CN215914388U - Body drying machine structure - Google Patents

Abstract

The utility model discloses a body drying machine structure, and aims to provide a body drying machine structure with high air supply efficiency. It includes the protective housing, air supply arrangement and main control board all are located the protective housing and all can dismantle with the protective housing and be connected, air supply arrangement is last to be equipped with leading-in wind gap and to derive the wind gap, be equipped with the air intake that is linked together with leading-in wind gap on the protective housing, the top of protective housing is equipped with puts foot district and a plurality of supply-air outlet one, it is located outside the protective housing to put the foot district, it is equipped with out the tuber pipe on deriving the wind gap, it can dismantle with the protective housing and be connected to go out the wind pipe, it is linked together with a plurality of supply-air outlet one respectively to derive the wind gap, can dismantle on the play tuber pipe and be connected with the heating element, air supply arrangement and heating element all are connected with the main control board electricity. The utility model has the beneficial effects that: the air supply efficiency is high; the automatic starting of the machine can be realized; the function is diversified.

Description

Body drying machine structure

Technical Field

The utility model relates to the technical field related to a body drying machine structure, in particular to a body drying machine structure.

Background

At present, the body drying machine structure is frequently seen in public places such as large sauna bathing places, swimming venues, leisure venues, resorts, golf clubs and hotels, the use of the body drying machine structure effectively prevents various cross-type infections caused by the repeated use of towels and bath towels in the public places, and simultaneously avoids the stimulation of the floating hairs on the towels and the bath towels to the skin.

The body drying machine structure appearing in the market at present heats gas firstly, then blows to the human body, utilizes the higher temperature of gas to make the water attached on the body surface evaporate to reach the purpose of dry health. Therefore, the existing body drying machine structure has certain defects, for example, the existing body drying machine structure has single function, can only meet the common air drying requirement, and further cannot meet the requirements of users to a certain extent; because the temperatures born by adults and children are different, the adjustable highest temperature cannot be automatically controlled by the conventional body drying machine structure according to different crowds; the noise of the body drying machine structure is high; the air supply efficiency of the body drying machine structure is not high, so that the drying speed of the human body is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a body drying machine structure with high air supply efficiency, aiming at overcoming the defect of low air supply efficiency of the body drying machine structure in the prior art.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a body drying machine structure, it includes protective housing, air supply arrangement and main control board all are located the protective housing and all can dismantle with the protective housing and be connected, the last leading-in wind gap and the derivation wind gap of being equipped with of air supply arrangement, be equipped with the air intake that is linked together with the leading-in wind gap on the protective housing, the top of protective housing is equipped with puts foot district and a plurality of supply-air outlet one, it is located outside the protective housing to put the foot district, be equipped with out the tuber pipe on the derivation wind gap, it can dismantle with the protective housing and be connected to go out the tuber pipe, it is linked together with a plurality of supply-air outlet one respectively to derive the wind gap, it is connected with the heating element to go out to dismantle on the tuber pipe, air supply arrangement and heating element all are connected with main control board electricity.

Air supply arrangement and main control board all are located the protective housing and all can dismantle with the protective housing and be connected, air supply arrangement is last to be equipped with leading-in wind gap and to derive the wind gap, be equipped with the air intake that is linked together with leading-in wind gap on the protective housing, the top of protective housing is equipped with callus on the sole and a plurality of supply-air outlet one, the callus on the sole is located the protective housing and can dismantle with the protective housing and be connected, it goes out the tuber pipe to be equipped with on the air outlet, it can dismantle with a plurality of supply-air outlet one respectively to be connected with through going out the tuber pipe to go out the wind gap, it is connected with the heating element to dismantle on the tuber pipe, air supply arrangement and heating element all are connected with main control board electricity. The air supply device is generally a fan or a blower, when the air supply device supplies air, the air supply device sucks air from the air inlet through the air inlet, sequentially passes through the air outlet and the air outlet pipe, is heated by the heating assembly and then delivers warm air to a human body through the air supply ports, so that the drying effect is achieved on the human body, the human body is prevented from contacting with the bath towel, and the human body hygiene is facilitated; the air outlet pipe is beneficial to carrying out centralized conveying on the airflow at the air outlet, the aim of high air supply efficiency is fulfilled, and the quick drying of the human body is facilitated; meanwhile, the user can adjust the wind speed and the temperature through the remote controller according to the actual requirements of the user in the using process, and the operation is convenient.

Preferably, the air supply device comprises a volute, a motor and an impeller, the volute is detachably connected with the protective shell, the air inlet is positioned on one side of the volute, the motor is positioned in the volute and detachably connected with the other side corresponding to the volute, the air outlet is positioned on the side wall adjacent to one side of the volute, the impeller comprises a disc and a ring, the center of the disc and the center of the ring are both positioned on the central axis of the air inlet, the center of the disc is detachably connected with the output shaft of the motor, the motor is electrically connected with the main control board, a plurality of uniformly distributed guide vanes are arranged on the edge of the disc, one ends of the guide vanes are far away from the air inlet and are fixedly connected with the disc, the other ends of the guide vanes are close to the air inlet and are connected with the ring, and four uniformly distributed induction pads are arranged at the bottom of the protective shell, the induction pad is detachably connected with the protective shell and is electrically connected with the main control board. When a person stands on the foot pad, the sensing pads sense the weight of the human body, the sensing pads transmit signals to the main control board, the main control board controls the motor to work and start, and the motor drives the impeller to rotate, so that air flow is sucked in through the air inlet under the action of the impeller and is led out through the air outlet, the function of automatically starting the machine is realized, and meanwhile, the guide vanes are uniformly distributed on the edge of the disc, so that noise is reduced; meanwhile, the center of the disc and the center of the ring are both positioned on the central axis of the air inlet, so that the air suction efficiency of the air supply device is improved.

