CN114777231A - Property security sentry box and use method thereof - Google Patents

Abstract

The invention relates to a security guard station sentry box for property and a using method thereof, comprising a sentry box which is composed of a plurality of baffle plates and is provided with a sentry box door, and the sentry box further comprises: the weighting part is arranged at the bottom end of the sentry box; the airflow channel is provided with a plurality of airflow channels, is formed inside the baffle plate, and one end of each airflow channel is communicated with the interior of the sentry box; the weighting part is provided with an air inlet cavity communicated with the bottom end of the airflow channel and an air source capable of conveying air into the air inlet cavity, and a heating part and a refrigerating part are formed in the weighting part; when heating, the heating part is started, the refrigerating part is closed, the air source sends air into the air inlet cavity, the air is heated by the heating part and then sent into the air flow channel, and hot air is supplied into the sentry box through the air flow channel; when refrigerating, the refrigerating part is started, the heating part is closed, the air source sends air into the air inlet cavity, the air is sent into the air flow channel after being refrigerated by the refrigerating part, and cool air or cold air is supplied into the sentry box through the air flow channel; the invention has the beneficial effects that: the center of gravity is more stable, and the safety is better.

Description

Property security sentry box and use method thereof

Technical Field

The invention relates to the technical field of security, in particular to a property security guard station pavilion and a using method thereof.

Background

The sentry box is a shelter for security personnel to watch, at present, the sentry box has a single function, and only a relatively closed space is defined by a plurality of baffles for the security personnel to move, however, with the progress of the society, the simple sentry box can not meet the requirements of various security companies or property at present.

Generally, in order to improve the comfort level of a user, an air conditioner is installed in a sentry box (the sentry box cannot be installed with the air conditioner under the normal condition) to adjust the temperature inside the sentry box so as to improve a certain comfort level, however, because the current sentry box is made of a lighter material (mostly made of plastics) and most of the air conditioners are installed at the top of the sentry box, the center of gravity is unstable, the sentry box is easy to turn over in windy weather, and the bottom of the sentry box is generally weighted by heavy objects such as stone and the like when the sentry box is used, so that the stability is improved, and the sentry box is more complicated in use; .

In view of the above, it is desirable to provide a new sentry box to solve the above technical problems.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a property security station sentry box and a using method thereof, and aims to solve the problems in the background technology.

The technical scheme of the invention is realized as follows: the utility model provides a property security personnel station sentry box, includes the sentry box, the sentry box can comprise a plurality of baffle, and has at least can open or the pavilion door of closing which characterized in that: further comprising:

the weighting part is arranged at the bottom end of the sentry box;

the airflow channel is provided with a plurality of airflow channels, is formed inside the baffle plate, longitudinally extends, and one end of each airflow channel is communicated with the interior of the sentry box;

the weighting part is at least provided with an air inlet cavity communicated with the bottom end of the airflow channel and an air source capable of conveying air into the air inlet cavity, and a heating part and a refrigerating part are formed in the weighting part;

when heating, the heating part is started, the refrigerating part is closed, the air source (the air source can be the prior art, such as a fan, an air pump and the like) sends air into the air inlet cavity, the air is sent into the air flow channel after being heated by the heating part, and hot air is supplied into the sentry box through the air flow channel;

when refrigerating, the refrigeration portion starts, heating portion closes, and the air supply sends gas into the air inlet chamber to send into the air current passageway behind the refrigeration of refrigeration portion, supply cool wind or cold wind to the sentry box in by the air current passageway.

By adopting the technical scheme:

the invention improves the traditional sentry box in which the air conditioner is arranged at the top of the sentry box and overcomes the defect of unstable gravity center of the sentry box, thereby realizing multiple purposes, namely: the device for providing hot air or cold air (or cool air) into the sentry box is arranged at the bottom of the sentry box, so that the occupied space in the sentry box is reduced while the condition that air flow with corresponding temperature can be provided into the sentry box is ensured, and meanwhile, the device is arranged at the bottom of the sentry box, so that the weight of the bottom of the sentry box is improved, the gravity center of the sentry box is improved, and the phenomenon of overturning is avoided, thereby achieving the advantage of achieving multiple purposes.

Preferably: the weight portion includes at least:

an inner body composed of a base, and a heater and a refrigerator which are installed on the circumferential side of the base and are arranged at intervals;

an outer body coaxially disposed with the inner body and capable of being controlled by a driver to rotate axially relative to the inner body;

wherein the outer body comprises:

a first half having a first cavity;

the second half body is provided with a second cavity, the diameter of the second cavity is smaller than that of the first cavity, and the diameter of the second cavity is matched with that of the inner body;

the first half body and the second half body are connected with each other through a heat insulation piece, air inlets are formed in the heat insulation piece, an air source can simultaneously supply air to the air inlets, and the air inlet cavity is formed between the first cavity and the inner body;

when the driver controls the outer body to rotate and causes the first cavity to move to the position of the heater, the heater can be started, and the air entering the air inlet cavity from the air inlet is heated and sent into the sentry box through the air flow channel;

when the driver controls the outer body to rotate and causes the first cavity to move to the refrigerator position, the refrigerator can be started, and the air entering the air inlet cavity from the air inlet is refrigerated and sent into the sentry box through the air flow channel.

By adopting the technical scheme:

the invention further provides a concrete form of the weighting part, which is composed of an inner body and an outer body, and in the invention, the outer body can be driven by a driver (the driver of the invention can be a motor, and can be controlled by the existing program or remote control, generally, the way of controlling the driver can refer to the control principle of various remote controls such as the existing remote control electric fan, etc.), and the general way of controlling the outer body to rotate can adopt the coordination of a dentition and a toothed ring, namely: the toothed ring is arranged at the bottom of the outer body and is coaxial with the inner body, and the outer body is driven to rotate clockwise and anticlockwise by a gear matched with the toothed ring;

in the invention, the heater and the refrigerator can be the prior art, a common heater can refer to an electric heating part, and the refrigerator can adopt an air conditioner or a refrigerating part of the refrigerator, or can also adopt electric refrigeration (semiconductor refrigeration).

The mode that the outer body and the inner body can rotate relatively is that the heating or refrigeration can be selected under the condition that the outer body rotates to different positions, and meanwhile, the heating and refrigeration are at relatively far positions, so that the influence of a heater and a refrigerator can be avoided;

furthermore, the rotatable outer body of the present application can also be used commercially as a kind of tool, namely: arranging advertisements on the outer wall of the outer body; it also can regard as a illumination to use, sets up corresponding lamps and lanterns on the ectosome (lamps and lanterns are more mature prior art, for example the bulb, consequently do not give unnecessary details here), and the security personnel who is located the sentry box under the prerequisite of not opening the door, rotatory ectosome can make lamps and lanterns shine different position, and the general flashlight of using in the sentry box can form the reflection of light because of the material (generally being transparent material) of sentry box, influences the effect that the flashlight used.

