CN112343410A - Multifunctional portable tent - Google Patents

Abstract

The utility model relates to a multi-functional portable tent relates to the field of tent, including tent body, solar energy absorbing device and battery, the tent body includes ground mat and rigid coupling and is in tent main part on the ground mat, the tent main part is double-deck gas filled structure, transparent material is chooseed for use on tent body upper portion and is called the daylighting district, solar energy absorbing device demountable installation be in daylighting district department, solar energy absorbing device with the battery passes through the electric wire electricity and connects. This application has and to make people also can normally use electric power in the field, the effect that the guarantee rescue work normally goes on.

Description

Multifunctional portable tent

Technical Field

The application relates to the field of tents, in particular to a multifunctional portable tent.

Background

The tent is a shed which is supported on the ground to shield wind, rain and sunlight and is used for temporary living, and at present, the tent is generally used for field trips or temporary security projects or local emergent tasks. With the rapid increase of national economy, the demand and the dependence degree of users on electric power are higher and higher, electric power equipment also plays an important role in the social, political and economic lives of the country or region, and unpredictable loss can be caused when the electric power equipment cannot normally operate. Particularly, when temporary diversified field rescue such as earthquake relief work, flood fighting, snow disaster resistance and the like is carried out, the field has no commercial power or the generator cannot be operated for a long time, and great obstruction can be caused to rescue work of workers at night in a vast area.

Disclosure of Invention

In order to make people also can normally use electric power in the field, ensure the normal clear of rescue work, this application provides a multi-functional portable tent.

The application provides a multi-functional portable tent adopts following technical scheme:

the utility model provides a multi-functional portable tent, includes tent body, solar energy absorbing device and battery, the tent body includes that ground mat and rigid coupling are in tent main part on the ground mat, the tent main part is double-deck gas filled structure, transparent material is chooseed for use on tent body upper portion and is called the daylighting district, solar energy absorbing device demountable installation in daylighting district department, solar energy absorbing device with the battery passes through the electric wire electricity and connects.

Through adopting above-mentioned technical scheme, solar energy absorbing device can absorb the illumination of sun to in turning into the electric energy with absorbed light energy and carrying to the battery, the battery can be stored the electric energy of solar energy absorbing device conversion, need not to use the generator and just can make people also can normal use electric power in the field, guarantee rescue work's normal clear.

Optionally, a doorway through which people enter the tent main body is arranged on one side of the tent main body, which is provided with the doorway, is called a front side, one side of the tent main body, which is away from the doorway, is called a rear side, the lighting area covers the upper portion of the front side of the tent main body and the upper portion of the rear side of the tent main body, and the solar energy absorption device is detachably connected to the portion, which is located at the rear side, of the lighting area.

Through adopting above-mentioned technical scheme, the illumination of sun can be directly shine into tent inside through the part that daylighting position is located tent main part front side, for the inside sunshine that supplies with of tent, and solar energy absorbing device installs the part that daylighting position is located tent main part rear side, can also realize the absorption to the sunlight when not influencing the normal daylighting of tent.

Optionally, the storage battery is located inside the tent main body and penetrates through the upper surface and the lower surface of the ground mat and is communicated with the wire barrel.

Through adopting above-mentioned technical scheme, solar energy absorbing device absorbs the sunlight and turns into the electric energy with light energy, and the electric quantity of conversion will be through in electric wire transmission to the battery, inside the tent main part can be reachd from the line section of thick bamboo to the electric wire, and the battery is placed inside the tent main part, can avoid receiving external environment to influence and receive the damage.

Optionally, a plugging cap is mounted at the bobbin.

Through adopting above-mentioned technical scheme, when not using, can be directly install stifled cap in the line section of thick bamboo, avoid outside moisture to enter into inside the tent main part.

Optionally, the device further comprises a control device, the control device comprises a controller and a display, the controller is electrically connected with the display, a battery capacity monitoring meter is installed on the storage battery, and the controller is electrically connected with the storage battery through the battery capacity monitoring meter.

Through adopting above-mentioned technical scheme, the battery power monitoring meter can monitor the electric quantity value of storing in the department battery to transmit the electric quantity value to the display, finally show in the display, the people of being convenient for carry out real-time monitoring to the electric quantity in the battery.

Optionally, the control device further comprises an intelligent monitoring system installed inside the tent body, and the intelligent monitoring system is electrically connected with the controller.

Through adopting above-mentioned technical scheme, real-time detection can be carried out to the inside of tent body to intelligent monitoring system to transmit the testing result to the controller, and finally show the result that intelligent monitoring system detected in the controller.

Optionally, the intelligent monitoring system includes a gas detector, and the gas detector is used for detecting the concentration of harmful gas inside the tent body.

Through adopting above-mentioned technical scheme, can carry out real-time detection to the inside gas of tent body, avoid the inside harmful gas concentration of tent body too much to cause the potential safety hazard to people's health.

Optionally, the air inlet and the air outlet have been seted up respectively to the both ends of tent main part, air outlet department can dismantle and be connected with the exhaust fan.

By adopting the technical scheme, the exhaust fan can exhaust the air in the tent body, the external air can also enter the tent body again from the air inlet, the replacement of the air in the tent body can be realized, the ventilation of the tent body can be realized,

optionally, the exhaust fan is configured to be activated when the concentration of harmful gas in the tent body exceeds a set value.

Through adopting above-mentioned technical scheme, when gas detection appearance detected the inside harmful gas concentration of tent body and exceeded the setting value, will control exhaust fan 1223 and start and change the inside gas of tent body, in time with this internal harmful gas discharge of tent, reduce the harm that causes people.

Optionally, the intelligent monitoring system further comprises a Beidou, a camera and an infrared thermometer fixedly connected to the tent main body, and the camera and the infrared thermometer are both installed inside the tent main body and face the doorway.

