CN112963044A

CN112963044A - Military intelligent field hospital tent

Info

Publication number: CN112963044A
Application number: CN202110146289.8A
Authority: CN
Inventors: 蒋岸川
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-02
Filing date: 2021-02-02
Publication date: 2021-06-15

Abstract

The invention provides a military intelligent field hospital tent, which relates to the high technical field of outdoor supplies, and comprises a bulletproof layer arranged between a tent frame and tent cloth, wherein one side of the tent cloth, which is far away from the tent frame, is provided with a camouflage layer, the camouflage layer comprises a light absorption layer, and the light absorption layer can absorb light with the wavelength range of 440 nm-1200 nm; the tent frame includes the chassis and is triangular roof-rack, and the chassis includes the bracing piece of a plurality of vertical settings, and the roof-rack includes crossbeam, vertical pole and horizontal pole, and the both sides of crossbeam all are equipped with the horizontal pole, and many vertical poles are located between crossbeam and the horizontal pole to set up along the length direction interval of crossbeam, the both ends of vertical pole are connected with crossbeam and horizontal pole respectively, and the bracing piece supports in the below of horizontal pole. The military intelligent field hospital tent solves the technical problem that in the prior art, the tent frame cannot ensure the safety of personnel and equipment in the tent.

Description

Military intelligent field hospital tent

Technical Field

The invention relates to the technical field of outdoor articles, in particular to a military intelligent field hospital tent.

Background

The tent is usually used outdoors, plays the effect of temporarily sheltering from wind, rain and sunlight, is assembled on the spot by a plurality of parts, and can be disassembled at any time for storage and repeated use. The tent is of various types, and mainly comprises a disaster-relief tent, a military tent, an engineering tent, a warehouse tent, an outdoor camping tent and the like.

Military tent is the must articles for use that army camps, and structural metal framework and the cladding that generally includes to be located inside are in the outside tent cloth of metal framework, and metal framework comprises many tent poles, and the tent pole passes through the connecting piece to be connected, and ordinary tent in the correlation technique generally only plays the effect of sheltering from wind and rain and sunlight temporarily, can't play shielding enemy and trail, block the attack of bullet, guarantee the safety of personnel and equipment in the tent.

Disclosure of Invention

The invention aims to provide a military intelligent field operation hospital tent, which solves the technical problem that the safety of personnel and equipment in the tent cannot be ensured in the tent in the prior art.

The invention provides a military intelligent field hospital tent, which comprises: the method comprises the following steps: the bulletproof tent comprises a tent frame and tent cloth, wherein a bulletproof layer is clamped between the tent cloth, a camouflage layer is arranged on one side of the tent cloth, which is far away from the tent frame, and comprises a light absorption layer which can absorb light with the wavelength range of 440 nm-1200 nm;

the tent frame includes the chassis and is triangular's roof-rack, the chassis includes the bracing piece of a plurality of vertical settings, the roof-rack includes crossbeam, vertical pole and horizontal pole, the both sides of crossbeam all are equipped with the horizontal pole, many the vertical pole is located the crossbeam with between the horizontal pole, and follow the length direction interval of crossbeam sets up, the both ends of vertical pole respectively with the crossbeam with the horizontal pole is connected, the bracing piece support in the below of horizontal pole.

Furthermore, the supporting rod at the end point of the cross beam is connected with the cross beam and the cross beam through a fixing column.

Further, the cross bar comprises a first cross bar and a second cross bar, and the first cross bar is hinged to the second cross bar through a hinge.

Further, the articulated elements includes pivot and fixed cover, fixed cover with the second horizontal pole is connected, first horizontal pole passes through the pivot with fixed cover rotates to be connected, fixed cover with all be equipped with the locating hole on the first horizontal pole.

Furthermore, the tent frame further comprises a first diagonal reinforcing rib, and the first diagonal reinforcing rib is arranged along the opposite angle of the top frame and is connected with the top frame.

Further, the bulletproof layer sequentially comprises an aerogel layer, a polyamide layer and a memory metal wire mesh layer from outside to inside.

Furthermore, a second diagonal reinforcing rib is arranged between the adjacent support rods.

Further, the camouflage layer comprises a near infrared camouflage cloth layer, the near infrared camouflage cloth layer is made of high-performance fiber materials, and an infrared stealth coating layer is coated on the near infrared camouflage cloth layer.

