CN111005664A - Mosquito-proof door - Google Patents

Abstract

The invention discloses an anti-mosquito door which comprises a door frame, wherein a door plate is hinged on the door frame, a flow storage box is fixedly arranged on the door plate, an anti-mosquito fluid is arranged in the flow storage box, the flow storage box is communicated with a jet pipe, a jet opening is formed in the jet pipe, the anti-mosquito fluid can be ejected out of the jet opening, a pressurizing mechanism is arranged on the flow storage box, and the pressurizing mechanism drives the fluid in the flow storage box to enter the jet pipe; the door plate is fixedly provided with a control mechanism which controls the operation of the pressurizing mechanism. The invention has the effect that when a person opens the door and enters the room, the mosquito repellent fluid is sprayed out of the spray hole in the door plate and sprayed to mosquitoes trailing behind the person, so that the mosquitoes are prevented from entering the room.

Description

Mosquito-proof door

Technical Field

The invention relates to a household facility for preventing mosquitoes from entering a room, in particular to a mosquito-proof door.

Background

In summer, the mosquitoes cross, the mosquitoes have great harm to people, saliva of the mosquitoes contains a substance with the effects of relaxing blood vessels and resisting coagulation, blood can be more easily converged to a bitten part, and after the mosquitoes bite, the skin of the bitten person often has the symptoms of wrapping, pruritus and the like; the main harm of mosquitoes is disease transmission, more than 80 diseases are transmitted by mosquitoes, and a plurality of diseases can cause the phenomena of fever, headache, vomiting, lethargy, coma and the like of patients. In order to improve the comfort of people in a room and improve the rest quality, people adopt a plurality of modes to prevent mosquitoes from entering the room and kill the mosquitoes entering the room, and at present, people widely use screen doors, mosquito-proof door curtains and the like to reduce the number of the mosquitoes entering the room.

Application publication number is CN 207194773U's chinese utility model patent discloses a mosquito-proof worm copper door, including door plant and door frame, the door plant passes through the hinge to be fixed on the door frame, and the door frame includes two muntin, connects through the crossbeam between the two muntin upper ends, is equipped with the fixed block on two muntin orientation indoor sides, and the fixed block is the same with the length direction of muntin for rectangular block and length direction, and even equidistant several air-blower that is equipped with on the relative side of fixed block can prevent to open the door the mosquito along with the people gets into indoorly.

The above prior art solutions have the following drawbacks: in seasons with more mosquitoes, people enter the room after the door is opened and closed for a short time, and the mosquitoes enter the room along with people, so that people are troubled by the mosquitoes.

Disclosure of Invention

The invention aims to provide an anti-mosquito door which has the effect of preventing mosquitoes from entering a room when a door plate is opened.

The technical purpose of the invention is realized by the following technical scheme:

an anti-mosquito door comprises a door frame, wherein a door plate is hinged to the door frame, a flow storage box is fixedly arranged on the door plate, an anti-mosquito fluid is arranged in the flow storage box, the flow storage box is communicated with a jet pipe, a jet opening is formed in the jet pipe, the anti-mosquito fluid can be ejected out of the jet opening, a pressurizing mechanism is arranged on the flow storage box, and the pressurizing mechanism drives the fluid in the flow storage box to enter the jet pipe;

the door plate is fixedly provided with a control mechanism which controls the operation of the pressurizing mechanism.

By adopting the technical scheme, when the door plate is opened, the control mechanism is started, the control mechanism controls the pressurizing mechanism to be opened, the pressurizing mechanism applies acting force to the fluid in the flow storage box to enable the fluid in the flow storage box to enter the jet flow pipe, the fluid in the jet flow pipe is sprayed out from the jet flow port, and along with the rotation of the door plate around the hinged part of the door plate and the doorframe, mosquito repelling fluid sprayed out of the jet flow port can block mosquitoes from entering the room through the gap between the door plate and the doorframe, so that the situation that the mosquitoes enter the room along with people when the door plate is opened is reduced.

The invention is further configured to: the control mechanism comprises a power supply module for providing energy;

the pressurizing mechanism comprises an air outlet and an air booster pump communicated with the inner cavity of the flow storage box, and the air booster pump is electrically connected with the control mechanism;

or the pressurizing mechanism comprises a pressure storage tank fixed on the door plate, the flow storage box is communicated with the inner cavity of the pressure storage tank, a pressure pipe is communicated between the pressure storage tank and the flow storage box, an electric control valve for controlling the pressure pipe to be switched on and off is communicated on the pressure pipe, and the electric control valve is electrically connected with the control mechanism.

By adopting the technical scheme, after the control mechanism controls the air booster pump to be started, the air booster pump injects high-pressure air into the inner cavity of the flow storage box, and fluid in the inner cavity of the flow storage box is pressed into the jet flow pipe and then is ejected out from the jet flow port;

when the control mechanism controls the electric control valve to be opened, high-pressure gas in the pressure storage tank enters the flow storage box through the pressure pipe, and fluid in the flow storage box flows out from the flow spraying opening after entering the flow spraying pipe, so that the effect that the fluid in the flow storage box is pressurized and sprayed is achieved.

