CN113387036A - A dehydrating unit for electronic components deposits - Google Patents

Abstract

The invention relates to the technical field of electronic components and discloses a dehumidifying device for storing electronic components, which comprises a shell, wherein a dehumidifying mechanism is movably connected in the shell, and the dehumidifying mechanism comprises a moisture sensing assembly for detecting the humidity of air in the shell and a water absorbing assembly for drying the air in the shell; through the inside air of suction nozzle shell directly with connect first and connect the silver contact between the two, the inside air moisture of shell can be adsorbed by the silver and lead to connect first and connect two, and then realize the inside moisture of automated inspection shell, effectually prevent that the inside humidity of shell from too high causing electronic components's corruption damage, the air current thick liquid rotates inside making the inside air admission circulation of shell room simultaneously, the inside air of shell is dried by dry ball, and then realize the air moisture of in time absorbing dry shell, effectual protection electronic components's performance and quality, improve electronic components storage tool's intellectuality and reliability.

Description

A dehydrating unit for electronic components deposits

Technical Field

The invention relates to the technical field of electronic components, in particular to a dehumidifying device for storing electronic components.

Background

The electronic components are the components of electronic components and small machines and instruments, and the electronic components themselves are usually composed of a plurality of parts, can be commonly used in the similar products, often refer to some parts of industries such as electric appliances, radio, instruments and the like, and are the general names of electronic devices such as capacitors, transistors, hairsprings, spiral springs and the like, the electronic components belong to precise electronic components, therefore, the electronic components have higher requirements on the storage temperature and humidity, meanwhile, the storage process of the electronic components also needs to prevent the damage and the influence of static electricity on the electronic components, the existing electronic components are generally stored in a simple storage rack, the corrosion of metal components inside the electronic components caused by the increase of the humidity in the air is particularly easy to cause the damage of the electronic components due to the increase of the humidity in the air, and meanwhile, the storage process of the electronic components also can generate static electricity due to mutual contact friction, the continuous accumulation of static can make the formation electric field and then adsorb the gathering at electronic components's surface and inside with dust in the air, and then causes electronic components's short circuit and open circuit, and then also can cause electronic components's inefficacy damage, and moisture in the inside humidity of present electronic components storage tool can not in time perception storage space and in time the dry air, also can not discharge the static conduction that electronic components produced.

Therefore, in order to solve the problems, a dehumidifying device for storing electronic components is needed, air inside an air inlet nozzle shell directly contacts with a first connector and a second connector through a cotton strip, air moisture inside the shell can be adsorbed by the cotton strip and is conducted to the first connector and the second connector, and then moisture inside the shell can be automatically detected.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a dehumidifying device for storing electronic components, which has the advantages of automatically detecting moisture, filtering and drying moisture, conducting and eliminating static electricity in time and prolonging the storage time, and solves the problems that the existing electronic components are generally only stored in a simple storage rack, and the electronic components which are sensitive to the external environment temperature and humidity are particularly easy to damage due to corrosion of metal components in the electronic components caused by humidity increase in the air, meanwhile, static electricity can be generated in the storing process of the electronic components due to mutual contact friction, and the continuous accumulation of the static electricity can form an electric field to adsorb and collect dust in the air on the surface and the inside of the electronic components, further cause short circuit and open circuit of the electronic components, further cause failure and damage of the electronic components, and the existing electronic component storing tool can not sense the humidity in a storage space in time and dry the air in time Medium moisture content, and static electricity generated in the electronic components cannot be conducted and discharged.

In order to realize the purposes of automatically detecting moisture, filtering and drying the moisture, conducting and eliminating static electricity in time and prolonging the preservation time, the invention provides the following technical scheme: the utility model provides a dehydrating unit for electronic components deposits, includes the shell, the inside swing joint of shell has dehumidification mechanism, and dehumidification mechanism includes the moisture perception subassembly that detects the inside air humidity of shell, is used for the dry subassembly that absorbs water of the inside air of shell, and moisture perception subassembly swing joint is in the inside of shell, and the subassembly swing joint that absorbs water is in the inside of shell.