Furthermore, a heat-insulating inner container is arranged in the tent cloth, the heat-insulating inner container is made of acrylonitrile carbon fibers, a phenolic foam material layer is arranged between the tent cloth and the heat-insulating inner container, and a high silica glass fiber layer is coated on the surface of the phenolic foam material layer.

Further, the military intelligent field hospital tent comprises a sewage treatment system and a solar power generation system;

the sewage treatment system comprises a septic tank, a grid well, an adjusting tank, an A-level biological tank, an O-level biological tank, an MBR membrane tank and a clean water tank which are connected in sequence;

the solar power generation system comprises a solar panel, a movable power distribution cabinet and a power converter, wherein the solar panel, the movable power distribution cabinet and the power converter are electrically connected in sequence.

In the military intelligent field hospital tent provided by the invention, the top frame and the bottom frame are matched to support the tent cloth, and the bulletproof layer on the tent cloth can play a role in relieving bullet impact, so that the safety of the military intelligent field hospital tent is improved. The wavelength range of visible light is 400 nm-700 nm, and the light absorption layer absorbs the visible light irradiated on the tent cloth, so that the visible light is prevented from being reflected from the tent cloth, and an enemy cannot track the position of the shielding tent.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural diagram of a military intelligent field hospital tent according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a tent frame in a military intelligent field hospital tent according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a top frame in a military intelligent field hospital tent according to an embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is an enlarged view of a portion of FIG. 3 at B;

FIG. 6 is an enlarged view of a portion of FIG. 3 at C;

fig. 7 is a schematic structural diagram of a cloth layer of a camouflaged near-infrared tent in a military intelligent field hospital tent according to an embodiment of the present invention;

FIG. 8 is a schematic structural view of a cloth layer of an insulating inner bag in a tent of a military intelligent field hospital according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a fixing buckle in a military intelligent field hospital tent according to an embodiment of the present invention;

FIG. 10 is a schematic diagram of the internal structure of a military intelligent field hospital tent according to an embodiment of the present invention;

FIG. 11 is a schematic structural diagram of a bulletproof layer in a military intelligent field hospital tent according to an embodiment of the present invention;

FIG. 12 is a schematic diagram of a solar energy system in a military intelligent field hospital tent according to an embodiment of the present invention;

FIG. 13 is a schematic structural view of an eave in a military intelligent field hospital tent according to an embodiment of the present invention;

FIG. 14 is an enlarged view of a portion of FIG. 13 at A;

FIG. 15 is a schematic structural view of a wiring slot machine illumination lamp in a military intelligent field hospital tent according to an embodiment of the present invention;

FIG. 16 is an enlarged view of a portion of FIG. 15 at B;

fig. 17 is a system block diagram of a military intelligent field hospital tent according to an embodiment of the present invention.

Icon: 100-tent frames; 110-a support bar; 120-a top frame; 121-a cross beam; 1211-limit bolt; 122-a longitudinal bar; 123-a cross bar; 1231-a first cross-bar; 12311-a limiting aperture; 1232-a second cross-bar; 134-a locking bolt; 130-a hinge; 131-a fixation sleeve; 1311-locating holes; 132-a rotating shaft; 140-shed roof; 141-eaves; 150-wiring groove; 151-a zipper; 200-tent cloth; 210-filling a particle layer; 220-an adhesive layer; 230-near infrared camouflage cloth layer; 240-radar wave absorbing layer; 250-perchloroethylene paint layer; 260-a flame retardant layer; 270-ultraviolet protection layer; 300-a ballistic layer; 310-an aerogel layer; 320-a polyamide layer; 330-memory wire mesh layer; 400-fixed column; 510-a first diagonal reinforcing rib; 520-second diagonal reinforcing ribs; 530-glass fiber reinforced plastic baffle; 610-silica glass fibers; 620-glass fiber silica gel cloth; 630-heat preservation liner; 640-a layer of phenolic foam; 650-fixing buckle; 651-connecting rod; 652-arcuate boss; 710-a solar panel; 711-hard solar panel; 712-a flexible solar panel; 713-a stent; 714-connecting cloth; 720-movable power distribution cabinet; 730-a power converter; 731-USB interface; 732-AC 220V alternating current interface; 740-a storage battery; 750-lighting lamp.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The military intelligent field operation hospital tent provided by the embodiment of the invention comprises: the bulletproof tent comprises a tent frame 100 and a tent cloth 200, wherein a bulletproof layer 300 is coated on the tent cloth 200, a camouflage layer is arranged on one side of the tent cloth 200, which is far away from the tent frame 100, and the camouflage layer comprises a light absorption layer which can absorb light with the wavelength range of 440 nm-1200 nm;