Preferably: still including installing the annular support portion that just is located the ectosome top on the sentry box, form between the top end face of annular support portion and ectosome and hold the chamber, hold the conveyer pipe that the intracavity is equipped with one end and air inlet chamber intercommunication, the annular support portion is passed to the other end of conveyer pipe, still be equipped with humidification device on the annular support portion, humidification device includes:

the body is arranged on the annular supporting part, and at least one feeding cavity is formed in the body;

the connecting nozzle is arranged at the bottom of the body and can be detachably connected with the other end of the conveying pipe;

the charging nozzle is arranged at the top of the body and is used for installing a container filled with the additive;

the output nozzle is arranged on the body, and the other end of the output nozzle is connected with the airflow channel;

the piston is arranged in the feeding cavity and corresponds to the feeding nozzle;

the charging device comprises an electromagnet assembly, a piston and a charging nozzle, wherein when the electromagnet assembly is electrified, the charging nozzle is opened by the piston, and when the electromagnet assembly is powered off, the charging nozzle is closed by the piston;

wherein, connecting nozzle, charging door, output nozzle exist one end and feed chamber intercommunication at least, and connecting nozzle and charging door when not using, can be through the sealed lid shutoff of dismantling the connection.

Preferably, the following components are used: the electromagnetic assembly includes:

a housing mounted on the body;

a metal part disposed in the housing;

the electromagnetic coil is arranged on the shell, and can enable the metal part to generate magnetism when the electromagnetic coil is electrified and enable the metal part to lose magnetism when the electromagnetic coil is powered off;

the piston rod is arranged in the shell, and one end of the piston rod is connected with the piston;

the spring is arranged in the shell, and enables the piston rod to move outwards when the metal part loses magnetism;

when the electromagnetic coil is electrified, the metal part generates magnetism and attracts the piston rod to be close to the metal part, so that the piston opens the connecting end of the feeding nozzle and the feeding cavity;

when the electromagnetic coil is powered off, the metal part loses magnetism, and the spring jacks up the piston rod to move towards one side far away from the metal part, so that the piston seals the connecting end of the charging nozzle and the charging cavity.

By adopting the technical scheme:

the invention also provides a humidifying device, which can adjust the humidity progress in the sentry box, such as: in winter, hot air is fed into the sentry box, the relative humidity in the sentry box is low, and therefore the sentry box is dry, and at the moment, the humidifying device can be used for humidifying, namely: the humidifying ball is characterized in that a wetted humidifying ball (made of a material which can be felt, sponge and the like, has certain air permeability and can absorb certain moisture) is added into the feeding cavity through the feeding nozzle, when air flows in the feeding cavity, the wetted humidifying ball can blow to the humidifying ball and take away the corresponding moisture, and hot air with certain humidity is formed, so that the hot air fed into the sentry box has certain humidity (containing certain water molecules), the humidity in the sentry box can be adjusted, and certain comfort is improved.

Preferably, the following components are used: still include at least one clean mouth, clean the mouth and install on the output mouth, wherein, the output mouth includes:

the nozzle body is provided with a material beating cavity which can be connected with the material feeding cavity and the air flow channel;

the driving part is coaxially arranged in the material beating cavity through the connecting piece, and at least a gap is formed between the driving part and the material beating cavity for a substance to pass through;

the ramming body can be controlled to move and rotate by the driving part;

when the adsorbing body is added into the cleaning nozzle, the adsorbing body enters the material beating cavity, and the driving part can drive the adsorbing body to be beaten into the airflow channel in a rotating mode;

when the admixture enters the feeding cavity, the admixture can be pushed by the gas introduced into the connecting nozzle and enters the airflow channel from the beating cavity, and the driving part can control the beating body to rotate forwards or reversely in the beating cavity, so that the admixture is guided to enter the airflow channel in a relative rotation mode.

Preferably, the following components are used: the driving part includes:

the shell is arranged in the knockout cavity through the connecting piece and at least provided with an inner cavity;

the driving body is connected with the shell and provided with a driving cavity communicated with the inner cavity, one end, far away from the shell, of the driving cavity is arranged in an open mode, and a nut is arranged at the end, far away from the shell, of the driving cavity;

the screw rod is arranged in the driving cavity, one end of the screw rod penetrates out of the nut to be connected with the knockout body, and the screw rod is matched with the nut;

the electromagnet is arranged in the inner cavity;

drive spring, one end fixed connection in on the inner chamber, the other end is equipped with rotates the base member of being connected with the screw rod, and when the electro-magnet outage, orders about the base member and removes to the one end of keeping away from the casing, attracts the base member to remove to one side near the casing when the electro-magnet circular telegram.

Preferably: the knockout body includes:

the cylinder is connected with the screw rod, and one end of the cylinder, which is far away from the screw rod, is concavely arranged to form a positioning area;

the airflow grooves are formed in the circumferential side wall of the column body, two ends of each airflow groove penetrate through two ends of the column body, and each airflow groove extends in a bending mode;

the heights of the grooves on the two sides of the airflow grooves are different, and an airflow curved surface capable of guiding airflow is formed between the adjacent airflow grooves;

when one end of the main body is superposed with the output end of the material beating cavity, the groove wall on one side of the airflow groove is contacted with the cavity opening of the material beating cavity, and the airflow groove, the airflow curved surface and the cavity opening of the output end of the material beating cavity form a drainage notch.

By adopting the technical scheme:

because the airflow channel is arranged inside the sentry box, the weight of the sentry box is reduced to a certain extent (the weight of the sentry box is matched with the weight body at the bottom to further improve the stability);

in addition, the airflow channel of the present invention is formed with the inside of the sentry box, reducing the distribution of the pipes to some extent, and at the same time, cleaning the airflow channel is also necessary, therefore, the present invention provides a cleaning device, namely: in the invention, the cleaning balls (made of cloth or other materials with better cleaning effect) can be fed into the material beating cavity, the driving part is used for controlling the cleaning balls to enter the air flow channel, and the cleaning balls can be driven to move in the air flow channel by matching with the pneumatic action and the closing action of the air source, so that the air flow channel is cleaned (see the embodiment in detail).

