CN206053159U - A kind of pneumatic membrane building high pressure snow removal system - Google Patents

Abstract

This utility model provides a kind of pneumatic membrane building high pressure snow removal system, including blowing snow pipe and charger；The blowing snow pipe is used to be arranged at the top of the pneumatic membrane building being adapted；Blowing snow air port is provided with the blowing snow pipe, air pressure is applied into the blowing snow pipe by the charger, formed by the air-flow inside blowing snow pipe to blowing snow air port direction.In above-mentioned technical proposal, by the operation of the charger, can be inflated into the blowing snow pipe, increase the air pressure in the blowing snow pipe, formed from the blowing snow pipe high pressure draught from inside to the blowing snow air port, the blowing snow pipe is arranged on into the top of pneumatic membrane building, due to being provided with blowing snow air port on the blowing snow pipe, the high pressure draught can be flowed outwards or along the outer surface of the pneumatic membrane building along the top of the pneumatic membrane building in the blowing snow air port, and then just can blow away falling to snowing for pneumatic membrane building outer surface, make it away from pneumatic membrane building roof area.

Description

A kind of pneumatic membrane building high pressure snow removal system

Technical field

This utility model is related to pneumatic membrane building technical field, more particularly, to a kind of pneumatic membrane building high pressure snow removal system.

Background technology

Pneumatic membrane building is to do shell with special building film material, and a set of intelligentized electromechanical equipment of outfit is in pneumatic membrane building Portion provides the malleation of air, a kind of architectural structural system that building body is supported.

The inner outer draught head of air film supporting whole building, due to the intrinsic effectiveness of the flexibility and structure of material and arc The bodily form of shape, not by it is curved, turned round and pressurized component；The inside of pneumatic membrane building is supported without the need for any framework or beam column, so Its span can reach 180 meters.

Due to the particularity of air film structure, pneumatic membrane building deadweight suffers from strict requirements with outside load-bearing.In China north Side area, Winter Snow are more, because span is larger, accumulated snow phenomenon easily occurs to pneumatic membrane building in roof, such as clear up not in time, accumulated snow Can gradually in bulk and cumulative, also can be increasing to the pressure at the top of air film, excessive pressure can be brought sternly to air film The potential safety hazard of weight.Existing air film snow-clearing technique generally by hot-air is filled in air film film body, make film body heat up to melt Film body surface accumulated snow, and then reach the purpose of snow removing；Or by manually being swept away snow, and then reach the purpose of snow removing.

Removed the snow by the way of heating up, operation energy consumption is larger；Removed the snow using manual type, the amount of labour is big, efficiency is low, and not Easily remove the snow in time.

So, a kind of equipment that can effectively remove accumulated snow at the top of pneumatic membrane building is developed, insider has been become urgently The problem that need to be solved.

Utility model content

The purpose of this utility model is to provide a kind of pneumatic membrane building high pressure snow removal system, to solve the existing pneumatic membrane building winter The problem of its Snowremoval.

A kind of pneumatic membrane building high pressure snow removal system that this utility model is provided, including blowing snow pipe and charger；It is described to blow Snow pipe is used to be arranged at the top of the pneumatic membrane building being adapted；

Blowing snow air port is provided with the blowing snow pipe, air pressure, shape are applied by the charger into the blowing snow pipe Into inside by blowing snow pipe to blowing snow air port direction air-flow.

Further, in one embodiment of the present utility model, the blowing snow air port includes horizontal blowing snow air port, described Laterally the axis in blowing snow air port is parallel with the tangent line on the summit of the outer surface of the pneumatic membrane building.

Further, in one embodiment of the present utility model, the horizontal blowing snow air port include it is multiple, it is multiple described Laterally blowing snow air port is arranged along the axis of the blowing snow pipe.

Further, in one embodiment of the present utility model, multiple horizontal blowing snow air ports are symmetricly set in institute State the both sides of blowing snow pipe.

Further, in one embodiment of the present utility model, the blowing snow air port includes longitudinal blowing snow air port, described Longitudinal blowing snow air port is arranged in the top of the blowing snow pipe along the axis of the blowing snow pipe.

Further, in one embodiment of the present utility model, the axis and the air film in longitudinal blowing snow air port The normal on the summit of the outer surface of building is parallel.

Further, in one embodiment of the present utility model, the blowing snow Gutron is crossed welding diaphragm and is welded to connect At the top of the pneumatic membrane building.

Further, in one embodiment of the present utility model, the welding diaphragm includes multiple, multiple welding Diaphragm is symmetricly set in the both sides of the blowing snow pipe.

Further, in one embodiment of the present utility model, the blowing snow pipe is made using flexible material.

Further, in one embodiment of the present utility model, connect between the charger and the blowing snow pipe There is guide duct.

