CN210021667U - Photo-thermal drying bacteriostatic device based on halogen lamp beads - Google Patents

Abstract

The utility model discloses a dry antibacterial ware of light and heat based on halogen lamp pearl, this antibacterial ware includes the shell, set firmly the inner cover in this shell, set firmly at least one halogen lamp stand in this inner cover, set up in this inner cover and install at least one halogen lamp pearl on this at least one halogen lamp stand, be equipped with the light-transmitting part that the light and heat that supplies halogen lamp pearl to produce outwards gived off in this inner cover, be equipped with a plurality of bleeder vents on this shell, be equipped with the accommodation space between this shell and this inner cover, be provided with a plurality of hygroscopic agent granules in this accommodation space. Use the utility model discloses a during the dry bacteriostat of light and heat based on halogen lamp pearl, place the bacteriostat in needs drying, antibacterial place (like in wardrobe, shoes) before, to halogen lamp pearl circular telegram production light and heat, the heat that produces among the luminous process of halogen lamp pearl is to the accommodation space transmission, can carry out the drying to the absorbent moisture of absorbent granule, and the produced vapor of drying process can outwards give off by the bleeder vent.

Description

Photo-thermal drying bacteriostatic device based on halogen lamp beads

Technical Field

The utility model relates to a dry antibacterial ware of light and heat based on halogen lamp pearl.

Background

In the spring and summer along the coast and near the water, the air humidity is very high due to the air temperature. For articles such as bedding and clothing, food and the like which are easy to mildew, the storage is very unfavorable when the environment is encountered.

In winter in middle and high latitude areas, as the activity of sweat glands of teenagers is developed, particularly, sweat on feet is abundant, the heat preservation and the moisture dissipation in shoes become a pair of contradictory functional requirements. Similarly, due to the existence and proliferation of fungi, the damp and smelly inside shoes is a problem of headache of teenagers and parents thereof, and an effective technical means for solving the problem is not available.

In the traditional technology, air conditioner and dehumidifier technology is basically adopted for dehumidifying indoor air, which is effective for an open indoor space, but for bedding and clothing placed in a cabinet and grains stored in a container, a household air conditioner which is not started for 24 hours is not an optimal technical scheme; similarly, the technical scheme of solving the problem of wearing wet and smelly teenager shoes in one day by using an air conditioner and a dehumidifier is not only wasteful but also poor in effect.

Therefore, there is a need in daily life for a simple, easy-to-use, safe and effective desiccation-bacteriostasis device for small spaces to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to prior art's above-mentioned defect, provide a dry antibacterial ware of light and heat based on halogen lamp pearl.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a construct dry bacteriostat of light and heat ware based on halogen lamp pearl, this bacteriostat includes the shell, set firmly the inner cover in this shell, set firmly at least one halogen lamp stand in this inner cover, set up in this inner cover and install at least one halogen lamp pearl on this at least one halogen lamp stand, be equipped with the light-transmitting part that the light and heat that supply halogen lamp pearl to produce outwards gived off in this inner cover, be equipped with a plurality of bleeder vents on this shell, be equipped with the accommodation space between this shell and this inner cover, be provided with a plurality of hygroscopic agent granules in this accommodation space.

In the photo-thermal drying bacteriostatic device based on the halogen lamp beads, a first reflective coating is coated on the outer wall surface of the inner cover, and a second reflective coating is coated on the inner wall surface of the outer cover.

In the photo-thermal drying bacteriostatic device based on the halogen lamp beads, the outer wall surface of the shell is coated with a bacteriostatic coating.

Among the dry bacteriostat of light and heat based on halogen lamp pearl, this bacteriostat still locates the outer antibacterial cover of this shell including the cover, this antibacterial cover is closely netted.

Among the light and heat drying bacteriostat based on halogen lamp pearl, this at least one halogen lamp stand is including setting firmly first halogen lamp stand and the second halogen lamp stand in this inner cover, this at least one halogen lamp pearl is including installing first halogen lamp pearl and second halogen lamp pearl on this first halogen lamp stand and second halogen lamp stand.