In addition, the invention also provides a method for using the sentry box, which uses the sentry box and is characterized in that: the method comprises a refrigerating method and a heating method in the sentry box, a humidifying method in the sentry box and a cleaning method of an air flow channel in the sentry box; the refrigeration method and the heating method comprise the following steps:

s1: when refrigeration is needed, the driver controls the outer body to rotate, so that the position of the air inlet cavity corresponds to the refrigerator, the heater is closed, the refrigerator and the air source are started, the air source pumps air into the air inlet cavity from the air inlets on the two sides of the air inlet cavity in a balanced manner, the air enters from the bottom end of the air flow channel after being refrigerated by the refrigerator and is discharged into the sentry box through the top of the air flow channel, and the refrigeration is finished;

s2: when heating is needed, the driver controls the outer body to rotate, so that the position formed by the air inlet cavity corresponds to the heater, the refrigerator is closed, the heater and the air source are started, the air source pumps air into the air inlet cavity from the air inlets on the two sides of the air inlet cavity in a balanced manner, the air enters from the bottom end of the air flow channel after being heated by the heater and is discharged into the sentry box through the top of the air flow channel, and heating is completed.

Preferably: the humidifying method comprises the following steps:

s3: the wetted humidifying body is arranged in a container and is arranged on a charging nozzle, and the container is communicated with the input end of the charging nozzle and is connected with a conveying pipe and a connecting nozzle;

s4: when humidification is needed, the electromagnetic assembly is electrified to generate magnetism, and the piston is controlled to open the output end of the feeding nozzle so that the humidification body enters the feeding cavity;

s5: the heated gas sub-delivery pipe and the connecting nozzle enter the charging cavity, and take away water molecules in the humidifying body in the flowing process of the output nozzle, and mix with hot gas after entering the airflow channel, and then enter the sentry box from the output end of the airflow channel.

Further: the cleaning method comprises the following steps:

s6: when cleaning, opening the cleaning nozzle, and adding the cleaning ball self-cleaning nozzle into the material beating cavity;

s7: the electromagnet is kept in a power-on state, the screw is attracted by the electromagnet, the column body opens the communication part between the cleaning nozzle and the material beating cavity, and the cleaning ball is supported in the positioning area after entering the material beating cavity;

s8: when the electromagnet is powered off, the screw rod moves towards one side far away from the electromagnet due to the driving spring, rotates due to the nut when moving, pushes the cleaning balls at the positioning area to move towards the airflow channel and rotate at the same time, and sends the cleaning balls in the rotating state into the airflow channel;

s9: starting an air source, wherein the air flow entering an air inlet cavity and/or a feeding cavity can blow a cleaning ball to move upwards, the cleaning ball is used for cleaning and/or adsorbing the upper layer position in an air flow channel, the air source is disconnected after the cleaning ball moves upwards for a certain distance, the cleaning ball falls down due to losing the thrust of air, the lower layer position of the air flow channel is cleaned, and the cleaning ball falls into an air inlet cavity after the cleaning is finished;

s10: repeating the steps S7-S9 for at least 5 times, disconnecting the air source, electrifying the electromagnet again, attracting the screw by the electromagnet, opening the communication part between the cleaning nozzle and the material beating cavity by the cylinder, and supporting the cleaning ball in the positioning area after entering the material beating cavity;

s11: when the electromagnet is powered off, the screw rod moves towards one side far away from the electromagnet due to the driving spring, rotates due to the nut when moving, pushes the cleaning balls at the positioning area to move towards the airflow channel and rotate at the same time, and sends the cleaning balls in the rotating state into the airflow channel;

s12: after the cleaning balls in the rotating state enter the airflow channel, the cleaning balls move towards the direction of the air inlet cavity to finish the ending work of cleaning the airflow channel;

s13: and after repeating the steps S11-S12 for at least 5 times, taking out the cleaning ball from the air inlet cavity.

The invention not only provides a sentry box, but also provides a use method of the sentry box, wherein the use method comprises a heating and refrigerating method, a humidifying method and a cleaning method, and the three methods are described in the embodiment in detail and are not repeated herein.

Drawings

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

FIG. 1 is a schematic structural diagram of embodiment 1 of the present invention;

FIG. 2 is a partial cross-sectional view of FIG. 1;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

FIG. 4 is a sectional view taken along line B-B of FIG. 2;

FIG. 5 is a schematic structural view of an outer body in embodiment 1 of the present invention;

FIG. 6 is a schematic illustration of the mating of one form of the inner body and the outer body;

FIG. 7 is a schematic structural diagram of embodiment 2 of the present invention;

FIG. 8 is an enlarged view of the portion C of FIG. 7;

FIG. 9 is a schematic structural diagram of embodiment 3 of the present invention;

FIG. 10 is an enlarged view of section D of FIG. 9;

FIG. 11 is a schematic structural diagram of a driving part in embodiment 3 of the present invention;

FIG. 12 is a schematic cross-sectional view of the cylinder engaged with the output end of the output nozzle in accordance with embodiment 3 of the present invention;

FIG. 13 is an enlarged view of section E of FIG. 12;

FIG. 14 is a schematic diagram of embodiment 3 of the present invention;

fig. 15 is a schematic view of another two states of the output nozzle in embodiment 3 of the present invention.

Detailed Description

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

Example 1

As shown in fig. 1-6, the present invention discloses a property security station sentry box, including a sentry box 10, where the sentry box 10 can be composed of several baffles 100 (partition boards, which can be made of thermal insulation material), and at least has a pavilion door capable of being opened or closed, in the specific embodiment of the present invention: further comprising:

a weight part 20 mounted on the bottom end of the sentry box 10;

a plurality of airflow channels 21 formed inside the baffle 100 (the weight of the sentry box can be reduced when the airflow channels are formed inside the baffle), extending longitudinally, and having one end communicated with the inside of the sentry box 10;

the weight portion 20 at least has an air inlet cavity 200 communicated with the bottom end of the air flow channel 21 and an air source (not shown in the figure, the air source is the prior art and can be a fan, an air pump, the same applies below) capable of delivering air into the air inlet cavity 200, and a heating portion 20a and a cooling portion 20b are formed in the weight portion 20;

when heating, the heating part 20a is started, the refrigerating part 20b is closed, the air source sends air into the air inlet cavity 200, the air is sent into the air flow channel 21 after being heated (heat exchange can be carried out) by the heating part 20a, hot air is supplied into the sentry box 10 through the air flow channel 21, and the top of the air flow channel 21 is communicated with the sentry box 10;

when refrigerating, the refrigerating part 20b is started, the heating part 20a is closed, the air source sends air into the air inlet cavity 200, the air is sent into the air flow channel 200 after being refrigerated by the refrigerating part 20b, and cool air or cold air is supplied into the sentry box 10 through the air flow channel 21.

