CN214718968U - Electronic device - Google Patents

Abstract

The embodiment of the application discloses electronic equipment, electronic equipment includes: a first housing having a first receiving space; the bearing equipment moving relative to the first shell can drive the target equipment outside the first accommodating space to move into the first accommodating space; the first assembly is arranged in the first accommodating space, can move in the first accommodating space and is used for enabling the target equipment moved into the first accommodating space through the bearing equipment to be in a first target space posture on the bearing equipment; and the second assembly is at least partially arranged in the first accommodating space and is used for controlling the gas flow, wherein the gas can remove the particles attached to the target surface of the target equipment moving into the first accommodating space. The electronic equipment provided by the embodiment of the application can enable the target equipment to be in a specific space posture, and can remove particles attached to the target surface of the target equipment moving to the first accommodating space through gas, so that the production efficiency of the electronic equipment can be greatly improved.

Description

Electronic device

Technical Field

The present application relates to an electronic device.

Background

In the production process, the target equipment is required to be in a specific spatial posture and the particles attached to the target surface of the target equipment are removed. However, in the prior art, in the production process of the target device, the target device needs to be manually positioned in a specific spatial posture, and after the target device is positioned in the specific spatial posture, the particles attached to the target surface of the target device are removed, which greatly affects the production efficiency of the electronic device.

SUMMERY OF THE UTILITY MODEL

In view of the above, embodiments of the present application are directed to providing an electronic device.

In order to achieve the purpose, the technical scheme of the application is realized as follows:

an embodiment of the present application provides an electronic device, which includes:

a first housing having a first receiving space; the bearing equipment moving relative to the first shell can drive the target equipment outside the first accommodating space to move into the first accommodating space;

the first assembly is arranged in the first accommodating space, can move in the first accommodating space and is used for enabling the target equipment moved into the first accommodating space through the bearing equipment to be in a first target space posture on the bearing equipment;

a second component, at least partially disposed in the first containing space, for controlling a flow of gas, wherein the gas can remove particles attached to a target surface of the target device moving into the first containing space.

In some optional implementations, the carrying device can drive the target device to move into the first accommodating space along a first direction;

the first assembly is movable in a second direction, the first direction and the second direction satisfying a vertical condition.

In some optional implementations, the first component includes:

the moving part is arranged in the first accommodating space, is positioned on the bearing side of the bearing equipment and can move to a first set position in the first accommodating space along a second direction at a first height, wherein the first height is the distance between the moving part and the bearing equipment;

the blocking piece is fixed in the first accommodating space, is positioned on the bearing side of the bearing equipment and is positioned in the moving direction of the moving piece at a second height, and the second height is the distance between the blocking piece and the bearing equipment; the value of the second height is greater than the value of the first height; under the condition that the moving element moves to a first set position along a second direction, the projection distance of the moving element and the blocking element on the bearing equipment meets a preset condition, and the preset condition is matched with a first size parameter of the target equipment;

if the bearing equipment drives the target equipment to move to the first accommodating cavity along the first direction, the moving part is used for pushing the first body of the target equipment to move to a first set position on the bearing equipment along the second direction at a first height; if the moving piece pushes the first body of the target device to move on the bearing device to a first set position along a second direction, the blocking piece is used for contacting with the second body of the target device to force the second body to rotate from a first included angle to a set included angle relative to the first body; the second body is rotatably connected with the first body, the set included angle is 90 degrees, and the angle of the first included angle is larger than 90 degrees.