By adopting the technical scheme, the Beidou can acquire the position information of the tent body and transmit the position information to the display through the controller for display, and workers can observe the position of the tent body through the display in real time, so that the tent is prevented from being lost; the camera can gather the information of the personnel who get into the tent, and the infrared thermometer can gather the body temperature of the personnel who get into the tent to carry out real-time control to the personnel that get into the tent.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the solar energy absorption device and the storage battery can collect the illumination of sunlight and convert light energy into electric energy for people to use, so that people can normally use electric power in the field, and normal rescue work is guaranteed;

2. the arrangement of the light collecting area and the installation of the solar energy absorption device at the position of the light collecting area, which is positioned at the rear side of the tent main body, ensure that the collection of sunlight can be realized while the light collecting of the tent is not influenced, the illumination of the sun is fully utilized, and the operation is more convenient;

3. the setting up of intelligent monitoring system makes people can carry out real-time monitoring, increases the safety guarantee to tent body inside.

Drawings

Fig. 1 is a schematic view of the overall structure of embodiment 1 of the present application.

Fig. 2 is a schematic view of the overall structure from another perspective in embodiment 1 of the present application.

Fig. 3 is a schematic diagram of another example structure for embodying the first connection assembly.

Fig. 4 is a schematic sectional view showing an internal structure of the mounting block.

Fig. 5 is an enlarged schematic view at a in fig. 3.

Fig. 6 is a schematic sectional view of the tent body for showing the internal structure thereof.

Fig. 7 is an enlarged schematic view at B in fig. 6.

Fig. 8 is a schematic diagram of an intelligent monitoring system.

Fig. 9 is an enlarged schematic view at C in fig. 6.

Fig. 10 is an enlarged schematic view at D in fig. 6.

Fig. 11 is a partially exploded view of the second connector assembly structure.

Fig. 12 is a partially exploded view of the third connecting member structure.

Fig. 13 is a schematic overall structure diagram of the second embodiment of the present application.

Fig. 14 is a schematic view of another example structure of a fourth connection assembly according to the second embodiment of the present application.

Fig. 15 is a partial schematic view of a fourth connecting member structure.

Fig. 16 is an enlarged schematic view at E in fig. 14.

Description of reference numerals: 1. a tent body; 11. a floor mat; 12. a tent main body; 121. a shielding cloth; 122. sealing cloth; 1221. an air inlet; 1222. an air outlet; 1223. an exhaust fan; 13. a light collecting area; 14. a doorway; 141. a door curtain; 142. a zipper; 15. a front side; 16. a rear side; 17. plugging cloth; 18. a fastener; 181. a first sub-label; 182. a first female sticker; 183. a second mother plaster; 2. an intelligent monitoring system; 21. a gas detector; 22. big Dipper; 23. a camera; 24. an infrared thermometer; 241. mounting grooves; 242. an operation slot; 243. a communicating groove; 3. a solar energy absorbing device; 31. a flexible solar film; 32. a solar cell sheet; 33. a carrying cloth; 4. a storage battery; 41. a bobbin; 42. a plugging cap; 5. a first connection assembly; 51. a first hook; 52. a first hanging rope; 53. mounting blocks; 531. a chute; 532. an avoidance groove; 54. mounting a rod; 541. a limiting groove; 55. rope turning; 56. a limiting ball; 57. a hook; 571. fixing a rope; 572. a fixed block; 5721. a card slot; 6. hanging points; 61. a fixing plate; 62. mounting a plate; 621. a first mounting hole; 622. a second mounting hole; 7. a second connection assembly; 71. an auxiliary block; 711. a third mounting hole; 712. a fourth mounting hole; 72. fixing the bolt; 73. fixing a nut; 74. a limit bolt; 741. a limiting hole; 75. a shear pin; 751. a pin shaft; 752. a pin ring; 8. a third connection assembly; 81. a clamping block; 82. a first spring; 83. an operating lever; 84. a connecting rod; 85. blocking the ball; 86. a rubber pad; 9. a fourth connection assembly; 91. a second hanging rope; 92. a second hook; 93. an auxiliary plate; 931. a containing groove; 94. lengthening cloth; 941. flanging; 942. a second avoidance hole; 95. a fixing member; 951. a limiting plate; 9511. a first avoidance hole; 952. a fixing ring; 953. a pull rod; 954. driving the ring; 955. a second spring; 956. a limiting block; 957. a pull ring; 958. a connecting plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-16.

The embodiment of the application discloses multi-functional portable tent.

Example 1

Referring to fig. 1, the multifunctional portable tent comprises a tent body 1 and a control device for monitoring the state in the tent body 1, wherein the tent body 1 comprises a ground mat 11 placed on the ground and a tent main body 12 fixedly connected to the ground mat 11, the tent main body 12 adopts a double-layer sewn fabric structure, the middle of the double-layer sewn fabric is inflated to serve as an insulating layer, and a plurality of support columns (not shown in the figure) fixedly connected to the double-layer sewn fabric at intervals are used for increasing the support strength of the tent main body 12. The seam cloth material can adopt a thickened PVC three-layer mesh cloth material, the thickness of the seam cloth material can reach 1.0mm, the seam cloth material has the functions of high temperature resistance, low cold resistance, wind resistance, ultraviolet resistance, wear resistance, flame retardance, strong anti-aging tension, and the seam cloth material is nontoxic and tasteless and can reach the European environmental protection standard.