The invention is further configured to: the control mechanism comprises a power supply module for providing energy;

the pressurizing mechanism comprises a liquid delivery pump communicated with the inner cavity of the flow storage box, the liquid delivery pump is electrically connected with the control mechanism, the joint of the liquid delivery pump and the flow storage box is positioned at the bottom end of the flow storage box, and the output end of the liquid delivery pump is communicated with the jet flow pipe.

By adopting the technical scheme, the control mechanism controls the liquid delivery pump to be started, the fluid pumped into the fluid storage box by the liquid delivery pump is pressed into the jet flow pipe, and the fluid in the jet flow pipe flows out through the jet flow port, so that the effect of pressurizing and spraying the fluid in the fluid storage box is realized.

The invention is further configured to: the control mechanism comprises a power supply module for providing energy;

the control mechanism comprises a push rod which is connected to the door plate in a sliding mode, the sliding direction of the push rod is perpendicular to the thickness direction of the door plate, one end of the push rod can be in contact with and pressed against the door frame, and a round angle is formed in one end, in contact with the door frame, of the push rod;

the push rod is connected with a movable electric plate, and the door plate is fixed with a fixed electric plate;

the door plate is provided with a pushing mechanism which drives one end of the push rod to move towards the door frame;

when the push rod stretches out of the door plate with the end, in contact with the door frame, of the push rod, the push rod drives the movable electric plate to be in contact with the fixed electric plate, and when the movable electric plate is in contact with the fixed electric plate, the control mechanism is opened.

Through adopting above-mentioned technical scheme, pushing mechanism keeps applying the effort to the push rod, and when the door plant was in the closed condition, the push rod received the restriction of door frame, and when the door plant was in the open condition, pushing mechanism promoted the push rod and stretches out the door plant, and the push rod drives the activity electroplax and removes to activity electroplax and fixed electroplax contact and support the pressure, passes through wire series connection between fixed electroplax, loading system, power module, the slip electroplax this moment, and loading system opens.

The invention is further configured to: the control mechanism comprises a power supply module for providing energy;

the control mechanism comprises a controller, the controller is electrically connected with a distance sensor fixed on the door plate, the distance sensor is used for detecting the distance between the side wall of the door plate and the door frame, and the controller is electrically connected with the pressurizing mechanism.

By adopting the technical scheme, when the door is in a closed state, the distance between the side wall of the door plate and the door is minimum; when the door is opened, the distance between the side wall of the door plate and the door frame is gradually increased, and when the distance between the side wall of the door plate and the door frame is increased to a certain distance, the distance sensor sends an electric signal to the controller, and the controller controls the pressurizing mechanism to be opened;

or when the infrared sensor senses the state that people reach the door plate, the infrared sensor sends a signal to the controller, and the controller controls the pressurizing mechanism to be opened.

The invention is further configured to: the door plate is provided with a slotted hole, and the power supply module, the control mechanism, the pressurizing mechanism, the jet flow pipe and the flow storage box are arranged in the slotted hole;

or the power supply module, the control mechanism, the pressurizing mechanism, the jet flow pipe and the flow storage box are all fixed on the surface of the door plate.

Through adopting above-mentioned technical scheme, can reserve the installation that the space is convenient for power module, control mechanism, loading system, jet-propelled pipe and storage box in advance on the door plant, be convenient for hide power module, control mechanism, loading system, jet-propelled pipe and storage box or install on current door plant, reequip current door plant.

The invention is further configured to: the flow storage box is communicated with a liquid preparation box, an infusion tube is arranged between the liquid preparation box and the flow storage box, a one-way valve is arranged on the infusion tube, and the one-way valve only enables fluid in the liquid preparation box to enter the flow storage box.

Through adopting above-mentioned technical scheme, the setting up of check valve enables to prepare the interior mosquito repellent fluid of liquid box and passes through the transfer line and get into the box that flows that stores up, and when loading system opened once, loading system only can be with the whole extrusions of the interior liquid of box that flows that stores up, even open the door plant for a long time, can not once only be equipped with the interior liquid of liquid box and all spout yet.

The invention is further configured to: the control mechanism comprises an actuating rod hinged to the door handle, the actuating rod is connected with a plurality of strings, sliding rods which are connected with the door panel in a sliding mode are fixedly connected to the strings, the sliding rods are U-shaped rods, one end of each sliding rod abuts against the flow storage box, a spraying button which is in contact with the sliding rods is arranged on the flow storage box, a spraying opening is formed in the flow storage box, one end of each spraying pipe is communicated with the spraying opening, and the other end of each spraying pipe extends out of the side wall of the door panel.

By adopting the technical scheme, the actuating rod drives the string to move, the string pulls the sliding rod to move, the sliding rod exerts an effect on the spraying button, and the mosquito repellent fluid in the flow storage box can enter the main jet flow pipe through the spraying port and then is sprayed out.