Preferably, moisture perception subassembly includes the suction nozzle, suction nozzle fixed connection is in the inside of shell, and the inboard fixedly connected with insulating branch of suction nozzle, the outside fixedly connected with joint one of insulating branch, the outside fixedly connected with mount of insulating branch, the outside fixedly connected with joint two of mount, the outside fixedly connected with silver that connects two.

Preferably, the subassembly that absorbs water includes the circulation room, and the inside at the shell is seted up to the circulation room, and the inside fixedly connected with motor of circulation room, the inside swing joint of circulation room have the runner, and the inside swing joint of circulation room has the gas to flow the head, and the outside fixedly connected with revolving plate of gas flow head, the inside fixedly connected with filter of circulation room, the inside swing joint of filter has dry ball, the inside fixedly connected with blast pipe of shell.

Preferably, the inside swing joint of shell has the electrostatic protection mechanism who is used for electronic components to eliminate static, and electrostatic protection mechanism includes the mounting panel, and mounting panel fixed connection is in the inside of shell, the inboard fixedly connected with electric conductor of mounting panel, the inboard fixedly connected with bar copper of shell, the outside fixedly connected with conduction pad of shell.

Preferably, an external power supply is fixedly connected to the inside of the housing, and a button is fixedly connected to the outside of the housing.

Preferably, the air inlet nozzle corresponds to and is matched with the circulation chamber in specification, the first connector corresponds to and is matched with the second connector in specification, two ends of the cotton sliver are fixedly connected to the outside of the first connector and the outside of the second connector respectively, the airflow slurry corresponds to and is matched with the circulation chamber in specification, the rotating wheel is fixedly connected with the motor through a connecting shaft, the rotating wheel corresponds to and is matched with the rotating plate in specification, the filter plate corresponds to and is matched with the circulation chamber in specification, the drying ball corresponds to and is matched with the filter plate in specification, the drying ball mainly comprises a drying agent absorbing water, and the exhaust pipe corresponds to and is matched with the circulation chamber in specification.

Preferably, the installation plates of the conductors correspond in position and are matched in specification, the copper bar is electrically connected with the conductors, the contact part of the copper bar and the shell adopts an insulation design, and the conduction pad is electrically connected with the copper bar.

Preferably, the external power supply is electrically connected with the button, the button is electrically connected with the first connector, the second connector is electrically connected with the motor, and the motor is electrically connected with the external power supply.

Advantageous effects

1. This a dehydrating unit for electronic components deposits, through the inside air of suction nozzle shell directly with connect first and connect the silver contact between the two, the inside air moisture of shell can be adsorbed and lead to connect first and connect two by the silver, and then realize the inside moisture of automated inspection shell, the effectual corrosion damage that prevents the inside humidity of shell and cause electronic components that prevents, the air current thick liquid rotates inside making the inside air of shell get into the circulation room simultaneously, the inside air of shell is dried by the drying ball, and then realize in time absorbing the air moisture of dry shell, improve the time that electronic components deposited, effectual protection electronic components's performance and quality, improve the intellectuality and the reliability of electronic components storage tool.

2. This a dehydrating unit for electronic components deposits conducts the static that electronic components produced through the timely collection of electric conductor, conducts the outside of shell under the transport effect of bar copper simultaneously, and then realizes in time conducting and eliminates static, and the effectual short circuit that prevents electronic components because the inside spare part that static caused and the incident that opens circuit take place, has improved the security and the practicality that electronic components deposited.

Drawings

FIG. 1 is a schematic view of the present invention with a partial cross-sectional view of the inside thereof;

FIG. 2 is a schematic view of the structure of FIG. 1 at A according to the present invention;

FIG. 3 is a schematic view of a connection structure of the moisture sensor assembly according to the present invention;

FIG. 4 is a schematic view of the connection structure of the water absorbing member according to the present invention;

FIG. 5 is a schematic view of the structure of FIG. 4 at B in accordance with the present invention;

FIG. 6 is a schematic view of the structure of FIG. 4 at C in accordance with the present invention;

FIG. 7 is a schematic view of a connection structure of the ESD protection mechanism according to the present invention.

