CN214276101U - Can improve air supply efficiency's weaving tuber pipe - Google Patents

Abstract

A textile air duct capable of improving air supply efficiency comprises a duct body; the air feeder, the inflator pump, the air pipe body and the fixed rod are arranged on the air pipe body; the air feeder is provided with an air outlet pipe, the air pipe body is provided with a connecting pipe, the inflator pump is provided with an inflation pipe, and the inflation pipe is clamped with the air nozzle; the lower end of the suspender is rotatably provided with a lock hook, the air pipe body is provided with a supporting belt, and the air pipe body is connected with the lock hook through the supporting belt; the air pipe body comprises a textile fabric layer, a first pressure-resistant layer, an inflation layer, a second pressure-resistant layer and a heat-insulating layer, and a ventilation cavity is further arranged inside the air pipe body; the heat preservation is innermost layer, and the one side and the heat preservation of second withstand voltage layer are connected, and the other side is connected the layer of aerifing, and the one side that the second withstand voltage layer was kept away from to the layer of aerifing is connected first withstand voltage layer, and the weaving bed of cloth is connected to the other side of first withstand voltage layer, and the weaving bed of cloth is outmost. The utility model discloses can not appear flat sinking on the compliance basis of having guaranteed the weaving tuber pipe, air supply efficiency is high and simple structure, makes things convenient for dismouting and washing simultaneously, and it is very convenient to use.

Description

Can improve air supply efficiency's weaving tuber pipe

Technical Field

The utility model relates to a weaving tuber pipe technical field especially relates to a can improve air supply efficiency's weaving tuber pipe.

Background

The textile Air pipe is a flexible Air distribution system (Air distribution), namely a Soss system, woven by special fibers, and is an Air outlet end system for replacing traditional Air supply pipes, Air valves, Air diffusers, heat insulation materials and the like. The air outlet end system mainly depends on a unique air outlet mode of fiber permeation and jet hole jet flow and can uniformly and linearly supply air.

The appearance of the system is like a large cloth bag (SOCKS) in manufacturing, so that the system is often called as a cloth air pipe, a fiber air pipe and the like in China. Of course, this is only a visual expression, because the sos system is not only just an air duct, but also only plays a role of air flow transmission, and it is more important as an air supply device, and the design of the sos system directly affects the air supply effect, cooling/heating effect of the whole space.

The Sous system is widely and flexibly applied and is suitable for various spaces, such as business places, stadiums, electronic and food factory production places, supermarkets and other business places, the Sous system can be directly connected with an outlet of a fan device, also can be connected with an iron sheet air pipe and a composite air pipe, and meanwhile, the Sous system is 100% customized and can be completely arranged according to the actual situation of the site of the air supply place.

Because weaving tuber pipe is made into by the fibre, consequently, whole pipeline is very soft, because the inside bearing structure that does not have of tuber pipe, if the forced draught blower air supply speed is not high at the air supply in-process, the inside air pressure of tuber pipe will be not enough to lead to the tuber pipe part flat sunken or bend, thereby lead to the air supply inhomogeneous. Simultaneously, the existing air pipes are mostly fixedly hung above a working area, so that the disassembly is inconvenient, and inconvenience is brought to cleaning of the air pipes in later periods.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

For solving the technical problem that exists among the background art, the utility model provides a can improve the weaving tuber pipe of air supply efficiency still can guarantee when forced draught blower air supply pressure is low that the air supply is even, and the tuber pipe body can not appear the flat condition of caving in, and the tuber pipe can not change in the inside emergence of tuber pipe at the in-process apoplexy temperature of air supply simultaneously.

(II) technical scheme

The utility model provides a textile air duct capable of improving air supply efficiency, which comprises a duct body; the air feeder, the inflator pump, the air pipe body and the fixed rod are arranged on the air pipe body;

the air feeder is provided with an air outlet pipe, the air pipe body is provided with a connecting pipe, and the connecting pipe is clamped with the air outlet pipe; the air pipe body is also provided with an air nozzle, the inflator pump is provided with an inflation pipe, and the inflation pipe is clamped with the air nozzle;

the lower end of the fixed rod is connected with a plurality of hanging rods in a sliding manner, and the lower ends of the hanging rods are rotatably provided with lock hooks; the air pipe body is provided with a supporting belt, is connected with the latch hook through the supporting belt and is hung at the lower end of the hanging rod;

the air pipe body comprises a textile fabric layer, a first pressure-resistant layer, an inflation layer, a second pressure-resistant layer and a heat-insulating layer, and a ventilation cavity is further arranged inside the air pipe body; the heat-insulating layer is the innermost layer, one surface of the second pressure-resistant layer is connected with the heat-insulating layer, the other surface of the second pressure-resistant layer is connected with the inflatable layer, and the air bag is positioned in the inflatable layer; one side of the inflatable layer, which is far away from the second pressure-resistant layer, is connected with the first pressure-resistant layer, the other side of the first pressure-resistant layer is connected with the textile fabric layer, and the textile fabric layer is the outermost layer.