The invention is further configured to: the control mechanism comprises two control buttons fixed on the inner surface and the outer surface of the door plate, the control buttons are electrically connected with a controller, the controller is electrically connected with a power supply module, the power supply module is electrically connected with the pressurizing mechanism, and the pressurizing mechanism can be started by pressing the control buttons.

By adopting the technical scheme, the controller can be started by pressing the button, so that the control mechanism is started, and the pressurizing mechanism is started.

The invention is further configured to: the jet flow pipe is connected with a miniature atomizing nozzle positioned in the jet flow port;

the jet flow pipe comprises a U-shaped jet branch pipe with an opening facing to the hinged side of the door plate and the door frame;

the mosquito repellent fluid comprises air or mosquito repellent liquid;

the flow storage box is communicated with a liquid preparation box which injects fluid into the flow storage box.

By adopting the technical scheme, the mosquito repelling fluid is sprayed out from the upper part, the side part and the lower part of the mosquito repelling door at the same time, so that the mosquito killing range is large; the nozzle atomizes the mosquito repellent fluid, and the mosquito repellent fluid is sprayed out of the spray opening in a mist shape, so that the spray range of the mosquito repellent fluid is enlarged; mosquito repellent fluid in the liquid preparation box enters the flow storage box, so that the mosquito repellent fluid in the flow storage box can be supplemented conveniently; the air can form high-speed airflow from the jet flow port to be sprayed out to prevent mosquitoes from entering the door frame, and the mosquito repellent liquid or other irritant liquid can stimulate the mosquitoes to prevent the mosquitoes from entering the door frame.

In conclusion, the beneficial effects of the invention are as follows:

1. when the door plate is opened, the control mechanism is started, the control mechanism controls the pressurizing mechanism to be opened, the pressurizing mechanism applies acting force to fluid in the flow storage box to enable the fluid in the flow storage box to enter the jet flow pipe, the fluid in the jet flow pipe is jetted out from the jet flow opening, the mosquito repellent fluid jetted out from the jet flow opening rotates along the thickness direction of the door plate along the hinge joint of the door plate and the door frame along with the door plate, the mosquito repellent fluid jetted out from the jet flow opening can prevent mosquitoes from entering a room through a gap between the door plate and the door frame, and the situation that the mosquitoes enter the room along with people when the door plate is opened is;

2. the flow storage box is communicated with a liquid preparation box, an infusion tube is arranged between the liquid preparation box and the flow storage box, a one-way valve is arranged on the infusion tube, and the one-way valve only enables fluid in the liquid preparation box to enter the flow storage box;

3. the air can form high-speed airflow from the jet flow port to be sprayed out to prevent mosquitoes from entering the door frame, and the mosquito repellent liquid or other irritant liquid can stimulate the mosquitoes to prevent the mosquitoes from entering the door frame.

Drawings

FIG. 1 is a schematic overall structure diagram of the first embodiment;

FIG. 2 is a schematic diagram illustrating an internal layout of a yielding slot in accordance with an embodiment;

FIG. 3 is a schematic structural view of an inner cavity of a door panel according to an embodiment;

FIG. 4 is a sectional view showing the position structure of the branch jet pipe and the atomizing nozzle in the first embodiment;

FIG. 5 is an enlarged view at A in FIG. 4;

FIG. 6 is a schematic view showing the entire structure of the inner cavity of the door panel in the second embodiment;

FIG. 7 is an exploded view of the control mechanism according to the second embodiment;

FIG. 8 is a schematic structural view of a third embodiment;

FIG. 9 is a schematic view showing the structure of a door handle on a door panel according to the fourth embodiment;

FIG. 10 is a schematic view showing the connection of the actuating rod and the door knob in the fourth embodiment;

FIG. 11 is a schematic view showing the structure of the manual mechanism and the flow-storing box in the fourth embodiment.

In the figure, 1, a door frame; 11. a top frame; 12. a side frame; 2. a door panel; 21. a fixed side wall; 22. a movable side wall; 221. a through hole; 23. a yielding groove; 231. a slot cover plate; 2311. a door pin; 232. hinging a shaft; 24. preparing a liquid box; 241. a liquid filling port; 242. an end cap; 25. a transfusion tube; 251. a one-way valve; 26. a flow storage box; 27. a groove; 271. an orifice; 28. a fixing plate; 29. a door handle; 3. a jet main pipe; 31. a jet branch pipe; 311. an upper branch pipe; 312. a side branch; 313. a lower branch pipe; 32. an atomizing nozzle; 4. a power supply module; 41. a storage battery; 42. a wire; 5. a pressurizing mechanism; 51. an air booster pump; 511. an air inlet pipe; 512. an exhaust pipe; 52. a liquid delivery pump; 521. an outlet of the pump; 522. a pump inlet; 53. a pressure storage tank; 54. a pressure pipe; 55. an electrically controlled valve; 6. a control mechanism; 61. a distance sensor; 62. a controller; 63. a push rod; 631. round corners; 64. a reset mechanism; 641. a reset tube; 6411. a connecting ring; 6412. a guide chute; 642. a fixing ring; 643. a reset ring; 644. a return spring; 65. a switch control assembly; 651. a movable electric plate; 6511. a long rod; 6512. a short bar; 652. fixing the electric plate; 66. a control button; 7. a manual mechanism; 71. an actuating rod; 711. a connecting rod; 712. a force application rod; 72. a string; 721. a guide ring; 722. a guide tube; 73. a slide bar; 731. a guide bar; 74. a compression spring; 81. a spray button; 82. and (4) a spray nozzle.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example one