In some optional implementations, the first component includes:

the moving part is arranged in the first accommodating space, is positioned on the bearing side of the bearing equipment and can move to a first set position in the first accommodating space along a second direction at a first height, wherein the first height is the distance between the moving part and the bearing equipment;

the turnover piece is arranged in the first accommodating space, is positioned on the bearing side of the bearing equipment and can move to a second set position in the first accommodating space; when the turnover piece moves to a second set position in the first accommodating space, a third height is formed between the turnover piece and the bearing equipment, and the value of the third height is greater than that of the first height;

if the bearing equipment drives the target equipment to move to the first accommodating cavity along the first direction, the moving part is used for pushing the first body of the target equipment to move to a first set position on the bearing equipment along the second direction at a first height; when the turnover piece moves to a second set position in the first accommodating space, the turnover piece is used for pushing or pulling the second body of the target equipment to rotate from a second included angle to a set included angle relative to the first body; the second body is rotatably connected with the first body, and the angle of the second included angle is smaller than that of the set included angle, or the angle of the second included angle is larger than that of the set included angle.

In some optional implementations, the first component includes:

the turnover piece is arranged in the first accommodating space, is positioned on the bearing side of the bearing equipment and can move to a second set position in the first accommodating space; when the turnover piece moves to a second set position in the first accommodating space, a third height is formed between the turnover piece and the bearing equipment, and the value of the third height is matched with a second size parameter of the target equipment;

if the bearing device drives the target device to move into the first accommodating cavity along a first direction, and the overturning piece moves to a second set position in the first accommodating space, the overturning piece is used for pushing or pulling the second body of the target device to rotate to a set included angle from a third included angle relative to the first body of the target device; the second body is rotatably connected with the first body, and the angle of the third included angle is smaller than that of the set included angle, or the angle of the third included angle is larger than that of the set included angle.

In some alternative implementations, the first housing further has a first inlet and a first outlet; the first inlet and the first outlet are respectively communicated with the first accommodating space; the first inlet and the first outlet are located on different sides of the first housing; the bearing equipment can drive target equipment outside the first accommodating space to move into the first accommodating space through the first inlet, and the bearing equipment can drive the target equipment to move out of the first accommodating space through the first outlet;

the electronic device further includes:

a second housing disposed adjacent to the first housing, having a second receiving space and a second inlet; the second inlet is communicated with the second accommodating space; the second inlet corresponds to the position of the first outlet; the bearing device can drive the target device to move out of the first accommodating space from the first outlet and move into the second accommodating space from the second inlet;

the third assembly is arranged in the second accommodating space, faces a second direction and is used for detecting the target surface of the target device which is moved into the second accommodating space through the bearing device and is in a second target space posture;

and the fourth component is arranged between the first shell and the second shell and used for blocking outside particles from entering the first accommodating space and the second accommodating space.

In some optional implementations, the first target spatial attitude is for the target device to be in the second target spatial attitude by a carrier device moving into the second accommodation space; wherein, within the second accommodation space, the third component obtains detection data from the target device at the second target spatial pose.

In some optional implementations, the second component includes:

the blowing device is arranged in the first accommodating space, can blow air to the target equipment moved into the first accommodating space, and can remove particles attached to the target surface of the target equipment moved into the first accommodating space;

the electronic device further includes: the fifth assembly is arranged in the first accommodating space, can suck the air in the first accommodating space and is used for removing the particulate matters in the air in the first accommodating space; or, the second assembly further comprises: and the air suction device is arranged in the first accommodating space, can suck the air in the first accommodating space and is used for removing the particulate matters in the air in the first accommodating space.

In some alternative implementations, the blowing device blows air towards the second direction, the blowing device being movable in a third direction relative to the first housing; the blowing device is used for removing particles in the length direction of the target surface of the target equipment; and a fourth included angle is formed between the third direction and the first direction, the angle of the fourth included angle is more than or equal to 0 degree, and the angle of the fourth included angle is less than 90 degrees.

In some optional implementations, the blowing device includes:

a fixing portion disposed in the first accommodating space;

a moving part connected with the fixed part and capable of moving along a third direction relative to the fixed part;

at least two blowing heads which blow air towards the second direction, are arranged on the moving member at intervals along a fourth direction and are used for removing the particulate matters on the height direction of the target surface of the target equipment; wherein the fourth direction and the third direction are perpendicular.

