CN214592098U - Hand-held type ionic wind machine - Google Patents

Abstract

The utility model discloses a hand-held ion fan, which comprises an ion generating unit, an air supply unit, a main control unit, a shell, a switch button and a power line; the shell comprises an air cylinder part and a handheld part arranged below the air cylinder part, the ion generating unit is arranged in the shell, and the air supply unit is arranged on one side of the ion generating unit so that gas blown out from the air cylinder part is changed into plasma; one end of the hand-held part far away from the wind cylinder part is fixedly provided with a power line; the main control unit is arranged in the handheld part and is respectively and electrically connected with the ion generating unit, the air supply unit and the power line; the switch button is arranged on one side of the handheld part and is electrically connected with the main control unit and the power line. The utility model discloses safe and reliable stops high-voltage insulation breakdown casing under the high-voltage high frequency, simple structure and low in production cost, only need the one hand to control on the use can the multi-angle use on a large scale, the local destaticizing dust removal processing of the different positions that is suitable for big specification product very, it is simple convenient.

Description

Hand-held type ionic wind machine

Technical Field

The utility model relates to a static field especially relates to a hand-held type ionic wind machine.

Background

Static electricity is a static or non-flowing charge. Static electricity is formed when charges are accumulated on the surface of an object or on the object, and the charges are classified into two kinds of positive charges and negative charges, that is, static electricity is also classified into two kinds, i.e., positive static electricity and negative static electricity. On one hand, the harm of electrostatic attraction, dust in daily life and production occasions is particles with charges, and due to the principle that positive charges and negative charges attract each other in opposite directions, objects with charges can adsorb the dust, so that the pollution of integrated circuits and semiconductor elements can be caused in the electronic industry, and the yield is greatly reduced; in the papermaking printing industry, the paper rolling is uneven, the overprinting is not accurate, the dirt absorption is serious, and even the paper adhesion influences the production. On the other hand, the harm of electrostatic discharge, when an object with static electricity contacts an object with zero potential or an object with potential difference, charge transfer is generated, namely a spark discharge phenomenon which is commonly seen by people, and faults or misoperation can be caused on electronic equipment to cause electromagnetic interference; explosion and fire are easily caused in production places of various flammable and explosive articles or dust and oil mist. The harmfulness of static electricity is obvious, and comprehensive and systematic establishment of proper effective measures is an important matter for preventing static electricity accidents. The static removing equipment in the prior art is fixed at a fixed position, and the static removing requirements of small-batch customized products with different specifications or large sizes on the existing flexible production line cannot be met.

Therefore, the above technical problem needs to be solved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model provides a can make things convenient for the workman to take and remove the static-removing equipment, can not occupy the position and do not hinder production when the small and exquisite flexibility of equipment is idle, but the hand-held type ion fan of one-hand handle operation during the use.

In order to solve the technical problem, the utility model provides a basic technical scheme does:

a hand-held type ion fan comprises an ion generating unit, an air supply unit, a main control unit, a shell, a switch button and a power line; the shell comprises an air cylinder part and a foldable handheld part arranged below the air cylinder part, and the air cylinder part is provided with a first cavity penetrating through two ends; the ion generating unit is detachably arranged in the first cavity and is used for ionizing gas into positive and negative ions; the air supply unit is arranged on one side of the ion generation unit, so that the gas passes through the ion generation unit and finally reaches a target area; one end of the handheld part, which is far away from the wind cylinder part, is fixedly provided with a power line, and the power line is used for providing power for the main control unit; the main control unit is arranged in the handheld part and is respectively and electrically connected with the ion generating unit and the air supply unit, wherein high voltage is respectively provided for the ion generating unit, and electric power is provided for the air supply unit; the switch button is arranged on one side of the handheld part, is electrically connected with the main control unit and the power line and is used for controlling the on-off of the handheld ion fan.

Furthermore, a grid is arranged at one end of the air duct part of the shell, which is close to the air supply unit.

Furthermore, a filtering device is arranged on one surface of the grid, which is far away from the air supply unit.

Further, the filter device comprises a filter screen and a shield, wherein the filter screen is arranged on the shield, and the filter screen is positioned between the grid and the shield during installation.

