CN108814385B - Electric heating drying intelligent towel rack - Google Patents

Abstract

The invention discloses an electric heating drying intelligent towel rack which comprises a shell; the shell comprises an air outlet part and a hook mounting part; a fan is arranged in the shell; a plurality of strip-shaped air outlet groups are transversely formed at the front end of the air outlet part; a valve plate is slidably arranged in the air outlet part corresponding to the position of each strip-shaped air outlet group; hooks are rotatably arranged in the hook mounting part corresponding to the positions of the strip-shaped air outlet groups; the upper end of the hook is connected with a hook gear; the upper end of the valve plate is connected with a driven push-up part driven by the hook gear to slide upwards; an electromagnet is arranged in the hook mounting part; the upper end of the hook gear is fixedly connected with a magnetizer; a synchronous belt which can be in meshing transmission with the hook gear is arranged in the hook mounting part; a gear motor for driving the synchronous belt to rotate is arranged in the hook mounting part; the operation of the electromagnet is controlled to independently dry the wet towel on the hook at a certain position; the gear motor can drive the wet towel to rotate, and the wet towel is uniformly dried.

Description

Electric heating drying intelligent towel rack

Technical Field

The invention belongs to the technical field of articles for daily use, and particularly relates to an electric heating drying intelligent towel rack.

Background

Chinese patent document No. CN206131144U discloses a towel rack radiator, which includes a first pipeline formed by sequentially connecting a plurality of bent pipes and having a plurality of turns, and a second pipeline and a third pipeline connected to the first pipeline, wherein the second pipeline is connected or provided with a water inlet, the third pipeline is connected or provided with a water outlet, and a unique passage is provided from the water inlet to the water outlet. The towel rack radiator of the utility model can convert heat energy more fully, realize the whole-process circulating heat exchange of the heating medium and achieve the energy-saving effect; and articles such as towels, clothes and the like needing drying can be hung conveniently, so that the articles are directly contacted with the heat exchange surface of the radiator, the drying effect is improved, and the sterilization and disinfection effects can be realized.

When a single towel is dried, all pipelines work simultaneously, and when the idle pipelines work, electric energy is wasted, so that unnecessary loss is caused; and for the mode of only heating for drying, the drying speed is slow, the time is overlong, and the mode of drying without wind power is quick.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the defects in the prior art, the intelligent electric heating drying towel rack for drying the specified towel by utilizing the flowing air flow is provided.

In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: an electric heating drying intelligent towel rack comprises a shell; the casing is including air-out portion and the couple installation department that is located air-out portion upper end front side.

And a fan which guides air outside the shell into the air outlet part is arranged in the shell.

A plurality of strip-shaped air outlet groups are formed at the front end of the air outlet part and are transversely arranged; the bar air outlet group includes a plurality of bar air outlets a that set up along vertical direction equidistance.

A valve plate is slidably mounted in the air outlet part corresponding to the position of each strip-shaped air outlet group; the valve plate is equidistantly formed with a bar-shaped air outlet b communicated with the bar-shaped air outlet a.

And hooks are rotatably arranged in the hook installation parts corresponding to the positions of the strip-shaped air outlet groups.

The upper end of the hook is coaxially and slidably connected with a hook gear which rotates synchronously with the hook; the upper end of the valve plate is connected with a driven push-up part driven by the hook gear to slide upwards.

An electromagnet is arranged above the hook gear in the hook mounting part; the upper end of the hook gear is fixedly connected with a magnetizer; the electromagnet interacts with the magnetizer after being electrified.

A synchronous belt which can be in meshing transmission with each hook gear sliding downwards to the limit position is arranged in the hook mounting part; and a gear motor for driving the synchronous belt to rotate is installed in the hook installation part.

A controller is arranged in the shell; the fan, the gear motor and the electromagnets are electrically connected with the controller respectively.

As an optimization scheme: the hook comprises a hook body which rotates and is connected in the hook mounting part in a sliding way; the lower part of the hook body is positioned at the lower end of the hook mounting part.