In the electronic device in this embodiment of the present application, the first component is disposed in the first accommodating space, is capable of moving in the first accommodating space, and is configured to enable a target device, which is moved into the first accommodating space by the carrying device, to be in a first target space posture on the carrying device; a second component, at least partially disposed in the first containing space, for controlling a flow of a gas, wherein the gas can remove particles attached to a target surface of the target device moving into the first containing space; by moving the target equipment to the first accommodating space, the target equipment can be in a specific space posture, and particles attached to the target surface of the target equipment moved to the first accommodating space can be removed through the gas, at the moment, two functions of enabling the target equipment to be in the specific space posture and removing the particles attached to the target surface of the target equipment are arranged at one space position, so that the space utilization rate is improved, the time of moving the target equipment by bearing equipment is shortened, and the production efficiency of electronic equipment can be greatly improved.

Drawings

FIG. 1 is a schematic diagram of an alternative configuration of an electronic device in an embodiment of the present application;

FIG. 2 is a schematic diagram of an alternative structure of a first component of an electronic device according to an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of an alternative configuration of an electronic device in an embodiment of the present application;

FIG. 4 is an alternative structural diagram of a second component of the electronic device in the embodiment of the present application;

FIG. 5 is a schematic diagram of an alternative configuration of an electronic device in an embodiment of the present application;

fig. 6 is a schematic diagram of an alternative partial structure of an electronic device in an embodiment of the present application.

Reference numerals: 110. a first housing; 111. a first accommodating space; 112. a first inlet; 113. a first outlet; 120. a first component; 121. a moving member; 122. a blocking member; 123. a support; 130. a second component; 131. a fixed portion; 132. a moving part; 133. a blowing head; 140. a second housing; 141. a second accommodating space; 142. a second inlet; 150. a fourth component; 160. a fifth component; 200. a target device; 210. a first body; 220. a second body; 300. and carrying the equipment.

Detailed Description

The technical solution of the present application is further described in detail with reference to the drawings and specific embodiments of the specification.

In the description of the embodiments of the present application, it should be noted that, unless otherwise specified and limited, the term "connected" should be interpreted broadly, for example, as an electrical connection, a communication between two elements, a direct connection, or an indirect connection via an intermediate, and the specific meaning of the terms may be understood by those skilled in the art according to specific situations.

It should be noted that the terms "first \ second \ third" referred to in the embodiments of the present application are only used for distinguishing similar objects, and do not represent a specific ordering for the objects, and it should be understood that "first \ second \ third" may exchange a specific order or sequence order if allowed. It should be understood that "first \ second \ third" distinct objects may be interchanged under appropriate circumstances such that the embodiments of the application described herein may be implemented in an order other than those illustrated or described herein.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The electronic device according to the embodiment of the present application will be described in detail below with reference to fig. 1 to 6.

The electronic device of the present application includes: a first housing 110, a first assembly 120, and a second assembly 130. The first housing 110 has a first accommodation space 111; wherein the carrying device 300 moving relative to the first casing 110 can drive the target device 200 outside the first accommodating space 111 to move into the first accommodating space 111; the first component 120 is disposed in the first accommodating space 111, the first component 120 is movable in the first accommodating space 111, and the first component 120 is configured to enable the target device 200 moved into the first accommodating space 111 by the carrying device 300 to be in a first target space posture on the carrying device 300; at least part of the second assembly 130 is disposed in the first accommodating space 111, and the second assembly 130 is used for controlling the flow of the gas, wherein the gas can remove the particles attached to the target surface of the target device 200 moving into the first accommodating space; by moving the target device 200 to the first accommodating space 111, the target device 200 can be in a specific spatial posture, and the particles attached to the target surface of the target device 200 moving into the first accommodating space can be removed by the gas, at this time, two functions of positioning the target device in the specific spatial posture and removing the particles attached to the target surface of the target device are arranged at one spatial position, so that the space utilization rate is improved, the time for moving the target device by the bearing device is shortened, and the production efficiency of the electronic device can be greatly improved.