Preferably, the inner diameter of the ring is larger than that of the air inlet, so that the ring is prevented from interfering the flow of air flow in the air inlet, the air flow can be guided in from the air inlet more smoothly, the center position of the guide vane corresponds to the edge of the air inlet, part of the guide vane corresponds to the position of the air inlet, the guide vane is favorable for guiding the air flow flowing through the air inlet more efficiently, the air flow loss is reduced, one side of the guide vane arches towards the other corresponding side to form an arc-shaped structure, and openings of the arc-shaped structures on the guide vanes are uniformly distributed along the clockwise direction or the anticlockwise direction, so that the air suction efficiency is improved, and the noise is reduced.

Preferably, the sensing pad comprises a cushion block and a sensing piece, the cushion block is located outside the protective shell, a connecting block is arranged on the cushion block, one end of the connecting block is fixedly connected with the cushion block, the other end of the connecting block penetrates through the bottom of the protective shell and is connected with the sensing piece, the sensing piece is located in the protective shell and is detachably connected with the bottom of the protective shell, and the sensing piece is electrically connected with the main control board. When a user stands on the two foot pads by feet, the pad receives the reaction force of the bottom surface, so that the connecting block acts on the sensing piece, and the weight of the human body is sensed by the sensing piece.

As preferred, the shape of protective housing is the rectangle, the shape phase-match of air-out pipe and protective housing, a plurality of supply-air outlet evenly distributed in the edge of protective housing, be equipped with a plurality of roots and supply-air outlet one by one assorted bleeder on the air-out pipe, the design makes the air current after the heating of heating element blow to each surface around the human body through the bleeder on the air-out pipe like this, is favorable to improving drying efficiency, the one end of bleeder with air-out pipe fixed connection and with air-out pipe be linked together, the other end of bleeder is located supply-air outlet one and can dismantle with supply-air outlet one and be connected, it is linked together with a plurality of bleeder respectively through air-out pipe to derive the wind gap. The air flow guided out through the air outlet is heated by the heating component and then is directionally conveyed into the branch pipes through the air outlet pipes, and is blown to a human body through the branch pipes, so that the loss of the air flow is reduced, and the conveying efficiency of the air flow is improved.

Preferably, a diversion device is arranged in one end, located in the air supply opening I, of the branch pipe, the diversion device comprises a connecting rod, a driver and a plurality of diversion sheets, the cross section of the branch pipe is rectangular, the length direction of the connecting rod is parallel to the width direction of the branch pipe, the diversion sheets are evenly distributed along the length direction of the connecting rod and are connected with the connecting rod in a rotating mode, rotating shafts are arranged at two ends of the diversion sheets, one end of each diversion sheet is connected with one side of the branch pipe in a rotating mode through one rotating shaft, and the other end of each diversion sheet penetrates through the other side, corresponding to the branch pipe, of the other side of the branch pipe through the other rotating shaft and is connected with the driver. The driver can be the CD-ROM drive motor, also can be manual knob or other driving pieces that can order about the water conservancy diversion piece at certain angle within range internal rotation, and the connecting rod helps all water conservancy diversion pieces synchronous revolution, and the user accessible remote controller is adjusted or manual regulation air current direction for the air current can blow to human surface more accurately.

As preferred, it is total two to go out the tuber pipe, and two play tuber pipes use air supply arrangement to be the bilateral symmetry distribution as the center, the shape of protective housing is the rectangle, the shape that goes out the tuber pipe is the U type, the one end that goes out the tuber pipe is linked together through heating element and air outlet of leading, the other end that goes out the tuber pipe is sealed, and one of them one end that goes out the tuber pipe seal is located the left side of air intake, and another one that goes out the tuber pipe seal is located the right side of air intake, and when the air intake was located the side of protective housing, the design was favorable to reducing the resistance when the air intake air inlet intake like this, was favorable to improving the induced draft efficiency in leading-in wind gap.

As another preferred, the shape of air-out pipe is the annular, air supply arrangement is located the annular structure that air-out pipe constitutes, it is connected and is linked together with air-out pipe can be dismantled through heating element to derive the wind gap, heating element and air-out pipe's junction demountable installation have the check valve. The design of the one-way valve is beneficial to preventing the heated airflow from flowing backwards into the volute through the annular air outlet pipe.

Preferably, be equipped with the baffler in the air-out pipe, baffler and air-out pipe sealing connection, the baffler separates into two spaces with the air-out pipe, the derivation wind gap is linked together with two spaces respectively through heating element, the derivation wind gap passes through heating element and can dismantle with the air-out pipe and be connected. When the air outlet pipe is annular, the air flow at the air outlet is heated by the heating assembly and is respectively conveyed to the two spaces and blown to the human body through the branch pipe, and the design of the barrier plate is favorable for preventing the air flow in the two spaces from colliding or interfering, so that the air supply efficiency is favorably ensured, the structure is simple, and the cost is low.