Referring to fig. 1, the mosquito preventing door disclosed by the invention comprises a door frame 1 with a U-shaped structure, wherein the door frame 1 comprises a top frame 11 and two side frames 12 which are perpendicular to the top frame 11, the inner side of one side frame 12 is hinged with a door panel 2 through a hinge, the door panel 2 is of a cuboid shell structure, and a reinforcing plate for enhancing the structural strength of the door panel 2 is arranged in the inner cavity of the door panel 2 and is not shown in the attached drawings.

The side wall of the door panel 2 hinged to the side frame 12 is a fixed side wall 21, and the side wall of the door panel 2 opposite to the fixed side wall 21 is a movable side wall 22. When a person enters the room from the outside, the door panel 2 is opened in the outdoor direction.

Referring to fig. 2, a cuboid structure yielding groove 23 is formed in the side surface of the door panel 2 facing the indoor in the thickness direction, a hinge shaft 232 is fixedly inserted in the yielding groove 23, and the hinge shaft 232 is located on one side, close to the fixed side wall 21, in the yielding groove 23. The articulated shaft 232 one end is inserted and is stepped down 23 tops in groove, and the articulated shaft 232 other end is inserted and is stepped down 23 bottoms in groove, and articulated shaft 232 sets up along vertical direction, cup joints slotted apron 231 on the articulated shaft 232, and articulated shaft 232 rotates with slotted apron 231 to be connected, will step down 23 openings in groove and shield when slotted apron 231 closes. The surface of the slot cover plate 231 departing from the abdicating slot 23 is fixed with a door pin 2311 by using a screw, when the slot cover plate 231 is closed, the door pin 2311 locks the slot cover plate 231 with the door plate 2, and the slot cover plate 231 is prevented from being automatically opened.

Referring to fig. 3, a reserve tank 24 and a reservoir tank 26 are placed in the relief tank 23. The liquid preparation box 24 and the flow storage box 26 are rectangular box bodies, the volume of the inner cavity of the liquid preparation box 24 is ten times of the volume of the content of the flow storage box 26, the liquid preparation box 24 and the flow storage box 26 are arranged at intervals along the width direction of the door panel 2, mosquito repellent fluid is filled in the liquid preparation box 24 and the flow storage box 26 and is mosquito repellent liquid, an infusion tube 25 is connected between the liquid preparation box 24 and the flow storage box 26, a one-way valve 251 is connected to the infusion tube 25 through a flange, and the one-way valve 251 only enables the mosquito repellent fluid in the liquid preparation box 24 to enter the flow storage box 26 through the infusion tube 25. The upper part of the liquid preparation box 24 is provided with a liquid filling port 241, and the liquid filling port 241 is connected with an end cover 242 in a threaded manner.

Referring to fig. 3, a jet flow pipe is communicated with the flow storage box 26, a liquid outlet is arranged at the bottom of the flow storage box 26, the jet flow pipe comprises a jet flow main pipe 3 in threaded connection with the liquid outlet, one end of the jet flow main pipe 3 is connected with the liquid outlet, and a jet flow branch pipe 31 is welded at the other end of the jet flow main pipe 3. The jet branch pipe 31 comprises an upper branch pipe 311 positioned above the door panel 2, a side branch pipe 312 positioned on one side of the door panel 2 and a lower branch pipe 313 positioned below the door panel 2, wherein the upper branch pipe 311, the side branch pipe 312 and the lower branch pipe 313 are sequentially welded and communicated to form a U shape with an opening facing to one side of the door panel 2 hinged with the door frame 1.

Referring to fig. 4 and 5, the door panel 2 is provided with a trapezoidal groove 27 on the panel surface of the groove cover 231, the opening area of the groove 27 is larger than the bottom surface area, the position of the groove 27 corresponds to the position of the jet branch pipe 31, and the overall shape of the groove 27 is the same as the shape of the jet branch pipe 31. The bottom surface of the recess 27 is provided with an orifice 271, and the orifice 271 opens to the outside of the door panel 2. Six spraying holes 271 are uniformly distributed in the grooves 27 above and below the door plate 2 at intervals respectively, ten spraying holes 271 are uniformly distributed in the groove 27 on one side of the door plate 2 at intervals, the spraying holes 271 are uniformly arranged, and the distance between every two adjacent spraying holes 271 is the same. The micro atomizing nozzle 32 is inserted into the spray hole 271, the spray branch pipe 31 is provided with a spray opening corresponding to the atomizing nozzle 32, the atomizing nozzle 32 is in threaded connection with the spray branch pipe 31, and the fluid in the spray branch pipe 31 is sprayed in a mist form after passing through the atomizing nozzle 32.

