CN204492323U - The energy-conservation barracks of emergency management and rescue after calamity - Google Patents
The energy-conservation barracks of emergency management and rescue after calamity Download PDFInfo
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- CN204492323U CN204492323U CN201520199282.2U CN201520199282U CN204492323U CN 204492323 U CN204492323 U CN 204492323U CN 201520199282 U CN201520199282 U CN 201520199282U CN 204492323 U CN204492323 U CN 204492323U
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- barracks
- supporting ring
- rescue
- main framing
- conservation
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Abstract
The utility model discloses the energy-conservation barracks of emergency management and rescue after a kind of calamity, comprise barracks base supporting ring, the barracks main framing be connected with barracks base supporting ring, and be arranged on the two film layers inside and outside barracks main framing; Described barracks main framing is fixed with stability sensor and heat retaining and exothermal device; The bottom of described barracks base supporting ring is provided with raising device; Described barracks main framing comprises the circular supporting ring be fixedly connected with barracks base supporting ring, and the semicircle scalable skeleton of the longitude and latitude to be connected with circular supporting ring, be arranged between the semicircle scalable skeleton of longitude and latitude and circular supporting ring, and the skeleton connector be simultaneously connected and fixed with the semicircle scalable skeleton of longitude and latitude and circular supporting ring.It is simple that the utility model provides a kind of structure, operate easy to install, and it is little to take up room at ordinary times, and after installing, volume space is large, and in windproof, rainproof, warming energy-conservation barracks of emergency management and rescue after the good calamity of effect.
Description
Technical field
The utility model relates to emergency disaster relief apparatus field, is specially the energy-conservation barracks of emergency management and rescue after a kind of calamity.
Background technology
After modern calamity, disaster relief theory requires the features such as disaster relief installations and facilities should have maneuverability, the assembling that is easy to carry, properties of heat preservation and energy saving is good, overall structure safety and stability reliable, environmental protection, place strong adaptability, and these calamity installations and facilities of will crying for help should combine with modern new technology and new material when manufacturing and designing.
But, after current calamity, emergency management and rescue barracks mostly are tent, board house, provisional banda etc., little, rainproof, the sun-proof poor performance of these installations and facilities capacity, install inconvenient, and arrangement rear stability can be poor, more crucially existing emergency management and rescue barracks heat-insulating property is not good, and energy consumption is higher, be not easy to Post disaster relief, especially overcast and rainy, when mist is white, snow freezes, it is warming that people can only rely on cotton-wadded quilt, clothing to carry out, to live after being not suitable for calamity and life and producing is settled.
Therefore, for the highly energy-consuming of existing barracks and the problem of functional performance difference, by modern disaster relief theory, carrying out the appropriate design of disaster relief barracks, has been a good problem to study.
Summary of the invention
It is simple that the utility model provides a kind of structure, simple to operate, be easy to assembling, easy to use, and it is little to take up room during the non-disaster relief, and during use, volume space is large, and in windproof, rainproof, warming etc. the energy-conservation barracks of the good emergency management and rescue of effect.
Implementation method of the present utility model is as follows:
The energy-conservation barracks of emergency management and rescue after calamity, comprise barracks base supporting ring 4, the barracks main framing be connected with barracks base supporting ring 4, and are arranged on the two film layers inside and outside barracks main framing; Described barracks main framing is fixed with stability sensor and heat retaining and exothermal device; The bottom of described barracks base supporting ring 4 is provided with raising device;
Described barracks main framing comprises and barracks base supporting ring 4, the circular supporting ring 6 be fixedly connected with and the semicircle scalable skeleton 7 of the longitude and latitude that is connected with circular supporting ring 6, be arranged between the semicircle scalable skeleton 7 of longitude and latitude and circular supporting ring 6, and the skeleton connector 5 that semicircle scalable skeleton 7 and circular supporting ring 6 are connected and fixed with longitude and latitude simultaneously;
Described barracks base supporting ring 4 is made up of multi-piece chassis track 2, and a section of described base track 2 is projecting lug 3, and the other end is provided with setting supporting with lug 3, for connecting and fixing the lug fixing hole 1 of lug 3;
The basis that described lug 3 protrudes from base track 2 is external, and lug fixing hole 1 is positioned at the body of base track 2, and external-open gap;
Described barracks main framing adopts the glass fiber-reinforced polymer of high-strength light and is rotationally connected dop;
The described two film layers be arranged on inside and outside barracks main framing adopts semipermeable membrane material, film is provided with ventilated pin hole; Two film layers is connected on barracks base supporting ring 4 by buckle-type; The film side of bottom has access;
The described two film layers be arranged on inside and outside barracks main framing adopts ethylene-vinyl chloride polymer film, and bonding between the two can adopt the form of velcro.