Furthermore, a gear adjusting assembly is arranged at the top end of the switch button, and the gear adjusting assembly is electrically connected with the main control unit and used for adjusting gears of the ion generating unit and the air supply unit.

Furthermore, a fast-plug socket is arranged in the first cavity of the air cylinder part, the fast-plug socket is electrically connected with the main control unit, and the ion generation unit is provided with an electric plug matched with the fast-plug socket.

Furthermore, an air guide nozzle is arranged at one end of the air duct part of the shell, which is close to the ion generating unit, and the air guide nozzle is of a structure with the function of gathering or dispersing or changing air flow.

Furthermore, one side of the air guide nozzle, which is close to the ion generation unit, is provided with a cleaning brush, and the other side of the air guide nozzle, which is far away from the ion generation unit, is provided with a cleaning brush knob, and the cleaning brush knob can rotate the cleaning brush.

Furthermore, a power line protection pad allowing the power line to pass through is arranged at the bottom end of the fixed connection between the handheld part and the power line.

Furthermore, a power plug is fixedly arranged at the other end of the power line far away from the handheld part.

The utility model has the advantages that:

a hand-held type ion fan comprises an ion generating unit, an air supply unit, a main control unit, a shell, a switch button and a power line; the shell comprises an air cylinder part and a handheld part arranged below the air cylinder part, the ion generating unit is arranged in the shell, and the air supply unit is arranged on one side of the ion generating unit so that gas blown out from the air cylinder part is changed into plasma; one end of the hand-held part far away from the wind cylinder part is fixedly provided with a power line; the main control unit is arranged in the handheld part and is respectively and electrically connected with the ion generating unit, the air supply unit and the power line; the switch button is arranged on one side of the handheld part and is electrically connected with the main control unit and the power line. The utility model discloses safe and reliable stops high-voltage insulation breakdown casing under the high-voltage high frequency, and simple structure low in production cost only needs the one hand to hold in the use and can operate the use, and the local destaticizing dust removal that is suitable for the different positions of big specification product very handles, and is simple convenient.

Drawings

FIG. 1 is a schematic structural diagram of a hand-held ion blower;

fig. 2 is a schematic structural view of the wind tube portion.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to fig. 1 to 2, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture, and if the specific posture is changed, the directional indications are changed accordingly.

See fig. 1 for a schematic structural diagram of the handheld ion blower. The utility model comprises an ion generating unit 1, an air supply unit 2, a main control unit 3, a shell 4, a switch button 5 and a power line 6, wherein the shell 4 comprises an air cylinder part 41 and a foldable handheld part 42 arranged below the air cylinder part, and the air cylinder part 41 is provided with a first cavity penetrating through two ends; the ion generating unit 1 is detachably arranged in the first cavity and is used for ionizing gas into plasma; the air supply unit 2 is arranged at one side of the ion generation unit 1, so that the air passes through the ion generation unit 1 and is finally blown to a target area; one end of the handheld part 42, which is far away from the air duct part 41, is fixedly provided with a power cord 6, and the power cord 6 is used for providing power for the main control unit 3; the main control unit 3 is disposed in the hand-held portion 42, and is electrically connected to the ion generating unit 1 and the air blowing unit 2, respectively, wherein the main control unit provides high voltage electricity to the ion generating unit 1 and provides electromotive force to the air blowing unit 2; the switch button 5 is arranged on one side of the handheld part 42, and is electrically connected with the main control unit 3 and the power line 6, so as to control the electrical connection and disconnection of the handheld ion fan.

When the handheld ion blower is stored, one end of the handheld portion 42 is foldable and close to the air duct portion 41, and when the handheld portion 42 is completely folded, the air duct portion 41 is parallel to the handheld portion 42.

Specifically, after a worker presses the switch button 5, the air supply unit 3 and the ion generation unit 1 are triggered to operate, the air supply unit 3 drives air to enter a high-voltage high-frequency environment of the ion generation unit 1 to be ionized, so that plasma air with an electrostatic elimination effect is formed, the plasma air is blown to an object with static electricity under the action of the air supply unit 3 to eliminate the static electricity on the object, and at the moment, the worker only needs to continuously move the handheld ion fan on the object needing static electricity elimination and dust removal, so that the plasma air with positive ions and negative ions is blown to a required position to achieve the effects of eliminating the static electricity of the object and removing dust.