Referring to fig. 3, the inner cavity of the door panel 2 is provided with a power supply module 4, a pressurizing mechanism 5 and a control mechanism 6.

The power supply module 4 comprises a storage battery 41, a rectangular fixing plate 28 is adhered to the inner wall of the door panel 2, the storage battery 41 is fixed on the rectangular fixing plate 28 through bolts, the positive pole of the storage battery 41 is connected with the control mechanism 6 through a lead 42, and the negative pole of the storage battery 41 is connected with the pressurizing mechanism 5 through a lead 42.

The pressurizing mechanism 5 comprises a micro air booster pump 51 arranged on the flow storage box 26, the control mechanism 6 can control the storage battery 41 to supply power to the air booster pump 51, the air booster pump 51 comprises an air inlet pipe 511 and an air outlet pipe 512, one end of the air inlet pipe 511 is communicated with the atmosphere, and the other end of the air inlet pipe 511 is communicated with the main body of the air booster pump 51. One end of the exhaust pipe 512 is communicated with the main body of the air booster pump 51, and the other end of the exhaust pipe 512 is communicated with the top of the flow storage box 26. Air is pressurized by the air booster pump 51 to become high-pressure gas, the high-pressure gas enters the flow storage box 26 through the exhaust pipe 512, the mosquito repellent fluid in the flow storage box 26 enters the liquid discharge main pipe under the action of the high-pressure gas and further enters the liquid discharge branch pipe, and the mosquito repellent fluid is sprayed out from the spray opening.

The control mechanism 6 includes a distance sensor 61, a rectangular through hole 221 (see fig. 1) is formed in the movable side wall 22 of the door panel 2, the distance sensor 61 is fixedly disposed in the through hole 221, and the distance sensor 61 can detect the distance between the movable side wall 22 and the side frame 12. The distance sensor 61 is connected to a controller 62 through a wire 42. The controller 62 is fixed to the fixing plate 28 by screws. One end of the controller 62 is connected to the positive electrode of the battery 41 through a lead 42, and the other end of the controller 62 is connected to the air booster pump 51 through a lead 42.

The battery 41, the controller 62, and the air booster pump 51 can constitute a series circuit. The opening and closing of the air booster pump 51 are controlled by the opening and closing of the controller 62.

The implementation principle of the above embodiment is as follows:

the distance sensor 61 fixedly arranged in the side wall of the door panel 2 can detect the distance between the side wall of the door panel 2 and the side frame 12 of the doorframe 1, and when the door is in a closed state, the distance between the side wall of the door panel 2 and the side frame 12 is shorter; when the door is opened, the distance between the side wall of the door panel 2 and the side frame 12 is gradually increased, when the distance between the side wall of the door panel 2 and the side frame 12 exceeds a certain distance, the distance sensor 61 sends an electric signal to the controller 62, the controller 62 receives the electric signal and then controls the air booster pump 51 to be opened, the power supply module 4 supplies power to the air booster pump 51, and the air booster pump 51 is opened in a working state.

Air is pressurized by the air booster pump 51 to become high-pressure gas, the high-pressure gas enters the flow storage box 26, the mosquito repellent fluid in the flow storage box 26 enters the liquid discharge main pipe under the pushing of the high-pressure gas and further enters the liquid discharge branch pipe, and the mosquito repellent fluid is atomized by the micro atomizing nozzle 32 and then is sprayed out from the spray hole 271.

In the opening process of the door plate 2, the air booster pump 51 continuously leads high-pressure gas into the flow storage box 26, the air pressure in the flow storage box 26 is higher than the air pressure in the liquid preparation box 24, namely, liquid in the liquid preparation box 24 stops flowing into the flow storage box 26 through the check valve 251 in the mosquito repellent fluid spraying process, the mosquito repellent fluid in the flow storage box 26 is continuously sprayed outwards when the door plate 2 is opened, the door plate 2 is opened once, and the mosquito repellent fluid in the flow storage box 26 is sprayed out completely in the spraying hole 271 at most. When the door plate 2 is closed, the air pressure in the flow storage box 26 is reduced, and the mosquito repellent fluid in the liquid preparation box 24 enters the flow storage box 26 through the infusion tube 25.

After the mosquito repellent fluid in the fluid storage box 26 is exhausted, the groove cover plate 231 can be opened, the end cover 242 is unscrewed, and the mosquito repellent fluid is supplemented into the liquid preparation box 24.

Example two

Referring to fig. 6, a mosquito preventing door is different from the first embodiment in that the pressurizing mechanism 5 includes a liquid delivery pump 52 placed on the fluid storage box 26, the lift of the liquid delivery pump 52 is rice, and the liquid delivery pump 52 includes a pump inlet 522 and a pump outlet 521. The pump inlet 522 is communicated with a liquid outlet at the bottom of the flow storage box 26, the pump outlet 521 is communicated with the jet main pipe 3, and the infusion pipe 25 is not provided with the one-way valve 251.