positive beneficial effect:compared with existing barracks facility, the utility model has the advantage of following four aspects:
1, the design of extension type saving parking space that these barracks can be tried one's best when vacant, can open rapidly again when urgent use and provide larger living space, have maneuverability, the feature of the assembling that is easy to carry; 2, skeleton installs Temperature-controlled appliance, can realize the inner constant temperature effect of barracks, environmental protection, this function is the outstanding advantages of these barracks; 3, barracks base supporting ring 4 adopts orbital fashion, bottom firmly can be fixed on ground, and resistance to capsizing is strong, installs raising device simultaneously, it can be made above ground level, realize the effect of waterproof, have very strong place compliance below track; 4, these barracks are simple to operate, and functional performance is good, also for different ambient conditionss, can adopt same principle, produce different size, different materials, the different series of products configured to meet the needs of various the condition of a disaster.Economic benefit aspect, drawing materials of this patent all take into account the cost of manufacture, and material is restricted low, wide material sources, has promotion and application and is worth.
Accompanying drawing explanation
Fig. 1 is the semicircle scalable skeleton schematic diagram of longitude and latitude;
Fig. 2 is circular supporting ring cage construction schematic diagram;
Fig. 3 is skeleton connecting-piece structure schematic diagram;
Fig. 4 is barracks main framing structural representation;
Fig. 5 is that barracks main framing is connected partial structurtes schematic diagram with barracks base subbranch;
Fig. 6 is barracks base supporting ring structural representation;
Fig. 7 is base track structure schematic diagram;
In figure be: the semicircle scalable skeleton 7 of lug fixing hole 1, base track 2, lug 3, barracks base supporting ring 4, skeleton connector 5, circular supporting ring 6, longitude and latitude.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is described further:
As shown in Figure 4, Figure 5, the energy-conservation barracks of emergency management and rescue after calamity, comprise barracks base supporting ring 4, the barracks main framing be connected with barracks base supporting ring 4, and are arranged on the two film layers inside and outside barracks main framing; Described barracks main framing is fixed with stability sensor and heat retaining and exothermal device; The bottom of described barracks base supporting ring 4 is provided with raising device;
As shown in Figure 1, Figure 2, Figure 3 shows, described barracks main framing comprises and barracks base supporting ring 4, the circular supporting ring 6 be fixedly connected with and the semicircle scalable skeleton 7 of the longitude and latitude that is connected with circular supporting ring 6, be arranged between the semicircle scalable skeleton 7 of longitude and latitude and circular supporting ring 6, and the skeleton connector 5 that semicircle scalable skeleton 7 and circular supporting ring 6 are connected and fixed with longitude and latitude simultaneously;
As shown in Figure 6, Figure 7, described barracks base supporting ring 4 is made up of multi-piece chassis track 2, and a section of described base track 2 is projecting lug 3, and the other end is provided with setting supporting with lug 3, for the lug fixing hole 1 of lug 3 connected and fixed;
The basis that described lug 3 protrudes from base track 2 is external, and lug fixing hole 1 is positioned at the body of base track 2, and external-open gap;
Described barracks main framing adopts the glass fiber-reinforced polymer of high-strength light and is rotationally connected dop;
The described two film layers be arranged on inside and outside barracks main framing adopts semipermeable membrane material, film is provided with ventilated pin hole; Two film layers is connected on barracks base supporting ring 4 by buckle-type; The film side of bottom has access;
The described two film layers be arranged on inside and outside barracks main framing adopts ethylene-vinyl chloride polymer film, and bonding between the two can adopt the form of velcro.