As preferred, the heating element includes the cover body and heat-generating body, heat-generating body demountable installation is internal in the cover, the heat-generating body is connected with the main control board electricity, derive the wind gap through the cover body can dismantle with the tuber pipe and be connected and be linked together, be favorable to improving thermal utilization ratio, the top of the cover body is equipped with the air supply flap, the air supply flap can dismantle with the cover body and be connected, be equipped with supply-air outlet two on the air supply flap, the top of protective housing is equipped with the supply-air outlet three that communicates with supply-air outlet two, supply-air outlet three is located the rear side of protective housing. When a person stands on the foot pad, the sensing pad senses the weight of the human body, the sensing pad transmits a signal to the main control board, the main control board controls the motor to be started, the wind speed is at a low level, the rotating speed of the motor slowly rises from 0 to 3000RPM within 2-3 seconds in the process, meanwhile, the main control board controls the heating body to generate heat, the temperature is at a low level, then the user further adjusts the wind speed and the temperature through a remote controller, the adjustable highest temperature is matched with the weight of the human body sensed by the sensing pad, the situation that the skin is burnt due to carelessness of the temperature is avoided, for example, children generally live in large numbers below 35kg, the skin of the children is tender, the adjustable highest temperature in the weight range can be set to be 30-35 ℃, and the situation that the skin of the children is burnt due to improper adjustment is avoided; the adjustable maximum temperature of the crowd with the weight of more than 35kg is set to be 35-42 ℃, and the main control board automatically matches the corresponding adjustable temperature range according to the weight signal transmitted by the induction pad, so that the adjustable maximum temperature can be automatically controlled according to different crowds, and the human body safety is facilitated.

Preferably, the heating body is located at one end of the cover body, the air supply opening cover is located at the other end of the cover body, the second air supply opening is connected with the third air supply opening, airflow loss is reduced, and airflow utilization rate is improved; meanwhile, the second air supply outlet and the third air supply outlet are connected, and the design of the conical pipe is favorable for preventing water from entering the protective shell and influencing the normal work of parts such as a motor and the like, so that the service life of the machine is prolonged.

Preferably, put foot district total two, it is equipped with anti-skidding subassembly in the foot district to put, anti-skidding subassembly includes the callus on the sole, the callus on the sole can be dismantled with the foot district and be connected, the change and the washing of the callus on the sole of being convenient for.

Preferably, a mounting groove matched with the foot pad is formed in the foot placing area, the foot pad is detachably connected with the bottom of the mounting groove, an inclined plane is formed in the side wall of the mounting groove, and the first air supply outlet is located on the inclined plane. When the machine is used, the feet of a user stand on the two foot pads, and the inclined surface is designed to facilitate the air flow to be concentrated on the peripheral surface of the human body when the branch pipe in the air supply outlet I supplies air to the human body, so that the drying speed of the human body is accelerated; meanwhile, when water drops drop into the air inlet pipe and the air outlet pipe from the branch pipe, the branch pipe is far away from the heating body, the water drops can be dried in time in the air outlet pipe, and the water inlet of the heating body cannot be caused; meanwhile, the side wall of the branch pipe is connected with the inner side wall of the first air supply outlet, so that the protective shell can be effectively prevented from water inflow.

As preferred, be equipped with the display lamp plate in the protective housing, the display lamp plate can be dismantled with the protective housing and be connected, the top of protective housing is equipped with display panel, and two foot areas of putting use display panel to be bilateral symmetry distribution as the center, display panel is located the front side of protective housing, display panel's position is corresponding with the position of display lamp plate, display panel can dismantle with the protective housing and be connected, be equipped with wind speed display lamp, temperature indicator, weight digital display lamp and remote control receiving head on the display lamp plate, be equipped with switch and power cord on the protective housing, wind speed display lamp, temperature indicator, weight digital display lamp, remote control receiving head, switch and power cord are connected with main control board electricity. The power cord is connected with the power supply and electrified, the switch is turned on, the display lamp panel is lighted for display, and the air supply device and the heating assembly do not work; the display lamp panel displays wind speed gears, temperature and human body weight values, and a user can conveniently read the values through the display panel, so that the body dryer structure has a drying function and a weighing function for a human body, and meanwhile, when the user does not stand on the body dryer, the body dryer can be started through a switch, can be used as a fan heater or a dryer, and is diversified in functions; after the switch is powered on, the wind speed display lamp and the temperature indicator lamp are turned on; the wind speed display lamp is composed of four nixie tubes which can be red and white, and the temperature indicator lamp is composed of an upper nixie tube, a middle tube and a lower tube; when the wind speed is in a low gear, the display mode of the wind speed display lamp is that the four nixie tubes flash red lights in a reverse time mode, and when the wind speed is gradually adjusted to a high gear, the display mode of the wind speed display lamp is that the flash speed of the wheels is gradually accelerated; when the temperature is in a low grade, the temperature indicator lamp is displayed in a mode of lighting one red lamp, two red lamps are lighted in a middle grade, and three red lamps are lighted in a high grade; the weight display lamp displays the weight in a weight format of 000.0; the remote control receiving head is convenient for the control of the remote controller.

Preferably, the air inlet is located on the side of the protective shell and located on the side of the volute. The air inlet is formed in the side face of the protective shell and is close to the position of the air inlet, so that the air inlet does not influence the introduction of air flow, and the air flow containing impurities such as dust is not easy to suck into the machine, so that the human health is facilitated.