In the photo-thermal drying bacteriostatic device based on halogen lamp beads, a temperature sensor for detecting the temperature in the inner cover is further fixedly arranged between the first halogen lamp holder and the second halogen lamp holder in the inner cover.

Among the dry antibacterial ware of light and heat based on halogen lamp pearl, this shell surface is equipped with power socket, set firmly the control circuit board of being connected with this power socket electricity with the corresponding position department of this power socket in this shell, this control circuit board passes through control circuit and first halogen lamp pearl and second halogen lamp pearl and this temperature sensor electricity is connected and is used for controlling this first halogen lamp pearl and second halogen lamp pearl operating current according to the temperature data that this temperature sensor detected.

In the photo-thermal drying bacteriostatic device based on halogen lamp beads, the control circuit comprises a control switch electrically connected with the first halogen lamp beads and the second halogen lamp beads and used for controlling the on or off of the first halogen lamp beads and the second halogen lamp beads, and the control switch is arranged on the surface of the shell.

In the photo-thermal drying bacteriostatic device based on halogen lamp beads, the inner cover is a transparent inner cover, the light transmission part is a plurality of light transmission holes arranged on the inner cover, the outer cover is a non-transparent outer cover, and the moisture absorbent particles are transparent moisture absorbent particles.

Among the dry antibacterial ware of light and heat based on halogen lamp pearl, be equipped with the port that can communicate with this accommodation space on this shell, be equipped with on this port and cover and be equipped with the buckle closure that dismantled and assembled lid located on this port.

Implement the utility model discloses a dry bacteriostat of light and heat based on halogen lamp pearl has following beneficial effect: use the utility model discloses a during the dry bacteriostat of light and heat based on halogen lamp pearl, place the bacteriostat in needs drying, antibacterial place (like in wardrobe, shoes) before, to halogen lamp pearl circular telegram production light and heat, the heat that produces among the luminous process of halogen lamp pearl is to the accommodation space transmission, can carry out the drying to the absorbent moisture of absorbent granule, and the produced vapor of drying process can outwards give off by the bleeder vent. Furthermore, because the light generated by the halogen lamp beads after being electrified contains ultraviolet rays, the ultraviolet rays can irradiate the accommodating space through the light transmission part, and the effects of bacteriostasis and sterilization of the surface irradiation of the absorbent particles can be achieved. After drying and sterilization are finished, the power supply is disconnected, the dried and sterilized bacteriostatic device is placed in a place needing drying and bacteriostasis, moisture absorbent particles absorb surrounding moisture and bacteria mixed in the moisture, after a period of time, a user takes out the bacteriostatic device and conducts energization again, halogen lamp beads are electrified to generate light and heat, and the moisture absorbent particles in the bacteriostatic device are dried and sterilized, so that circular drying and sterilization are achieved.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

fig. 1 is a schematic cross-sectional structure diagram of the photo-thermal drying bacteriostatic device based on halogen lamp beads;

fig. 2 is a schematic diagram of the overall structure of the photo-thermal drying bacteriostatic device based on halogen lamp beads;

fig. 3 is the utility model discloses control circuit schematic diagram in dry bacteriostat of light and heat based on halogen lamp pearl.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

As shown in fig. 1 and 2, the utility model discloses a dry bacteriostat of light and heat ware first embodiment based on halogen lamp pearl, this bacteriostat 1 includes shell 2, set firmly inner cover 3 in this shell 2, set firmly at least one halogen lamp stand in this inner cover 3, set up in this inner cover 3 and install at least one halogen lamp pearl on this at least one halogen lamp stand, be equipped with the light-transmitting part 8 that supplies the light and heat that halogen lamp pearl produced to outwards give off on this inner cover 3, be equipped with a plurality of bleeder vents 9 on this shell 2, be equipped with accommodation space 10 between this shell 2 and this inner cover 3, be provided with a plurality of absorbent particles (not shown) in this accommodation space 10.