See fig. 1 for a schematic structural diagram of the handheld ion blower. Furthermore, a grid 43 is arranged at one end of the air duct part 41 of the casing 4 close to the air supply unit 2, so as to prevent large sundries from being sucked into the air supply unit 2 to damage the fan or prevent fingers or hairs of workers from accidentally extending into the air duct to cause injury to human bodies, and achieve the purpose of safe use. In order to prevent the performance of the ion generating unit 1 from being affected by the accumulation of some dust, a filter 7 is disposed on the side of the grid 43 away from the air supply unit 2 to prevent dust from accumulating on the ion generating unit 1 and reducing the efficiency of high-pressure ionized air. The filter device 7 comprises a filter screen 71 and a shield 72, the filter screen 71 being arranged on the shield 72, the filter screen 71 being located between the grid 43 and the shield 72 after mounting. The filter screen 71 is made of sponge dust screen, nylon net and the like; the shield 72 is removably secured to the grill 43.

Specifically, the screen 71 is fixed between the grill 43 and the shroud 72, and air is forced to pass through the screen 71 when the air supply unit 2 is operated so that dust in the air is adsorbed on the screen 71.

In order to improve the applicability of products, the plasma air with multiple air quantities can be blown out from different products or parts, so that a gear adjusting component 8 is arranged at the top end of the switch button 5, the gear adjusting component 8 is electrically connected with the main control unit 3 and is used for adjusting the power of the ion generating unit 1 and the air supply unit 2, so that a worker can select the gear of the handheld ion fan according to the actual production requirement, and the air quantity and the plasma quantity are reduced or improved.

See fig. 2 for a partial schematic view of the duct section. In prior art, the ion generating unit 1 is generally fixed in the machine housing by adopting an integrally fixed connection mode, and needs to be disassembled to a large extent for maintenance when being damaged or cleaned, so that the ion generating unit 1 is quite inconvenient and reliable to use, and is detachably arranged in the air cylinder 41 for realizing that a quick-plug socket 44 is arranged in a first cavity of the air cylinder 41, the quick-plug socket 44 is electrically connected with the main control unit 3, the ion generating unit 1 is provided with an electric plug 11 matched with the quick-plug socket 44, and the electric plug 11 is electrically connected with the ion generating unit 1.

Referring to fig. 2, in order to make the air blown out by the handheld ion blower have different states to be suitable for different situations, an air guiding nozzle 9 is disposed at an end of the air duct portion 41 of the housing 4, the end being close to the ion generating unit 1, the air guiding nozzle 9 has a structure for collecting, dispersing or changing the air flow, and different types of air guiding nozzles 9 can change the air outlet state of the ion blower, or collect, disperse or change directions. The air guide nozzle 9 is connected with the housing 4 through interference fit, and can also be connected with the housing 4 through threads or screws.

Although a dust filtering device is disposed at one end of the housing 4, in practical applications, it is still found that dust is gathered at an end point of the discharge of the ion generating unit 1 to affect the efficiency of air ionization, so that a cleaning brush 91 is disposed at one side of the air guide nozzle 9 close to the ion generating unit 1, and a cleaning brush knob 92 is disposed at the other side of the air guide nozzle 9 far from the ion generating unit 1, and the cleaning brush knob 92 can rotate the cleaning brush 91 to clean the ion generating unit 1.

In order to further protect the surface of the power cord 6 and prevent the power cord 6 from continuously rubbing and bending with the hand-held portion 42 due to long-term use, so as to reduce the service life of the power cord 6, a power cord protection pad 61 for allowing the power cord 6 to pass through is arranged at the bottom end of the fixed connection between the hand-held portion 42 and the power cord 6, the power cord protection pad 61 is made of an elastic material, and the power cord 6 and the power cord protection pad 61 are further manufactured integrally.

This hand-held type ion fan is by power cord 6 connects external power source in order to provide power for this hand-held type ion fan, has given to make this hand-held type ion fan can be along with the change of work area along with inserting along with the usefulness, consequently in the other end that this handheld portion 42 was kept away from to power cord 6 is fixed to be equipped with power plug, as long as insert this power plug 62 to the socket that matches when using can use.