In a specific embodiment of the invention: the weight portion 20 includes at least:

an inner body including a base 201a, and a heater (i.e., a heating unit) and a refrigerator (i.e., a refrigerating unit) installed at a circumferential side of the base 201a at intervals, and generally, a chamber for storing the heater and the refrigerator is provided in the base 201a, and the heater and the refrigerator are placed in each chamber;

an outer body 202 coaxially disposed with the inner body and capable of being controlled by a driver to rotate axially relative to the inner body;

wherein the outer body 202 comprises:

a first half 2021 having a first cavity 2021 a;

a second half 2022 having a second cavity 2022a, the diameter of the second cavity 2022a is smaller than that of the first cavity 2021a, and the diameter of the second cavity 2022a is adapted to the diameter of the inner body;

the first half body 2021 and the second half body 2022 are connected to each other at their respective ends by a thermal insulation member 2023, and an air inlet is formed on the thermal insulation member 2023, and an air source can simultaneously supply air to each air inlet, and the air inlet chamber 200 is formed between the first chamber 2021a and the inner body;

when the driver controls the outer body 202 to rotate and causes the first cavity 2021 to move to the heater position, the heater can be started, and the air entering the air inlet cavity 200 from the air inlet is heated and sent into the sentry box through the air flow channel 21;

when the driver controls the outer body 202 to rotate and causes the first chamber 2021 to move to the refrigerator position, the refrigerator can be activated and refrigerates the air entering the air intake chamber 200 from the air inlet and sent into the sentry box through the air flow channel 21.

In an embodiment of the present invention, the driver may be a motor, a ring gear 201b mounted on the outer body, and a gear 201c driven by the motor.

In an embodiment of the present invention, the base 201a may be made of a heat insulating material 2010a (located between the heater and the refrigerator, refer to fig. 4) and a heat conducting material 2011a (located on a side close to the air inlet cavity, refer to fig. 4), so that the heat exchange of the air inlet cavity can be performed while avoiding the mutual influence between the heating portion and the refrigerating portion.

In the specific embodiment of the present invention, the outer body 202 of the present embodiment can be matched with the inner body or the sentry box 10 by any existing method, most commonly, the outer body is matched with the bearing 1, and since the matching with the bearing 1 is a relatively mature existing technology, it is not described herein any further, generally, the bearing is installed on the inner body and the sentry box 10, the inner ring of the outer body 202 is matched with the bearing 1, it only needs to achieve the normal rotation of the outer body 202, and in addition, the outer body 202 and the inner body (i.e., the base 201a) of the present invention can also be matched with each other by the rotating shaft and the rotating disk, that is: as shown in fig. 6, the shaft 30 is mounted on the base 31, the turntable 32 (which can rotate relative to the shaft and does not rotate) is fitted on the shaft 30, the outer body 202 is mounted on the turntable 32, and the base 201a is mounted on the shaft 30.

In an embodiment of the present invention, in order to further improve the sealing performance between the outer body 202 and the inner body, a sealing ring (provided without affecting the normal rotation of the outer body) may be disposed on a side of the outer body close to the inner body (i.e., an inner ring of the outer body).

In particular embodiments of the present invention, the heater and refrigerator may be placed within a chamber formed on the inner body.

In addition, the present embodiment also provides a method for using a kiosk, which uses the kiosk, preferably a cooling method and a heating method in the kiosk, wherein the cooling method and the heating method include:

s1: when refrigeration is needed, the driver controls the outer body to rotate, so that the position formed by the air inlet cavity corresponds to the refrigerator, the heater is closed, the refrigerator and the air source are started, the air source pumps air into the air inlet cavity from the air inlets on the two sides of the air inlet cavity in a balanced manner, the air enters from the bottom end of the air flow channel after being refrigerated by the refrigerator and is discharged into the sentry box through the top of the air flow channel, and the refrigeration is completed;

s2: when heating is needed, the driver controls the outer body to rotate, so that the position of the air inlet cavity corresponds to the heater, the refrigerator is closed, the heater and the air source are started, the air source pumps air into the air inlet cavity from the air inlets on the two sides of the air inlet cavity in a balanced manner, the air enters from the bottom end of the air flow channel after being heated by the heater and is discharged into the sentry box through the top of the air flow channel, and heating is completed.

Referring to fig. 1-6, in this embodiment, heating part and refrigeration part have been set up at the top of sentry box, ensure to provide the gas of corresponding temperature in the sentry box when improving the sentry box stability to, having saved the air conditioner in the installation sentry box, having reduced occupation space, and the air feed principle of this embodiment is:

when hot air needs to be supplied, the driver drives the outer body to rotate, the first cavity is driven to rotate to a position close to the heater, air is supplied to the air inlet cavity by using the air source, the air entering the air inlet cavity is heated by the heater, enters from the bottom end of the air flow channel and is sent into the sentry box through the top end (the end connected with the interior of the sentry box) of the air flow channel, and therefore hot air is supplied;

when cold air or cool air needs to be supplied, the driver drives the outer body to rotate, the first gun is driven to rotate to a position close to the refrigerator, air is supplied to the air inlet cavity by the air source, the air entering the air inlet cavity is refrigerated by the refrigerator and then enters from the bottom end of the air flow channel, and the air is sent into the sentry box through the top end of the air flow channel, so that cold air is supplied.

In this embodiment, the switching between hot air and cold air can be achieved by using the rotation of the outer body, and furthermore, in this embodiment, the air inlet is disposed on the thermal insulating member at the joint of the first body and the second body, so that the air entering the air inlet chamber can be gathered from two sides to the middle, and sufficient heat exchange can be performed with the heater or the refrigerator, and the air at each position in the air inlet chamber can be made to flow sufficiently, and the heat energy at each position in the air inlet chamber can be used.

Example 2 is different from example 1 in that

As shown in fig. 7-8, in a specific embodiment of the invention: still including installing on sentry box 10 and being located the annular support portion 40 of external body top 202, form between the terminal surface of the top of annular support portion 40 and external body 202 and hold chamber 41, it is equipped with the conveyer pipe 42 (preferred hose) of one end and air inlet chamber 200 intercommunication in the chamber 41 to hold, the annular support portion 40 is passed to the other end of conveyer pipe 42, still be equipped with humidification device on the annular support portion 40, humidification device includes:

a body 50 mounted on the annular support portion 40 and having at least one feeding cavity 50a formed therein;

a connection nozzle 51 installed at the bottom of the body 50 and to which the other end of the conveying pipe 42 is detachably connected;

a feed nozzle 52 which is arranged at the top of the body 50 and is used for installing a container filled with the additive;

an output nozzle 53 installed on the body 50 and having the other end connected to the air flow passage 21;

a piston 54 arranged in the feeding cavity 50a and corresponding to the feeding nozzle 52;

an electromagnet assembly 55, when the electromagnet assembly 55 is powered on, the piston 54 opens the feed nozzle 52, and when the electromagnet assembly 55 is powered off, the piston 54 closes the feed nozzle 52;

wherein, there is at least one end of the connecting nozzle 51, the charging nozzle 52, and the output nozzle 53 to communicate with the charging cavity 50a, and the connecting nozzle 51 and the charging nozzle 52 can be blocked by a detachably connected sealing cover 56 (which can be screwed) when not in use.