as shown in fig. 1, 2 and 3, the tent frame 100 includes a bottom frame and a triangular top frame 120, the bottom frame includes a plurality of vertically disposed support rods 110, the top frame 120 includes a cross beam 121, longitudinal rods 122 and a cross rod 123, the cross rod 123 is disposed on both sides of the cross beam 121, the plurality of longitudinal rods 122 are disposed between the cross beam 121 and the cross rod 123 and are spaced apart from each other along the length direction of the cross beam 121, both ends of the longitudinal rods 122 are respectively connected with the cross beam 121 and the cross rod 123, and the support rods 110 are supported below the cross rod 123.

Both the cross bar 123 and the cross beam are made of telescopic rods. Tents vary in location and use. The setting of different demands tent size can be effectively realized through the length of adjusting horizontal pole 123 and crossbeam 121. The two ends of the first cross rod 1231 and the second cross rod 1232 are both provided with a locking bolt 134, and the two ends of the cross beam 121 close to the vertical rod are both provided with a limiting bolt 1211. After the lengths of the cross bar 123 and the cross beam 121 are adjusted according to requirements, the length of the cross bar 123 is locked through the locking bolt 134 and the length of the cross beam 121 is locked through the limiting bolt 1211, so that the phenomenon that the tent is unstable due to shrinkage caused by external force in the using process is avoided.

The contact end of the tent cloth 200 and the ground is provided with a plurality of through holes for the ground anchor rods to pass through. The whole tent can move in a severe environment, and the ground anchor rod is used for penetrating through the through hole and being nailed into the ground, so that the structural stability of the tent when the tent is attacked is effectively guaranteed.

In the military intelligent field hospital tent provided by the embodiment of the invention, the top frame 120 and the bottom frame are matched to support the tent cloth 200, and the bulletproof layer 300 on the tent cloth 200 can play a role in relieving bullet impact, so that the safety of the military intelligent field hospital tent is improved. The wavelength range of the visible light is 440nm to 1200nm, and the light absorption layer absorbs the visible light irradiated on the tent cloth 200, and prevents the visible light from being reflected from the tent cloth 200, so that an enemy cannot trace the position of the shielding tent.

The tent frame 100 is integrated through the connecting pieces, so that the tent becomes a firm small barracks and can resist ten-level strong wind; quick disassembly can be achieved, and the modular structure can be dropped at 100m high altitude after disassembly.

Further, the support bar 110 at the end point of the cross beam 121 is connected with the cross beam 121 and the cross bar 123 through the fixing post 400.

Specifically, as shown in fig. 5, the fixing column 400 includes a first connecting end, a second connecting end and a third connecting end which are arranged at an included angle, the first connecting end is connected with the supporting rod 110 in an inserting mode, the second connecting end is connected with the cross rod 123 in an inserting mode, the third connecting end is connected with the vertical rod in an inserting mode, the supporting rod 110, the cross rod 123 and the vertical rod 122 are connected and matched in an inserting mode through the fixing column 400, the tent frame 100 is quickly built, and meanwhile the tent frame 100 is effectively guaranteed to be connected stably.

Further, the cross bar 123 includes a first cross bar 1231 and a second cross bar 1232, the first cross bar 1231 is hinged to the second cross bar 1232 through the hinge 130, as shown in fig. 4, the hinge 130 includes a rotating shaft 132 and a fixing sleeve 131, the fixing sleeve 131 is a hollow cuboid, the rotating shaft 132 is located in the fixing sleeve 131 and is fixedly connected to the fixing sleeve 131, the fixing sleeve 131 is connected to the second cross bar 1232, the end of the first cross bar 1231 is located in the fixing sleeve 131 and is rotatably connected to the rotating shaft 132, a positioning hole 1311 is disposed on the fixing sleeve 131, a limiting hole 12311 coaxial with the positioning hole 1311 is disposed at an abutting end of the first cross bar 1231 and the fixing sleeve 131, in the process of building the tent frame 100, the first cross bar 1231 is rotated around an axis of the rotating shaft 132, so that a length direction of the first cross bar 1231 is the same as a length direction of the second cross bar 1232, the limiting hole 12311 on the first cross bar 1231 is overlapped with the positioning hole 1311 on the fixing sleeve 131, and a bolt is inserted into the positioning hole 1231 and when the tent frame 100 is folded, the screws are taken out of the positioning holes 1311 and the limiting holes 12311, the cross rod 123 is folded, the length of the cross rod 123 is reduced, and the space is saved. Pivot 132 provides the rotation ability of relative second horizontal pole 1232 for first horizontal pole 1231, and fixed cover 131 has injectd first horizontal pole 1231 for the rotation direction of second horizontal pole 1232 simultaneously to guaranteed the rigidity after first horizontal pole 1231 and the rotation of second horizontal pole 1232, realized the effect that the tent was accomodate in the quick installation, avoided appearing rotating the in-process of accomodating the installation and transfiniting and lead to the tent to take place the condition of damaging, guarantee the stability of tent erection joint.