In this embodiment, the housing 2 includes an upper shell 11 and a lower shell 12, the inner cover 3 includes an upper cover and a lower cover, the upper cover and the upper shell 11 are fixedly connected through a connection column 20, the lower cover and the lower shell 12 are fixedly connected through a connection, the upper cover is opposite to the lower cover, the upper shell 11 is opposite to the lower shell 12, in this embodiment, the upper shell 11 and the lower shell 12 are screwed through a screw 13, and in other embodiments, the upper shell 11 and the lower shell 12 can be detachably connected through bonding, welding, clamping and the like.

Use the utility model discloses a during dry bacteriostat 1 of light and heat based on halogen lamp pearl, place bacteriostat 1 in needs drying, antibacterial place (like in wardrobe, shoes) before, to halogen lamp pearl circular telegram production light and heat, the heat that produces among the luminous process of halogen lamp pearl is to accommodation space 10 transmission, can carry out the drying to the absorbent moisture of absorbent granule, and the produced vapor of drying process can outwards give off by bleeder vent 9. Furthermore, because the light generated by the halogen lamp beads after being electrified contains ultraviolet rays, the ultraviolet rays can irradiate the accommodating space 10 through the light transmission part 8, and the effects of bacteriostasis and sterilization of the surface irradiation of the absorbent particles can be achieved. After drying and sterilization are finished, the power supply is disconnected, the bacteriostatic device 1 after drying and sterilization is placed in a place needing drying and bacteriostasis, moisture absorbent particles absorb surrounding moisture and bacteria mixed in the moisture, after a period of time, a user takes the bacteriostatic device 1 out to be electrified again, the halogen lamp beads are electrified to generate light and heat, and the hygroscopic agent particles in the bacteriostatic device 1 are dried and sterilized, so that circular drying and sterilization are realized.

Further, in order to facilitate the light to irradiate more moisture absorbent particles and achieve better sterilization and bacteriostasis effects, the outer wall surface of the inner cover 3 is coated with a first reflective coating 14, and the inner wall surface of the shell 2 is coated with a second reflective coating 15.

Preferably, the outer wall surface of the shell 2 is coated with an antibacterial coating which is made of antibacterial materials. The bacteriostatic device 1 further comprises a bacteriostatic sleeve (not shown) sleeved outside the shell 2, wherein the bacteriostatic sleeve is in a dense net shape and is also made of bacteriostatic materials.

In the present embodiment, the at least one halogen lamp holder includes first and second halogen lamp holders 4 and 5 fixedly installed in the inner cover 3, and the at least one halogen lamp bead includes first and second halogen lamp beads 6 and 7 installed on the first and second halogen lamp holders 4 and 5.

In order to facilitate the temperature detection in the inner cover 3 and prevent safety accidents caused by overhigh temperature and damage to surrounding objects, a temperature sensor 16 for detecting the temperature in the inner cover 3 is fixedly arranged between the first halogen lamp holder 4 and the second halogen lamp holder 5 in the inner cover 3.

Specifically, as shown in fig. 3, a power socket 17 is disposed on the surface of the housing 2, a control circuit board 18 electrically connected to the power socket 17 is fixedly disposed at a position corresponding to the power socket 17 in the housing 2, and the control circuit board 18 is electrically connected to the first halogen lamp bead 6, the second halogen lamp bead 7 and the temperature sensor 16 through a control circuit and is configured to control operating currents of the first halogen lamp bead 6 and the second halogen lamp bead 7 according to temperature data detected by the temperature sensor 16. The control circuit comprises a control switch which is electrically connected with the first halogen lamp bead 6 and the second halogen lamp bead 7 and is used for controlling the on or off of the first halogen lamp bead 6 and the second halogen lamp bead 7, and the control switch is arranged on the surface of the shell 2.