As another preferred mode, the air inlet is located at the bottom of the protective shell, one side, where the air inlet is located, of the volute is close to the bottom of the protective shell, the air inlet corresponds to the air inlet, the other side, corresponding to the volute, of the volute is far away from the bottom of the protective shell, and the induction pad is arranged at the bottom of the protective shell in a protruding mode. Compared with the previous proposal, when the position of the air inlet is over against the air inlet, the air suction efficiency is the highest, but because the air inlet is positioned on the side surface of the volute, and in order to make the structural design inside the machine as compact as possible to reduce the volume, the volute needs to be placed horizontally and mounted in the protective casing, at this time, the air inlet needs to be arranged at the top or the bottom of the protective casing, the top of the protective shell needs to supply air to a human body, so that the air supply efficiency is not influenced, the optimal position of the air inlet is arranged at the bottom of the protective shell, the induction pad is arranged at the bottom of the protective shell in a protruding manner, the air inlet is favorable for sucking air from the bottom of the protective shell, however, in this position, impurities such as dust on the ground can be easily sucked into the machine and blown to the human body, which is not good for human health while easily causing machine failure.

Preferably, the air blower is flat, has a structure with a large diameter and a small height, and has the functions of improving the air volume, reducing the rotating speed and reducing the noise.

The utility model has the beneficial effects that: the air supply efficiency is high; the automatic starting of the machine can be realized; the functions are diversified; is beneficial to human health and health; the operation is convenient; the noise is reduced; the air flow loss is reduced, and the air suction efficiency and the air flow conveying efficiency of the air supply device are improved; the drying efficiency is improved; the utilization rate of heat is improved, and the structure is simple; the adjustable maximum temperature can be automatically controlled according to different crowds, and the safety of human bodies is facilitated; the water is prevented from entering the heating body and the protective shell, and the service life of the machine is prolonged; the drying speed of the human body is accelerated.

Drawings

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

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a left side view of FIG. 2;

FIG. 4 is a rear view of FIG. 2;

FIG. 5 is a schematic view of a first embodiment of an air outlet pipe;

FIG. 6 is a cross-sectional view A-A of FIG. 2;

FIG. 7 is a cross-sectional view C-C of FIG. 3;

FIG. 8 is a cross-sectional view taken along line D-D of FIG. 5;

FIG. 9 is a cross-sectional view B-B of FIG. 4;

FIG. 10 is an enlarged view of the structure at E in FIG. 9;

FIG. 11 is a schematic view of a second embodiment of the air outlet pipe;

FIG. 12 is a schematic view of a third embodiment of an air outlet pipe;

fig. 13 is a cross-sectional view F-F of fig. 11.

In the figure: 1. a protective shell, 2, an air supply device, 3, a main control board, 4, a display lamp panel, 5, an air inlet, 6, an air outlet, 7, a switch, 8, a power line, 9, an air inlet, 10, a foot pad, 11, a display panel, 12, an air supply outlet I, 13, a heating component, 14, a sensing pad, 15, a volute, 16, a motor, 17, an impeller, 18, a disc, 19, a ring, 20, a guide vane, 21, an air outlet pipe, 22, a branch pipe, 23, a cover body, 24, a heating body, 25, an air supply outlet cover, 26, an air supply outlet II, 27, an air supply outlet III, 28, a groove, 29, a water receiving hole, 30, a conical pipe, 31, a through hole, 32, an installation groove, 33, an inclined plane, 34, a cushion block, 35, a sensing sheet, 36, a connecting block, 37, an air speed display lamp, 38. the temperature indicating lamp 39, the weight digital display lamp 40, the guide vane 41, the connecting rod 42, the driver 43, the rotating shaft 44 and the blocking plate.

Detailed Description

The utility model is further described with reference to the following figures and detailed description.

In the embodiment shown in fig. 1, 2, 3, 4, 5 and 6, a body drying machine structure comprises a protective shell 1, an air supply device 2 and a main control board 3, wherein the air supply device 2 and the main control board 3 are both located in the protective shell 1 and are detachably connected with the protective shell 1, as shown in fig. 7, an air inlet 5 and an air outlet 6 are arranged on the air supply device 2, an air inlet 9 communicated with the air inlet 5 is arranged on the protective shell 1, as shown in fig. 1 and 2, a foot pad 10 and a plurality of air supply ports one 12 are arranged at the top of the protective shell 1, the foot pad 10 is located outside the protective shell 1 and is detachably connected with the protective shell 1, as shown in fig. 2, 5 and 7, an air outlet pipe 21 is arranged on the air outlet 6, the air outlet pipe 21 is detachably connected with the protective shell 1, the air outlet 6 is respectively communicated with the plurality of air supply ports one 12 through the air outlet pipe 21, and a heating assembly 13 is detachably connected to the air outlet pipe 21, the air supply device 2 and the heating component 13 are both electrically connected with the main control board 3.

As shown in fig. 5, 6 and 7, the air supply device 2 includes a volute 15, a motor 16 and an impeller 17, the volute 15 is detachably connected with the protective shell 1, the air inlet 5 is located on one side of the volute 15, the motor 16 is located in the volute 15 and detachably connected with the other side corresponding to the volute 15, the air outlet 6 is located on the side wall adjacent to one side of the volute 15, the impeller 17 includes a disk 18 and a ring 19, the center of the disk 18 and the center of the ring 19 are both located on the central axis of the air inlet 5, the center of the disk 18 is detachably connected with the output shaft of the motor 16, the motor 16 is electrically connected with the main control board 3, the edge of the disk 18 is provided with a plurality of uniformly distributed guide vanes 20, one end of each guide vane 20 is far away from the air inlet 5 and is fixedly connected with the disk 18, and the other end of each guide vane 20 is close to the air inlet 5 and is connected with the ring 19, as shown in fig. 3 and 4, As shown in fig. 6 and 9, four sensing pads 14 are uniformly distributed at the bottom of the protective shell 1, and the sensing pads 14 are detachably connected with the protective shell 1 and electrically connected with the main control board 3.