The tent main body 12 includes a semicircular shielding cloth 121 and sealing cloths 122 fixedly connected to both ends of the shielding cloth 121, and the sealing cloths 122 are fixedly connected between the ground mat 11 and the shielding cloth 121 for sealing the tent body 1. The middle position of the upper part of the shielding cloth 121 is made of a transparent material and is called a light collecting area 13, so that sunlight can conveniently irradiate the inside of the tent, and the temperature inside the tent is increased. When the inflatable tent is used, the inflatable tent can be inflated and installed only by flatly laying the tent on the open ground and connecting the pedal pump, and the inflatable tent is very convenient to install.

A doorway 14 for people to enter is formed in one side of the shielding cloth 121, the doorway 14 is located on the lower side of the lighting area 13, a door curtain 141 is installed at the doorway 14, a zipper 142 is arranged between the door curtain 141 and the shielding cloth 121, and the doorway 14 can be opened and closed through the zipper 142. Wherein the side of the shade cloth 121 where the doorway 14 is opened is referred to as a front side 15, and the side of the shade cloth 121 where the doorway 14 is not opened is referred to as a rear side 16, and the lighting zone 13 covers both upper areas of the front side 15 and the rear side 16.

Referring to fig. 2, a solar energy absorption device 3 is detachably connected to the lighting area 13, and the solar energy absorption device 3 can absorb the illumination of the sun and convert the light energy into electric energy, so as to provide electric power for people in the field and ensure the normal operation of rescue work. The solar energy absorption device 3 is arranged at the part of the lighting area 13, which is positioned at the rear side 16 of the shielding cloth 121, so that the illumination of the sun can directly irradiate the lighting area 13, and when the illumination of the sun irradiates the lighting area 13, which is positioned at the front side 15 of the shielding cloth 121, the illumination can directly irradiate the inside of the tent body 1 through the lighting area 13, so as to provide heat for the inside of the tent body 1; when sunlight irradiates the lighting area 13 and is positioned at the rear side 16 of the shielding cloth 121, the sunlight is directly absorbed by the solar energy absorption device 3 and is converted into electric energy, so that electric power is provided for people in the field life.

The solar energy absorption device 3 is a flexible solar thin film 31, the flexible solar thin film 31 can be a third generation CIGS thin film, is a solar cell with the highest output energy in unit weight at present, is different from a crystalline silicon solar cell, does not consume expensive high-purity silicon materials, and does not pollute the environment. A first connection assembly 5 is disposed between the flexible solar film 31 and the shielding cloth 121, and the flexible solar film 31 is detachably mounted on the shielding cloth 121 through the first connection assembly 5.

Referring to fig. 2, in an example of the present application, the first connection assembly 5 includes four first hooks 51 fixed to the shielding cloth 121 and first hanging ropes 52 fixed to four corners of the flexible solar film 31, wherein the four first hooks 51 are respectively located at the four corners of the lighting area 13 located at the rear side 16 of the shielding cloth 121, and the flexible solar film 31 can be installed by tying the first hanging ropes 52 at the four corners of the flexible solar film 31 to the four first hooks 51 respectively. When the flexible solar film 31 needs to be detached, the connection relationship between the first hanging rope 52 and the first hook 51 can be directly released, and the installation and the detachment are very convenient.

Referring to fig. 3 and 4, in another example of the present application, the first connecting assembly 5 includes two mounting blocks 53 fixedly connected to the shielding cloth 121, the two mounting blocks 53 are located at a boundary between the front side 15 and the rear side 16 of the shielding cloth 121, the two mounting blocks 53 are respectively located at two sides of the lighting area 13, a mounting rod 54 is rotatably connected between the two mounting blocks 53, one end of the flexible solar film 31 is fixedly connected to the mounting rod 54, and the other end of the flexible solar film hangs down to cover the lighting area 13 for collecting sunlight.

The first connecting component 5 further comprises a rotating rope 55 for driving the mounting rod 54 to rotate, the rotating rope 55 is annular, and a plurality of limiting balls 56 are fixedly connected to the rotating rope 55 at equal intervals along the length direction of the rotating rope 55. A circular sliding groove 531 into which the rotating rope 55 and the limit ball 56 are inserted is formed in one of the mounting blocks 53, an avoiding groove 532 communicated with the sliding groove 531 is formed in one side of the mounting block 53, when the rotating rope 55 is placed in the sliding groove 531, a part of the rotating rope 55 is sleeved on the mounting rod 54, and the other part of the rotating rope 55 is exposed to the outside from the avoiding groove 532. Meanwhile, hemispherical position-limiting grooves 541 into which the position-limiting balls 56 are inserted are formed in the outer wall of the mounting rod 54 at intervals in the axial direction thereof. When a worker pulls the rotating rope 55 to expose one side of the rotating rope from the outside, the rotating rope 55 is driven to slide in the sliding groove 531, and the limiting ball 56 drives the mounting rod 54 to rotate through the limiting groove 541, so that the flexible solar film 31 is wound.

Referring to fig. 3 and 5, in order to prevent the free end of the flexible solar film 31 from falling downward when the flexible solar film 31 is released and from being rolled or tilted upward when influenced by external wind and the like, thereby affecting the normal sunlight collecting operation, a hooking member 57 is provided between one end of the flexible solar film 31, which is far away from the installation rod 54, and the shielding cloth 121, and two hooking members 57 are provided, and the two hooking members 57 are respectively provided at both ends of the free end of the flexible solar film 31. The hook member 57 includes an annular fixing rope 571 fixedly connected to the free end of the flexible solar film 31 and a cylindrical fixing block 572 fixedly connected to the shielding cloth 121 for the fixing rope 571 to be sleeved on, wherein the fixing rope 571 can be a rubber band, and has a certain elasticity, so that the fixing rope 571 can be more conveniently sleeved on the fixing block 572.

In order to prevent the fixing rope 571 from slipping off the fixing block 572, a clamping groove 5721 for the fixing rope 571 to be embedded is formed in the outer wall of the fixing block 572, when the fixing rope 571 is sleeved on the fixing block 572, the fixing rope 571 is also embedded into the clamping groove 5721, and due to the elastic effect of the fixing rope 571, the fixing rope 571 is always located in the clamping groove 5721, so that the fixing is firmer.