In a specific embodiment of the invention: the electromagnetic assembly 55 includes:

a housing 550 mounted on the body 50;

a metal part 551 disposed in the housing 550;

an electromagnetic coil 552, which is provided on the housing 550 and can make the metal part 551 magnetic when power is supplied and make the metal part 551 lose magnetism when power is off;

a piston rod 553 disposed in the housing 550 and having one end connected to the piston 54;

a spring 554 disposed within the housing 550 and configured to cause the piston rod 553 to move outwardly when the metal portion 551 loses magnetism;

when the solenoid 552 is energized, the metal part 551 is magnetized and attracts the piston rod 553 close to the metal part 551, causing the piston 54 to open the connection end of the charging nozzle 52 with the charging chamber 50 a;

when solenoid 552 is de-energized, metal portion 551 is de-energized and spring 554 pushes piston rod 553 up, away from the side of metal portion 551, causing piston 54 to close the connection end of nozzle 52 with dosing chamber 50 a.

In addition, this embodiment further provides a humidification method, including:

s3: the wetted humidifying body is arranged in a container and is arranged on a charging nozzle, and the container is communicated with the input end of the charging nozzle and is connected with a conveying pipe and a connecting nozzle;

s4: when humidification is needed, the electromagnetic assembly is electrified to generate magnetism, and the piston is controlled to open the output end of the charging nozzle so that the humidification body enters the charging cavity;

s5: the heated gas sub-delivery pipe and the connecting nozzle enter the charging cavity, water molecules in the humidifying body are taken away in the flowing process of the output nozzle, and are mixed with hot gas after entering the airflow channel, and then enter the sentry box from the output end of the airflow channel.

In the embodiment of the invention, the additive can be soaked sponge, the container can be an existing container (such as a water bottle and the like, and a mineral water bottle can be adopted), and the container can be detachably connected with the charging nozzle (such as any existing detachable connection mode such as threaded connection and the like).

In the specific embodiment of the present invention, in some scenarios, a sponge body soaked with a mosquito repellent liquid (for example, floral water) may be further used, and in summer, the mosquito repellent liquid is fed to achieve an insect repelling effect, which is the same as the humidification method of the present embodiment, and therefore, the humidification principle of the present embodiment is as follows, which is not described in detail:

referring to fig. 7-8, firstly, a container is filled with a sponge body (water is absorbed in the sponge body) and is installed on a charging nozzle, when humidification is needed, an electromagnetic coil is powered on, a metal part (made of iron materials or other metal materials) generates magnetism and attracts a piston rod to extrude a spring, the piston is opened, the electromagnetic coil is powered off after an additive in the container enters a charging cavity, the metal part loses magnetism, the piston rod is jacked up by the spring and causes the piston to close the charging nozzle again, at the moment, part of gas in an air inlet cavity is led into an air flow channel, the other part of gas is fed into the charging cavity from a connecting nozzle through a conveying pipe and is blown to the additive, water in the additive is taken away, and enters a sentry box along with the air flow channel, and humidification is completed;

of note are:

in this embodiment, the connection mouth can also serve as an inlet for cleaning, namely: when an air inlet cavity or a feeding cavity (even an airflow channel) needs to be cleaned, water can be introduced into the connecting nozzle, a cleaning agent can be added into the feeding nozzle, and if necessary, a door capable of being opened and closed is arranged on the outer body and used for opening the air inlet cavity to perform operations such as drainage or maintenance.

Example 3 is different from example 2 in that

As shown in fig. 9-14, in a specific embodiment of the invention: further comprising at least one cleaning nozzle 60, said cleaning nozzle 60 being mounted on the output nozzle 53, wherein said output nozzle 53 comprises:

a nozzle body 61 having a knockout chamber 61a capable of connecting the charging chamber 50a and the air flow passage 21;

a driving part 62 coaxially mounted in the material beating cavity 61a through a connecting piece 63, wherein at least a gap is formed between the driving part 62 and the material beating cavity 61a for the substances (gas and liquid) to pass through;

a hammer body 64 capable of being controlled to move and rotate by the driving portion 62;

when the adsorbing body is added into the cleaning nozzle 60, the adsorbing body enters the material feeding cavity 61a, and the driving part 62 can drive the adsorbing body to be rotationally driven into the air flow channel 21;

when the admixture (the sponge, the admixture refers to substances absorbed in the sponge) enters the feeding cavity, the admixture can be pushed by the gas introduced into the connecting nozzle 51 and enters the airflow channel 21 from the beating cavity 61a, and the driving part 62 can control the beating body 64 to rotate forward or reversely in the beating cavity 61a, so that the admixture (the admixture is formed in the flowing gas of the feeding cavity 50a after being blown by the gas entering from the connecting nozzle, and therefore, the rotation refers to guiding the gas containing the admixture to rotate) is guided to enter the airflow channel 21 in a relative rotation mode.

In a specific embodiment of the invention: the drive portion 62 includes:

a housing 620 installed in the material-mixing chamber 61a through the connecting member 63 and having at least an inner cavity 620 a;

a driving body 621 connected to the housing 620, having a driving cavity 621a communicating with the inner cavity 620a, and an end of the driving cavity 621a far from the housing 620 is opened, and a nut 621b is provided at the end of the driving cavity 621 a;

the screw 622 is arranged in the driving cavity 621a, one end of the screw 622 penetrates out of the nut 621b and is connected with the ramming body 61a, and the screw 622 is matched with the nut 621 b;

an electromagnet 623 (which can be the prior art, or the electromagnetic coil and the metal part of embodiment 2) is arranged in the inner cavity 620 a;

one end of the driving spring 624 is fixedly connected to the inner cavity 620a, and the other end is provided with a base 624a rotatably connected to the screw 622, and when the electromagnet 623 is de-energized, the driving spring drives the base 624a to move towards the end far away from the housing 620, and when the electromagnet 623 is energized, the driving spring attracts the base 624a to move towards the side close to the housing 620.

In a specific embodiment of the invention: the ramming body 64 includes:

a cylinder 640 connected to the screw 622, wherein one end of the cylinder 640 away from the screw 622 is recessed to form a positioning area 640a, and the opening of the positioning area 640a is circular (the diameter of the positioning area is smaller than that of the cylinder 640);

the airflow grooves 641 are formed on the circumferential side wall of the cylinder 640, two ends of each airflow groove 641 penetrate through two ends of the cylinder 640, and each airflow groove 641 extends in a bending manner;

wherein, the two side groove heights of the air flow groove 641 are different (refer to fig. 13, for example, H1 is greater than H2), and an air flow curved surface 641a capable of guiding the air flow is formed between adjacent air flow grooves 641;

when one end of the cylinder 640 coincides with the output end of the knockout cavity 61a, one side wall (i.e., a higher side wall, such as a wall on the H1 side, the wall refers to the edge of the notch of the airflow groove 641) of the airflow groove 641 is in contact with the opening of the knockout cavity 61a, and the airflow groove 641, the curved airflow surface 641a and the output end opening of the knockout cavity 61a form the flow guide notches 70, and the flow guide notches 70 are not mutually influenced by the contact between the one side wall of the airflow groove and the inner wall of the output end of the knockout cavity.