In the figure: 1. a housing; 2. a dehumidification mechanism; 21. a moisture sensing component; 211. an air inlet nozzle; 212. an insulating support rod; 213. a first connector; 214. a fixed mount; 215. a second joint; 216. a cotton sliver; 22. a water absorbing assembly; 221. a circulation chamber; 222. a motor; 223. a rotating wheel; 224. an air flow slurry; 225. a rotating plate; 226. a filter plate; 227. drying the balls; 228. an exhaust pipe; 3. an electrostatic protection mechanism; 301. mounting a plate; 302. an electrical conductor; 303. a copper bar; 304. a conductive pad; 4. an external power supply; 5. a button.

Detailed Description

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

The first embodiment is as follows:

referring to fig. 1-6, a dehumidifying device for storing electronic components includes a housing 1, a dehumidifying mechanism 2 movably connected inside the housing 1, the dehumidifying mechanism 2 including a moisture sensing component 21 for detecting the humidity of the air inside the housing 1 and a water absorbing component 22 for drying the air inside the housing 1, the moisture sensing component 21 being movably connected inside the housing 1, and the water absorbing component 22 being movably connected inside the housing 1.

Moisture perception subassembly 21 includes suction nozzle 211, and suction nozzle 211 fixed connection is in the inside of shell 1, and the inboard fixedly connected with of suction nozzle 211 insulating branch 212, the outside fixedly connected with of insulating branch 212 connects 213, and the outside fixedly connected with mount 214 of insulating branch 212, the outside fixedly connected with of mount 214 connects two 215, and the outside fixedly connected with of joint two 215 connects cotton silver 216.

The water absorption assembly 22 comprises a circulation chamber 221, the circulation chamber 221 is arranged inside the shell 1, a motor 222 is fixedly connected inside the circulation chamber 221, a rotating wheel 223 is movably connected inside the circulation chamber 221, an air flow slurry 224 is movably connected inside the circulation chamber 221, a rotating plate 225 is fixedly connected outside the air flow slurry 224, a filter plate 226 is fixedly connected inside the circulation chamber 221, a drying ball 227 is movably connected inside the filter plate 226, and an exhaust pipe 228 is fixedly connected inside the shell 1.

The air inlet nozzle 211 corresponds to the circulation chamber 221 in position and is matched in specification, the first connector 213 corresponds to the second connector 215 in position and is matched in specification, two ends of the cotton sliver 216 are fixedly connected to the outside of the first connector 213 and the outside of the second connector 215 respectively, the airflow pulp 224 corresponds to the circulation chamber 221 in position and is matched in specification, the rotating wheel 223 is fixedly connected with the motor 222 through a connecting shaft, the rotating wheel 223 corresponds to the rotary plate 225 in position and is matched in specification, the filter plate 226 corresponds to the circulation chamber 221 in position and is matched in specification, the drying ball 227 corresponds to the filter plate 226 in position and is matched in specification, the drying ball 227 mainly comprises a drying agent for absorbing water, and the exhaust pipe 228 corresponds to the circulation chamber 221 in position and is matched in specification.

Example two:

referring to fig. 7, a dehumidifying device for storing electronic components includes a housing 1, a dehumidifying mechanism 2 movably connected inside the housing 1, the dehumidifying mechanism 2 including a moisture sensing component 21 for detecting the humidity of the air inside the housing 1 and a water absorbing component 22 for drying the air inside the housing 1, the moisture sensing component 21 being movably connected inside the housing 1, and the water absorbing component 22 being movably connected inside the housing 1.

The inside swing joint of shell 1 has the electrostatic protection mechanism 3 that is used for electronic components to eliminate static, and electrostatic protection mechanism 3 includes mounting panel 301, and mounting panel 301 fixed connection is in the inside of shell 1, and the inboard fixedly connected with electric conductor 302 of mounting panel 301, the inboard fixedly connected with bar copper 303 of shell 1, the outside fixedly connected with conduction pad 304 of shell 1.

The positions of the installation plates 301 of the conductors 302 correspond to each other and are matched in specification, the copper rods 303 are electrically connected with the conductors 302, the contact parts of the copper rods 303 and the shell 1 are in an insulation design, and the conductive pads 304 are electrically connected with the copper rods 303.

Example three:

referring to fig. 1-7, a dehumidifying device for storing electronic components includes a housing 1, a dehumidifying mechanism 2 movably connected inside the housing 1, the dehumidifying mechanism 2 including a moisture sensing component 21 for detecting the humidity of the air inside the housing 1 and a water absorbing component 22 for drying the air inside the housing 1, the moisture sensing component 21 being movably connected inside the housing 1, and the water absorbing component 22 being movably connected inside the housing 1.