In the embodiment of the present application, the structure of the first housing 110 is not limited as long as the first housing 110 has the first accommodation space 111; the carrying device 300 moving relative to the first housing 110 can drive the target device 200 outside the first accommodating space 111 to move into the first accommodating space 111.

For example, as shown in fig. 1, the first housing 110 includes a first inlet 112 and a second outlet; the carrying device 300 can drive the target device 200 outside the first accommodating space 111 to move into the first accommodating space 111 through the first inlet 112, and the carrying device 300 can drive the target device 200 to move out of the first accommodating space 111 through the first outlet 113.

Of course, the first housing 110 may further include only one opening, the carrying device 300 can drive the target device 200 outside the first accommodating space 111 to move into the first accommodating space 111 through the opening, and the carrying device 300 can drive the target device 200 to move out of the first accommodating space 111 through the opening.

Here, the structure of the carrier apparatus 300 is not limited. For example, the carrying device 300 may include a conveyor belt, on which the target device 200 can be placed, and the conveyor belt can move into the first accommodating space 111 relative to the first housing 110, so that the conveyor belt moving relative to the first housing 110 can move the target device 200 out of the first accommodating space 111 into the first accommodating space 111. Here, the carrying device 300 may further include a pulley and a motor for driving the pulley to rotate, and the belt is disposed on the pulley and can be driven to move by the rotation of the motor.

In the embodiment of the present application, the structure of the first assembly 120 is not limited as long as the first assembly 120 can move in the first accommodating space 111, and the first assembly 120 can make the target device 200, which is moved into the first accommodating space 111 by the carrying device 300, to be in the first target space posture on the carrying device 300.

Here, the first component 120 is movable in the first accommodating space 111, and may be the first component 120 is movable in the first accommodating space 111, or the first component 120 is rotatable in the first accommodating space 111, or the first component 120 is movable and rotatable in the first accommodating space 111.

Here, the specific state of the first target spatial attitude is not limited. For example, the first target spatial attitude may be that the target device 200 is at a target position on the carrier device 300, that two bodies of the target device 200 are at a target angle on the carrier device 300, and that the target device 200 is at a target position on the carrier device 300 and that two bodies of the target device 200 are at a target angle.

In the embodiment of the present application, the structure of the second assembly 130 is not limited as long as the second assembly 130 can control the flow of the gas that can remove the particles attached to the target surface of the target apparatus 200 moving into the first subspace. For example, the second assembly 130 may include a blowing device. Also for example, the second assembly 130 may include a suction device. For another example, the second assembly 130 may include an air blowing device and an air suction device.

Here, the target surface of the target device 200 may be the front surface of the body of the target device 200, or may be the back surface of the body of the target device 200.

In some optional implementations of the embodiment of the present application, the carrying device 300 can drive the target device 200 to move into the first accommodating space 111 along a first direction; the first assembly 120 is movable in a second direction, the first direction and the second direction satisfying a vertical condition; so that if the carrying device 300 carries the target device 200 to move to the first accommodating cavity along the first direction, the first component 120 can make the target device 200 move to a specific position on the carrying device 300.

In this implementation, the first direction is not limited. For example, the first direction may be a length direction or a width direction of the electronic device.

In this implementation, the first direction and the second direction satisfying the perpendicular condition means that the first direction and the second direction are perpendicular; alternatively, the first direction and the second direction are substantially perpendicular.

As an example, as shown in fig. 1, the first direction is a length direction of the electronic device, and the second direction is a width direction of the electronic device.

In the present implementation, the structure of the first assembly 120 is not limited as long as the first assembly 120 can move in the second direction.