Referring to fig. 7, the control mechanism 6 includes the reset tube 641 that sets firmly in the door plant 2 inner chamber, and the length direction of reset tube 641 is perpendicular to the thickness direction of door plant 2, and the axis of reset tube 641 is along the horizontal direction, and the welding of reset tube 641 towards the one end of door plant 2 activity lateral wall 22 has go-between 6411, and the medial surface size of go-between 6411 equals with the medial surface size of reset tube 641, and go-between 6411 and activity lateral wall 22 pass through bolt compression joint, and the other end of reset tube 641 is the free end.

The reset tube 641 is provided with two rectangular guide chutes 6412 on the inner side wall thereof, the two guide chutes 6412 are opposite in opening, the length of the guide chute 6412 is equal to the length of the reset tube 641, and the opening of the guide chute 6412 faces to the direction perpendicular to the length direction of the reset tube 641.

The reset tube 641 is slidably connected with a push rod 63 moving along the axial direction thereof, the movable sidewall 22 is provided with a sliding hole, one end of the push rod 63 can extend out of the door panel 2 through the sliding hole, and the end of the push rod 63 extending out of the door panel 2 is provided with a round angle 631. The outer surface of the push rod 63 is bonded with a reset ring 643, the outer side surface of the reset ring 643 is in contact with the inner side surface of the reset tube 641, the reset ring 643 slides along the inner side surface of the reset tube 641, the side surface of the reset ring 643 is integrally formed with a sliding block, the sliding block slides to be a rectangular block embedded in the guide sliding groove, and the sliding block can slide along the length direction of the guide sliding groove 6412.

The door panel 2 is provided with a pushing mechanism for driving one end of the push rod 63 to move towards the door frame 1. The pushing mechanism includes a fixing ring 642 fixedly connected to the inner side of the reset tube 641, the fixing ring 642 is located on a side of the reset ring 643 facing away from the movable sidewall 22, and a return spring 644 located between the reset ring 643 and the fixing ring 642 and in a compressed state is sleeved on the push rod 63.

When the door panel 2 is closed, the round corner 631 is located in the return pipe 641, and the return spring 644 is in a compressed state; when the door is opened, the return ring 643 is pushed by the return spring 644 to extend out of the movable side wall 22, the return ring 643 drives the push rod 63 to move, and the rounded corner 631 of the push rod 63 extends out of the door panel 2.

The push rod 63 is connected with a switch control assembly 65. The switch control assembly 65 includes a movable electrical board 651. The movable electric plate 651 is an L-shaped rod, the movable electric plate 651 comprises a long rod 6511 and a conductive short rod 6512, one end of the long rod 6511 is bonded with one end of the push rod 63 departing from the round corner 631 of the long rod 6511, the other end of the long rod 6511 is bonded with the short rod 6512, one part of the long rod 6511 is positioned in the reset tube 641, one part of the long rod 6511 is positioned outside the reset tube 641, and the short rod 6512 is positioned outside the reset tube 641. The long rod 6511 has the same length direction as the push rod 63, and the short rod 6512 has the length direction perpendicular to the push rod 63. The free end of the reset tube 641 is adhered with a conductive fixed electric plate 652, the fixed electric plate 652 is vertically arranged, the bottom end of the fixed electric plate 652 is flush with the free end of the short rod 6512, the other end of the fixed electric plate 652 is flush with the inner surface of the reset tube 641, and the fixed electric plate 652 can be in contact with the short rod 6512.

Referring to fig. 6 and 7, the free end of the short rod 6512 is connected to the positive electrode of the battery 41 through a lead 42, the bottom end of the fixed electrode 652 is connected to the liquid delivery pump 52 through a lead 42, and the negative electrode of the battery 41 is connected to the liquid delivery pump 52 through a lead 42. The movable electric plate 651, the fixed electric plate 652, the storage battery 41 and the liquid delivery pump 52 form a series circuit, and the on-off of the series circuit is controlled by the switch control assembly 65.

The repellent fluid comprises other irritating liquids which are not harmful to the human body, in this case vinegar.

The implementation principle of the above embodiment is as follows:

when the door is in a closed state, the round corner 631 of the push rod 63 is in the reset tube 641, the spring is in a compressed state, the short rod 6512 is spaced from the fixed electric plate 652, and the series circuit is in an open state; when the door is opened, the reset ring 643 is pushed by the reset spring 644 to move towards the side wall of the door panel 2, the reset ring 643 drives the push rod 63 to move, the round angle 631 of the push rod 63 extends out of the door panel 2, the push rod 63 drives the movable electric plate 651 to move, the short rod 6512 is in contact with the fixed electric plate 652, the series circuit is closed, the storage battery 41 is electrified to the liquid delivery pump 52, the liquid delivery pump 52 is opened, the liquid delivery pump 52 pumps the mosquito repellent fluid in the flow storage box 26, the mosquito repellent fluid enters the liquid discharge main pipe from the pump outlet 521 of the liquid delivery pump 52 at a certain outlet pressure and then enters the liquid discharge branch pipe, and the mosquito repellent fluid is atomized by the micro atomizing nozzle 32 and then is.