As shown in fig. 5, 6 and 7, the inner diameter of the ring 19 is larger than the inner diameter of the air inlet 5, the center position of the guide vane 20 corresponds to the edge of the air inlet 5, one side of the guide vane 20 is arched to the other corresponding side to form an arc-shaped structure, and the openings of the arc-shaped structures on the guide vanes 20 are uniformly arranged along the clockwise direction or the counterclockwise direction.

As shown in fig. 9 and 10, the sensing pad 14 includes a cushion block 34 and a sensing piece 35, the cushion block 34 is located outside the protective shell 1, a connecting block 36 is arranged on the cushion block 34, one end of the connecting block 36 is fixedly connected with the cushion block 34, the other end of the connecting block 36 penetrates through the bottom of the protective shell 1 and is connected with the sensing piece 35, the sensing piece 35 is located in the protective shell 1 and is detachably connected with the bottom of the protective shell 1, and the sensing piece 35 is electrically connected with the main control board 3.

As shown in fig. 1, fig. 2, fig. 5 and fig. 7, the shape of the protective shell 1 is rectangular, the shape of the air outlet pipe 21 is matched with the shape of the protective shell 1, a plurality of first air outlets 12 are uniformly distributed on the edge air outlet pipe 21 of the protective shell 1, a plurality of branch pipes 22 which are matched with the first air outlets 12 one by one are arranged on the edge air outlet pipe 21, one end of each branch pipe 22 is fixedly connected with the air outlet pipe 21 and is communicated with the air outlet pipe 21, the other end of each branch pipe 22 is located in the first air outlet 12 and is detachably connected with the first air outlet 12, and the air outlet 6 is respectively communicated with the plurality of branch pipes 22 through the air outlet pipe 21.

As shown in fig. 13, a flow guiding device is disposed in one end of the branch pipe 22 located in the first air supply outlet 12, the flow guiding device includes a connecting rod 41, a driver 42 and a plurality of flow guiding sheets 40, the cross section of the branch pipe 22 is rectangular, the length direction of the connecting rod 41 is parallel to the width direction of the branch pipe 22, the plurality of flow guiding sheets 40 are uniformly distributed along the length direction of the connecting rod 41, the flow guiding sheets 40 are rotatably connected to the connecting rod 41, two ends of the flow guiding sheet 40 are both provided with rotating shafts 43, one end of the flow guiding sheet 40 is rotatably connected to one side of the branch pipe 22 through one of the rotating shafts 43, and the other end of the flow guiding sheet 40 penetrates through the other corresponding side of the branch pipe 22 through the other rotating shaft 43 and is connected to the driver 42.

As shown in fig. 5 and 7, the number of the air outlet pipes 21 is two, the two air outlet pipes 21 are symmetrically distributed with the air supply device 2 as the center, the air outlet pipes 21 are U-shaped, one end of each air outlet pipe 21 is communicated with the air outlet 6 through the heating assembly 13, the other end of each air outlet pipe 21 is closed, one sealed end of one air outlet pipe 21 is located on the left side of the air inlet 9, and the other sealed end of the other air outlet pipe 21 is located on the right side of the air inlet 9.

As shown in fig. 12, the air outlet pipe 21 is annular, the air supply device 2 is located in the annular structure formed by the air outlet pipe 21, the air outlet 6 is detachably connected and communicated with the air outlet pipe 21 through the heating component 13, and the connecting part of the heating component 13 and the air outlet pipe 21 is detachably provided with a check valve.

As shown in fig. 11, be equipped with baffler 44 in the tuber pipe 21, baffler 44 and tuber pipe 21 sealing connection, baffler 44 separates into two spaces with tuber pipe 21, and it is linked together with two spaces respectively to derive wind gap 6 through heating element 13, and it is connected to derive wind gap 6 to pass through heating element 13 and can dismantle with tuber pipe 21.

As shown in fig. 5, 6 and 8, the heating assembly 13 includes a cover 23 and a heating element 24, the heating element 24 is detachably mounted in the cover 23, the heating element 24 is electrically connected with the main control board 3, the air outlet 6 is detachably connected and communicated with the air outlet pipe 21 through the cover 23, the top of the cover 23 is provided with an air outlet cover 25, the air outlet cover 25 is located at the other end of the cover 23, the air outlet cover 25 is detachably connected with the cover 23, the air outlet cover 25 is provided with an air outlet two 26, as shown in fig. 2, 5 and 6, the top of the protective case 1 is provided with an air outlet three 27 communicated with the air outlet two 26, the air outlet three 27 is located at the rear side of the protective case 1, and the display panel 11 is located at the front side of the protective case 1.

