeline mounting bracket divide into second mount frame group, first mount frame group with interval between the second mount frame group is more than or equal to apart from the threshold value to form a maintenance space.

According to the utility model relates to an embodiment, be provided with emergency lighting block terminal, communication device, audible-visual annunciator, shooting mechanism and waterproof lamp mechanism in the piping lane cavity, waterproof lamp mechanism includes waterproof lamp, connector lug and battery.

According to the utility model discloses an embodiment, the piping lane main part is still including the grounding metal portion that is the I-shaped, the main part of grounding metal portion pierce through in the left side wall, make the part grounding metal portion sets up the left side wall towards on the piping lane cavity side surface.

Be different from prior art, the utility model provides a compact piping lane structure in underground, this piping lane structure includes the piping lane body to form a piping lane cavity through this piping lane body, and through setting up power line, communication pipeline and so on spool equipment in same cavity. The volume of the whole pipe gallery structure is greatly reduced, and the installation, maintenance, volume and other costs are reduced. On the other hand, the cable type temperature sensing cable detector is arranged on the power pipeline, so that the temperature of the power pipeline can be known in real time, and the fire fighting and safety problems easily caused by faults and the like of the power pipeline are reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic view of an embodiment of the underground compact pipe gallery structure of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1, the present invention discloses an underground compact pipe rack structure 10, the pipe rack structure 10 is mainly applied to underground pipelines of small areas such as campus, residential area or large building group, the pipe rack structure 10 mainly includes a pipe rack main body 100, and the pipe rack main body 100 is formed with a pipe rack cavity 110. Wherein, the pipe gallery cavity 110 is provided with a power pipeline 200, a communication pipeline 300, a fire pipeline 400, a water supply pipe 500 and a fire pipeline 600.

The cable type temperature-sensing cable detector 210 is disposed on an outer surface of the power line 200 to detect a temperature of the power line 200, so that an alarm signal is sent when the temperature of the power line 210 is greater than or equal to a temperature threshold. Specifically, the data of the whole temperature detection is uploaded to the cloud monitoring platform, so that the temperature data can be uniformly processed in the following process, and the operation process of the whole power pipeline 210 can be known.

As shown in fig. 1, the tube lane body 100 includes a top wall 120, a left side wall 130, a bottom wall 140, and a right side wall 150. Wherein the top wall 120, the left side wall 130, the bottom wall 140, and the right side wall 150 are sequentially endlessly connected to form the tube lane cavity 110.

As shown in fig. 1, a smoke detector 121 is further disposed on a side of the top wall 120 close to the pipe rack cavity 110, so as to detect smoke and the like in real time in the pipe rack cavity 110, specifically, the smoke detector 121 may be disposed every 10 meters.

As shown in fig. 1, the bottom wall 140 is provided with a water collecting tank 141 at a side close to the pipe rack cavity 110, and the water collecting tank 141 is used for collecting sewage in the pipe rack cavity 141 to prevent the sewage or rainwater from depositing in the pipe rack cavity 110 to damage the equipment disposed in the pipe rack cavity 110.

Specifically, the bottom wall 140 is inclined relative to the horizontal at a side surface close to the pipe rack cavity 110, so that the sewage in the pipe rack cavity 110 flows to the water collecting tank 141 due to gravity. The inclination angle can be specifically set to 1-3 degrees, so that the integral regular structure of the pipe gallery cavity 110 is not influenced, and actual erection and installation are facilitated.

In an exemplary embodiment, a drainage mechanism 142 is disposed in the water collection tank 141, and the drainage mechanism 142 is used for draining the sewage in the water collection tank 141 to the outside of the piping lane main body 100. Specifically, the drainage mechanism 142 is further connected to a water level detector (not shown), which is respectively disposed in the water collection tank 141 and the pipe rack cavity 110, and when the water level reaches the preset threshold, different numbers of drainage mechanisms 142 are activated to drain water.