Moisture perception subassembly 21 includes suction nozzle 211, and suction nozzle 211 fixed connection is in the inside of shell 1, and the inboard fixedly connected with of suction nozzle 211 insulating branch 212, the outside fixedly connected with of insulating branch 212 connects 213, and the outside fixedly connected with mount 214 of insulating branch 212, the outside fixedly connected with of mount 214 connects two 215, and the outside fixedly connected with of joint two 215 connects cotton silver 216.

The water absorption assembly 22 comprises a circulation chamber 221, the circulation chamber 221 is arranged inside the shell 1, a motor 222 is fixedly connected inside the circulation chamber 221, a rotating wheel 223 is movably connected inside the circulation chamber 221, an air flow slurry 224 is movably connected inside the circulation chamber 221, a rotating plate 225 is fixedly connected outside the air flow slurry 224, a filter plate 226 is fixedly connected inside the circulation chamber 221, a drying ball 227 is movably connected inside the filter plate 226, and an exhaust pipe 228 is fixedly connected inside the shell 1.

The inside swing joint of shell 1 has the electrostatic protection mechanism 3 that is used for electronic components to eliminate static, and electrostatic protection mechanism 3 includes mounting panel 301, and mounting panel 301 fixed connection is in the inside of shell 1, and the inboard fixedly connected with electric conductor 302 of mounting panel 301, the inboard fixedly connected with bar copper 303 of shell 1, the outside fixedly connected with conduction pad 304 of shell 1.

An external power source 4 is fixedly connected to the inside of the housing 1, and a button 5 is fixedly connected to the outside of the housing 1.

The air inlet nozzle 211 corresponds to the circulation chamber 221 in position and is matched in specification, the first connector 213 corresponds to the second connector 215 in position and is matched in specification, two ends of the cotton sliver 216 are fixedly connected to the outside of the first connector 213 and the outside of the second connector 215 respectively, the airflow pulp 224 corresponds to the circulation chamber 221 in position and is matched in specification, the rotating wheel 223 is fixedly connected with the motor 222 through a connecting shaft, the rotating wheel 223 corresponds to the rotary plate 225 in position and is matched in specification, the filter plate 226 corresponds to the circulation chamber 221 in position and is matched in specification, the drying ball 227 corresponds to the filter plate 226 in position and is matched in specification, the drying ball 227 mainly comprises a drying agent for absorbing water, and the exhaust pipe 228 corresponds to the circulation chamber 221 in position and is matched in specification.

The positions of the installation plates 301 of the conductors 302 correspond to each other and are matched in specification, the copper rods 303 are electrically connected with the conductors 302, the contact parts of the copper rods 303 and the shell 1 are in an insulation design, and the conductive pads 304 are electrically connected with the copper rods 303.

The external power source 4 is electrically connected with the button 5, the button 5 is electrically connected with the first connector 213, the second connector 215 is electrically connected with the motor 222, and the motor 222 is electrically connected with the external power source 4.

When the device is started, a user presses the button 5, when the humidity of the air inside the shell 1 is increased, the air inside the shell 1 enters the inside of the air inlet nozzle 211, the cotton strip 216 is contacted with the air and absorbs water in the air to form a passage, the first connector 213 and the second connector 215 are connected, the motor 222 is electrified and operated, the motor 222 is operated to drive the rotating wheel 223 to rotate, the rotating wheel 223 drives the rotating plate 225 to rotate, the rotating plate 225 drives the air flow slurry 224 to rotate, the air flow slurry 224 rotates to drive the air inside the circulating chamber 221 to directionally flow, meanwhile, the air inside the shell 1 enters the inside of the circulating chamber 221 through the air inlet nozzle 211 under the action of air pressure, the directionally flowing air passes through the filter plate 226 and is contacted with the drying agent inside the drying ball 227, the drying agent absorbs the water in the air, and the air filtered by the drying agent flows back to the inside the shell 1 through the exhaust pipe 228, according to the rarefaction circulation, when the moisture in the air inside the housing 1 is continuously absorbed by the drying ball 227, the moisture absorbed by the cotton sliver 216 is also dried under the evaporation effect of the flowing air, and the cotton sliver 216 is broken similarly, so that the motor 222 stops running and circulates in sequence.