As shown in fig. 5, 11 and 12, the heating element 24 is located at one end of the cover 23, the air supply opening cover 25 is located at the other end of the cover 23, as shown in fig. 6, the air supply opening two 26 is connected with the air supply opening three 27, the bottom of the cover 23 is provided with a water receiving tank 28 corresponding to the air supply opening cover 25, the bottom of the water receiving tank 28 is provided with a water discharge hole 29, the water discharge hole 29 is provided with a conical pipe 30, the diameter of one end of the conical pipe 30 is larger than that of the other end, one end of the conical pipe 30 is fixedly connected with the outside of the cover 23, the bottom of the protective shell 1 is provided with a through hole 31 matched with the other end of the conical pipe 30, and the other end of the conical pipe 30 is located in the through hole 31.

As shown in fig. 1, 2 and 9, the number of the foot pads 10 is two, two mounting grooves 32 are arranged at the top of the protective shell 1, the two mounting grooves are respectively matched with the foot pads 10 one by one, the two mounting grooves 32 are distributed in a bilateral symmetry manner by taking the display panel 11 as a center, the foot pads 10 are detachably connected with the bottoms of the mounting grooves 32, inclined surfaces 33 are arranged on the side walls of the mounting grooves 32, and the first air supply outlets 12 are located on the inclined surfaces 33.

As shown in fig. 5, fig. 11 and fig. 12, be equipped with display lamp plate 4 in the protective housing 1, display lamp plate 4 can be dismantled with protective housing 1 and be connected, the top of protective housing 1 is equipped with display panel 11, display panel 11 is located the front side of protective housing 1, display panel 11's position is corresponding with display lamp plate 4's position, display panel 11 can be dismantled with protective housing 1 and be connected, be equipped with wind speed display lamp 37 on the display lamp plate 4, temperature indicator lamp 38, weight digital display lamp 39 and remote control receiving head, be equipped with switch 7 and power cord 8 on the protective housing 1, wind speed display lamp 37, temperature indicator lamp 38, weight digital display lamp 39, the remote control receiving head, switch 7 and power cord 8 all are connected with main control board 3 electricity.

As shown in fig. 7, the air inlet 9 is located at the side of the protective case 1 and at the side of the scroll casing 15.

The air inlet 9 is located at the bottom of the protective shell 1, one side, where the air inlet 5 is located, of the volute 15 is close to the bottom of the protective shell 1, the position of the air inlet 5 corresponds to that of the air inlet 9, the other side, corresponding to the volute 15, of the volute is far away from the bottom of the protective shell 1, and the induction pad 14 is arranged at the bottom of the protective shell 1 in a protruding mode.

As shown in fig. 5, 6, and 7, the blower 2 has a flat shape.

The power cord 8 is connected with a power supply to be electrified, the switch 7 is turned on, the display lamp panel 4 is lighted, the wind speed display lamp 37 and the temperature indicator lamp 38 are lighted by white lamps, and the air supply device 2 and the heating body 24 do not work; when a person stands on the foot pad, the sensing pad 14 senses the weight of the human body, the sensing pad 14 transmits a signal to the main control board 3, the main control board 3 controls the motor 16 to start, the motor 16 drives the impeller 17 to rotate so that the wind speed is in a low gear, in the process, the rotating speed of the motor 16 slowly rises from 0 to 3000RPM within 2-3 seconds, meanwhile, the main control board 3 controls the heating body 24 to generate heat, the temperature is in the low gear, the display panel 11 displays the weight of the human body, the wind speed display lamp 37 on the display panel 11 displays the wind speed gear, when the wind speed is in the low gear, the display mode of the wind speed display lamp 37 is a slow counter-clockwise red flashing lamp of four nixietube wheels, when the wind speed is gradually adjusted to the high gear, the display mode of the wind speed display lamp 37 is that the flash speed of the wheels is gradually accelerated, the temperature display lamp 38 on the display panel 11 displays the temperature gear, when the temperature is in the low gear, the display mode of the temperature indicator lamp 38 is a red lamp, two red lights are lighted in the middle gear, and three red lights are lighted in the high gear; in the working process of the machine, a user further adjusts the wind speed and the temperature through the remote controller, and closes the heating body 24 through a one-key cold air button on the remote controller to work, only natural wind is blown, a white light is turned on by a temperature indicator lamp 38 on the display panel 11, the one-key cold air button is pressed once again to recover to normal, and the temperature recovers to a low level; when the people leaves the machine, including the monopod leaves, the response pad 14 transmission signal is in main control board 3, and main control board 3 control machine stop work, and display lamp plate 4 is lighted and is shown.

When the motor 16 drives the impeller 17 to rotate, the air flow firstly passes through the air inlet 9 under the action of the impeller 17, then is sucked in through the air inlet 5 and is led out through the air outlet 6, the air flow led out through the air outlet 6 is heated by the heating element 24 and then is directionally conveyed into the plurality of branch pipes 22 through the air outlet pipe 21, and the air flow is blown to the human body through the branch pipes 22.

In the utility model, in order to avoid burning skin due to overhigh temperature and be beneficial to safety, two implementation modes are provided, namely: the highest temperature which can be adjusted by the remote controller can be designed to be matched with the weight of a human body sensed by the sensing pad 14, the weight of the children is below 35kg, and the children generally have more children, so that the highest temperature which can be adjusted in the weight range can be set to be 30-35 ℃, and the skin of the children is prevented from being burnt due to improper adjustment; the adjustable maximum temperature of the crowd weighing more than 35kg is set to be 35-42 ℃, and the main control board 3 automatically matches the corresponding adjustable temperature range according to the weight signal transmitted by the induction pad 14, so that the adjustable maximum temperature can be automatically controlled according to different crowds, and the human body safety is facilitated. The second embodiment: when two feet stand on the foot pad 10, the induction pad 14 sends a signal to the main control board 3, the main control board 3 controls the temperature of the heating body to be 20-25 ℃, and the weight of the crowd is above 35 kg; on the other hand, when the user starts to stand on the foot pad 10 with both feet, the temperature is low, so that the human body feels too cold, and the design also helps to prevent the human body from catching a cold, and is easy to be healthy.