In addition, this embodiment also provides a cleaning method, the cleaning method is mainly used for cleaning the air flow channel, and is mainly used for cleaning or adsorbing an upper region of the air flow channel (the region refers to an upper region where the output nozzle is connected with the air flow channel), and the cleaning method includes:

s6: when cleaning, opening the cleaning nozzle, and adding the cleaning ball self-cleaning nozzle into the material beating cavity;

s7: the electromagnet is kept in a power-on state, the screw is attracted by the electromagnet, the column body opens the communication part between the cleaning nozzle and the material beating cavity, and the cleaning ball is supported in the positioning area after entering the material beating cavity;

s8: when the electromagnet is powered off, the screw rod moves towards one side far away from the electromagnet due to the driving spring, rotates due to the nut when moving, pushes the cleaning balls at the positioning area to move towards the airflow channel and rotate at the same time, and sends the cleaning balls in the rotating state into the airflow channel;

s9: starting an air source, wherein the air flow entering an air inlet cavity and/or a feeding cavity can blow a cleaning ball to move upwards, the cleaning ball is used for cleaning and/or adsorbing the upper layer position in an air flow channel, the air source is disconnected after the cleaning ball moves upwards for a certain distance, the cleaning ball falls down due to losing the thrust of air, the lower layer position of the air flow channel is cleaned, and the cleaning ball falls into an air inlet cavity after the cleaning is finished;

s10: repeating the steps S7-S9 for at least 5 times, disconnecting the air source, electrifying the electromagnet again, attracting the screw by the electromagnet, opening the communication part between the cleaning nozzle and the material beating cavity by the cylinder, and supporting the cleaning ball in the positioning area after entering the material beating cavity;

s11: when the electromagnet is powered off, the screw rod moves towards one side far away from the electromagnet due to the driving spring, rotates due to the nut when moving, pushes the cleaning balls at the positioning area to move towards the airflow channel and rotate at the same time, and sends the cleaning balls in the rotating state into the airflow channel;

s12: after the cleaning balls in the rotating state enter the airflow channel, the cleaning balls move towards the direction of the air inlet cavity to finish the ending work of cleaning the airflow channel;

s13: and after repeating the steps S11-S12 for at least 5 times, taking the cleaning ball out of the air inlet cavity.

Referring to fig. 9-14, in the present embodiment, the present embodiment provides a cleaning device capable of cleaning an airflow path without disassembly, which mainly comprises:

firstly, when cleaning, cleaning balls (i.e. adsorption bodies, such as a spherical body made of cotton strip material, or a spherical body made of felt material, etc., the diameter of the cleaning balls can be matched with the diameter of an air flow channel) are added into a material beating cavity, after the cleaning balls are recorded, an electromagnet is powered off, a screw rod is jacked by a driving spring to move outwards away from one side of the electromagnet, and due to a nut, when the screw rod moves axially, the screw rod can rotate axially and can drive the cleaning balls to rotate, the cleaning balls are driven into the air flow channel, air circulating in the air flow channel can drive the cleaning balls to move upwards in the air flow channel and clean the upper layer area of the air flow channel, when an air source is disconnected, the cleaning balls descend and fall into an air inlet cavity, and can also perform adsorption or cleaning on the air flow channel again in the falling process, after the cleaning balls are sequentially driven into the air inlet cavity, the air inlet cavity can be opened (a door for opening and closing can be arranged on the outer body, the part belongs to the prior art and can be arranged in any mode of hinging, dismounting and the like) to take out the cleaning balls, so that the cleaning work is finished;

in addition, the knockout body of the embodiment can also guide the air flow activity, namely: when the air flow is sent into the feeding cavity from the connecting nozzle, the sponge body with the additive is added at the feeding nozzle, the air takes away the additive through the sponge body and flows to the material beating cavity, when the electromagnet is circularly controlled in the power-on and power-off states, the electromagnet can control the material beating body to rotate clockwise or anticlockwise in the material beating cavity so as to drive the air flow at the material beating cavity to move clockwise or anticlockwise, the rotating air flow enters the air flow channel and can be more easily received by the air flow channel, and referring to figure 14, no matter the rotating (clockwise or anticlockwise) air flow or the rotating cleaning ball is directly sent into the air flow channel, the rotating cleaning ball does not generate larger conflict with the longitudinally flowing air flow, so the cleaning ball is more easily received, meanwhile, the cleaning ball is sent into the air flow channel in a rotating mode, and can also rotate when moving in the air flow channel, therefore, the cleaning effect on the airflow channel can be improved to a certain extent;

it is worth mentioning that:

this embodiment casing passes through the connecting piece and installs at the intracavity of beating the material, the casing sets up with the chamber wall clearance in the chamber of beating, consequently, send into the unchangeable prerequisite of the flow in two intracavitys when reinforced intracavity, the bore of carrying has reduced, consequently, the regional air current velocity of flow of this part can improve, consequently, the gas that flows faster is when being beaten the material body and drive the rotation, it can produce the whirl of the change of velocity of flow, it can improve with the interior gaseous movable effect in the air current passageway, the clearance between casing and the chamber of beating simultaneously also can act as the filtering action, promptly: the sponge body added into the feeding cavity from the feeding nozzle is prevented from entering the airflow channel, and the normal conveying of the airflow channel is prevented from being influenced;

secondly, another working condition of this embodiment is that, when the electromagnet is powered off, and the cylinder is pushed by the driving spring to the end of the conveying nozzle, referring to fig. 12-13, the end of the cylinder and the output end of the conveying nozzle form a flow guiding gap, at this time, the gas is guided by the flow curved surface and the air flow groove, and because the flow curved surface extends on the cylinder in a manner similar to a spiral curve, the flow direction of the gas ejected from the flow guiding gap can rotate around the axis of the cylinder, and the gas in the air flow channel can be rapidly mixed in the output mode of the vortex in a new year square "vortex";