The upper end of the hook body is fixedly connected with a pressure plate; electronic scales are respectively arranged at the lower ends of the pressure plates in the hook mounting part; and each electronic scale is electrically connected with the controller.

And a polygonal sliding insertion rod which is in sliding insertion connection with the pressure plate is formed in the middle of the lower end of the hook gear.

As an optimization scheme: the magnetizer is an iron block or a permanent magnet.

As an optimization scheme: the middle part of the hook mounting part along the height direction is fixedly connected with a mounting plate; an electronic scale mounting seat is formed at the upper end of the mounting plate corresponding to each electronic scale position; the electronic scale is arranged in the electronic scale mounting seat; the upper end face of the electronic scale is higher than the upper end face of the electronic scale mounting base.

The electromagnet is fixedly connected to the upper end of the mounting plate.

The upper end of the mounting plate is respectively and rotatably connected with a transmission gear disc and a rotating disc along the two sides of the length direction of the hook mounting part; the synchronous belt is arranged between the transmission gear disc and the rotating disc; a transmission gear is formed at the lower end of the transmission gear disc; and the output shaft of the gear motor is fixedly connected with a driving gear in meshing transmission with the transmission gear.

A hook sliding pipe is formed at the bottom of the hook mounting part and is positioned right below the electronic scale mounting seat; the hook passes through the hook sliding pipe.

As an optimization scheme: the valve plate is L-shaped; the valve plate comprises a vertical valve plate and a transverse valve plate, wherein the vertical valve plate is vertically arranged, and the transverse valve plate is vertically arranged with the vertical valve plate; the strip-shaped air outlet b is arranged on the vertical valve plate.

The upper end of the transverse valve plate is formed with a valve plate connecting column, and the driven upward pushing part is formed on the upper part of the valve plate connecting column.

When the magnetizer and the electromagnet attract each other, the hook gear drives the valve plate to move upwards to the limit position, and the strip-shaped air outlet b and the strip-shaped air outlet a are mutually staggered; when the pressure plate butts against the upper end of the electronic scale, the valve plate moves downwards to the extreme position under the action of self gravity, the transverse valve plate butts against the inner bottom surface of the hook mounting part at the moment, and the valve plate is not in contact with the hook gear.

As an optimization scheme: the fan is a cross-flow fan; the fan is positioned right above the air outlet part; the fan comprises a fan shell and an impeller which is rotatably connected in the fan shell; the lower end of the fan shell is connected to the upper end of the mounting plate connecting wall.

One side of the fan shell is fixedly connected with a motor; and an output shaft of the motor is fixedly connected with the impeller.

The lower end of the fan shell is a fan air outlet communicated with the air outlet part; an upper air inlet communicated with an air inlet of the fan shell is formed in the front of the upper end of the hook mounting portion.

As an optimization scheme: sliding rails are symmetrically formed on the inner wall of the air outlet part at two sides of the strip-shaped air outlet group; the valve plate is connected between the two sliding rails in a sliding mode.

Compared with the prior art, the invention has the beneficial effects that: when the magnetizer is an iron block: in the initial state, the electromagnet is separated from the magnetizer, and each hook gear and the valve plate are positioned at the lower limit position.

The wet towel is hung on the hook body, the pressure plate is abutted to the upper end of the electronic scale, the pressure applied to the electronic scale is increased, the electronic scale transmits a signal to the controller, the fan is controlled to work, and hot air for drying is generated.

Meanwhile, the controller controls the electromagnets at other positions to be electrified, the rest valve plates move upwards, airflow cannot flow out, the valve plate hung with the wet towel is located at the limit position below, hot airflow flows out from the strip-shaped air outlet b to dry the wet towel, the hook gear is meshed with the synchronous belt, and the controller controls the gear motor to rotate, so that the hook gear drives the hook body to rotate.

The electronic scale transmits the weight of the hook and the wet towel to the controller in real time; as the moisture in the wet towel is evaporated, the weight of the wet towel is reduced, and the weight weighed by the electronic scale is reduced; when the weight weighed by the electronic scale does not change for a period of time (40-60 s), the drying is finished by default.