EXAMPLE III

Referring to fig. 8, the difference of an anti-mosquito door from the first embodiment is that the pressurizing mechanism 5 includes a pressure storage tank 53 fixed on the door panel 2, the flow storage tank 26 is communicated with the inner cavity of the pressure storage tank 53, a pressure pipe 54 for communicating the pressure storage tank 53 with the flow storage tank 26 is arranged between the pressure storage tank 53 and the flow storage tank 26, an electric control valve 55 for controlling the on-off of the pressure pipe 54 is communicated on the pressure pipe 54, and an electric control valve 66 is electrically connected with the control mechanism 6.

The control mechanism 6 comprises two control buttons 66 cemented on the inner surface and the outer surface of the door panel 2, the control buttons 66 are electrically connected with the controller 62, the controller 66 is electrically connected with the power supply module 4, the power supply module 4 is electrically connected with the electric control valve 55, the circuit of the controller 62 can be communicated by pressing the control buttons 66, and the controller 62 controls the electric control valve 55 to be opened.

The power supply module 4, the control mechanism 6, the pressurizing mechanism 5, the jet pipe and the flow storage box 26 are fixed on the indoor surface of the door panel 2 in the thickness direction by gluing.

The mosquito repellent fluid can also be air, and mosquitoes are prevented from entering the room through the door frame 1 by the high-speed flowing of the air.

Example four

The mosquito preventing door is different from the first embodiment in that, referring to fig. 9 and 10, the control mechanism 6 comprises a manual mechanism 7, the manual mechanism 7 comprises an actuating rod 71 hinged on the door handle 29, the actuating rod 71 comprises a connecting rod 711 perpendicular to the door panel 2 and a force applying rod 712 forming an included angle of 30 degrees with the hand-held part of the door panel 2, the opening of the connecting rod 711 and the force applying rod 712 faces the door panel 2, and the connecting part is hinged with the door handle 29.

Referring to fig. 10 and 11, a string 72 is fixed on the connecting rod 711, two strings 72 are provided in this embodiment, the string 72 is a steel wire rope, the other end of the string 72 is fixedly connected with a sliding rod 73, the sliding rod 73 is a U-shaped rod, two guide rods 731 arranged at intervals penetrate through the sliding rod 73, the guide rods 731 are fixed in the inner cavity of the door panel 2, and the two guide rods 731 are cylindrical rods with parallel axes. Two guide rings 721 are sleeved on the string 72, and a guide tube 722 positioned between the two guide rings 721 is sleeved on the string 72. One of the guide rings 721 is fixed to the door knob 29, and the other guide ring 721 is fixed to a thin plate, the thin plate is fixed to the door panel 2, a hole for accommodating the string 72 to pass through is formed in the thin plate, a gap is formed between the thin plate and the sliding rod 73, and the guide rings 721 are used for guiding the string 72 to move along a fixed track. A compression spring 74 is arranged between the thin plate and the sliding rod 73, the compression spring 74 is sleeved outside the string 72, and two ends of the compression spring 74 are respectively contacted with the thin plate and the sliding rod 73.

Referring to fig. 10 and 11, when the connecting rod 711 moves, one end of the string 72 is driven to move, the other end of the string 72 drives the sliding rod 73 to move along the axis of the guiding rod 731, and when the acting force of the connecting rod 711 on the string 72 is removed, the compression spring 74 pushes the sliding rod 73 to move in the direction away from the thin plate.

Referring to fig. 10 and 11, one end of the sliding rod 73 abuts against the flow storage box 26 fixed on the door panel 2, the flow storage box 26 is a conventional mosquito repelling spray can, a spray button 81 is arranged on the flow storage box 26, the sliding rod 73 abuts against the spray button 81, when the string 72 pulls the sliding rod 73 to move towards the thin plate direction, the sliding rod 73 presses the spray button 81, a spray opening 82 is arranged on the flow storage box 26, the spray main pipe 3 is fixed on the door panel 2 at the position of the spray opening 82, the other end of the spray main pipe 3 penetrates through the side wall of the door panel 2, and the atomized mosquito repelling liquid sprayed from the spray opening 82 can be sprayed out through the spray main pipe 3.

EXAMPLE five

The utility model provides an anti-mosquito door, with three differences of embodiment lie in, power module 4, control mechanism 6, loading system 5, jet-propelled pipe and storage box 26 all use the magic subsides to dismantle and connect in 2 surfaces of door plant, the magic subsides including female subsides and sub-subsides, with female subsides glue knot in door plant 2, with sub-subsides be fixed in power module 4, control mechanism 6, loading system 5, jet-propelled pipe and storage box 26 on.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a mosquito-proof door, includes door frame (1), articulated on door frame (1) have door plant (2), its characterized in that: a flow storage box (26) is fixedly arranged on the door panel (2), mosquito repellent fluid is arranged in the flow storage box (26), a jet pipe is communicated with the flow storage box (26), a jet port is formed in the jet pipe, the mosquito repellent fluid can be ejected out of the jet port, a pressurizing mechanism (5) is arranged on the flow storage box (26), and the pressurizing mechanism (5) drives the fluid in the flow storage box (26) to enter the jet pipe;

the door plate (2) is fixedly provided with a control mechanism (6), and the control mechanism (6) controls the operation of the pressurizing mechanism (5).