Referring to fig. 6, wherein, in order to realize storing the electric energy of solar energy absorbing device 3 conversion, still be provided with battery 4, battery 4 can directly be placed inside tent body 1, avoids battery 4 to place and receives external environment influence to reduce its life in the external world, realizes the transmission of electric energy through the electric wire between battery 4 and the solar energy absorbing device 3. Meanwhile, the ground mat 11 is fixedly connected with the bobbin 41 through which the power supply line penetrates, the bobbin 41 is communicated with two opposite surfaces of the ground mat 11, and the tent main body 12 is of a double-layer inflatable structure, so that the bobbin 41 is arranged on the ground mat 11, and the normal inflation work of the tent main body 12 cannot be influenced.

Referring to fig. 6 and 7, meanwhile, in order to prevent external moisture or impurities from entering the tent body 1 from the bobbin 41 when not in use, the end of the bobbin 41 inside the tent body 1 is hinged with a blocking cap 42, and the inner hole of the bobbin 41 can be closed by the blocking cap 42, so that the operation is more flexible.

Referring to fig. 8, controlling means includes the controller and the display of being connected with the controller electricity, the PLC controller can be specifically selected for use to the controller, wherein battery 4 also is connected with the controller electricity, it is specific, install battery power monitoring meter on battery 4, the electricity is connected between battery power monitoring meter and the controller, battery power monitoring meter can monitor the electric quantity information of storing in the battery 4, and transmit to the controller in, show through the display at last, accomplish the real time monitoring to the interior residual capacity of battery 4.

Controlling means still includes demountable installation at the inside intelligent monitoring system 2 of tent body, and intelligent monitoring system 2 is connected with battery 4 electricity, can provide electric power for intelligent monitoring system 2 through battery 4, ensures intelligent monitoring system 2's normal operating. The intelligent monitoring system 2 is used for monitoring the conditions in the tent body 1 in real time, the intelligent monitoring system 2 is electrically connected with the controller, and the intelligent monitoring system can specifically adopt connection modes such as wired, wireless, optical fiber, carrier wave and Ethernet and can select according to actual conditions when in use. The inner wall of the shielding cloth 121 is fixedly connected with a plurality of hanging points 6 (refer to fig. 6) for installing the intelligent monitoring system 2, and during use, a worker can select the hanging points 6 at proper positions as required to install the intelligent monitoring system 2.

Referring to fig. 6 and 9, since most of the tent is in a closed state and air is not circulated, harmful gas such as carbon dioxide exhaled by people may cause harm to people. In addition, in some special areas, the air may contain some gases harmful to human bodies, such as PM2.5, toluene, hydrogen chloride and the like, and when the harmful gases are collected inside the tent body 1 and cannot be discharged in time, potential safety hazards are caused to people. Therefore, an air inlet 1221 and an air outlet 1222 are respectively formed at both ends of the tent body 1, that is, on the two sealing cloths 122, and an exhaust fan 1223 is detachably connected to the air outlet 1222. The exhaust fan 1223 is also electrically connected to the battery 4, and the battery 4 can provide power for the normal operation of the exhaust fan 1223. When needs ventilate tent body 1 inside, directly open exhaust fan 1223, exhaust fan 1223 just can be with the air discharge to the external world of tent body 1 inside, and external gas also gets into tent body 1 from air intake 1221 inside simultaneously, realizes the change to tent body 1 inside air.

Wherein, exhaust fan 1223 is configured to start when the inside harmful gas concentration of tent body 1 exceeds the setting value, and specifically, intelligent monitoring system 2 is including installing the inside gas detection appearance 21 of tent body 1, and gas detection appearance 21 is used for detecting the inside harmful gas's of tent body 1 concentration. Gas detection appearance 21 and exhaust fan 1223 are connected with the controller electricity respectively, and when gas detection appearance 21 detected the inside harmful gas concentration of tent body 1 and was higher than the setting value, the controller will control exhaust fan 1223 to start, realizes the automatic ventilation work to tent body 1 inside. Wherein the gas detector 21 can be adhered to the inner wall of the shielding cloth 121 by glue, or can be directly placed at a suitable position inside the tent body 1.

The exhaust fan 1223 can directly be blocked at the air outlet 1222 to implement the installation of the exhaust fan 1223, specifically, when the tent body 12 is not inflated, the exhaust fan 1223 can be directly placed at the air outlet 1222, and then the tent body 12 is charged by the foot pump to complete the installation of the tent body 12. At this time, the exhaust fan 1223 can be caught at the air outlet 1222 by the pressure of the air in the tent body 12, and the fixing is very firm.

Referring to fig. 6 and 9, in order to prevent external cold air from entering the inside of the tent body 1 from the air inlet 1221 and the air outlet 1222 when ventilation of the tent body 1 is not required, the temperature inside the tent body 1 is lowered. The air inlets 1221 and the air outlets 1222 are provided with blocking cloths 17, wherein two blocking cloths 17 may be disposed inside the tent body 1 or outside the tent body 1, or one blocking cloth 17 may be disposed inside the tent body 1 or outside the tent body 1. The shape of the plugging cloth 17 may be rectangular, circular or other irregular shapes as long as plugging of the air inlet 1221 or the air outlet 1222 can be achieved. In the present application, the two plugging cloths 17 are rectangular, and the two plugging cloths 17 are disposed outside the tent body 1. The upper end of each blocking cloth 17 is fixedly connected with the sealing cloth 122, the fixedly connected point is located above the air inlet 1221 or the air outlet 1222, and the free end of each blocking cloth 17 naturally drops downwards to shield the air inlet 1221 or the air outlet 1222.