The remote control mode of remote controller is infrared ray, and the remote control receiving head position is placed on display lamp plate 4, and when the people was stood on the machine, the switch 7 key of remote controller was in off-working condition, and when the people was not on the machine, the on & off key on the accessible remote controller started the machine, was used as electric fan heater or drying-machine.

The weight format displayed by the display lamp panel 4 is 000.0, the air supply device 2 is a fan, the fan is selected to be 220V and 50/60Hz, and the maximum power is 120W; the adapter inputs 220V-240V at 50/60 Hz; the power of the heating element 24 is 600-800W.

Claims (17)

1. A body drying machine structure is characterized by comprising a protective shell (1), an air supply device (2) and a main control board (3), wherein the air supply device (2) and the main control board (3) are both positioned in the protective shell (1) and are detachably connected with the protective shell (1), the air supply device (2) is provided with a leading-in air port (5) and a leading-out air port (6), the protective shell (1) is provided with an air inlet (9) communicated with the leading-in air port (5), the top of the protective shell (1) is provided with a foot placing area and a plurality of air supply ports I (12), the foot placing area is positioned outside the protective shell (1), the leading-out air port (6) is provided with an air outlet pipe (21), the air outlet pipe (21) is detachably connected with the protective shell (1), the leading-out air port (6) is respectively communicated with the plurality of air supply ports I (12) through the air outlet pipe (21), and the air outlet pipe (21) is detachably connected with a heating assembly (13), and the air supply device (2) and the heating component (13) are electrically connected with the main control board (3).

2. The body drying machine structure according to claim 1, wherein the air supply device (2) comprises a volute (15), a motor (16) and an impeller (17), the volute (15) is detachably connected with the protective shell (1), the air inlet (5) is positioned at one side of the volute (15), the motor (16) is positioned in the volute (15) and detachably connected with the other side corresponding to the volute (15), the air outlet (6) is positioned on the side wall adjacent to one side of the volute (15), the impeller (17) comprises a disk (18) and a ring (19), the centers of the disk (18) and the ring (19) are both positioned on the central axis of the air inlet (5), the center of the disk (18) is detachably connected with the output shaft of the motor (16), the motor (16) is electrically connected with the main control plate (3), the edge of the disk (18) is provided with a plurality of uniformly distributed guide vanes (20), the one end of guide vane (20) is kept away from inlet (5) and is connected with disc (18) fixed connection, the other end of guide vane (20) is close to inlet (5) and is connected with ring (19), the bottom of protective housing (1) is equipped with four evenly distributed's response pad (14), response pad (14) can be dismantled with protective housing (1) and be connected with main control board (3) electricity.

3. The structure of the body dryer according to claim 2, wherein the inner diameter of the circular ring (19) is larger than that of the air inlet (5), the center position of the guide vane (20) corresponds to the edge of the air inlet (5), one side of the guide vane (20) is arched to the other corresponding side to form an arc-shaped structure, and the openings of the arc-shaped structures on the guide vanes (20) are uniformly arranged along the clockwise direction or the anticlockwise direction.

4. The body drying machine structure according to claim 2, wherein the sensing pad (14) comprises a cushion block (34) and a sensing piece (35), the cushion block (34) is located outside the protective shell (1), a connecting block (36) is arranged on the cushion block (34), one end of the connecting block (36) is fixedly connected with the cushion block (34), the other end of the connecting block (36) penetrates through the bottom of the protective shell (1) and is connected with the sensing piece (35), the sensing piece (35) is located in the protective shell (1) and is detachably connected with the bottom of the protective shell (1), and the sensing piece (35) is electrically connected with the main control board (3).

5. The body drying machine structure as claimed in claim 1, 2, 3 or 4, wherein the protective shell (1) is rectangular, the shape of the air outlet pipe (21) is matched with the shape of the protective shell (1), a plurality of first air supply outlets (12) are uniformly distributed on the edge of the protective shell (1), a plurality of branch pipes (22) which are matched with the first air supply outlets (12) one by one are arranged on the air outlet pipe (21), one end of each branch pipe (22) is fixedly connected with the air outlet pipe (21) and communicated with the air outlet pipe (21), the other end of each branch pipe (22) is located in the first air supply outlets (12) and is detachably connected with the first air supply outlets (12), and the air outlet guide (6) is respectively communicated with the plurality of branch pipes (22) through the air outlet pipe (21).

6. A dryer structure as claimed in claim 5, wherein the branch pipe (22) is provided with flow guide means at one end thereof located in the first supply opening (12), the flow guiding device comprises a connecting rod (41), a driver (42) and a plurality of flow guiding sheets (40), the cross section of the branch pipe (22) is rectangular, the length direction of the connecting rod (41) is parallel to the width direction of the branch pipe (22), a plurality of guide vanes (40) are uniformly distributed along the length direction of the connecting rod (41), the flow deflector (40) is rotationally connected with the connecting rod (41), both ends of the flow deflector (40) are provided with rotating shafts (43), one end of the flow deflector (40) is rotatably connected with one side of the branch pipe (22) through one of the rotating shafts (43), the other end of the flow deflector (40) penetrates through the other corresponding side of the branch pipe (22) through another rotating shaft (43) and is connected with the driver (42).