The utility model solves following problem: 1, solve existing barracks overall structure poor stability, the problem of wind resistance, anti-rain ability; 2, solve existing barracks and carry assembling inconvenience, manipulation difficulty is comparatively large, installs the problem of taking a lot of work that wastes time and energy; 3, solution has had barracks energy consumption higher, the problem of poor thermal insulation property; 4, solve existing barracks place bad adaptability, narrow space, can carry the problem that goods and materials are limited.
The energy-conservation barracks of emergency management and rescue adopt Jackstay type glass fiber-reinforced polymer skeleton and ethylene-vinyl chloride thin polymer film two parts to form.
Barracks base adopts assembled track, is first prefabricated in the factory out and varies in size, the single-unit track that configuration is identical, during making, and the reserved draw-in groove be connected with barracks skeleton and the draw-in groove fixing inside and outside two membranes in orbit;
Secondly, glass fiber-reinforced polymer is adopted to make skeleton.First make the semicircle scalable skeleton of longitude and latitude, as shown in Figure 1, then make bottom circular supporting ring, as shown in Figure 2, finally seek middle principle according to spherical coordinates, the skeleton connector 5 that making warp, latitude skeleton are connected with supporting ring skeleton, as shown in Figure 3;
3rd, by barracks coverage and instructions for use, preparation temperature pick up and insulation, heat-producing device, and be fixed on the appropriate location of skeleton by temperature pick up and heat retaining and exothermal facility;
4th, by the size of longitude and latitude skeleton, double-layer films material inside and outside cutting, and inside and outside two membranes is bonded in node place, complete the assembling of barracks superstructure;
Finally, the barracks superstructure after shaping is shunk storage, in order to using.
working mechanism:
What 1 the utility model adopted can assembled track, and owing to have employed prefabricated single-unit track, carrying portable, occupies little space at ordinary times, can splice assembling rapidly during use, can also carry out suitable adjustment according to the size of barracks.
2 barracks main framing medial and lateral adopt semipermeable membrane material to cover, ventilated pin hole in membrane structure is strictly controlled simultaneously, permission gas molecule frees in and out, hydrone is outside isolated, also require that outer membrane has heat-insulating property, inner layer film can carry out the inside and outside exchange of heat, realizes waterproof and breathable and the heat insulation effect of barracks.
3 Jackstay type skeletons take up room little when storing at ordinary times, can provide larger living space during use, have the feature high to space utilization degree.
4 skeletons adopt the glass fiber-reinforced polymer of high-strength light and are rotationally connected dop and form, skeleton is installed rapidly, relative to the installation of traditional barracks, a lot of time can be saved, prefabricate and install heating constant temperature facility on skeleton simultaneously, temperature measure and control can be carried out to the gas between inside and outside two membranes, thus realize the effect of constant temperature in barracks.
Inside and outside 5, two membranes adopts buckle-type connected mode to be connected on base supporting ring, has the effect of airtight waterproof protection against the tide.In bottom, upper side thin membrane part offers outlet, and come in and go out for personnel, export requirement can be closed, and can close outlet after personnel enter, and stops entering of wind and water.
Material selection aspect: chord member and swivel adopt light-weight high-strength material glass fiber-reinforced polymer, and membrane material can adopt ethylene-vinyl chloride polymer film, and bonding between the two can adopt the form of velcro, but must ensure the globality of connection.