In order to avoid that the sealing cloth 17 is not tightly sealed due to the tilting caused by the influence of external force when the free end of the sealing cloth 17 seals the air inlet 1221 or the air outlet 1222, a fastening member 18 is arranged between each sealing cloth 17 and the sealing cloth 122, and the free end of the sealing cloth 17 can be detachably connected with the sealing cloth 122 through the fastening member 18.

Referring to fig. 9, the fastening member 18 may be a magic tape, the magic tape includes a first sub tape 181 fixedly connected to one surface of the blocking cloth 17 facing the tent body 1 and a first mother tape 182 fixedly connected to an outer wall of the sealing cloth 122, the first sub tape 181 is integrally U-shaped and fixedly connected to the other three sides of the blocking cloth 17 not fixedly connected to the sealing cloth 122, the first mother tape 182 is also integrally U-shaped and corresponds to the first sub tape 181, and the free end of the blocking cloth 17 can be fixed to the sealing cloth 122 by the first sub tape 181 and the first mother tape 182, so that the blocking of the air inlet 1221 or the air outlet 1222 is tighter.

Still the rigid coupling has the female 183 of second in the one side of keeping away from sealed cloth 122 at shutoff cloth 17, and the female 183 rigid coupling of second is in the relative both sides of shutoff cloth 17, when needs carry out ventilation to tent body 1 inside, directly overturns and convolutes shutoff cloth 17 free end to the one side of keeping away from sealed cloth 122, and first son is pasted 181 and will be pasted with the female 183 laminating of second this moment, just fixes the position of shutoff cloth 17, avoids influencing the ventilation of tent body 1.

Of course, the fastening element 18 may also be a snap fastener, a button, a zipper, or other fastening means, as long as the blocking cloth 17 can be fixed on the sealing cloth 122.

When the tent is used, when the interior of the tent body 1 needs to be insulated at night, the first sub sticker 181 and the first main sticker 182 are directly attached to block the positions of the air inlet 1221 and the air outlet 1222; when needing to ventilate the tent in daytime, personnel can directly roll up plugging cloth 17 and fix the position of plugging cloth 17 through first sub-subsides 181 and second mother subsides 183, can make the inside circulation of air of tent body 1. During, when gas detection appearance 21 detected that the inside harmful gas of tent body 1 was too much to exceed the setting value, thereby the controller will directly control exhaust fan 1223 work and discharge the harmful gas in tent body 1, just can realize carrying out the control of full aspect to the inside air quality of tent body 1 through gas detection appearance 21, guarantee people's living environment.

Referring to fig. 6 and 10, in order to avoid that when people are not in the tent, a stranger enters the tent to cause the loss of articles or the loss of the tent body 1 and cannot find the articles, the intelligent monitoring system 2 further comprises a camera 23 and a Beidou 22 which are installed inside the tent body 1, the camera 23 and the Beidou 22 are both electrically connected with the controller, wherein the camera 23 is right opposite to the direction of the doorway 14, the image information of the people entering the tent can be collected and transmitted to the controller, and finally the image information is displayed on the display. The Beidou 22 can acquire real-time position information of the tent, transmit the position information to the controller and finally display the position information through the display. The worker can observe the person who enters the inside of the tent body 1 and the current position information of the tent directly in front of the display.

Inside being provided with of tent body 1 fixes camera 23 at the inside second coupling assembling 7 of tent body 1, camera 23 can dismantle through second coupling assembling 7 and connect on the hanging point 6 that shelters from the inside reservation of cloth 121. Big dipper 22 can be direct rigid coupling on camera 23, also can fix inside tent body 1 through glue, also perhaps can dismantle through second coupling assembling 7 and connect inside tent body 1, in this application to big dipper 22 is fixed on tent body 1 through glue for the example explains.

Referring to fig. 10 and 11, the hanging point 6 is U-shaped, and includes a fixing plate 61 fixedly connected to the shielding cloth 121 and two mounting plates 62 vertically fixedly connected to one side of the fixing plate 61 away from the shielding cloth 121, the two mounting plates 62 are respectively located at two ends of the fixing plate 61, and one ends of the two mounting plates 62 away from the fixing plate 61 are elastic members and are close to each other. First mounting hole 621 has all been seted up on every mounting panel 62, and the coincidence of the first mounting hole 621 axis on two mounting panels 62 has all been seted up second mounting hole 622 on every mounting panel 62, and the coincidence of two second mounting hole 622 axes, and second mounting hole 622 is located one side of first mounting hole 621 towards fixed plate 61. The first mounting hole 621 and the second mounting hole 622 are both reserved mounting holes, so that subsequent mounting work is facilitated.

Referring to fig. 10 and 11, the second connecting assembly 7 includes an auxiliary block 71 fixed to an end of the camera 23 away from the lens, and the auxiliary block 71 is clamped between the two mounting plates 62, so that the position of the auxiliary block 71 can be fixed by the elasticity of the mounting plates 62.

Wherein, in order to strengthen the fixing of camera 23, run through the relative both sides of supplementary piece 71 and seted up third mounting hole 711, second coupling assembling 7 still includes the fixing bolt 72 of wearing to locate first mounting hole 621 and third mounting hole 711 simultaneously, still threaded connection has fixation nut 73 on fixing bolt 72, can fix the position of supplementary piece 71 and mounting panel 62 through fixing bolt 72 and fixation nut 73, thereby realize camera 23's installation fixed, it is fixed more stable.