7. The body drying machine structure according to claim 1, 2, 3 or 4, wherein the number of the air outlet pipes (21) is two, the two air outlet pipes (21) are symmetrically distributed in a left-right manner by taking the air supply device (2) as a center, the air outlet pipes (21) are U-shaped, one ends of the air outlet pipes (21) are communicated with the air outlet (6) through the heating component (13), the other ends of the air outlet pipes (21) are closed, one sealed end of one air outlet pipe (21) is located on the left side of the air inlet (9), and the other sealed end of the other air outlet pipe (21) is located on the right side of the air inlet (9).

8. The body drying machine structure according to claim 1, 2, 3 or 4, wherein the air outlet pipe (21) is annular, the air supply device (2) is located in an annular structure formed by the air outlet pipe (21), the air outlet (6) is detachably connected and communicated with the air outlet pipe (21) through a heating component (13), and a one-way valve is detachably mounted at the joint of the heating component (13) and the air outlet pipe (21).

9. The structure of the body drying machine as claimed in claim 8, wherein a blocking plate (44) is arranged in the air outlet pipe (21), the blocking plate (44) is connected with the air outlet pipe (21) in a sealing manner, the blocking plate (44) divides the air outlet pipe (21) into two spaces, and the air outlet (6) is respectively communicated with the two spaces through a heating component (13).

10. The body drying machine structure according to claim 1, 2, 3 or 4, wherein the heating assembly (13) comprises a cover body (23) and a heating body (24), the heating body (24) is detachably mounted in the cover body (23), the heating body (24) is electrically connected with the main control board (3), the air outlet (6) is detachably connected and communicated with the air outlet pipe (21) through the cover body (23), an air supply opening cover (25) is arranged at the top of the cover body (23), the air supply opening cover (25) is detachably connected with the cover body (23), an air supply opening II (26) is arranged on the air supply opening cover (25), an air supply opening III (27) communicated with the air supply opening II (26) is arranged at the top of the protective shell (1), and the air supply opening III (27) is located at the rear side of the protective shell (1).

11. The structure of the body dryer according to claim 10, wherein the heating body (24) is located at one end of the cover body (23), the air supply port cover (25) is positioned at the other end of the cover body (23), the air supply port II (26) is connected with the air supply port III (27), the bottom of the cover body (23) is provided with a water receiving groove (28) corresponding to the air supply opening cover (25), a drain hole (29) is arranged at the bottom of the water receiving tank (28), a conical pipe (30) is arranged on the drain hole (29), the diameter of one end of the conical pipe (30) is larger than that of the other end of the conical pipe, one end of the conical pipe (30) is fixedly connected with the outer part of the cover body (23), the bottom of the protective shell (1) is provided with a through hole (31) matched with the other end of the conical pipe (30), and the other end of the conical pipe (30) is located in the through hole (31).

12. A structure as claimed in claim 1, 2, 3 or 4, wherein there are two said foot-receiving areas, and anti-slip elements are provided in said foot-receiving areas, said anti-slip elements including a foot-pad (10), said foot-pad (10) being detachably connected to said foot-receiving areas.

13. The body drying machine structure as claimed in claim 12, wherein a mounting groove (32) matched with the foot pad (10) is formed in the foot placing area, the foot pad (10) is detachably connected with the bottom of the mounting groove (32), an inclined surface (33) is formed on the side wall of the mounting groove (32), and the first air supply outlet (12) is located on the inclined surface (33).

14. The body drying machine structure according to claim 1 or 2 or 3 or 4, characterized in that, be equipped with display lamp plate (4) in protective housing (1), display lamp plate (4) can be dismantled with protective housing (1) and be connected, the top of protective housing (1) is equipped with display panel (11), and two foot areas of putting use display panel (11) to be bilateral symmetry distribution as the center, display panel (11) are located the front side of protective housing (1), the position of display panel (11) is corresponding with the position of display lamp plate (4), display panel (11) can be dismantled with protective housing (1) and be connected, be equipped with wind speed display lamp (37), temperature indicator (38), weight digital display lamp (39) and remote control receiving head on display lamp plate (4), be equipped with switch (7) and power cord (8) on protective housing (1), wind speed display lamp (37), The temperature indicator lamp (38), the weight digital display lamp (39), the remote control receiving head, the switch (7) and the power line (8) are all electrically connected with the main control board (3).

15. A dryer structure as claimed in claim 7, wherein said air inlet (9) is located at the side of the protective casing (1) and at the side of the volute (15).

16. The body drying machine structure according to claim 2, 3 or 4, wherein the air inlet (9) is located at the bottom of the protective shell (1), one side of the volute (15) where the air inlet (5) is located is close to the bottom of the protective shell (1), the air inlet (5) corresponds to the position of the air inlet (9), the other side of the volute (15) corresponds to the position far away from the bottom of the protective shell (1), and the sensing pad (14) is arranged at the bottom of the protective shell (1) in a protruding mode.

17. The structure of the dryer according to claim 1, 2, 3 or 4, wherein the air supply means (2) is flat.

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