After drying is finished, the controller controls the fan and the gear motor to stop working, and controls the electromagnet to be powered off, the electromagnet and the magnetizer are separated from each other, and the hook is restored to the initial state.

When the magnetizer is a permanent magnet: in the initial state, the electromagnet and the magnetizer attract each other, and each hook gear and the valve plate are positioned at the upper limit position.

After the wet towel is hung on the hook body, the controller controls the corresponding electromagnet to be electrified with reverse current, so that repulsion force is generated between the electromagnet and the magnetizer, and the hook gear and the valve plate move to the lower limit position under the action of gravity.

After the drying is finished, the electromagnet generates forward current, attraction force is generated between the electromagnet and the magnetizer, and the initial state is recovered.

The controller controls the fan to work, and the fan pumps outside air into the hook mounting part from the upper air inlet and flows into the air outlet part from the air outlet of the fan.

The user hangs wet towel on the couple, and the bar air outlet a just right with this couple is just right with bar air outlet b, and other valve plates are motionless, only dry corresponding wet towel, have reduced the waste of electric energy.

The gear motor drives the hook body to rotate, so that all parts of the wet towel are uniformly dried by airflow, and the drying speed is accelerated.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic cross-sectional structure of the present invention.

Fig. 3 is a schematic exploded view of the present invention.

Fig. 4 and 5 are schematic structural diagrams of a front case of the present invention.

Fig. 6 is a schematic view of the structure of the present invention when not in operation.

Fig. 7 is a schematic view of the structure of the present invention in operation.

Fig. 8 is an exploded view of the hook assembly of the present invention.

Fig. 9 is a schematic view of the structure of the mounting plate of the present invention.

FIG. 10 is a schematic view of a fan according to the present invention.

FIG. 11 is a schematic structural view of the present invention in the non-operating state in embodiment 2.

Fig. 12 is a schematic structural diagram of embodiment 2 of the present invention in operation.

Fig. 13 is a schematic structural view of embodiment 3 of the present invention.

Fig. 14 is a schematic structural view of a housing in embodiment 4 of the present invention.

1. A housing; 11. a hook mounting part; 12. an air outlet part; 1a, a front shell; 1b, a rear shell; 111. an electronic scale; 112. mounting a plate; 1121. an electronic scale mounting base; 1122. a transmission gear plate; 1123. rotating the disc; 1124. a synchronous belt; 1125. a gear motor; 1126. an electromagnet mounting groove; 113. a mounting plate connecting wall; 114. a hook sliding tube; 115. an electromagnet; 116. an upper inlet; 121. a strip-shaped air outlet a; 122. a slide rail; 123. a valve plate; 1231. a strip-shaped air outlet b; 1232. the valve plate abuts against the column; 1233. a magnetizer a; 1234. a driven push-up section; 124. a heater; 13. an ultraviolet lamp; 14. a reflector; 2. a fan; 21. a fan housing; 22. an impeller; 23. an air outlet of the fan; 24. a motor; 3. hooking; 30a, a hook group; 31. a hook body; 32. a pressure plate; 321. a hook connecting column; 33. a hook gear; 331. a magnetizer; 332. the inserted rod is slid.

Detailed Description

Example 1

Referring to fig. 1 to 10, an electric heating drying intelligent towel rack according to the present embodiment includes a housing 1; the casing is including air-out portion 12 and the couple installation department 11 that is located air-out portion upper end front side.

A fan 2 for guiding air outside the shell into the air outlet part is arranged in the shell.

A heater 124 is arranged in the air outlet part; the heater is a PTC heater.

A plurality of strip-shaped air outlet groups are formed at the front end of the air outlet part and are transversely arranged; the bar air outlet group includes a plurality of bar air outlets a121 that set up along vertical direction equidistance.

A valve plate 123 is slidably mounted in the air outlet part corresponding to each strip-shaped air outlet group; the valve plate is equidistantly provided with strip-shaped air outlets b1231 which can be communicated with the strip-shaped air outlets a; when the valve plate moves to the upper limit position, the strip-shaped air outlet a and the strip-shaped air outlet b are staggered with each other; when the valve plate moves to the lower limit position, the strip-shaped air outlet a is opposite to the strip-shaped air outlet b.