A fourth mounting hole 712 is further formed through two opposite sides of the auxiliary block 71, the fourth mounting hole 712 is located at one end of the third mounting hole 711 far away from the camera 23, and when the auxiliary block 71 is fixed on the mounting plate 62 through the fixing bolt 72, the second mounting hole 622 and the fourth mounting hole 712 axially overlap. Wear to establish second mounting hole 622 and fourth mounting hole 712 sliding connection and have limit bolt 74, can fix the one end that supplementary piece 71 kept away from camera 23 through limit bolt 74, avoid under the action of gravity, camera 23 rotates around fixing bolt 72.

Meanwhile, in order to adapt to the installation requirements of the cameras 23 at different angles, a plurality of fourth mounting holes 712 are formed at intervals, and the plurality of fourth mounting holes 712 are located on the same arc surface with the first mounting hole 621 as the circle center. The angle of the camera 23 can be changed by inserting the limit bolt 74 into the fourth mounting hole 712 at different positions, so that the use is more flexible.

Referring to fig. 11, two opposite outer walls penetrating through the limiting bolt 74 are provided with limiting holes 741, the limiting holes 741 are located at one end of the limiting bolt 74 far away from the bolt head, a safety pin 75 is disposed in the limiting holes 741, one end of the limiting bolt 74 far away from the bolt head can be fixed by the safety pin 75, and the limiting bolt 74 is prevented from sliding down from the second mounting hole 622 and the fourth mounting hole 712 under the action of external force.

After the pin 751 is inserted into the limiting hole 741, the operating pin 752 rotates around the hinge axis of the pin 751 in a direction away from the bolt head of the limiting bolt 74 until one side of the pin 752, which is away from the pin 751, abuts against the outer wall of the pin 751, and the limiting bolt 74 is also located between the pin 752.

When the camera 23 is installed, the auxiliary block 71 on the camera 23 is directly embedded between the two mounting plates 62, the position of the camera 23 on the mounting plates 62 is fixed through the fixing bolt 72 and the fixing nut 73, then the camera 23 is operated to rotate around the fixing bolt 72, the angle of the camera 23 is adjusted, and the angle of the camera 23 is fixed through the limiting bolt 74. Finally, the position of the limit bolt 74 is fixed by the safety pin 75, so that the limit bolt 74 is prevented from sliding out of the second mounting hole 622 and the fourth mounting hole 712 under the action of external force.

At present, for temporary and diversified projects such as earthquake relief work, group competition and the like, in order to guarantee the physical health of rescue workers or competition personnel, the physical conditions of the rescue workers or the competition personnel need to be monitored in real time.

Referring to fig. 10, intelligent monitoring system 2 is still including dismantling the infrared ray thermoscope 24 of connection in tent body 1 inside, infrared ray thermoscope 24 sense terminal is towards gate 14 place direction, infrared ray thermoscope 24 is connected with the controller electricity, can be timely detect the body temperature of the personnel that get into in the tent through infrared ray thermoscope 24, and to the body temperature data transmission who detects out to the controller in, finally show in the display, make and need not to spend extra time and manpower and carry out the body temperature detection to rescue personnel or contest personnel, it is more convenient to detect, the time cost has been practiced thrift greatly.

Specifically, a third connecting assembly 8 is arranged between the infrared thermometer 24 and the shielding cloth 121, and the infrared thermometer 24 is detachably connected to a hanging point 6 reserved inside the shielding cloth 121 through the third connecting assembly 8.

Referring to fig. 10 and 12, mounting grooves 241 are formed on two opposite side walls of the infrared thermometer 24, and the third connecting assembly 8 includes a latch 81 slidably coupled in each mounting groove 241 and a first spring 82 fixedly coupled between the bottom of the mounting groove 241 and the latch 81. Under the normal state, the latch 81 can be abutted to extend out of the mounting groove 241 and be exposed to the outside under the elastic force of the first spring 82. When the infrared thermometer fixing device is used, the fixture block 81 is directly operated to retract into the mounting groove 241, then one end of the infrared thermometer 24, which is far away from the detection end, is embedded between the two mounting plates 62, the force applied to the fixture block 81 is released, the fixture block 81 extends out of the mounting groove 241 and is embedded into the first mounting hole 621 under the elastic force of the first spring 82, and the infrared thermometer 24 is mounted.

Meanwhile, in order to facilitate the smooth insertion of the latch 81 into the first mounting hole 621 under the elastic force of the first spring 82, the end of the latch 81 away from the bottom of the mounting groove 241 is formed in a hemispherical shape, and when the latch 81 protrudes out of the mounting groove 241 under the elastic force of the first spring 82, the latch 81 is smoothly inserted into the first mounting hole 621 through the hemispherical end.

Referring to fig. 12, in order to facilitate the operator to operate the fixture block 81 to retract into the mounting groove 241, operating grooves 242 are further formed at opposite sides of the infrared thermometer 24, the operating grooves 242 are located at one end of the mounting groove 241 facing the infrared thermometer 24, an operation rod 83 is slidably connected in the operation groove 242, and a communication groove 243 for communicating the operation groove 242 and the installation groove 241 is opened between the operation groove 242 and the installation groove 241, a connecting rod 84 is fixedly connected between the latch 81 and the operating rod 83, the connecting rod 84 is positioned in the communicating groove 243, a worker can directly drive the latch 81 to slide in the mounting groove 241 through the connecting rod 84 by operating the operating rod 83, in order to ensure that the force exerted by the first spring 82 on the connecting rod 84 is more uniform, so that the connecting rod 84 does not deflect, the first spring 82 is provided at intervals along the length direction of the connecting rod 84, and two springs are exemplified in the present application. The two first springs 82 can simultaneously apply a force to the connecting rod 84 away from the bottom of the operating slot 242, making the force applied to the connecting rod 84 more uniform.