Preferably, an air filter is further arranged inside the air outlet pipe.

Preferably, the air pipe body is provided with a plurality of air vents, and the air vents are communicated with the ventilation cavity.

Preferably, the fixed rod is provided with a sliding groove, the upper end of the hanging rod is provided with a sliding block, and the sliding block is connected with the sliding groove in a sliding manner.

Preferably, the balloon is an annular lattice balloon.

Preferably, the air nozzle is also provided with an air nozzle cap, and the air nozzle cap is in threaded connection with the air nozzle.

Preferably, the inflator is also provided with a pressure gauge.

The above technical scheme of the utility model has following profitable technological effect:

the air pipe can be suspended below the suspension rod, so that the air pipe can move on the fixed rod; the air bag plays a supporting role in the air pipe body, so that the air pipe cannot be shriveled when the air supply rate is low, and the air supply is not uniform; impurities contained in the air entering the branch pipe body by the air filter are isolated, so that the ventilation hole on the air pipe body is prevented from being blocked; the utility model has inconvenient air supply temperature, and the air supply efficiency of the textile air pipe is higher; simultaneously the utility model discloses easy dismounting, the washing in the later stage of being convenient for.

Drawings

Fig. 1 is the utility model provides a can improve the structural schematic diagram of the weaving tuber pipe of air supply efficiency.

Fig. 2 is the utility model provides a can improve air supply efficiency's weaving tuber pipe apoplexy body and gasbag's structure chart (cut-away).

Fig. 3 is the utility model provides a can improve wind pipe body and gasbag's among weaving tuber pipe of air supply efficiency cross-sectional view (left side view).

Fig. 4 is the utility model provides a can improve air supply efficiency's weaving tuber pipe apoplexy body's schematic structure diagram.

Reference numerals: 1. a blower; 2. an inflator pump; 3. an inflation tube; 4. an air outlet pipe; 5. an air filter; 6. a connecting pipe; 7. an air duct body; 8. a vent hole; 9. a support band; 10. fixing the rod; 11. a boom; 12. a latch hook; 13. a slider; 14. a chute; 15. an air bag; 16. an air nozzle; 17. a ventilation cavity; 18. weaving a fabric layer; 19. a first voltage-resistant layer; 20. an air-filled layer; 21, a second voltage-resisting layer; 22. and (7) an insulating layer.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-4, the utility model provides a textile air duct capable of improving air supply efficiency, which comprises; the air blower comprises an air feeder 1, an air pump 2, an air pipe body 7 and a fixed rod 10;

an air outlet pipe 4 is arranged on the air feeder 1, a connecting pipe 6 is arranged on the air pipe body 7, and the connecting pipe 6 is clamped with the air outlet pipe 4; an air nozzle 16 is further arranged on the air pipe body 7, an inflation tube 3 is arranged on the inflation pump 2, and the inflation tube 3 is clamped with the air nozzle 16;

the lower end of the fixed rod 10 is connected with a plurality of suspension rods 11 in a sliding manner, and the lower end of each suspension rod 11 is rotatably provided with a lock hook 12; the air pipe body 7 is provided with a supporting belt 9, and the air pipe body 7 is connected with a locking hook 12 through the supporting belt 9 and is hung at the lower end of a hanging rod 11;

the air pipe body 7 comprises a textile fabric layer 18, a first pressure-resistant layer 19, an inflation layer 20, a second pressure-resistant layer 21 and a heat-insulating layer 22, and a ventilation cavity 17 is further arranged inside the air pipe body 7; the insulating layer 22 is the innermost layer, one side of the second pressure-resistant layer 21 is connected with the insulating layer 22, the other side of the second pressure-resistant layer is connected with the inflatable layer 20, the airbag 15 is positioned in the inflatable layer 20, one side, far away from the second pressure-resistant layer 21, of the inflatable layer 20 is connected with the first pressure-resistant layer 19, the other side of the first pressure-resistant layer 19 is connected with the textile fabric layer 18, and the textile fabric layer 18 is the outermost layer.

In an alternative embodiment, an air filter 5 is further disposed inside the air outlet pipe 4.

In an alternative embodiment, the air duct body 1 is provided with a plurality of vent holes 8, and the vent holes 8 are communicated with the vent cavity 17.

In an alternative embodiment, the fixing rod 10 is provided with a sliding groove 14, the upper end of the suspension rod 11 is provided with a sliding block 13, and the sliding block 13 is slidably connected with the sliding groove 14.

In an alternative embodiment, the balloon 15 is an annular lattice balloon.

In an alternative embodiment, an air nozzle cap is further provided on the air nozzle 16, and the air nozzle cap is in threaded connection with the air nozzle 16.