And hooks 3 are rotatably arranged in the hook installation parts corresponding to the positions of the strip-shaped air outlet groups.

The upper end of the hook is coaxially and slidably connected with a hook gear 33 which rotates synchronously with the hook; the upper end of the valve plate is connected with a driven push-up portion 1234 driven by the hook gear to slide upward.

An electromagnet 115 is arranged above the hook gear in the hook mounting part; the upper end of the hook gear is fixedly connected with a magnetizer 331; the electromagnet interacts with the magnetizer after being electrified.

A synchronous belt 1124 which can be in meshing transmission with each hook gear sliding downwards to the limit position is arranged in the hook mounting part; a gear motor 1125 for driving the synchronous belt to rotate is installed in the hook installation part.

A controller is arranged in the shell; the fan, the heater, the gear motor and the electromagnets are respectively and electrically connected with the controller.

The hook comprises a hook body 31 which rotates and is connected in the hook mounting part in a sliding way; the lower part of the hook body is positioned at the lower end of the hook mounting part.

The upper end of the hook body is fixedly connected with a pressure plate 32; a hook connecting column 321 is formed at the lower end of the pressure plate; the hook connecting column is fixedly connected with the hook; electronic scales 111 are respectively arranged at the lower ends of the pressure plates in the hook mounting part; the electronic scale measures the pressure of the pressure plate on the electronic scale; and each electronic scale is electrically connected with the controller.

A polygonal sliding insertion rod 332 in sliding insertion connection with the pressure plate is formed in the middle of the lower end of the hook gear.

The magnetizer is an iron block or a permanent magnet.

The middle part of the hook mounting part along the height direction is fixedly connected with a mounting plate 112; an electronic scale mounting seat 1121 is formed at the upper end of the mounting plate corresponding to each electronic scale position; the electronic scale is arranged in the electronic scale mounting seat; the upper end face of the electronic scale is higher than the upper end face of the electronic scale mounting base.

A mounting plate connecting wall 113 is formed in the middle of the inner wall of the hook mounting part in the height direction; the mounting plate is fixedly connected to the upper end of the mounting plate connecting wall.

The electromagnet is fixedly connected to the upper end of the mounting plate.

The upper end of the mounting plate is respectively and rotatably connected with a transmission gear disc 1122 and a rotating disc 1123 along the two sides of the length direction of the hook mounting part; the synchronous belt is arranged between the transmission gear disc and the rotating disc; a transmission gear is formed at the lower end of the transmission gear disc; and the output shaft of the gear motor is fixedly connected with a driving gear in meshing transmission with the transmission gear.

A hook sliding pipe 114 is formed at the bottom of the hook mounting part and is positioned right below the electronic scale mounting seat; the hook passes through the hook sliding pipe.

When the magnetizer is an iron block: in the initial state, the electromagnet is separated from the magnetizer, and each hook gear and the valve plate are positioned at the lower limit position.

The wet towel is hung on the hook body, the pressure plate is abutted to the upper end of the electronic scale, the pressure applied to the electronic scale is increased, the electronic scale transmits signals to the controller, the fan and the heater are controlled to work, and hot air for drying is generated.

Meanwhile, the controller controls the electromagnets at other positions to be powered on, the electromagnets and the magnetizer attract each other, the rest hook gears drive the valve plate to move upwards, airflow cannot flow out, the valve plate hung with the wet towel is located at the lower limit position, hot airflow flows out from the strip-shaped air outlet b to dry the wet towel, the hook gears are meshed with the synchronous belt, and the controller controls the gear motor to rotate, so that the hook gears drive the hook bodies to rotate.

The electronic scale transmits the weight of the hook and the wet towel to the controller in real time; as the moisture in the wet towel is evaporated, the weight of the wet towel is reduced, and the weight weighed by the electronic scale is reduced; when the weight weighed by the electronic scale does not change for a period of time (40-60 s), the drying is finished by default.