2. A mosquito proof door as claimed in claim 1 wherein: the control mechanism (6) comprises a power supply module (4) for supplying power;

the pressurizing mechanism (5) comprises an air outlet and an air booster pump (51) communicated with the inner cavity of the flow storage box (26), and the air booster pump (51) is electrically connected with the control mechanism (6);

or the pressurizing mechanism (5) comprises a pressure storage tank (53) fixed on the door plate (2), the flow storage box (26) is communicated with the inner cavity of the pressure storage tank (53), a pressure pipe (54) is communicated between the pressure storage tank (53) and the flow storage box (26), an electric control valve (55) for controlling the on-off of the pressure pipe (54) is communicated on the pressure pipe (54), and the electric control valve (55) is electrically connected with the control mechanism (6).

3. A mosquito proof door as claimed in claim 1 wherein: the control mechanism (6) comprises a power supply module (4) for supplying power;

the pressurizing mechanism (5) comprises a liquid delivery pump (52) communicated with the inner cavity of the flow storage box (26), the liquid delivery pump (52) is electrically connected with the control mechanism (6), the connection position of the liquid delivery pump (52) and the flow storage box (26) is located at the bottom end of the flow storage box (26), and the output end of the liquid delivery pump (52) is communicated with the jet flow pipe.

4. A mosquito proof door as claimed in claim 1 wherein: the control mechanism (6) comprises a power supply module (4) for supplying power;

the control mechanism (6) comprises a push rod (63) which is connected to the door panel (2) in a sliding mode, the sliding direction of the push rod (63) is perpendicular to the thickness direction of the door panel (2), one end of the push rod (63) can be in contact with the door frame (1) to be pressed tightly, and a round angle (631) is formed in one end, in contact with the door frame (1), of the push rod (63);

the push rod (63) is connected with a movable electric plate (651), and a fixed electric plate (652) is fixed on the door panel (2);

the door plate (2) is provided with a pushing mechanism which drives one end of the push rod (63) to move towards the door frame (1);

when the push rod (63) contacts with the door frame (1) and one end of the push rod extends out of the door plate (2), the push rod (63) drives the movable electric plate (651) to be in contact with the fixed electric plate (652), and when the movable electric plate (651) is in contact with the fixed electric plate (652), the control mechanism (6) is opened.

5. A mosquito proof door as claimed in claim 1 wherein: the control mechanism (6) comprises a power supply module (4) for supplying power;

the control mechanism (6) comprises a controller (62), the controller (62) is electrically connected with a distance sensor (61) fixed on the door panel (2), the distance sensor (61) is used for detecting the distance between the side wall of the door panel (2) and the door frame (1), and the controller (62) is electrically connected with the pressurizing mechanism (5).

6. A mosquito proof door as claimed in claim 1 wherein: the door plate (2) is provided with a slotted hole, and the control mechanism (6), the pressurizing mechanism (5), the jet flow pipe and the flow storage box (26) are arranged in the slotted hole;

or the control mechanism (6), the pressurizing mechanism (5), the jet pipe and the flow storage box (26) are all fixed on the surface of the door panel (2).

7. A mosquito proof door as claimed in claim 1 wherein: the liquid storage box (26) is communicated with a liquid preparation box (24), an infusion tube (25) is arranged between the liquid preparation box (24) and the liquid storage box (26), a one-way valve (251) is arranged on the infusion tube (25), and the one-way valve (251) only enables fluid in the liquid preparation box (24) to enter the liquid storage box (26).

8. A mosquito proof door as claimed in claim 1 wherein: control mechanism (6) are including articulating actuating rod (71) on door handle (29), be connected with a plurality of strings (72) on actuating rod (71), equal fixedly connected with and door plant (2) sliding connection's slide bar (73) on string (72), slide bar (73) are U type pole, and the one end of slide bar (73) is contradicted in storing up class box (26), be provided with on storing up class box (26) with spray button (81) of slide bar (73) contact, be provided with nozzle (82) on storing up class box (26), nozzle one end communicates in nozzle (82), and the other end stretches out door plant (2) lateral wall.

9. A mosquito proof door as claimed in claim 1 wherein: control mechanism (6) are including being fixed in two control button (66) on door plant (2) inside and outside surface, control button (66) are gone up the electricity and are connected with a controller (62), controller (62) are gone up the electricity and are connected with power module (4), power module (4) are connected with pressurization mechanism (5) electricity, press control button (66) can start pressurization mechanism (5).

10. A mosquito proof door as claimed in claim 1 wherein: the jet flow pipe is connected with a micro atomizing nozzle (32) positioned in the jet flow port;

the jet flow pipe comprises a U-shaped jet branch pipe (31) with an opening facing to the hinged side of the door plate (2) and the door frame (1);

the mosquito repellent fluid comprises air or mosquito repellent liquid;

the flow storage box (26) is communicated with a liquid preparation box (24) for injecting fluid into the flow storage box (26).

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