Further, the tent frame 100 further includes a first diagonal reinforcing rib 510, and the first diagonal reinforcing rib 510 is disposed along a diagonal of the top frame 120 and connected to the top frame 120. As shown in fig. 3 and 6, two first diagonal reinforcing ribs 510 are disposed between two adjacent longitudinal bars 122, the two first diagonal reinforcing ribs 510 are disposed in a crossing manner, and both ends of each first diagonal reinforcing rib are respectively hung on the top frame 120 by hanging buckles. In the tent built according to different requirements, the top frame 120 may have the condition that the spans of the cross beams 121 and the cross bars 123 are large, and the tent structure is unstable when the span of the top frame 120 is large, so that the stability of the tent structure can be effectively enhanced through the first diagonal reinforcing ribs 510.

Ballistic layer 300 comprises, in order from the outside to the inside, an aerogel layer 310, a polyamide layer 320, and a memory wire mesh layer 330. After the tent is built, the tent cloth 200 is supported and unfolded through the tent frame 100, the bulletproof layer 300 effectively enhances the safety of the tent, the aerogel has good impact resistance, the impact force of a bullet can be effectively relieved, the bulletproof effect is achieved to a certain extent, when the impact force of the bullet is large, the bullet can penetrate through the aerogel layer 310, when the bullet contacts the polyamide layer 320, the polyamide has high mechanical strength and good toughness, the impact of the bullet is further relieved by the polyamide layer 320 at the moment, when the polyamide layer 320 still cannot achieve the bulletproof effect, the memory metal wire mesh layer 330 can further intercept the bullet, meanwhile, the memory metal wire can be subjected to high temperature to achieve shape recovery, and the durability of the tent is effectively guaranteed. After the tent is built, the tent cloth 200 is supported by the tent frame 100, and the bulletproof layer 300 effectively enhances the safety of the tent.

Further, a polyamide layer 320 is disposed inside the aerogel layer 310. Although the aerogel layer 310 has good impact resistance, the aerogel layer 310 is damaged when the bullet penetrates the aerogel layer 310, the aerogel layer 310 cannot be effectively repaired, and the probability of the bullet penetrating the aerogel layer 310 is effectively reduced by arranging the polyamide layer 320 in the aerogel layer 310. The memory wire mesh layer 330 is attached to the polyamide layer 320. When the impact force of the bullet is too large, the bullet still penetrates through the polyamide layer 320 and the aerogel layer 310, and the memory metal wire mesh layer 330 is attached to the polyamide layer 320, so that the aerogel layer 310 is further guaranteed not to be damaged, and meanwhile, the bullet can be effectively stopped.

As shown in fig. 10 and 11, a second diagonal reinforcing rib 520 is also provided between the adjacent support rods 110 of the tent frame 100. When the tent cloth 200 is invaded by dense bullets, the bullet-proof layer 300 effectively blocks the bullets, and at the moment, the tent is possibly stressed to deform, so that the structural stability of the tent is effectively guaranteed through the second diagonal reinforcing ribs 520, and the safety of the tent is enhanced.

Further, the tent cloth 200 collides with the second diagonal reinforcing ribs 520. Tent cloth 200 can be forced inwards and produce sunken when receiving difficult civilian dress, is suffered many times and invades under the condition of dress, and tent cloth 200 is owing to the shape limit probably destroys the bulletproof layer 300 of self inside, and tent cloth 200 contradicts the effectual condition that reduces tent cloth 200 and take place the deformation with the second to draw strengthening rib 520 to one side.