As an example one, the first component 120 may include: a moving member 121 and a stopper 122. The moving member 121 is disposed in the first accommodating space 111, the moving member 121 is located on the carrying side of the carrying apparatus 300, and the moving member 121 can move to a first set position in the first accommodating space 111 at a first height along a second direction; the blocking member 122 is fixed in the first accommodating space 111, the blocking member 122 is located on the carrying side of the carrying device 300, and the blocking member 122 is located at a second height in the moving direction of the moving member 121; when the moving part 121 moves to the first setting position along the second direction, the projection distance of the moving part 121 and the stopper 122 on the carrying device 300 meets a predetermined condition, and the predetermined condition is matched with the first size parameter of the target device 200; so that the target device 200 moved into the first accommodating space 111 by the carrying device 300 is in the first target space posture on the carrying device 300 by the moving member 121 and the blocking member 122.

In an example one, if the carrying device 300 drives the target device 200 to move to the first accommodating cavity along a first direction, the moving member 121 is configured to push the first body 210 of the target device 200 to move to a first setting position on the carrying device 300 along a second direction at a first height; if the moving member 121 pushes the first body 210 of the target device 200 to move to the first set position on the bearing device 300 along the second direction, the blocking member 122 is used for contacting with the second body 220 of the target device 200 to force the second body 220 to rotate to the set included angle from the first included angle relative to the first body 210, at this time, the moving member 121 and the blocking member 122 act together to move the target device 200 to the first set position, and the second body 220 rotates to the set included angle from the first included angle relative to the first body 210, which is achieved at the same time, so that the time that the bearing device is in the first target space posture can be shortened.

Here, the target device 200 includes a first body 210 and a second body 220, and the second body 220 is rotatably connected to the first body 210 such that the second body 220 is rotatable with respect to the first body 210.

Here, the structure of the target apparatus 200 is not limited. For example, the target device 200 may be a notebook computer or a game machine. As an example, the first body 210 is a body where a keyboard of a notebook computer is located, and the second body 220 is a body where a display screen of the notebook computer is located.

Here, the angle at which the included angle is set is not limited. For example, the set angle may be 90 degrees.

Here, the angle of the first angle is not limited. For example, the first included angle may be greater than 90 degrees.

In the first example, the structure of the moving member 121 is not limited. For example, as shown in fig. 2, the first component 120 may further include: a bracket 123, the bracket 123 being disposed in the first accommodating space 111; the moving member 121 is slidably connected to the bracket 123, and the moving member 121 is capable of moving to a first setting position in the second direction at a first height in the first accommodating space 111 relative to the bracket 123.

In the first example, the first height is a distance between the moving member 121 and the carrying device 300, that is, a distance formed between a top end of the moving member 121 and the carrying device 300.

Here, the value of the first height is not limited as long as if the carrying device 300 drives the target device 200 to move to the first accommodating cavity along the first direction, the moving member 121 can push the first body 210 of the target device 200 to move to the first setting position on the carrying device 300 along the second direction at the first height. For example, the first height has a value greater than the height of the first body 210 of the target device 200. As another example, the value of the first height is equal to the height of the first body 210 of the target device 200. Wherein the height of the first body 210 is a distance formed between the top side of the first body 210 and the carrying apparatus 300.

In the first example, the structure of the blocking member 122 is not limited as long as the blocking member 122 is located at the second height in the moving direction of the moving member 121. For example, as shown in FIG. 2, the blocking member 122 is a blocking plate.

Here, the second height is a distance between the blocking member 122 and the carrier device 300, that is, a distance formed between a tip of the blocking member 122 and the carrier device 300.

Here, the value of the second height is not limited. For example, the value of the second height may be greater than the value of the first height.

In an example one, a projection distance of the moving part 121 and the blocking part 122 on the carrying device 300 satisfies a predetermined condition, and the predetermined condition is matched with the first size parameter of the target device 200.