In an alternative embodiment, a pressure gauge is also provided on the inflator 2.

In the utility model, an operator utilizes the latch hook (12) to pass through the supporting belt 9 to hang the air duct body on the suspender 11, and the suspender which is farthest away from the air feeder 1 is pushed to slide the air duct body 1 to a required air duct working area; the air supply of the air pipe basically hangs the textile air pipe at a high position, and the inconvenience caused by that workers need to hang the textile air pipe at the high position one by one in the air pipe hanging process is avoided by using the connection mode;

connecting an inflation tube 3 on an inflator 2 with an air nozzle 16, starting the inflator 2, starting inflation of an air bag 15, when the reading of a pressure gauge on the inflator 2 reaches the high pressure value of the air bag 15, closing the inflator 2, stopping inflation, closing the air nozzle 16, and simultaneously screwing an air nozzle cap on the air nozzle 16; the air bag 15 is inflated, so that the air pipe body 7 is always in a bulging state, and the phenomenon of uneven air supply caused by the fact that the air pipe is shriveled and bent under the condition of insufficient air supply pressure is avoided;

the connecting pipe 6 on the air pipe body 7 is clamped with the air outlet pipe 4 of the air feeder 1, and the air filter 5 arranged in the air outlet pipe 4 filters air fed by the air feeder, so that the blockage of the air vent 8 of the air pipe is avoided; an operator can supply air to the interior of the air duct body 1 by opening the air supply machine 1;

the air duct body 7 is respectively provided with a woven fabric layer 18, a first pressure-resistant layer 19, an inflation layer 20, a second pressure-resistant layer 21 and a heat preservation layer 22 from outside to inside, each layer is made of flexible materials, the softness of the air duct body 1 is guaranteed, the air bag 15 is positioned between the first pressure-resistant layer 19 and the second pressure-resistant layer 21, and the air bag does not bulge in the process of inflating the air bag 15, so that the practicability and the safety of the utility model are improved; meanwhile, the heat preservation layer 22 can guarantee that the air outlet temperature of each air vent 8 on the air pipe body 1 is consistent.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (7)

1. A textile air duct capable of improving air supply efficiency is characterized by comprising a duct body; the air supply device comprises a blower (1), an air pump (2), an air pipe body (7) and a fixed rod (10);

an air outlet pipe (4) is arranged on the air feeder (1), a connecting pipe (6) is arranged on the air pipe body (7), and the connecting pipe (6) is clamped with the air outlet pipe (4); an air nozzle (16) is further arranged on the air pipe body (7), an inflation tube (3) is arranged on the inflation pump (2), and the inflation tube (3) is clamped with the air nozzle (16);

the lower end of the fixed rod (10) is connected with a plurality of suspension rods (11) in a sliding manner, and the lower ends of the suspension rods (11) are rotatably provided with lock hooks (12); the air pipe body (7) is provided with a supporting belt (9), and the air pipe body (7) is connected with the latch hook (12) through the supporting belt (9) and is hung at the lower end of the suspender (11);

the air pipe body (7) comprises a textile fabric layer (18), a first pressure-resistant layer (19), an inflation layer (20), a second pressure-resistant layer (21) and a heat-insulating layer (22), and a ventilation cavity (17) is further arranged inside the air pipe body (7); the heat-insulating layer (22) is the innermost layer, one surface of the second pressure-resistant layer (21) is connected with the heat-insulating layer (22), the other surface of the second pressure-resistant layer is connected with the inflatable layer (20), and the air bag (15) is positioned inside the inflatable layer (20); one side of the inflatable layer (20) far away from the second pressure-resistant layer (21) is connected with a first pressure-resistant layer (19), the other side of the first pressure-resistant layer (19) is connected with a textile fabric layer (18), and the textile fabric layer (18) is the outermost layer.

2. The textile air duct capable of improving the air supply efficiency according to claim 1, characterized in that an air filter (5) is further arranged inside the air outlet duct (4).

3. The textile air duct capable of improving the air supply efficiency as recited in claim 1, characterized in that a plurality of vent holes (8) are provided on the air duct body (7), and the vent holes (8) are communicated with the vent cavities (17).

4. The textile air duct capable of improving the air supply efficiency as claimed in claim 1, wherein the fixing rod (10) is provided with a sliding groove (14), the upper end of the suspension rod (11) is provided with a sliding block (13), and the sliding block (13) is slidably connected with the sliding groove (14).

5. The textile air duct capable of improving air supply efficiency according to claim 1, characterized in that the air bag (15) is an annular grid-shaped air bag.

6. The textile air duct capable of improving the air supply efficiency as claimed in claim 1, wherein an air nozzle cap is further arranged on the air nozzle (16), and the air nozzle cap is in threaded connection with the air nozzle (16).

7. The textile air pipe capable of improving the air supply efficiency according to claim 1, wherein a pressure gauge is further arranged on the inflator pump (2).

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