When the infrared thermometer installing device is used, a worker directly holds the infrared thermometer 24, then presses the operating rod 83 towards the bottom of the operating groove 242, the operating rod 83 can drive the fixture block 81 to slide in the installing groove 241 through the connecting rod 84, the first spring 82 is extruded until the fixture block 81 is embedded into the installing groove 241, then the end, away from the infrared thermometer 24, for detection is embedded between the two installing plates 62, the force exerted on the operating rod 83 is loosened, the fixture block 81 extends out of the installing groove 241 and is embedded into the first installing hole 621 under the elastic force action of the first spring 82, the infrared thermometer 24 is installed, and the installing is very simple and convenient.

Meanwhile, in order to avoid that the infrared thermometer 24 rotates around the hinge point of the fixture block 81 under the action of gravity of the infrared thermometer 24, hemispherical clamping balls 85 are further fixedly connected to two opposite side walls of the infrared thermometer 24, and the clamping balls 85 are located on one side of the fixture block 81 away from the detection end of the infrared thermometer 24. When the latch 81 is inserted into the first mounting hole 621 under the elastic force of the first spring 82, the latch ball 85 is inserted into the second mounting hole 622 by applying a force, so as to limit the infrared thermometer 24. When the infrared thermometer 24 needs to be removed, the infrared thermometer 24 is directly held by hand and the operating rod 83 is pressed towards the bottom of the operating groove 242, so that the connecting rod 84 can drive the clamping block 81 to retract into the mounting groove 241, then the infrared thermometer 24 is pulled out with force, the clamping ball 85 can be pulled out from the second mounting hole 622, and the assembly and disassembly are very convenient and flexible.

In order to facilitate the labor saving of the operator when pressing the operating rod 83, a rubber pad 86 is fixedly connected to one end of the operating rod 83 far away from the bottom of the operating groove 242, so that the operation is more convenient and labor saving.

The implementation principle of the embodiment 1 is as follows: can realize the collection to the sunlight and turn into the electric energy with light energy and store through setting up solar energy absorbing device 3, exhaust fan 1223 and gas detector 21's setting can realize taking a breath to the inside automation of tent body 1, guarantee user's interim living environment. The arrangement of the camera 23 and the Beidou 22 can monitor people entering the tent in real time, and control the geographic position of the tent body 1 in real time, so that safety guarantee is increased. The infrared thermometer 24 can detect the body temperature of a user, excessive time and energy are not needed to be spent during detection, and time cost and labor cost are greatly saved.

Example 2

Referring to fig. 13, the present embodiment is different from embodiment 1 in that: the solar energy absorption device 3 comprises a plurality of solar cells 32 and a carrying cloth 33 for connecting the plurality of solar cells 32, the plurality of solar cells 32 are uniformly and fixedly connected to the carrying cloth 33, and a fourth connecting assembly 9 for fixing the carrying cloth 33 on the shielding cloth 121 is arranged between the carrying cloth 33 and the shielding cloth 121.

Referring to fig. 13, in an example of the present application, the fourth connecting assembly 9 includes a second hanging rope 91 fixedly connected to four corners of the carrying cloth 33 and four second hooks 92 fixedly connected to the shielding cloth 121, where the second hooks 92 are respectively located at four corners of the lighting area 13 located at the rear side 16 of the shielding cloth 121, and the four second hanging ropes 91 are respectively tied to the four second hooks 92, so as to implement installation of the carrying cloth 33, that is, complete installation of the solar cell 32, and when the solar cell 32 needs to be taken down, the connection relationship between the second hanging rope 91 and the second hooks 92 is directly released, and the installation and the detachment are very convenient.

Referring to fig. 14 and 15, in another example of the present application, the fourth connecting assembly 9 includes two auxiliary plates 93 parallel to each other and fixed to the carrier cloth 33, two elongated cloths 94 fixed to both ends of the carrier cloth 33, and fixing members 95 for fixing the elongated cloths 94 to the auxiliary plates 93, and the two elongated cloths 94 at both ends of the carrier cloth 33 are fixed to the auxiliary plates 93 by the fixing members 95. The elongated cloth 94 may be fixed to the carrier cloth 33 by sewing, or may be formed integrally with the carrier cloth 33. The fixing members 95 are located on the opposite sides of the two auxiliary plates 93, four fixing members 95 are provided, and the two fixing members 95 are a group and located at two ends of each auxiliary plate 93. One end of each of the two pieces of elongated cloth 94, which is far away from the carrier cloth 33, is bent towards the direction of the shielding cloth 121 to form a flange 941, and the two flanges 941 formed by the two pieces of elongated cloth 94 are attached to the opposite sides of the two auxiliary plates 93, respectively, so that the flanges 941 can be fixed to the opposite sides of the two auxiliary plates 93 by the fixing members 95.

Referring to fig. 16, each auxiliary plate 93 is provided with a receiving groove 931 for the fixing member 95 to be embedded in, the fixing member 95 includes a limiting plate 951 and a fixing ring 952 fixedly connected to a notch of the receiving groove 931, the limiting plate 951 is disposed at one side of the flange 941 away from the auxiliary plate 93, the fixing ring 952 is slidably connected to the fixing ring 952, the end of the pull rod 953 located in the receiving groove 931 is fixedly connected to a driving ring 954 and can drive the driving ring 954 to slide in the receiving groove 931, the end of the pull rod 953 located in the receiving groove 931 is further sleeved with a second spring 955, a limiting block 956 is fixedly connected to an end of the pull rod 953 located outside the receiving groove 931, a first avoiding hole 9511 for the limiting block 956 to pass through is formed in the limiting plate 951, and a second avoiding hole 942 for the pull rod 953 to pass through is formed in. The shape of the cross section of the limiting block 956 is consistent with that of the cross section of the first avoidance hole 9511, and the limiting block and the first avoidance hole are both non-perfect circles. Specifically, the cross section of the limiting block 956 may be rectangular, square, oval or other irregular shapes, and the cross section of the limiting block 956 is illustrated as oval in this application.