In an embodiment, a power line mounting rack 220, a communication line mounting rack 310, a fire line mounting rack 410, a water supply pipe mounting rack 510 and a fire pipe mounting rack 610 are further disposed in the pipe rack cavity 110, the power line mounting rack 220, the communication line mounting rack 310 and the fire line mounting rack 410 are connected to the left side wall 120, that is, fixed to the left side wall 120 by a triangular fixing manner, and the water supply pipe mounting rack 510 and the fire pipe mounting rack 610 are connected to the right side wall 140. Similarly, it may be fixed to the right side wall 140 by a triangular fixing method.

Specifically, the pipe gallery cavity 110 further includes an automatic water spraying pipe 700 and the like, which is disposed on the right sidewall 150 through a mounting bracket.

Wherein the power line mounting block 220, the communication line mounting block 310, and the fire line mounting block 410 are divided into first mounting components, and the water supply pipe mounting block 510 and the fire pipe mounting block 610 are divided into second mounting components. The distance between the first mounting frame group and the second mounting frame group is larger than or equal to a distance threshold value, so that a maintenance space is formed. Therefore, the maintenance personnel have enough space to work and carry out maintenance and overhaul.

As shown in fig. 1, the tube lane body 100 further includes a grounding metal part 160, and the grounding metal part 160 is generally i-shaped, and a main portion thereof is embedded in the left sidewall 130, and a portion thereof is disposed on a side surface of the left sidewall 130 facing the tube lane cavity 110. Specifically, the grounding metal part 160 includes a first section, a second section vertically connected to the first section, and a third section parallel to the first section and vertically connected to the second section. The second section is embedded in and penetrates the left sidewall 130, the first section is disposed on the outer wall of the left sidewall 130, and the third section is disposed on the inner wall of the left sidewall 130. This ground connection metal part 160 on the one hand can strengthen the structure of holistic piping lane body 100, and it is specific, can be the reinforcing bar structure of piping lane body 100. On the other hand, the cable can be used as a natural power connector for power connection of equipment and the like.

In the above-mentioned embodiment, through installing multiple pipe and pipeline in same cavity, compare current multicavity piping lane, the utility model provides a piping lane structure 10 volume is littleer, and the cost is lower, more is fit for wherein small-size regional underground installation, no matter at the material, maintain or be under construction, its cost can both obtain very big reduction. And a water collecting tank and a sewage pump are arranged in the pipe gallery cavity, so that the problem of water collection in the pipe gallery cavity is solved.

In a specific embodiment, the tube lane cavity 110 is further provided with a shooting mechanism and a waterproof lamp mechanism, specifically, the shooting mechanism may be set to be 50 meters to 100 meters for monitoring the tube lane cavity 110. The waterproof lamp mechanism comprises a waterproof lamp, a connector lug and a storage battery. Under general scene, its waterproof lamp can be connected to the electric wire through the connector lug, and the electric wire is connected with emergency lighting block terminal. For illumination in case of fire or in normal conditions.

Specifically, in the piping lane structure, every 200 meters, can set up an emergency lighting distribution 170, emergency lighting distribution box is used for supplying emergency lighting lamps and lanterns when taking place the conflagration. And an audible and visual alarm and a manual alarm button are also arranged in the cavity, so that after fire is confirmed, an alarm is given, and the audible and visual alarm and the manual alarm button are arranged every 50 meters. And a shooting mechanism and the like can upload data to the cloud monitoring platform through a communication device.

Specifically, waterproof sockets and the like are further arranged in the cavity, and a single-phase five-hole waterproof socket (IPX54) is arranged every 20 meters, so that maintenance personnel can conveniently use electricity during maintenance and overhaul.

In a specific embodiment, this piping lane structure 10 is still including patrolling and examining the robot, it specifically sets up in piping lane cavity 100 to patrol and examine the robot, and is specific, can be provided with the guide rail on other lateral walls of roof 120, diapire 140 or this piping lane main part 100 for it patrols and examines the robot in installation, and makes and patrols and examines the robot and can make a round trip to patrol along the pipe guide rail direction, in order to detect its equipment in the piping lane cavity.