Further, in one embodiment of the present utility model, the horizontal blowing snow air port and longitudinal blowing snow wind The air draft wind direction of mouth is perpendicular.

In above-mentioned technical proposal, the charger is connected with the blowing snow pipe, by the operation of the charger, Can be inflated into the blowing snow pipe, increase the air pressure in the blowing snow pipe, form one air-flow；The blowing snow Guan Shangshe Blowing snow air port is equipped with, after the air pressure in the blowing snow pipe increases, air-flow from inside to outside can be formed in the blowing snow pipe, i.e., Then inside from the blowing snow pipe is flowed out by the blowing snow air port to the air-flow in the blowing snow air port, and formation can dispel product The high pressure draught of snow.

The blowing snow pipe is arranged on into the top of pneumatic membrane building, as horizontal blowing snow air port is provided with the blowing snow pipe With longitudinal blowing snow air port, so, the horizontal blowing snow air port can by the high pressure draught along the top of the pneumatic membrane building to Outer or along the pneumatic membrane building outer surface flows, and then just can blow away falling to snowing for pneumatic membrane building outer surface, Pneumatic membrane building roof area is made it away from, the outer surface along pneumatic membrane building is slided, during here cleaning accumulated snow, due to gas Membrane building is formed by inflating, so outer surface can all form arc, the technical scheme of the application just make use of pneumatic membrane building Unique profile, arranges the snow removal system that can export high pressure draught, blows deposition using high pressure draught at the top of pneumatic membrane building Accumulated snow at the top of pneumatic membrane building, after accumulated snow is blown, can be by inertia, along the cambered surface of the outer surface of the pneumatic membrane building Glide, during downslide, realize completely by gravity, thus, the snow removal system that the application is provided is merely provided The power source of accumulated snow is blown, and in the second half of accumulated snow whereabouts, and without providing power, like this, its snow removing process In energy resource consumption can also reduce.

Further, longitudinal blowing snow air port can form high pressure draught from bottom to top, in the process that snowflake falls In, the fall trajectory of snowflake is changed, snowflake is dispelled, is prevented snowflake from falling on the blowing snow pipe, because laterally blowing snow air port High pressure draught blow to and be directed towards blowing snow pipe both sides, so, belong to a blind area at the top of the blowing snow pipe, using described vertical The accumulated snow of the blind area can be solved the problems, such as to blowing snow air port.

Description of the drawings

In order to be illustrated more clearly that this utility model specific embodiment or technical scheme of the prior art, below will be right Needed for specific embodiment or description of the prior art, accompanying drawing to be used is briefly described, it should be apparent that, describe below In accompanying drawing be some embodiments of the present utility model, for those of ordinary skill in the art, do not paying creativeness On the premise of work, can be with according to these other accompanying drawings of accompanying drawings acquisition.

The front view of the pneumatic membrane building high pressure snow removal system that Fig. 1 is provided for this utility model embodiment；

Fig. 2 is the side view of the pneumatic membrane building high pressure snow removal system shown in Fig. 1；

The blowing snow tubular construction schematic diagram one that Fig. 3 is provided for this utility model embodiment；

The blowing snow tubular construction schematic diagram two that Fig. 4 is provided for this utility model embodiment.

Reference：

1- blowing snow pipes；2- chargers；3- pneumatic membrane buildings；

11- blowing snow air port；The horizontal blowing snow air ports of 111-；31- tangent lines；

112- longitudinal directions blowing snow air port；32- normals；4- welds diaphragm；

5- guide ducts.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described Embodiment is a part of embodiment of this utility model, rather than the embodiment of whole.Based on the embodiment in this utility model, this The every other embodiment obtained under the premise of creative work is not made by field those of ordinary skill, belongs to practical Novel protected scope.

In description of the present utility model, it should be noted that term " " center ", " on ", D score, "left", "right", " perpendicular Directly ", the orientation or position relationship of the instruction such as " level ", " interior ", " outward " is, based on orientation shown in the drawings or position relationship, to be only For the ease of describe this utility model and simplify description, rather than indicate or imply indication device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.Additionally, term " the One ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that indicating or implying relative importance.

In description of the present utility model, it should be noted that unless otherwise clearly defined and limited, term " peace Dress ", " being connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected, or be detachably connected, or integratedly Connection；Can be mechanically connected, or electrically connect；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Concrete meaning of the language in this utility model.