Under normal conditions, the second spring 955 will abut against the driving ring 954 to locate at the bottom of the receiving groove 931. When the carrying cloth 33 needs to be fixed on the shielding cloth 121, the two flanges 941 of the lengthened cloth 94 are directly placed on the opposite sides of the two auxiliary plates 93 respectively, the flanges 941 are sleeved on the pull rod 953, so that the pull rod penetrates through the second avoiding hole 942, the limiting plate 951 is placed on one side of the flange 941 away from the auxiliary plates 93, the limiting plate 951 is sleeved on the pull rod 953, so that the pull rod 953 is chromatic-colored in the first avoiding hole 9511, then the limiting block 956 is directly pulled on one side of the limiting plate 951 away from the auxiliary plates 93, the driving ring 954 also moves towards the fixing ring 952 in the accommodating groove 931 at the moment, the second spring is extruded, and then the limiting block 956 is directly rotated, so that the limiting block 956 is dislocated with the first avoiding hole 9511, the limiting block 956 can be fixed on one side of the limiting plate 951 away from the flanges 941, and the mounting work of the carrying cloth 33 is realized.

In order to facilitate pulling of the pull rod 953 and rotation of the limit block 956, a pull ring 957 is fixedly connected to one side of the limit block 956 far away from the pull rod 953, a worker can drive the limit block 956 to rotate by pulling the pull ring 957, and the operation is more convenient.

Referring to fig. 15, a connecting plate 958 is further fixedly connected between the limiting plates 951 of the two fixing members 95 in the same group, and the whole length direction of the flange 941 can be fixed by the connecting plate 958, so that the fixing is more stable.

In order to avoid abrasion of the lengthened cloth 94 at the bending position of the auxiliary plate 93 when the lengthened cloth 94 is bent towards the shielding cloth 121 to form the flange 941, a round angle is machined at the opposite side of each auxiliary plate 93, and the round angle is located at the side, far away from the shielding cloth 121, of the auxiliary plate 93, so that the lengthened cloth 94 and the auxiliary plate 93 are in circular arc transition when the lengthened cloth 94 is bent to form the flange 941, and abrasion of the lengthened cloth 94 is reduced.

The implementation principle of the embodiment 2 is as follows: during the use, can be directly through hanging the rope 91 system with the second and realize the fixed to solar wafer 32 on second couple 92, also can be through the turn-ups 941 centre gripping that will lengthen cloth 94 between accessory plate 93 and limiting plate 951, and operation pull ring 957 extrudees second spring 955, make stopper 956 follow first dodge and stretch out and lie in the limiting plate 951 and keep away from the one side of turn-ups 941 in hole 9511, then operation pull ring 957 rotates, just can accomplish the fixed to solar wafer 32, when not using, can directly with bearing cloth 33 and rigid coupling the solar wafer 32 of bearing on cloth 33 pull down can, the installation is dismantled all very simply.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A multifunctional portable tent is characterized in that: including tent body (1), solar energy absorbing device (3) and battery (4), tent body (1) is in including ground mat (11) and rigid coupling tent main part (12) on ground mat (11), tent main part (12) are double-deck gas filled structure, transparent material is selected for use on tent body (1) upper portion and is called daylighting district (13), solar energy absorbing device (3) demountable installation is in daylighting district (13) department, solar energy absorbing device (3) with battery (4) pass through the electric wire electricity and connect.

2. The multifunctional portable tent of claim 1, wherein: the tent comprises a tent main body (12), a doorway (14) for people to enter the tent is formed in one side of the tent main body (12), the side, provided with the doorway (14), of the tent main body (12) is called a front side (15), the side, away from the doorway (14), of the tent main body (12) is called a rear side (16), a light collecting area (13) covers the upper portion of the front side (15) of the tent main body (12) and the upper portion of the rear side (16) of the tent main body (12), and the solar energy absorption device (3) is detachably connected to the portion, located on the rear side (16), of the light collecting area (13).

3. The multifunctional portable tent of claim 1, wherein: the storage battery (4) is positioned in the tent main body (12) and is communicated with a thread cylinder (41) through the upper surface and the lower surface of the ground mat (11).

4. The multifunctional portable tent of claim 3, wherein: one end of the wire barrel (41) is provided with a blocking cap (42).

5. The multifunctional portable tent of claim 2, wherein: the battery energy monitoring device is characterized by further comprising a control device, the control device comprises a controller and a display, the controller is electrically connected with the display, a battery energy monitoring meter is installed on the storage battery (4), and the controller is electrically connected with the storage battery (4) through the battery energy monitoring meter.

6. The multifunctional portable tent of claim 5, wherein: the control device further comprises an intelligent monitoring system (2) installed inside the tent body (1), and the intelligent monitoring system (2) is electrically connected with the controller.

7. The multifunctional portable tent of claim 6, wherein: the intelligent monitoring system (2) comprises a gas detector (21), wherein the gas detector (21) is used for detecting the concentration of harmful gas in the tent body (1).

8. The multifunctional portable tent of claim 7, wherein: an air inlet (1221) and an air outlet (1222) are respectively formed in two opposite ends of the tent main body (12), and an exhaust fan (1223) is detachably connected to the air outlet (1222).

9. The multifunctional portable tent of claim 8, wherein: the exhaust fan (1223) is configured to be activated when the concentration of harmful gas in the tent body (1) exceeds a set value.

10. The multifunctional portable tent of claim 6, wherein: the intelligent monitoring system (2) further comprises a Beidou (22), a camera (23) and an infrared thermometer (24) which are fixedly connected to the tent main body (12), wherein the camera (23) and the infrared thermometer (24) are both installed inside the tent main body (12) and face the doorway (14).

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