After drying is finished, the controller controls the fan, the heater and the gear motor to stop working, and controls the electromagnet to be powered off, the electromagnet and the magnetizer are separated from each other, and the hook is restored to the initial state.

When the magnetizer is a permanent magnet: in the initial state, the electromagnet and the magnetizer attract each other, and each hook gear and the valve plate are positioned at the upper limit position.

After the wet towel is hung on the hook body, the controller controls the corresponding electromagnet to be electrified with reverse current, so that repulsion force is generated between the electromagnet and the magnetizer, and the hook gear and the valve plate move to the lower limit position under the action of gravity.

After the drying is finished, the electromagnet generates transient forward current, attraction force is generated between the electromagnet and the magnetizer, and the initial state is recovered.

The valve plate is L-shaped; the valve plate comprises a vertical valve plate and a transverse valve plate, wherein the vertical valve plate is vertically arranged, and the transverse valve plate is vertically arranged with the vertical valve plate; the strip-shaped air outlet b is arranged on the vertical valve plate.

The upper end of the transverse valve plate is formed with a valve plate connecting column, and the driven upward pushing part is formed on the upper part of the valve plate connecting column.

When the magnetizer and the electromagnet attract each other, the hook gear drives the valve plate to move upwards to the limit position, and the strip-shaped air outlet b and the strip-shaped air outlet a are mutually staggered; when the pressure plate supports the upper end of the electronic scale, the valve plate moves downwards to the extreme position under the action of self gravity, the transverse valve plate supports against the inner bottom surface of the hook mounting part at the moment, and the valve plate is not in contact with the hook gear, so that the electronic scale is prevented from being interfered.

The fan is a cross-flow fan; the fan is positioned right above the air outlet part; the fan comprises a fan shell 21 and an impeller 22 which is rotatably connected in the fan shell; the lower end of the fan shell is connected to the upper end of the mounting plate connecting wall.

A motor 24 is fixedly connected to one side of the fan shell; and an output shaft of the motor is fixedly connected with the impeller.

The lower end of the fan shell is provided with a fan air outlet 23 communicated with the air outlet part; an upper air inlet 116 communicated with an air inlet of the fan shell is formed in the front part of the upper end of the hook mounting part.

The controller controls the fan to work, and the fan pumps outside air into the hook mounting part from the upper air inlet and flows into the air outlet part from the air outlet of the fan.

Slide rails 122 are symmetrically formed on the inner wall of the air outlet part at two sides of the strip-shaped air outlet group; the valve plate is connected between the two sliding rails in a sliding mode.

The lower end of the hook is provided with two symmetrically arranged hook bodies; at least the outer end part of each hook body is in a long strip shape, and the cross section of each hook body along the axial direction of the hook is in an arc shape.

The hook can be used for simultaneously hanging two wet towels, the outer end portion of the hook is in a long strip shape, so that after the wet towels are hung on the hook, the wet towels can be unfolded along the hook body, the contact area between the wet towels and air is increased, and the drying speed is accelerated.

The shell structurally comprises a front shell 1a and a rear shell 1b which are connected through screws when being manufactured; the front shell and the rear shell are both L-shaped.

The front shell comprises a front vertical shell and a front transverse shell, wherein the front vertical shell is vertically arranged, and the front transverse shell is vertically arranged with the front vertical shell; the strip-shaped air outlet group is arranged at the front end of the front vertical shell; the hook sliding pipe is arranged at the bottom of the front transverse shell.

The rear shell comprises a rear vertical shell which is vertically arranged and a rear transverse shell which is vertically arranged with the front vertical shell; the heater is fixedly connected to the front end of the rear vertical shell; the upper air inlet is arranged at the front part of the upper end of the rear horizontal shell.

The user hangs wet towel on the couple, and the bar air outlet a just right with this couple is just right with bar air outlet b, and other valve plates can't ventilate, only dries corresponding wet towel, has reduced the waste of electric energy.

The gear motor drives the hook body to rotate, so that all parts of the wet towel are uniformly dried by hot air flow, and the drying speed is accelerated.