thirdly, the positioning area formed on the column body is used for matching with the cleaning ball, when the positioning area of the column body is contacted with the cleaning ball, on one hand, the cleaning ball can be contacted with the recessed positioning area at more positions to ensure the rotating effect of the cleaner, on the other hand, the ball center of the cleaning ball can be ensured to be overlapped with the axial center of the column body as much as possible, and also the rotating effect can be ensured, furthermore, in some embodiments, the conveying nozzle and the airflow channel of the invention can be arranged in a clearer manner compared with the embodiment, for example, a in fig. 15, the conveying nozzle and the airflow channel are driven in an inclined upward manner, in this manner, when the cleaning ball is added into the material driving cavity, the cleaning ball can fall into the positioning area due to gravity, therefore, when the column body drives the cleaning ball, the rotating effect of the cleaning ball can be improved, and because the cleaning ball is pushed upwards, therefore, the cleaning ball can be more easily conveyed by the airflow channel to move upwards, so that the cleaning effect is improved, in the figure 15, b, the conveying nozzle and the airflow channel are driven in a downward inclined mode, the cleaning ball can firstly move downwards for a certain distance in the airflow channel and then is blown upwards by air in the airflow channel, the cleaning ball can clean the certain distance twice, and meanwhile, when the lower section position of the airflow channel needs to be cleaned, the cleaning efficiency of the cleaning ball is higher compared with that of the other two modes;

fourth, in order to ensure the normal control of the cleaning balls, the present embodiment may be provided with corresponding flow limiting valves on the air flow channel and the delivery pipe to control the flow of air into the air flow channel and the feeding chamber.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, which is intended to cover any modifications, equivalents, improvements, etc. within the spirit and scope of the present invention.

Claims (10)

1. A property security station kiosk comprising a kiosk (10), said kiosk (10) being able to be made up of a plurality of shutters (100) and having at least a kiosk door that can be opened or closed, characterized in that: further comprising:

a weight part (20) mounted on the bottom end of the sentry box (10);

the airflow channel (21) is provided with a plurality of strips, is formed inside the baffle plate (100), longitudinally extends, and has one end communicated with the interior of the sentry box (10);

the weighting part (20) at least comprises an air inlet cavity (200) communicated with the bottom end of the air flow channel (21) and an air source capable of conveying air into the air inlet cavity (200), and a heating part (20a) and a refrigerating part (20b) are formed in the weighting part (20);

when heating, the heating part (20a) is started, the refrigerating part (20b) is closed, the air source sends air into the air inlet cavity (200), the air is sent into the air flow channel (21) after being heated by the heating part (20a), and hot air is supplied into the sentry box (10) through the air flow channel (21);

when refrigerating, the refrigerating part (20b) is started, the heating part (20a) is closed, the air source sends air into the air inlet cavity (200), the air is sent into the air flow channel (21) after being refrigerated by the refrigerating part (20b), and cool air or cold air is supplied into the sentry box (10) through the air flow channel (21).

2. The property security kiosk of claim 1 wherein: the weight section (20) includes at least:

an inner body composed of a base (201a), and a heater and a refrigerator which are installed on the circumferential side of the base (201a) and are arranged at intervals;

an outer body (202) that is disposed coaxially with the inner body and is capable of being controlled by a driver to rotate axially relative to the inner body;

wherein the outer body (202) comprises:

a first half body (2021) having a first cavity (2021 a);

a second half body (2022) having a second cavity (2022a), the diameter of the second cavity (2022a) being smaller than the first cavity (2021a), the diameter of the second cavity (2022a) being adapted to the diameter of the inner body;

the ends of the first half body (2021) and the second half body (2022) are connected with each other through a thermal insulation piece (2023), an air inlet is formed on the thermal insulation piece (2023), an air source can simultaneously feed air to each air inlet, and the air inlet cavity (200) is formed between the first cavity (2021a) and the inner body;

when the driver controls the outer body (202) to rotate and causes the first cavity (2021) to move to the position of the heater, the heater can be started, and the air entering the air inlet cavity (200) from the air inlet is heated and sent into the sentry box through the air flow channel (21);

when the driver controls the outer body (202) to rotate and causes the first cavity (2021) to move to the refrigerator position, the refrigerator can be started, and air entering the air inlet cavity (200) from the air inlet is refrigerated and sent into the sentry box through the air flow channel (21).

3. The property security kiosk of claim 2 wherein: still including installing annular support portion (40) on sentry box (10) and be located ectosome (202) top, form between the terminal surface of annular support portion (40) and ectosome top and hold chamber (41), hold conveyer pipe (42) that are equipped with one end and air inlet chamber (200) intercommunication in chamber (41), annular support portion (40) are passed to the other end of conveyer pipe (42), still be equipped with humidification device on annular support portion (40), humidification device includes:

a body (50) which is arranged on the annular supporting part (40) and at least forms a feeding cavity (50a) inside;

the connecting nozzle (51) is arranged at the bottom of the body (50) and can be detachably connected with the other end of the conveying pipe (42);

the charging nozzle (52) is arranged at the top of the body (50) and is used for installing a container filled with the additive;

an output nozzle (53) which is mounted on the body (50) and the other end of which is connected with the air flow channel (21);

the piston (54) is arranged in the feeding cavity (50a) and corresponds to the feeding nozzle (52);

an electromagnet assembly (55), when the electromagnet assembly (55) is powered on, the piston (54) opens the charging nozzle (52), when the electromagnet assembly (55) is powered off, the piston (54) closes the charging nozzle (52);

wherein, the connecting nozzle (51), the charging nozzle (52) and the output nozzle (53) at least have one end to be communicated with the charging cavity (50a), and the connecting nozzle (51) and the charging nozzle (52) can be plugged by a sealing cover which is detachably connected when not used.

4. A property security kiosk as in claim 3, wherein: the electromagnetic assembly (55) comprises:

a housing (550) mounted on the body (50);

a metal part (551) provided in the housing (550);

an electromagnetic coil (552) which is provided on the housing (550) and which is capable of making the metal portion (551) magnetic when energized and making the metal portion (551) lose magnetism when de-energized;

a piston rod (553) disposed in the housing (550) and having one end connected to the piston (54);

a spring (554) disposed within the housing (550) and configured to cause the piston rod (553) to move outwardly when the metal portion (551) loses magnetism;

when the electromagnetic coil (552) is electrified, the metal part (551) generates magnetism and attracts the piston rod (553) to be close to the metal part (551), so that the piston (54) opens the connecting end of the feeding nozzle (52) and the feeding cavity (50 a);

when the electromagnetic coil (552) is powered off, the metal part (551) loses magnetism, and the spring (554) jacks up the piston rod (553) to move towards the side far away from the metal part (551), so that the piston (54) seals the connecting end of the feeding nozzle (52) and the feeding cavity (50 a).