The front view of the pneumatic membrane building high pressure snow removal system that Fig. 1 is provided for this utility model embodiment；

Fig. 2 is the side view of the pneumatic membrane building high pressure snow removal system shown in Fig. 1；

First, as illustrated in fig. 1 and 2, a kind of pneumatic membrane building high pressure snow removal system that the present embodiment is provided, including blowing snow pipe 1 With charger 2；The blowing snow pipe 1 is used to be arranged at the top of the pneumatic membrane building 3 being adapted；As shown in figure 1, the blowing snow pipe 1 Along the pneumatic membrane building top arrange, be provided with blowing snow air port 11 on the blowing snow pipe 1, by the charger 2 to Apply air pressure in the blowing snow pipe 1, formed by the air-flow inside blowing snow pipe 1 to 11 direction of blowing snow air port.Implement at one In example, the blowing snow pipe 1 is made using flexible material, as the blowing snow pipe 1 adopts light flexible material, in snow removal system not During operation, flexible blowing snow pipe 1 can be laid in the roof of pneumatic membrane building 3 automatically, not affect 3 roof contours of pneumatic membrane building, also, As flexible 1 quality of blowing snow pipe is lighter, the gravity Bearing degree at the top of pneumatic membrane building 3 can also be reduced.Meanwhile, such as Fig. 1 institutes The pneumatic membrane building 3 for showing and the setting form of blowing snow pipe 1, are only shown according to the pneumatic membrane building 3 of elongated, specific real Apply in example, the setting form of the blowing snow pipe 1 and can be according to concrete feelings with the setting relation between the pneumatic membrane building 3 being adapted Condition is designed, and the application merely provides limited embodiment, any based on technical scheme, without creative work The technical scheme of acquisition, is all contained within the protection domain of technical scheme.

In the particular embodiment, as depicted in figs. 1 and 2, the charger 2 is connected with the blowing snow pipe 1, by institute The operation of charger 2 is stated, can be inflated into the blowing snow pipe 1, increase the air pressure in the blowing snow pipe 1, form one Stock air-flow；Blowing snow air port 11 is provided with the blowing snow pipe 1, after the air pressure in the blowing snow pipe 1 increases, in the blowing snow pipe Can be formed with air-flow from inside to outside in 1, i.e., from the blowing snow pipe 1 air-flow from inside to the blowing snow air port 11, then by institute State blowing snow air port 11 to flow out, formation can dispel the high pressure draught of accumulated snow.

The blowing snow tubular construction schematic diagram one that Fig. 3 is provided for this utility model embodiment；

As shown in figure 3, the blowing snow air port 11 includes horizontal blowing snow air port 111, the axis in the horizontal blowing snow air port 111 It is parallel with the tangent line 31 on the summit of the outer surface of the pneumatic membrane building 3.

In the particular embodiment, the blowing snow pipe 1 is arranged on the top of the pneumatic membrane building 3 for needing to clear up accumulated snow, by In horizontal blowing snow air port 111 and longitudinal blowing snow air port 112 are provided with the blowing snow pipe 1, so, the horizontal blowing snow air port The high pressure draught can be flowed outwards or along the outer surface of the pneumatic membrane building 3 by 111 along the top of the pneumatic membrane building 3, And then just can blow away falling to snowing for 3 outer surface of pneumatic membrane building so as to away from pneumatic membrane building roof area, along gas The outer surface of membrane building 3 is slided, during here cleaning accumulated snow, as pneumatic membrane building 3 is formed by inflating, so outer surface Arc will be formed, the technical scheme of the application just make use of the unique profile of pneumatic membrane building, arrange at the top of pneumatic membrane building 3 The snow removal system of high pressure draught can be exported, the accumulated snow being deposited at the top of pneumatic membrane building 3 is blown using high pressure draught, when accumulated snow quilt After blowing, can glide, during downslide, pass through completely by inertia, the cambered surface along the outer surface of the pneumatic membrane building 3 Realizing, thus, the snow removal system that the application is provided merely provides the power source for blowing accumulated snow to gravity, and in accumulated snow The second half of whereabouts, and without providing power, like this, the energy resource consumption during its snow removing can also be reduced.

With continued reference to Fig. 1 and Fig. 2, the horizontal blowing snow air port 111 includes multiple, multiple horizontal blowing snow air ports 111 Axis along the blowing snow pipe 1 is arranged, and multiple horizontal blowing snow air ports 111 are symmetricly set in the both sides of the blowing snow pipe 1.

This makes it possible to ensure 1 both sides of blowing snow pipe to go out monsoon intensity consistent, due in order to mitigate holding for pneumatic membrane building 3 By weight, so the blowing snow pipe 1 employs light flexible material, if by the forced airflow flowed out inside the blowing snow pipe 1 If left and right is unbalanced, blowing snow pipe 1 can be easily caused and fix shakiness, be come off from the top of pneumatic membrane building 3, but it is horizontal by arranging The position in blowing snow air port 111 so as to after symmetrical, it is possible to ensure 1 both sides of blowing snow pipe to go out monsoon intensity consistent.

With continued reference to Fig. 3, the blowing snow air port 11 includes longitudinal blowing snow air port 112, and longitudinal blowing snow air port 112 is along institute The axis for stating blowing snow pipe 1 is arranged in the top of the blowing snow pipe 1.