Here, the first size parameter is not limited. For example, when the set included angle is 90 degrees and the first body 210 and the second body 220 form the set included angle, the first size parameter is a distance between the projection of the first body 210 and the projection of the second body 220 on the carrying apparatus 300 in the second direction; here, the first size parameter may be greater than or equal to the sum of the width of the first body 210 and the thickness of the second body 220, and at this time, when the first body 210 and the second body form 90 degrees, the projections of the second body 220 and the first body 210 on the carrying apparatus 300 do not overlap; the first size parameter may be smaller than or equal to the width of the first body 210, and at this time, when the first body 210 and the second body form 90 degrees, the projections of the second body 220 and the first body 210 on the carrying apparatus 300 overlap, and the projection of the second body 220 on the carrying apparatus 300 is located in the projection of the first body 210 on the carrying apparatus 300.

In example one, the first target spatial attitude includes both the target device 200 moving to the first set position and the angle between the first body 210 and the second body 220 rotating to the set angle.

Of course, in other examples, the first target space posture may only include the target device 200 moving to the first setting position, and at this time, the first assembly 120 may only include the moving member 121, and the target device 200 may only include one body, or may include two bodies.

Example two, the first component 120 may include: a moving member 121 and a flip member. The moving member 121 is disposed in the first accommodating space 111, the moving member 121 is located on the carrying side of the carrying apparatus 300, and the moving member 121 can move to a first set position in the first accommodating space 111 along a second direction at a first height, where the first height is a distance between the moving member 121 and the carrying apparatus 300; the turnover part is arranged in the first accommodating space 111, the turnover part is positioned on the bearing side of the bearing device 300, and the turnover part can move to a second set position in the first accommodating space 111; so that the target device 200 moved into the first accommodating space 111 by the carrying device 300 is in the first target space posture on the carrying device 300 by the moving member 121 and the overturning member.

In the second example, if the carrying device 300 drives the target device 200 to move to the first accommodating cavity along the first direction, the moving member 121 is configured to push the first body 210 of the target device 200 to move to a first set position on the carrying device 300 along the second direction at a first height; when the turning member moves to a second set position in the first accommodating space 111, the turning member is used for pushing or pulling the second body 220 of the target device 200 to rotate from a second included angle to a set included angle relative to the first body 210.

Here, the structure of the target device 200 is similar to that of the target device 200 in example one, and is not described here again.

In the first example, the moving element 121 and the set included angle have been described, and are not described again.

In example two, the angle of the second included angle is not limited. For example, the angle of the second included angle may be smaller than the angle of the set included angle, or may be larger than the angle of the set included angle.

In the second example, the structure of the rotating member is not limited as long as the rotating member can move to the second setting position in the first receiving space 111; so that when the turnover member moves to a second set position in the first accommodating space 111, the turnover member is used for pushing or pulling the second body 220 of the target device 200 to rotate from a second included angle to a set included angle relative to the first body 210.

Here, the turning member may be movable to a second setting position in the first receiving space 111, the turning member may be movable to the second setting position in the first receiving space 111, the turning member may be rotatable to the second setting position in the first receiving space 111, and the turning member may be movable and rotatable to the second setting position in the first receiving space 111.

Here, when the flip is moved to the second setting position in the first receiving space 111, a third height is formed between the flip and the carrying apparatus 300 when the flip is moved to the second setting position in the first receiving space 111.

Here, the value of the third height is not limited. For example, the value of the third height may be greater than the value of the first height.

In example two, the first target spatial attitude includes both the target device 200 moving to the first set position and the angle between the first body 210 and the second body 220 rotating to the set angle.

Of course, in other examples, the first target spatial pose may only include the first body 210 and the second body 220 being rotated to a set angle, and at this time, the first assembly 120 may only include the flip, and the target device 200 may include both bodies.

In some optional implementations of embodiments of the present application, the first component 120 may include: the turnover piece is arranged in the first accommodating space 111, is positioned on the bearing side of the bearing equipment 300 and can move to a second set position in the first accommodating space 111; so that the target device 200 moved into the first accommodating space 111 by the carrying device 300 is in the first target space attitude on the carrying device 300 by the turning piece.