Electronic components is depositing the transportation in-process and is contacting with mounting panel 301 and produce static, and static conducts the inside of bar copper 303 through electric conductor 302, and the static inside the bar copper 303 passes through conduction pad 304 and transmits ground, and then prevents that electronic components from producing static and producing the electric field for the short circuit of air dust absorption cause its spare part on electronic components's surface, open circuit inefficacy.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a dehydrating unit for electronic components deposits, includes shell (1), its characterized in that: the utility model discloses a moisture sensor, including shell (1), the internal connection of shell (1) has dehumidification mechanism (2), and dehumidification mechanism (2) include moisture perception subassembly (21) that detect shell (1) inside air humidity, be used for the dry subassembly (22) that absorb water of shell (1) inside air, and moisture perception subassembly (21) are connected in the inside of shell (1), and the inside at shell (1) is connected in subassembly (22) that absorbs water.

2. The dehumidifying device for electronic component storage according to claim 1, wherein: moisture perception subassembly (21) includes suction nozzle (211), suction nozzle (211) fixed connection is in the inside of shell (1), the inboard fixedly connected with insulating branch (212) of suction nozzle (211), the outside fixedly connected with joint one (213) of insulating branch (212), the outside fixedly connected with mount (214) of insulating branch (212), the outside fixedly connected with joint two (215) of mount (214), the outside fixedly connected with silver (216) of joint two (215).

3. A dehumidifying device for storing electronic components as claimed in claim 2, wherein: the water absorption assembly (22) comprises a circulation chamber (221), the circulation chamber (221) is arranged inside the shell (1), the inside of the circulation chamber (221) is fixedly connected with a motor (222), the inside of the circulation chamber (221) is movably connected with a rotating wheel (223), the inside of the circulation chamber (221) is movably connected with an air flow slurry (224), the outside of the air flow slurry (224) is fixedly connected with a rotary plate (225), the inside of the circulation chamber (221) is fixedly connected with a filter plate (226), the inside of the filter plate (226) is movably connected with a drying ball (227), and the inside of the shell (1) is fixedly connected with an exhaust pipe (228).

4. The dehumidifying device for electronic component storage according to claim 1, wherein: the inside swing joint of shell (1) has electrostatic protection mechanism (3), and electrostatic protection mechanism (3) include mounting panel (301), and mounting panel (301) fixed connection is in the inside of shell (1), inboard fixedly connected with electric conductor (302) of mounting panel (301), inboard fixedly connected with bar copper (303) of shell (1), shell (1) outside fixedly connected with conduction pad (304).

5. The dehumidifying device for electronic component storage according to claim 1, wherein: the inside fixedly connected with external power source (4) of shell (1), the outside fixedly connected with button (5) of shell (1).

6. A dehumidifying device for storing electronic components as claimed in claim 3, wherein: the air inlet nozzle (211) corresponds to the position of the circulation chamber (221) and is matched with the circulation chamber in specification, the first connector (213) corresponds to the second connector (215) in specification, two ends of the cotton sliver (216) are fixedly connected to the outside of the first connector (213) and the outside of the second connector (215) respectively, the air flow slurry (224) corresponds to the position of the circulation chamber (221) and is matched with the specification, the rotating wheel (223) is fixedly connected with the motor (222) through a connecting shaft, the rotating wheel (223) corresponds to the position of the rotary plate (225) and is matched with the specification, the filter plate (226) corresponds to the position of the circulation chamber (221) and is matched with the specification, the drying ball (227) corresponds to the position of the filter plate (226) and is matched with the specification, the drying ball (227) mainly comprises a water absorption drying agent, and the exhaust pipe (228) corresponds to the position of the circulation chamber (221) and is matched with the specification.

7. The dehumidifying device for electronic component storage according to claim 4, wherein: the positions of the mounting plates (301) of the conductors (302) correspond to each other and are matched in specification, the copper rods (303) are electrically connected with the conductors (302), the contact parts of the copper rods (303) and the shell (1) are in an insulation design, and the conductive pads (304) are electrically connected with the copper rods (303).

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