U1 is CPU, K1 is control switch (key switch), L1, L2 are first halogen lamp pearl 6 and second halogen lamp pearl 7 respectively, Q1, Q2 are the drive MOSFET of first halogen lamp pearl 6 and second halogen lamp pearl 7 respectively, CN1 is power socket 17, CN2 is temperature sensor 16 socket, RT is the temperature fuse.

Preferably, the inner cover 3 is a transparent inner cover 3, the light-transmitting portions 8 are a plurality of light-transmitting holes formed in the inner cover 3, the housing 2 is a non-transparent housing 2, and the desiccant particles are transparent desiccant particles.

In order to facilitate replacement of the moisture absorbent particles in the accommodating space 10, a port capable of communicating with the accommodating space 10 is provided on the housing 2, and a buckle cover 19 covering the port is provided on the port and detachably covered on the port. After the bacteriostatic device 1 is used for a period of time, the user can open the buckle cover 19 to replace the absorbent particles.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a dry bacteriostat of light and heat ware based on halogen lamp pearl, its characterized in that, bacteriostat includes the shell, set firmly in inner cover in the shell, set firmly in at least one halogen lamp stand in the inner cover, set up in the inner cover and install in at least one halogen lamp pearl on at least one halogen lamp stand, be equipped with the light-transmitting portion that the light and heat that supplies halogen lamp pearl to produce outwards gived on the inner cover, be equipped with a plurality of bleeder vents on the shell, the shell with be equipped with the accommodation space between the inner cover, be provided with a plurality of hygroscopic agent granules in the accommodation space.

2. The photothermal drying bacteriostat based on halogen lamp beads as claimed in claim 1, wherein a first reflective coating is coated on the outer wall surface of the inner cover, and a second reflective coating is coated on the inner wall surface of the outer cover.

3. The photothermal drying bacteriostat device based on the halogen lamp beads as claimed in claim 2, wherein the outer wall surface of the shell is coated with a bacteriostasis coating.

4. The photothermal drying bacteriostatic device based on the halogen lamp beads as claimed in claim 1, wherein the bacteriostatic device further comprises a bacteriostatic sleeve sleeved outside the shell, and the bacteriostatic sleeve is in a dense net shape.

5. The photothermal drying bacteriostatic device based on halogen lamp beads as claimed in claim 1, wherein said at least one halogen lamp holder comprises a first halogen lamp holder and a second halogen lamp holder fixedly arranged in said inner cover, said at least one halogen lamp bead comprises a first halogen lamp bead and a second halogen lamp bead arranged on said first halogen lamp holder and said second halogen lamp holder.

6. The photothermal drying bacteriostatic device based on the halogen lamp beads as claimed in claim 5, wherein a temperature sensor for detecting the temperature in the inner cover is further fixedly arranged between the first halogen lamp holder and the second halogen lamp holder in the inner cover.

7. The photothermal drying bacteriostatic device based on halogen lamp beads as claimed in claim 6, wherein a power socket is provided on the surface of the housing, a control circuit board electrically connected with the power socket is fixedly arranged at a position corresponding to the power socket in the housing, and the control circuit board is electrically connected with the first halogen lamp beads, the second halogen lamp beads and the temperature sensor through a control circuit and is used for controlling the working current of the first halogen lamp beads and the second halogen lamp beads according to the temperature data detected by the temperature sensor.

8. The photothermal drying bacteriostatic device based on halogen lamp beads as claimed in claim 7, wherein said control circuit comprises a control switch electrically connected with said first and second halogen lamp beads and used for controlling said first and second halogen lamp beads to be turned on or off, said control switch being disposed on the surface of said housing.

9. The photothermal drying bacteriostat based on halogen lamp beads of claim 1, wherein the inner cover is a transparent inner cover, the light transmitting portions are a plurality of light transmitting holes arranged on the inner cover, the housing is a non-transparent housing, and the desiccant particles are transparent desiccant particles.

10. The photothermal drying bacteriostatic device based on the halogen lamp beads as claimed in claim 1, wherein the housing is provided with a port which can be communicated with the accommodating space, and the port is provided with a buckle cover which is covered with a detachable cover and arranged on the port.

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