In the particular embodiment, longitudinal blowing snow air port 112 can form high pressure draught from bottom to top, in snowflake During whereabouts, the fall trajectory of snowflake is changed, snowflake is dispelled, is prevented snowflake from falling on the blowing snow pipe 1, because horizontal Blow to the high pressure draught in blowing snow air port 111 and be directed towards blowing snow pipe both sides, so, the top of the blowing snow pipe 1 belongs to one Blind area, can solve the problems, such as the accumulated snow of the blind area using longitudinal blowing snow air port 112.

Further, the normal on the axis in longitudinal blowing snow air port 112 and the summit of the outer surface of the pneumatic membrane building 3 32 is parallel.

With continued reference to Fig. 3, the blowing snow pipe 1 is welded to connect at the top of the pneumatic membrane building 3 by welding diaphragm 4；It is described Welding diaphragm 4 includes multiple, and multiple welding diaphragms 4 are symmetricly set in the both sides of the blowing snow pipe 1.By welding diaphragm 4 The blowing snow pipe 1 is welded on into the top of pneumatic membrane building 3, this makes it possible to ensure the stability of 1 work of blowing snow pipe, due to blowing snow Pipe 1 can form high pressure draught, if fixed unstable, can easily cause blowing snow pipe 1 and come off from pneumatic membrane building 3, but by weldering The mode for connecing, it is possible to avoid this problem.

The blowing snow tubular construction schematic diagram two that Fig. 4 is provided for this utility model embodiment；

As shown in figure 4, guide duct 5 is connected between the charger 2 and the blowing snow pipe 1, the charger 2 can Ground is arranged on, air-flow is directed in the blowing snow pipe 1 by guide duct 5, charger 2 is not arranged on into pneumatic membrane building On, prevent charger 2 from increasing the gravity Bearing degree of pneumatic membrane building 3.

Finally it should be noted that：Various embodiments above is only illustrating the technical solution of the utility model, rather than which is limited System；Although being described in detail to this utility model with reference to foregoing embodiments, one of ordinary skill in the art should Understand：Which still can be modified to the technical scheme described in foregoing embodiments, or to which part or whole Technical characteristic carries out equivalent；And these modifications or replacement, do not make the essence of appropriate technical solution depart from this practicality new The scope of each embodiment technical scheme of type.

Claims (10)

1. a kind of pneumatic membrane building high pressure snow removal system, it is characterised in that including blowing snow pipe (1) and charger (2)；The blowing snow (1) is managed for being arranged at the top of the pneumatic membrane building being adapted (3)；

Blowing snow air port (11) is provided with the blowing snow pipe (1), is applied into the blowing snow pipe (1) by the charger (2) It is with air pressure capable of being increased, formed by the internal air-flow to blowing snow air port (11) direction of blowing snow pipe (1).

2. pneumatic membrane building high pressure snow removal system according to claim 1, it is characterised in that the blowing snow air port (11) includes Horizontal blowing snow air port (111), the axis of the horizontal blowing snow air port (111) and the summit of the outer surface of the pneumatic membrane building (3) Tangent line (31) it is parallel.

3. pneumatic membrane building high pressure snow removal system according to claim 2, it is characterised in that the horizontal blowing snow air port (111) including multiple, axis arrangement of multiple horizontal blowing snow air ports (111) along the blowing snow pipe (1).

4. pneumatic membrane building high pressure snow removal system according to claim 3, it is characterised in that multiple horizontal blowing snow air ports (111) both sides of the blowing snow pipe (1) are symmetricly set in.

5. pneumatic membrane building high pressure snow removal system according to claim 1, it is characterised in that the blowing snow air port (11) includes Longitudinal blowing snow air port (112), longitudinal blowing snow air port (112) are arranged in described blowing along the axis of the blowing snow pipe (1) The top of snow pipe (1).

6. pneumatic membrane building high pressure snow removal system according to claim 5, it is characterised in that longitudinal blowing snow air port (112) axis is parallel with the normal (32) on the summit of the outer surface of the pneumatic membrane building (3).

7. the pneumatic membrane building high pressure snow removal system according to claim 4 or 6, it is characterised in that the blowing snow pipe (1) passes through Welding diaphragm (4) is welded to connect at the top of the pneumatic membrane building (3).

8. pneumatic membrane building high pressure snow removal system according to claim 7, it is characterised in that the welding diaphragm (4) includes Multiple, multiple welding diaphragm (4) are symmetricly set in the both sides of the blowing snow pipe (1).

9. pneumatic membrane building high pressure snow removal system according to claim 8, it is characterised in that the blowing snow pipe (1) is using soft Property material make.

10. pneumatic membrane building high pressure snow removal system according to claim 9, it is characterised in that the charger (2) and institute State and between blowing snow pipe (1), be connected with guide duct (5).