In an implementation manner, if the carrying device 300 drives the target device 200 to move to the first accommodating cavity along a first direction, and the turning member moves to a second set position in the first accommodating space 111, the turning member is configured to push or pull the second body 220 of the target device 200 to rotate from a third included angle to a set included angle relative to the first body 210 of the target device 200; the second body 220 is rotatably connected to the first body 210, and the angle of the third included angle is smaller than the angle of the set included angle, or the angle of the third included angle is larger than the angle of the set included angle.

The flip, the setting angle and the target device 200 have been described above, and will not be described herein.

In this implementation, when the flip is moved to the second setting position in the first accommodating space 111, a third height is formed between the flip and the carrying device 300; the value of the third height matches a second size parameter of the target device 200.

Here, the second size parameter may be a height size of the second body 220 of the target apparatus 200. The third height is smaller than the height dimension of the second body 220, so that the second body 220 of the target device 200 is pushed or pulled by the flip to rotate from the third included angle to the set included angle with respect to the first body 210.

In this implementation, the angle of the third included angle is not limited. For example, the angle of the third included angle may be smaller than the angle of the set included angle, or may be larger than the angle of the set included angle.

In some optional implementations of embodiments of the present application, the second component 130 may include: the blowing device is arranged in the first accommodating space 111, and can blow air to the target equipment 200 moving into the first accommodating space 111, and the blowing device can remove particles attached to the target surface of the target equipment 200 moving into the first accommodating space; so that a flow of gas is blown by the blowing means, and the particles adhered to the target surface of the target device 200 moved into the first subspace are removed by the gas.

In this implementation, the structure of the blowing device is not limited. For example, the blowing device may be a blower.

In this implementation, the blowing device may blow air toward the second direction.

In this implementation, the second component 130 may further include: and the air suction device is arranged in the first accommodating space 111, and can suck the air in the first accommodating space 111, and the air suction device is used for removing the particulate matters in the air in the first accommodating space 111 so as to remove the particulate matters attached to the target surface of the target equipment 200 in the first accommodating space 111.

Here, the structure of the air suction device is not limited. For example, the air suction device may be a suction fan or an air purification device.

Of course, in other implementations of the present application, the second assembly 130 may also include only an air blowing device or an air suction device.

In this implementation, as shown in fig. 5 and 6, the electronic device may further include: a fifth module 160, the fifth module 160 being disposed in the first accommodating space 111, the fifth module 160 being capable of sucking air in the first accommodating space 111, the fifth module 160 being used for removing particles in the air in the first accommodating space 111; so that particles adhering to the target surface of the target apparatus 200 located in the first receiving space 111 are removed by the second module 130 and the fifth module 160.

Here, the structure of the fifth assembly 160 is not limited. For example, the fifth component 160 may be a suction fan or an air cleaning device.

In this implementation, the blowing device may be movable in a third direction relative to the first housing 110; the blowing device is used for removing particles in the length direction of the target surface of the target equipment 200; and a fourth included angle is formed between the third direction and the first direction.

Here, the angle of the fourth angle is not limited. For example, the angle of the fourth included angle is greater than or equal to 0 degree, and the angle of the fourth included angle is smaller than 90 degrees. As an example, the third direction may be a length direction of the electronic device.

Here, an implementation manner in which the blowing device is movable in the third direction with respect to the first housing 110 is not limited.

As an example, as shown in fig. 4, the blowing device may include: a fixed part 131, a moving part 132 and at least two blowing heads 133. The fixing portion 131 is disposed in the first receiving space 111; the moving part 132 is connected to the fixed part 131, and the moving part 132 is movable in a third direction with respect to the fixed part 131; the at least two blowing heads 133 blow air towards the second direction, the at least two blowing heads 133 are disposed at intervals along the fourth direction on the moving member 121, and the at least two blowing heads 133 are configured to remove particles in a height direction of the target surface of the target apparatus 200.