Example 2

As shown in fig. 11 to 12, the present embodiment is different from the previous embodiments in that: an electric heating drying intelligent towel rack comprises a shell 1; the casing is including air-out portion 12 and the couple installation department 11 that is located air-out portion upper end front side.

A fan 2 for guiding air outside the shell into the air outlet part is arranged in the shell.

A heater 124 is arranged in the air outlet part; the heater is a PTC heater.

A plurality of strip-shaped air outlet groups are formed at the front end of the air outlet part and are transversely arranged; the bar air outlet group includes a plurality of bar air outlets a121 that set up along vertical direction equidistance.

A valve plate 123 is slidably mounted in the air outlet part corresponding to each strip-shaped air outlet group; the valve plate is equidistantly provided with strip-shaped air outlets b1231 which can be communicated with the strip-shaped air outlets a; when the valve plate moves to the upper limit position, the strip-shaped air outlet a and the strip-shaped air outlet b are staggered with each other; when the valve plate moves to the lower limit position, the strip-shaped air outlet a is opposite to the strip-shaped air outlet b.

And hooks 3 are rotatably arranged in the hook installation parts corresponding to the positions of the strip-shaped air outlet groups.

The upper end of the hook is coaxially and slidably connected with a hook gear 33 which rotates synchronously with the hook; and a valve plate abutting column 1232 positioned below the hook gear is formed at the upper end of the transverse valve plate.

Electromagnets 115 are fixedly connected above each valve plate in the hook mounting part; the upper end of the transverse valve plate is fixedly connected with a magnetizer a1233 which is mutually attracted with the electrified electromagnet; the electromagnet interacts with the magnetizer after being electrified.

A synchronous belt 1124 which can be in meshing transmission with each hook gear sliding downwards to the limit position is arranged in the hook mounting part; a gear motor 1125 for driving the synchronous belt to rotate is installed in the hook installation part.

A controller is arranged in the shell; the fan, the heater, the gear motor and the electromagnets are respectively and electrically connected with the controller.

The hook comprises a hook body 31 which rotates and is connected in the hook mounting part in a sliding way; the lower part of the hook body is positioned at the lower end of the hook mounting part.

The upper end of the hook body is fixedly connected with a pressure plate 32; a hook connecting column 321 is formed at the lower end of the pressure plate; the hook connecting column is fixedly connected with the hook; electronic scales 111 are respectively arranged at the lower ends of the pressure plates in the hook mounting part; the electronic scale measures the pressure of the pressure plate on the electronic scale; and each electronic scale is electrically connected with the controller.

A polygonal sliding insertion rod 332 in sliding insertion connection with the pressure plate is formed in the middle of the lower end of the hook gear.

The magnetizer is an iron block or a permanent magnet.

The middle part of the hook mounting part along the height direction is fixedly connected with a mounting plate 112; an electronic scale mounting seat 1121 is formed at the upper end of the mounting plate corresponding to each electronic scale position; the electronic scale is arranged in the electronic scale mounting seat; the upper end face of the electronic scale is higher than the upper end face of the electronic scale mounting base.

A mounting plate connecting wall 113 is formed in the middle of the inner wall of the hook mounting part in the height direction; the mounting plate is fixedly connected to the upper end of the mounting plate connecting wall.

An electromagnet installation groove 1126 is formed in the rear of the installation plate; the electromagnet mounting seat is arranged in the electromagnet mounting groove.

The upper end of the mounting plate is respectively and rotatably connected with a transmission gear disc 1122 and a rotating disc 1123 along the two sides of the length direction of the hook mounting part; the synchronous belt is arranged between the transmission gear disc and the rotating disc; a transmission gear is formed at the lower end of the transmission gear disc; and the output shaft of the gear motor is fixedly connected with a driving gear in meshing transmission with the transmission gear.

A hook sliding pipe 114 is formed at the bottom of the hook mounting part and is positioned right below the electronic scale mounting seat; the hook passes through the hook sliding pipe.