5. The property security kiosk of claim 3 or 4 wherein: further comprising at least one cleaning nozzle (60), said cleaning nozzle (60) being mounted on the output nozzle (53), wherein said output nozzle (53) comprises:

a nozzle body (61) having a knockout chamber (61a) capable of connecting the charging chamber (50a) and the air flow passage (21);

the driving part (62) is coaxially arranged in the material mixing cavity (61a) through a connecting piece (63), and at least a gap is formed between the driving part (62) and the material mixing cavity (61a) and can be used for the material to pass through;

a hammer body (64) which can be controlled to move and rotate by the driving part (62);

when the adsorbing body is added into the cleaning nozzle (60), the adsorbing body enters the material feeding cavity (61a), and the driving part (62) can drive the adsorbing body to be driven into the air flow channel (21) in a rotating mode;

when the admixture enters the feeding cavity (50a), the admixture can be pushed by gas introduced into the connecting nozzle (51) and enters the airflow channel (21) from the beating cavity (61a), and the driving part (62) can control the beating body (64) to rotate forwards or reversely in the beating cavity (61a), so that the admixture is guided to enter the airflow channel (21) in a relative rotation mode.

6. The property security kiosk of claim 5 wherein: the drive portion (62) includes:

a housing (620) which is installed in the material mixing cavity (61a) through the connecting piece (63) and at least provided with an inner cavity (620 a);

the driving body (621) is connected with the shell (620), is provided with a driving cavity (621a) communicated with the inner cavity (620a), is arranged at one end, far away from the shell (620), of the driving cavity (621a) in an open mode, and is provided with a nut (621b) at the end of the driving cavity (621 a);

the screw rod (622) is arranged in the driving cavity (621a), one end of the screw rod penetrates out of the nut (621b) to be connected with the ramming body (61b), and the screw rod (622) is matched with the nut (621 b);

an electromagnet (623) disposed within the internal chamber (620 a);

and one end of the driving spring (624) is fixedly connected to the inner cavity (620a), the other end of the driving spring is provided with a base body (624a) which is rotationally connected with the screw (622), and when the electromagnet (623) is powered off, the driving spring drives the base body (624a) to move towards one end far away from the shell (620), and when the electromagnet (623) is powered on, the driving spring attracts the base body (624a) to move towards one side close to the shell (620).

7. The property security kiosk of claim 6 wherein: the ramming body (64) includes:

the cylinder (640) is connected with the screw rod (622), and one end far away from the screw rod (622) is concavely arranged to form a positioning area (640 a;

the airflow grooves (641) are formed on the circumferential side wall of the cylinder (640), two ends of each airflow groove (641) penetrate through two ends of the cylinder (640), and each airflow groove (641) extends in a bending mode;

the heights of the two sides of the airflow groove (641) are different, and an airflow curved surface (641a) capable of guiding airflow is formed between the adjacent airflow grooves (641);

when one end of the cylinder (640) is superposed with the output end of the material beating cavity (61a), the groove wall on one side of the airflow groove (641) is contacted with the cavity opening of the material beating cavity (61a), and the airflow groove (641), the airflow curved surface (641a) and the cavity opening of the output end of the material beating cavity (61a) form a drainage notch (70).

8. A method of using a kiosk for property security as claimed in claim 7, wherein the method comprises the steps of: the method comprises a refrigerating method and a heating method in the sentry box, a humidifying method in the sentry box and a cleaning method of an air flow channel in the sentry box; the refrigerating method and the heating method comprise the following steps:

s1: when refrigeration is needed, the driver controls the outer body to rotate, so that the position formed by the air inlet cavity corresponds to the refrigerator, the heater is closed, the refrigerator and the air source are started, the air source pumps air into the air inlet cavity from the air inlets on the two sides of the air inlet cavity in a balanced manner, the air enters from the bottom end of the air flow channel after being refrigerated by the refrigerator and is discharged into the sentry box through the top of the air flow channel, and the refrigeration is completed;

s2: when heating is needed, the driver controls the outer body to rotate, so that the position of the air inlet cavity corresponds to the heater, the refrigerator is closed, the heater and the air source are started, the air source pumps air into the air inlet cavity from the air inlets on the two sides of the air inlet cavity in a balanced manner, the air enters from the bottom end of the air flow channel after being heated by the heater and is discharged into the sentry box through the top of the air flow channel, and heating is completed.

9. A method of using a kiosk according to claim 8 wherein: the humidifying method comprises the following steps:

s3: the soaked humidifying body is arranged in a container and is arranged on a feeding nozzle, and the container is communicated with the input end of the feeding nozzle and is connected with a conveying pipe and a connecting nozzle;

s4: when humidification is needed, the electromagnetic assembly is electrified to generate magnetism, and the piston is controlled to open the output end of the feeding nozzle so that the humidification body enters the feeding cavity;

s5: the heated gas sub-delivery pipe and the connecting nozzle enter the charging cavity, and take away water molecules in the humidifying body in the flowing process of the output nozzle, and mix with hot gas after entering the airflow channel, and then enter the sentry box from the output end of the airflow channel.

10. A method of using a kiosk as claimed in claim 8 or 9, wherein: the cleaning method comprises the following steps:

s6: when cleaning, opening the cleaning nozzle, and adding the self-cleaning nozzle of the adsorption body into the knockout cavity;

s7: the electromagnet is kept in a power-on state, the screw is attracted by the electromagnet, the column body opens the communication part between the cleaning nozzle and the material beating cavity, and the adsorbent is supported in the positioning area after entering the material beating cavity;

s8: when the electromagnet is powered off, the screw rod moves towards one side far away from the electromagnet due to the driving spring, rotates due to the nut when moving, pushes the adsorbent at the positioning area to move towards the air flow channel and rotate at the same time, and sends the adsorbent in a rotating state into the air flow channel;

s9: starting an air source, enabling air flow entering an air inlet cavity and/or a feeding cavity to blow an adsorbent to move upwards, cleaning and/or adsorbing an upper layer position in an air flow channel by using the adsorbent, disconnecting the air source after the adsorbent moves upwards for a certain distance, enabling the adsorbent to fall down due to loss of gas thrust, cleaning a lower layer position of the air flow channel, and falling into an air inlet cavity after cleaning is finished;

s10: repeating the steps S7-S9 for at least 5 times, disconnecting the air source, electrifying the electromagnet again, attracting the screw by the electromagnet, opening the communication part between the cleaning nozzle and the material-beating cavity by the cylinder, and supporting the adsorbent in the positioning area after the adsorbent enters the material-beating cavity;

s11: when the electromagnet is powered off, the screw rod moves towards one side far away from the electromagnet due to the driving spring, rotates due to the nut during movement, pushes the adsorbing body at the positioning area to move towards the air flow channel and simultaneously rotates, and sends the adsorbing body in a rotating state into the air flow channel;

s12: after entering the airflow channel, the adsorption body in the rotating state moves towards the direction of the air inlet cavity to finish the cleaning ending work of the airflow channel;

s13: and after repeating the steps S11-S12 for at least 5 times, taking the adsorbent out of the air inlet cavity.

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