The working principle is that firstly, the air inlet and the air outlet of the hand-held ion fan are ensured not to be blocked by foreign matters through checking, the hand-held ion fan is unfolded, the hand-held part 42 and the air cylinder part 41 are in a vertical state, the hand-held ion motor is electrified by connecting the power cord 6, the hand-held ion fan is started by pressing the switch button 5, the main control unit 3 drives the air supply unit 2, air enters the ion generating unit 1 through the filter device 7 to be ionized and then becomes plasma air which has positive and negative ions and can remove the surface static electricity and the dust removal effect of an object, the plasma air at the moment becomes plasma air flow in a certain state through the air guide nozzle 9 and is continuously blown to the surface of the object, the static electricity and dust removal effects are achieved, and the air output and the plasma generation amount can be adjusted through the gear adjusting component 8 aiming at different objects, to suit the needs of different objects. The hand-held ion fan can change along with the gesture change of workers, and can cover the area needing static elimination and dust removal in a large range.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (10)

1. The utility model provides a hand-held type ion fan, includes ion generating unit (1), air supply unit (2), main control unit (3), casing (4), shift knob (5) and power cord (6), its characterized in that: the shell (4) comprises an air cylinder part (41) and a foldable handheld part (42) arranged below the air cylinder part, and the air cylinder part (41) is provided with a first cavity penetrating through two ends; the ion generating unit (1) is detachably arranged in the first cavity and is used for ionizing gas into positive and negative ions; the air supply unit (2) is arranged on one side of the ion generation unit (1) so that the gas passes through the ion generation unit (1) and finally reaches a target area; one end of the handheld part (42) far away from the wind cylinder part (41) is fixedly provided with a power line (6), and the power line (6) is used for providing power for the main control unit (3); the main control unit (3) is arranged in the handheld part (42) and is respectively and electrically connected with the ion generating unit (1) and the air supply unit (2), wherein high voltage is respectively provided for the ion generating unit (1) and electric power is provided for the air supply unit (2); the switch button (5) is arranged on one side of the handheld part (42), is electrically connected with the main control unit (3) and the power line (6) and is used for controlling the on-off of the handheld ion fan.

2. The hand-held ionic wind machine of claim 1 further comprising: a grid (43) is arranged at one end of the air cylinder part (41) of the shell (4) close to the air supply unit (2).

3. The hand-held ionic wind machine of claim 2, further comprising: a filtering device (7) is arranged on one surface of the grid (43) far away from the air supply unit (2).

4. The hand-held ionic wind machine of claim 3 further comprising: the filter device (7) comprises a screen (71) and a shield (72), the screen (71) being arranged on the shield (72), the screen (71) being located between the grid (43) and the shield (72) when mounted.

5. The hand-held ionic wind machine of claim 1 further comprising: the top of shift knob (5) is provided with gear adjusting component (8), and this gear adjusting component (8) with main control unit (3) electricity is connected for adjust this ion generation unit (1) and air supply unit's (2) gear.

6. The hand-held ionic wind machine of claim 1 further comprising: a quick-plug socket (44) is arranged in a first cavity of the wind cylinder part (41), the quick-plug socket (44) is electrically connected with the main control unit (3), and the ion generation unit (1) is provided with an electric plug (11) matched with the quick-plug socket (44).

7. The hand-held ionic wind machine of claim 1 further comprising: an air guide nozzle (9) is arranged at one end of the air cylinder part (41) of the shell (4) and close to the ion generating unit (1), and the air guide nozzle (9) has a structure with the function of gathering, dispersing or changing air flow.

8. The hand-held ionic wind machine of claim 7 further comprising: one side of the air guide nozzle (9) close to the ion generation unit (1) is provided with a cleaning brush (91), the other side of the air guide nozzle (9) far away from the ion generation unit (1) is provided with a cleaning brush knob (92), and the cleaning brush knob (92) can rotate the cleaning brush (91).

9. The hand-held ionic wind machine of claim 1 further comprising: the bottom end of the hand-held part (42) fixedly connected with the power line (6) is provided with a power line protection pad (61) allowing the power line (6) to pass through.

10. The hand-held ionic wind machine of claim 1 further comprising: the other end of the power line (6) far away from the handheld part (42) is fixedly provided with a power plug (62).

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