When the magnetizer is an iron block: in the initial state, the electromagnet is separated from the magnetizer, and each hook gear and the valve plate are positioned at the lower limit position.

The wet towel is hung on the hook body, the pressure plate is abutted to the upper end of the electronic scale, the pressure applied to the electronic scale is increased, the electronic scale transmits signals to the controller, the fan and the heater are controlled to work, and hot air for drying is generated.

Meanwhile, the controller controls the electromagnets at other positions to be powered on, the electromagnets and the magnetizer attract each other, the rest valve plates push the hook gear to move upwards, airflow cannot flow out, the valve plate hung with the wet towel is located at the lower limit position, hot airflow flows out from the strip-shaped air outlet b to dry the wet towel, the hook gear is meshed with the synchronous belt, and the controller controls the gear motor to rotate, so that the hook gear drives the hook body to rotate.

The electronic scale transmits the weight of the hook and the wet towel to the controller in real time; as the moisture in the wet towel is evaporated, the weight of the wet towel is reduced, and the weight weighed by the electronic scale is reduced; when the weight weighed by the electronic scale does not change for a period of time (40-60 s), the drying is finished by default.

After drying is finished, the controller controls the fan, the heater and the gear motor to stop working, and controls the electromagnet to be powered off, the electromagnet and the magnetizer are separated from each other, and the hook is restored to the initial state.

When the magnetizer is a permanent magnet: in the initial state, the electromagnet and the magnetizer attract each other, and each hook gear and the valve plate are positioned at the upper limit position.

After the wet towel is hung on the hook body, the controller controls the corresponding electromagnet to be electrified with reverse current, so that repulsion force is generated between the electromagnet and the magnetizer, and the hook gear and the valve plate move to the lower limit position under the action of gravity.

After the drying is finished, the electromagnet generates transient forward current, attraction force is generated between the electromagnet and the magnetizer, and the initial state is recovered.

Example 3

As shown in fig. 13, the present embodiment is modified from embodiment 1 in the following manner: the lower end of the rotating sleeve is fixedly connected with a hook group 30 a; the hook group comprises hook bodies which are fixedly connected end to end in sequence along the vertical direction.

The hook group can hang a plurality of light-weight articles (such as socks and handkerchiefs) and dry the articles, so that the space utilization rate is increased.

Example 4

As shown in fig. 14, the present embodiment is modified from embodiment 1 in the following manner: the lower end of the hook mounting part is positioned outside each hook sliding tube and is provided with an ultraviolet lamp 13; the ultraviolet lamp is electrically connected with the controller.

And a reflector 14 extending forwards and upwards is formed at the lower end of the air outlet part.

When the wet towel is hung on the hook, the controller controls the corresponding ultraviolet lamp to work to sterilize the wet towel; during the rotation process of the wet towel, the ultraviolet lamp can perform comprehensive sterilization treatment on the outer side of the wet towel.

Part of ultraviolet light is reflected by the reflecting plate and irradiates into the inner side of the wet towel from the lower end of the wet towel to sterilize the inner side of the wet towel.

Claims (7)

1. An electric heating drying intelligent towel rack comprises a shell; the method is characterized in that: the shell comprises an air outlet part and a hook mounting part positioned on the front side of the upper end of the air outlet part;

a fan which guides air outside the shell into the air outlet part is arranged in the shell;

a plurality of strip-shaped air outlet groups are formed at the front end of the air outlet part and are transversely arranged; the strip-shaped air outlet group comprises a plurality of strip-shaped air outlets a which are arranged at equal intervals along the vertical direction;

a valve plate is slidably mounted in the air outlet part corresponding to the position of each strip-shaped air outlet group; the valve plate is equidistantly provided with strip-shaped air outlets b which can be communicated with the strip-shaped air outlets a;

hooks are rotatably arranged in the hook mounting parts corresponding to the positions of the strip-shaped air outlet groups;

the upper end of the hook is coaxially and slidably connected with a hook gear which rotates synchronously with the hook; the upper end of the valve plate is connected with a driven push-up part driven by the hook gear to slide upwards;

an electromagnet is arranged above the hook gear in the hook mounting part; the upper end of the hook gear is fixedly connected with a magnetizer; the electromagnet interacts with the magnetizer after being electrified;

a synchronous belt which can be in meshing transmission with each hook gear sliding downwards to the limit position is arranged in the hook mounting part; a gear motor for driving the synchronous belt to rotate is arranged in the hook mounting part;

a controller is arranged in the shell; the fan, the gear motor and the electromagnets are electrically connected with the controller respectively.