Further, a glass fiber reinforced plastic baffle 530 is arranged between the tent cloth 200 and the second diagonal reinforcing rib 520. Because the second diagonal reinforcing rib 520 can not completely cover the whole tent cloth 200, the glass fiber reinforced plastic baffle 530 arranged between the tent cloth 200 and the second diagonal reinforcing rib 520 can protect the tent cloth 200 in an all-around manner, and when a bullet penetrates through the tent cloth 200, the glass fiber reinforced plastic baffle 530 can also effectively play a bulletproof role.

As shown in fig. 7, the camouflage layer includes a near infrared camouflage cloth layer 230, the near infrared camouflage cloth layer 230 is made of a high performance fiber material, and an infrared stealth paint layer is coated on the near infrared camouflage cloth layer 230. Specifically, the infrared stealth coating layer comprises a filling particle layer 210 and an adhesive layer 220, the filling particle layer 210 is made of a semiconductor material, the adhesive is made of fluorocarbon resin, a radar absorbing layer 240 made of magnetic loss coating is arranged between the tent cloth 200 layer and the near infrared camouflage cloth layer 230, the radar absorbing layer 240 is made of magnetic loss coating, and the magnetic loss coating has good absorptivity in a low frequency band, so that radar waves can be effectively absorbed, and the stealth purpose is realized. The semiconductor material has the advantage of reducing emissivity, so that the infrared characteristic of the infrared stealth coating layer has strong spectral selectivity, the adhesive of the fluorocarbon resin material can protect the filler, the infrared characteristics of the infrared stealth coating layer are kept unchanged in the whole practical period, and the magnetic loss coating has better absorptivity in a low frequency band, so that radar waves can be effectively absorbed, and the purpose of stealth is realized.

The outer layer of the tent cloth 200 is provided with an ultraviolet-proof layer 270. The ultraviolet-proof layer 270 is made of terylene ultraviolet-proof material, so that the camouflage near-infrared tent has an ultraviolet-proof function, and residents are prevented from being interfered by ultraviolet rays.

A flame-retardant layer 260 is arranged between the tent cloth 200 layer and the radar wave-absorbing layer 240, the flame-retardant layer 260 is made of a magnesium hydroxide flame retardant, and a perchloroethylene paint layer 250 is coated on the surface of the flame-retardant layer 260. The flame retardant layer 260 can enable the camouflage near-infrared tent to have certain defense capacity against fire when in use, so that the safety of the camouflage near-infrared tent is improved.

As shown in fig. 8, a heat preservation liner 630 is arranged in the intelligent tent cloth 200, the heat preservation liner 630 is provided with multiple layers, and the heat preservation liner 630 is made of acrylic carbon fiber. The multi-layer heat-insulating inner container 630 is arranged in the outmost tent cloth 200, and the heat-insulating inner container 630 is made of propylene wax carbon fiber materials which are widely applied to the fields of military and small aerospace self-equipment and the like and is a high-grade fiber material processed by a special process. The heat-insulating inner container 630 is woven by the carbon fiber wires, is used for heat-insulating materials, is an ideal substitute material for asbestos, can keep good heat-insulating performance in the interval from 65 ℃ at high temperature to 45 ℃ below zero at low temperature, and protects the life safety of personnel in a tent.

A plurality of elastic fixing buckles 650 are arranged at the edges of the plurality of heat preservation liners 630. As shown in fig. 9, the arched bosses 652 at both ends of the fixing buckle 650 penetrate through the thermal insulation liner 630, and the bottom walls of the arched bosses 652 are abutted against the surface of the thermal insulation liner 630, the connecting rod 651 is located between the two arched bosses 652, and the connecting rods are matched with each other to fixedly connect the edges of the multiple layers of thermal insulation liners 630 together, because the arched bosses 652 are arched, when the arched bosses 652 are forced to be separated from the thermal insulation liner 630 by external force, the arched bosses 652 are squeezed with the thermal insulation liner 630, and the force is decomposed to the whole arched bosses 652 by the arched structure of the arched bosses 652, so that the thermal insulation liner 630 is stable in structure and cannot be easily separated from the thermal insulation liner 652.

The heat preservation liner 630 and the tent cloth 200 are connected by magic tapes around. Advance through the magic between heat preservation inner bag 630 and the tent cloth 200 to connect fixedly, easy to assemble and dismantlement to the connection stability of magic subsides is good.

Glass fiber silica gel cloth 620 is arranged between the heat preservation inner containers 630. The glass fiber silica gel cloth 620 is produced by taking glass fiber cloth as base cloth in a coating or rolling mode, is formed by rolling or soaking the glass fiber cloth with high temperature resistance, corrosion resistance and high strength by organic silicon rubber, and has good temperature resistance.