In another embodiment, the piping lane structure 10 further comprises a passage opening and a ventilation opening, wherein the passage opening is arranged at a certain distance for the maintenance personnel to access, and a gas detection mechanism is arranged near the passage opening and the ventilation opening, and is specifically used for detecting harmful or flammable gases such as hydrogen sulfide, methane and the like. And knows about the gas conditions in real time by monitoring to ensure the fire safety of its piping lane structure 10 and the safety of the entering maintenance personnel.

In the above-mentioned embodiment, through set up in the piping lane structure and shoot mechanism, waterproof lamp mechanism, emergency box and patrol and examine robot etc. can monitor its piping lane cavity in real time, guarantee equipment safety and fire control safety of piping lane cavity the inside, and can carry out unified processing and calculation through the data with monitoring after uploading cloud monitoring platform to can obtain the condition of its piping lane cavity and internal plant, so as to maintain.

To sum up, the utility model provides an underground compact pipe gallery structure sets up the structure into a cavity through with this pipe gallery structure, has greatly simplified its pipe gallery structure's volume, and has saved material, installation, maintenance and space cost. So as to be located in medium and small areas. On the other hand, through setting up gaseous detection device, cable formula temperature sensing cable detector and camera mechanism etc. can carry out real-time detection to piping lane cavity and inside equipment in real time to guarantee its security.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. The underground compact pipe gallery structure is characterized by comprising a pipe gallery main body, wherein a pipe gallery cavity is formed in the pipe gallery main body, and a power pipeline, a communication pipeline, a fire pipeline, a water supply pipeline and a fire pipeline are arranged in the pipe gallery cavity;

the outer surface of the power pipeline is provided with a cable type temperature sensing cable detector so as to send out an alarm signal when the temperature of the power pipeline is greater than or equal to a temperature threshold value.

2. The tube lane structure of claim 1, wherein the tube lane body comprises a top wall, a left side wall, a bottom wall, and a right side wall, the top wall, the left side wall, the bottom wall, and the right side wall being sequentially connected end to form the tube lane cavity.

3. The tube lane structure of claim 2, wherein a side of the top wall proximate the tube lane cavity is provided with a smoke detector.

4. The pipe gallery structure of claim 2, wherein a water collection sump is provided on a side of the bottom wall adjacent to the pipe gallery cavity for collecting sewage in the pipe gallery cavity.

5. The tube lane structure of claim 4, wherein a surface of the bottom wall proximate the tube lane cavity is disposed at an inclination with respect to horizontal such that wastewater within the tube lane cavity flows under gravity toward the sump.

6. The pipe rack structure of claim 4, wherein a drain mechanism is provided within the sump for draining sewage within the sump to an exterior of the pipe rack body.

7. The pipe rack structure of claim 2, wherein a power line mounting rack, a communication line mounting rack, a fire line mounting rack, a water supply pipe mounting rack and a fire pipe mounting rack are further disposed in the pipe rack cavity, the power line mounting rack, the communication line mounting rack and the fire pipe mounting rack are connected to the left side wall, and the water supply pipe mounting rack and the fire pipe mounting rack are connected to the right side wall.

8. The pipe rack structure of claim 7, wherein the power line mount, the communication line mount, and the fire line mount are divided into a first set of mounts, the water supply pipe mount and the fire pipe mount are divided into a second set of mounts, and a spacing between the first set of mounts and the second set of mounts is greater than or equal to a distance threshold to form a service space.

9. The piping lane structure of claim 1, wherein there are emergency lighting power distribution box, communication device, audible and visual alarm, shooting mechanism and waterproof lamp mechanism in the piping lane cavity, the waterproof lamp mechanism includes waterproof lamp, connector lug and battery.

10. The tube lane structure of claim 2, wherein the tube lane body further comprises an i-shaped grounding metal portion having a body portion that penetrates the left sidewall such that a portion of the grounding metal portion is disposed on a side surface of the left sidewall facing the tube lane cavity.

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