2. The electric heating drying intelligent towel rack as claimed in claim 1, wherein: the hook comprises a hook body which rotates and is connected in the hook mounting part in a sliding way; the lower part of the hook body is positioned at the lower end of the hook mounting part;

the upper end of the hook body is fixedly connected with a pressure plate; electronic scales are respectively arranged at the lower ends of the pressure plates in the hook mounting part; each electronic scale is electrically connected with the controller;

and a polygonal sliding insertion rod which is in sliding insertion connection with the pressure plate is formed in the middle of the lower end of the hook gear.

3. The electric heating drying intelligent towel rack as claimed in claim 1, wherein: the magnetizer is an iron block or a permanent magnet.

4. An electro-thermal drying intelligent towel rack as claimed in claim 2, wherein: the middle part of the hook mounting part along the height direction is fixedly connected with a mounting plate; an electronic scale mounting seat is formed at the upper end of the mounting plate corresponding to each electronic scale position; the electronic scale is arranged in the electronic scale mounting seat; the upper end surface of the electronic scale is higher than the upper end surface of the electronic scale mounting seat;

the electromagnet is fixedly connected to the upper end of the mounting plate;

the upper end of the mounting plate is respectively and rotatably connected with a transmission gear disc and a rotating disc along the two sides of the length direction of the hook mounting part; the synchronous belt is arranged between the transmission gear disc and the rotating disc; a transmission gear is formed at the lower end of the transmission gear disc; an output shaft of the gear motor is fixedly connected with a driving gear in meshing transmission with the transmission gear;

a hook sliding pipe is formed at the bottom of the hook mounting part and is positioned right below the electronic scale mounting seat; the hook passes through the hook sliding pipe.

5. The electric heating drying intelligent towel rack as claimed in claim 1, wherein: the valve plate is L-shaped; the valve plate comprises a vertical valve plate and a transverse valve plate, wherein the vertical valve plate is vertically arranged, and the transverse valve plate is vertically arranged with the vertical valve plate; the strip-shaped air outlet b is arranged on the vertical valve plate;

a valve plate connecting column is formed at the upper end of the transverse valve plate, and the driven push-up part is formed at the upper part of the valve plate connecting column;

when the magnetizer and the electromagnet attract each other, the hook gear drives the valve plate to move upwards to the limit position, and the strip-shaped air outlet b and the strip-shaped air outlet a are mutually staggered; when the pressure plate butts against the upper end of the electronic scale, the valve plate moves downwards to the extreme position under the action of self gravity, the transverse valve plate butts against the inner bottom surface of the hook mounting part at the moment, and the valve plate is not in contact with the hook gear.

6. The electric heating drying intelligent towel rack as claimed in claim 1, wherein: the fan is a cross-flow fan; the fan is positioned right above the air outlet part; the fan comprises a fan shell and an impeller which is rotatably connected in the fan shell; the middle part of the inner wall of the hook mounting part in the height direction is provided with a mounting plate connecting wall; the lower end of the fan shell is connected to the upper end of the connecting wall of the mounting plate;

one side of the fan shell is fixedly connected with a motor; an output shaft of the motor is fixedly connected with the impeller;

the lower end of the fan shell is a fan air outlet communicated with the air outlet part; an upper air inlet communicated with an air inlet of the fan shell is formed in the front of the upper end of the hook mounting portion.

7. The electric heating drying intelligent towel rack as claimed in claim 1, wherein: sliding rails are symmetrically formed on the inner wall of the air outlet part at two sides of the strip-shaped air outlet group; the valve plate is connected between the two sliding rails in a sliding mode.

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