During use, after barracks each several part is transported to disaster relief scene, Fig. 7 single-base track splices complete by the base track schematic diagram first with reference to Fig. 6, then Fig. 4 main framing is opened and be connected partial schematic diagram according to Fig. 5 main framing with base track skeleton is connected with base, finally be fixed in base track by interior adventitia buckle, it is convenient rapidly to install.
Above case study on implementation is only for illustration of preferred embodiment of the present utility model; but the utility model is not limited to above-mentioned embodiment; in the ken that described exercising ordinary skill possesses; the any amendment done within spirit of the present utility model and principle, equivalently to substitute and improvement etc., the protection domain of the application all should be considered as.
Claims (7)
1. the energy-conservation barracks of emergency management and rescue after calamity, is characterized in that: comprise barracks base supporting ring (4), the barracks main framing be connected with barracks base supporting ring (4), and are arranged on the two film layers inside and outside barracks main framing; Described barracks main framing is fixed with stability sensor and heat retaining and exothermal device; The bottom of described barracks base supporting ring (4) is provided with raising device.
2. the energy-conservation barracks of emergency management and rescue after calamity according to claim 1, it is characterized in that: described barracks main framing comprises and barracks base supporting ring (4), the circular supporting ring (6) that is fixedly connected with, and the semicircle scalable skeleton (7) of the longitude and latitude to be connected with circular supporting ring (6), be arranged between the semicircle scalable skeleton (7) of longitude and latitude and circular supporting ring (6), and the skeleton connector (5) that semicircle scalable skeleton (7) and circular supporting ring (6) are connected and fixed with longitude and latitude simultaneously.
3. the energy-conservation barracks of emergency management and rescue after calamity according to claim 1, it is characterized in that: described barracks base supporting ring (4) has multi-piece chassis track (2) to form, one section of described base track (2) is projecting lug (3), the other end is provided with and lug (3) supporting setting, for the lug fixing hole (1) of lug (3) connected and fixed.
4. the energy-conservation barracks of emergency management and rescue after calamity according to claim 3, is characterized in that: the basis that described lug (3) protrudes from base track (2) is external, and lug fixing hole (1) is positioned at the body of base track (2), and external-open gap.
5. the energy-conservation barracks of emergency management and rescue after calamity according to claim 1, is characterized in that: described barracks main framing adopts the glass fiber-reinforced polymer of high-strength light and is rotationally connected dop.
6. the energy-conservation barracks of emergency management and rescue after calamity according to claim 1, is characterized in that: the described two film layers be arranged on inside and outside barracks main framing adopts semipermeable membrane material, film is provided with ventilated pin hole; Two film layers is connected on barracks base supporting ring (4) by buckle-type; The film side of bottom has access.
7. the energy-conservation barracks of emergency management and rescue after calamity according to claim 6, is characterized in that: the described two film layers be arranged on inside and outside barracks main framing adopts ethylene-vinyl chloride polymer film, and bonding between the two can adopt the form of velcro.
Priority Applications (1)
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CN201520199282.2U CN204492323U (en) | 2015-04-04 | 2015-04-04 | The energy-conservation barracks of emergency management and rescue after calamity |
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CN201520199282.2U CN204492323U (en) | 2015-04-04 | 2015-04-04 | The energy-conservation barracks of emergency management and rescue after calamity |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104727624A (en) * | 2015-04-04 | 2015-06-24 | 华北水利水电大学 | Post-disaster emergency rescue energy-saving barracks |
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2015
- 2015-04-04 CN CN201520199282.2U patent/CN204492323U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104727624A (en) * | 2015-04-04 | 2015-06-24 | 华北水利水电大学 | Post-disaster emergency rescue energy-saving barracks |
CN104727624B (en) * | 2015-04-04 | 2017-08-01 | 华北水利水电大学 | Emergency management and rescue save barracks after calamity |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20150722 Effective date of abandoning: 20170801 |
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AV01 | Patent right actively abandoned |