A phenolic foam material layer 640 is arranged between the tent cloth 200 and the heat preservation liner 630. The phenolic foam material layer 640 is formed by foaming thermosetting phenolic resin, has the advantages of light weight, fire prevention, no combustion in open fire, no smoke, no toxicity, no dripping, no shrinkage and no embrittlement in a low-temperature environment with a wide application temperature range of (-196 to +200 ℃), and is an ideal heat-insulating energy-saving material because the phenolic foam has a high closed-cell rate, low heat conductivity coefficient and good heat-insulating property and has water resistance and water vapor permeability. Stable chemical composition, corrosion resistance and ageing resistance, and particularly can resist the corrosion of organic solution, strong acid and weak base.

The phenolic foam layer 640 is surface coated with silica glass fibers 610. The silica glass fiber 610 belt is made of high-temperature resistant inorganic fibers, has a softening point close to 1700 ℃, can be used in environments of extreme high temperature, open fire and the like within 1000 ℃ for a long time, and has the excellent characteristics of high strength, high temperature resistance, loss resistance, heat insulation, heat preservation and the like.

As shown in fig. 12-17, the military intelligent field operation hospital tent provided by the embodiment of the invention further comprises a military intelligent field operation hospital tent comprising a sewage treatment system and a solar power generation system; the sewage treatment system comprises a septic tank, a grid well, a regulating tank, an A-level biological tank, an O-level biological tank, an MBR membrane tank and a clean water tank which are connected in sequence; the solar power generation system comprises a solar panel 710, a movable power distribution cabinet 720 and a power converter 730, wherein the solar panel 710, the movable power distribution cabinet 720 and the power converter 730 are electrically connected in sequence.

The special solar power generation system for the tent comprises a solar panel 710, a movable power distribution cabinet 720 and a power converter 730, wherein the solar panel 710 comprises a rigid solar panel 711 or a flexible solar panel 712, the rigid solar panel 711 is fixedly installed on a support 713, the flexible solar panels 712 are mutually connected in series on the tent roof 140 of the tent, and the solar panel 710, the movable power distribution machine and the power converter 730 are sequentially and electrically connected. Or, the solar panel 710 includes a rigid solar panel 711 and a flexible solar panel 712, the rigid solar panel 711 is mainly movable and can be applied to power supply of mobile equipment, the rigid solar panel 711 is disposed on the support 713, the rigid solar panel 711 is conveniently disposed and can stably receive light energy by the rigid solar panel 711, the flexible solar panel 710 is mounted on the tent roof 140 of the tent and can be tightly matched with the tent to receive solar energy to a large extent and save space, the movable power distribution cabinet 720 is electrically connected with the solar panel 710, a storage battery 740 is disposed in the movable power distribution cabinet 720 and is used for storing electric energy converted from the light energy collected by the solar panel 710 for standby use, the power converter 730 is electrically connected with the storage battery 740 in the movable power distribution cabinet 720, so that the storage battery 740 can be suitable for multiple purposes, and solar energy matched with the tent is formed, the solar power generation system is provided for the tent, and the tent is convenient, fast and environment-friendly.

The solar panel 710 is made of 35-260 Wp solar cell components, a storage battery 740 is arranged in the movable power distribution cabinet 720, and the storage battery 740 is a plurality of 50 Ah-200 Ah totally-enclosed maintenance-free colloid storage battery packs connected in series and in parallel. The solar panel 710 is made of 35-260 Wp solar cell modules, can collect light energy to the maximum extent, performs photovoltaic conversion, and then transmits the light energy to the storage battery 740 for storage, and the storage battery 740 is a plurality of series-parallel connection 50 Ah-200 Ah totally-enclosed maintenance-free colloid storage battery packs. The storage battery pack can store more electric energy, can be charged and discharged safely, is high in quality and performance, not prone to damage, can be used for a long time, and can meet most of requirements.

The power converter 730 is connected to a wireless system, which is connected to a monitoring point, and the monitoring point is connected to a computer or a mobile terminal. Through the scheme, the solar panel 710 is perfectly matched with a wireless system, the GPS and 4G/5G wireless network communication technology has the characteristics of strong mobility, wide coverage, good confidentiality, high speed, high quality and the like, and can be suitable for the field, real-time communication can be carried out without pulling a communication optical cable, and the solar panel 710 can carry out photovoltaic conversion anywhere and provide a power supply for the wireless system. Need not pull the electric wire, can provide the power for wireless system, wireless system just can carry out long-term work like this to satisfy the demand, wireless system is connected with the control point in addition, and the control point is connected with computer or mobile terminal, can monitor real-time developments around the tent through computer or mobile terminal.

The power converter 730 is connected with a full wireless infrared perimeter alarm system and a microwave radar sensing system, and the full wireless infrared perimeter alarm and microwave radar sensing system is arranged on the perimeter of the tent. Through the scheme, the full-wireless infrared peripheral screen alarm system is distributed around the tent. By adopting the infrared ray correlation principle, the system has multiple beams, has infrared rays in strong light, has stronger strong anti-interference capability to the strong light, can automatically generate prompt if having interference, because the wireless signal is easy to receive the interference, the problem is solved by adopting the wireless frequency modulation and frequency modulation signals, and the optical signal of secondary modulation coding is adopted to avoid the mutual interference of single infrared rays of grating quality inspection, the combination of the above components ensures that the alarm precision is extremely high, the system can accurately prevent alarm and solve the problem of false alarm easily generated by a common alarm, in addition, the system has the function of fault self-checking, can report the function to a host, can perfectly prevent alarm around the tent, does not need manual guard, can perform 24-hour uninterrupted monitoring, and can accurately detect the invasion of foreign objects by a microwave radar sensing system, the cooperation between the two is more reliable, cooperates solar panel 710 to produce simultaneously and utilizes the photovoltaic conversion to produce the electric energy, can follow the tent and supply power to full wireless infrared perimeter warning and microwave radar sensing system.

The power converter 730 is provided with a USB interface 731 and an AC220V AC interface 732. The USB interface 731 can be used to charge a mobile phone or other devices, so as to meet daily requirements. The AC220V AC interface 732 can provide power for a variety of mobile devices, which is convenient and fast.

An eave 141 is provided at the periphery of the tent roof 140. The eave 141 is a characteristic sign of a Chinese building, and the eave 141 can enable rainwater on the roof 140 to directly flow out of the tent along the eave 141 in rainy days, so that the rainwater cannot flow out along the side wall of the tent, and the performance of the tent in adapting to rainy days is improved.

The flexible solar panel 712 is provided with a connecting cloth 714 at the connecting position, and the flexible solar panel 712 and the shed roof 140 are detachably connected by a hook and loop fastener. Because flexible solar panel 712 is located the shed roof 140 of tent, flexible solar panel 712 is that the polylith is established ties and is combined together, in order to make the more firm of connecting between the flexible solar panel 712, be equipped with connection cloth 714 in flexible solar panel 712's junction, flexible solar panel 712 can fold through connection cloth 714, guarantee flexible solar panel 712's practicality, for letting flexible solar panel 712 can with the tent between be dismantled be connected, be equipped with the magic subsides in the week of shed roof 140 along, flexible solar panel 712 passes through the magic subsides realization and can dismantle with the tent and be connected, convenient transportation and storage, the practicality has been improved.

Four edges and corners in the vertical direction of the tent are provided with wiring grooves 150, and the wiring grooves 150 are provided with zippers 151 along the long edge direction. Because solar panel 710's existence is for supplying power to multiple equipment, the electric wire will have no place to lay, and then can be more in a jumble after arranging, consequently does not have wiring groove 150 at four edges and corners of tent vertical direction, and wiring groove 150 is equipped with zip fastener 151 along long edge direction simultaneously. The electric wires are arranged in the wire grooves in advance to reserve electric wire plugs, and when power needs to be supplied, the electric wire plugs are plugged into the power supply exchanger. The zip fastener 151 is convenient for the maintenance of electric wire, if the electric wire breaks down and pulls open the zip fastener 151 and can clearly see the electric wire to overhaul, improved the clean and tidy nature that solar panel 710 supplied power for the tent.

The tent is internally provided with the illuminating lamp 750, and the power converter 730 is electrically connected with the illuminating lamp 750 to supply power for the tent and meet daily requirements after the tent generates electric energy because the illumination is necessary. The photovoltaic principle is utilized to carry out 1000-grade 6000WH of the power generation storage system, and the problems of field battle preparation training, scientific research and life and illumination providing are solved.

The sewage treatment system comprises a septic tank, a grid well, a regulating tank, an A-level biological tank, an O-level biological tank MBR (Membrane-bioreactor, English full name: Membrane Bio-Reactor) Membrane tank and a clean water tank. The sewage is collected by a drainage system, enters a grid well of a sewage treatment station, enters an adjusting tank for homogenizing and equalizing after removing particle impurities, is provided with a liquid level controller, is transmitted with a signal by a liquid level controller, is conveyed to an A-level biological contact oxidation tank by a lifting pump for acidification, hydrolysis and nitrification and denitrification so as to reduce the concentration of organic matters and remove partial ammonia nitrogen, then flows into an O-level biological contact oxidation tank for aerobic biochemical reaction, the O-level biological tank is divided into two stages, most of organic pollutants are degraded through biological oxidation and adsorption, effluent enters an MBR membrane tank, is filtered by an MBR membrane and then flows to a clean water tank for solid-liquid separation, and supernatant of the clean water tank is recycled or discharged after being disinfected by chlorine dioxide. The sewage treatment system can treat river water for use, and can also discharge daily sewage after treatment, thereby preventing pollution to the environment.

The military outdoor facility provided by the embodiment of the invention is applied to camping and camping, operation command and field hospitals, and has the functions of bulletproof, quick assembly, constant temperature, solar power supply and lighting devices and the like.

And the modular design is adopted, so that the rapid unfolding and folding are realized. The tent cloth 200 is provided with the bulletproof layer 300, which has good bulletproof performance. Can resist the penetration of a 50-meter blocking rifle and a armor piercing bullet, protect the safety of workers and prevent the damage of precision equipment. The outer layer of the tent tarpaulin adopts a near-infrared stealth coating, so that the tent tarpaulin can effectively disguise the other party. The tent has the advantages that the inner layer of the tent cloth is provided with the heat preservation liner 630, gel of the high-tech tent cloth is matched with multiple elements, a unique heat preservation effect is achieved, the tent is light to use, small in size and convenient to carry, and the constant temperature effect is good when the tent is used for resisting cold of minus 45 ℃ and high temperature of 65 ℃. The tent is provided with the special solar power generation system for the tent, can collect electric energy within five hours in sunshine, can store, and can be used at night and in rainy days. The tent is provided with the functions of environmental protection treatment and water purification, the materials can be obtained in situ under different regional conditions, the well water and the river water can be used for life after purification, and the sewage does not pollute the environment.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a military intelligent field hospital tent which characterized in that includes: a bulletproof layer is arranged between the tent frame and the tent cloth, a camouflage layer is arranged on one side of the tent cloth, which is far away from the tent frame, the camouflage layer comprises a light absorption layer, and the light absorption layer can absorb light with the wavelength range of 440 nm-1200 nm;

2. The military intelligent field hospital tent of claim 1, wherein the support bar at the end point of the cross beam is connected with the cross beam and the cross beam by a fixed post.

3. The military intelligent field hospital tent of claim 1, wherein the cross-bar comprises a first cross-bar and a second cross-bar, the first cross-bar and the second cross-bar being hinged by a hinge.

4. The military intelligent field hospital tent of claim 3, wherein the hinge assembly comprises a rotating shaft and a fixing sleeve, the fixing sleeve is connected with the second cross bar, the first cross bar is rotatably connected with the fixing sleeve through the rotating shaft, and positioning holes are formed in the fixing sleeve and the first cross bar.

5. The military intelligent field hospital tent of claim 1, wherein the tent frame further comprises first diagonal reinforcing ribs disposed along opposite corners of the top frame and connected to the top frame.

6. The military intelligent field hospital tent of claim 1, wherein the bulletproof layer comprises an aerogel layer, a polyamide layer and a memory metal wire mesh layer in sequence from outside to inside.

7. The military intelligent field hospital tent of claim 1, wherein a second diagonal reinforcing rib is arranged between adjacent support rods.

8. The military intelligent field hospital tent of claim 1, wherein the camouflage layer comprises a near infrared camouflage cloth layer made of a high performance fiber material, the near infrared camouflage cloth layer being coated with an infrared stealth coating layer.

9. The military intelligent field hospital tent of claim 1, wherein an insulating liner is arranged in the tent cloth, the insulating liner is made of acrylonitrile carbon fiber, a phenolic foam material layer is arranged between the tent cloth and the insulating liner, and a high silica glass fiber layer is coated on the surface of the phenolic foam material layer.

10. The military intelligent field hospital tent of claim 1, wherein the military intelligent field hospital tent comprises a sewage treatment system and a solar power generation system;