Here, the third direction and the fourth direction are not limited. For example, the fourth direction and the third direction are perpendicular. As an example, the third direction is a length direction of the electronic device, and the fourth direction is a height direction of the electronic device.

In some optional implementations of embodiments of the present application, the first housing 110 further has a first inlet 112 and a first outlet 113; the first inlet 112 and the first outlet 113 are respectively communicated with the first accommodating space 111; the first inlet 112 and the first outlet 113 are located on different sides of the first housing 110; the carrying device 300 can drive the target device 200 outside the first accommodating space 111 to move into the first accommodating space 111 through the first inlet 112, and the carrying device 300 can drive the target device 200 to move out of the first accommodating space 111 through the first outlet 113; the electronic device may further include: a second housing 140; a second case 140 disposed adjacent to the first case 110, the second case 140 having a second receiving space 141 and a second inlet 142; the second inlet 142 communicates with the second accommodating space 141; the second inlet 142 corresponds to the first outlet 113; the carrying device 300 can bring the target device 200 out of the first accommodating space 111 from the first outlet 113 and move into the second accommodating space 141 from the second inlet 142; so as to move the target device 200 in the first target space attitude at the first accommodation space 111 by the first assembly 120 to the second accommodation space 141.

In this implementation, the first inlet 112 and the first outlet 113 are located on different sides of the first housing 110, and the first inlet 112 and the first outlet 113 may be located on adjacent sides of the first housing 110, or the first inlet 112 and the first outlet 113 may be located on opposite sides of the first housing 110, as shown in fig. 3.

In this implementation, the electronic device may further include: and a third component disposed in the second accommodating space 141, the third component facing the second direction, and the third component being configured to detect a target surface of the target device 200 in a second target space posture, which is moved into the second accommodating space 141 by the carrying device 300.

Here, the second target spatial attitude corresponds to the first target spatial attitude for the target apparatus 200 to be in the second target spatial attitude by the movement of the carrier apparatus 300 into the second accommodation space 141; at this time, the target device 200 forms the first target space posture in the first accommodation space 111 through the first component 120, and the target device 200 is directly in the second target space posture in the second accommodation space 141 through the carrying device 300, which facilitates the detection of the target surface of the target device 200 in the second target space posture by the third component.

Here, the target surface of the target device 200 is not limited. For example, when the target device 200 includes the first body 210 and the second body 220, the front and back of the second body 220 may be a target surface of the target device 200. As an example, the second body 220 has a display screen, and the surface of the display screen is the target surface of the target device 200.

Here, the structure of the third member is not limited. For example, the second body 220 has a display screen, and the third component may be a device for detecting whether the display screen has a defect.

Here, the third component may include an image capture device for capturing an image of the target surface of the target apparatus 200, the image captured by the image capture device being used to analyze the display quality of the target surface of the target apparatus 200. For example, the image captured by the image capturing device is used to analyze whether the target surface of the target device 200 has defects such as cracks, scratches, spots, etc.; at this time, if particulate matter exists on the target surface of the target device 200, the particulate matter may be mistakenly regarded as the target surface of the target device 200 having a defect, which affects the analysis result; therefore, the presence of particulate matter on the target surface of the target device 200 needs to be removed.

Here, the third component obtains detection data from the target device 200 in the second target spatial attitude within the second accommodation space 141.

In this embodiment, the electronic device may further include: a fourth member 150, wherein the fourth member 150 is disposed between the first casing 110 and the second casing 140, and the fourth member 150 is used for blocking the particles from entering the first accommodating space 111 and the second accommodating space 141.

Here, the structure of the fourth assembly 150 is not limited. For example, the fourth assembly 150 may be an annular elastic member.

In the electronic device in this embodiment of the application, the first component 120 is disposed in the first accommodating space 111, and is capable of moving in the first accommodating space 111, so as to enable the target device 200, which is moved into the first accommodating space 111 by the carrying device 300, to be in a first target space posture on the carrying device 300; a second assembly 130, at least partially disposed in the first accommodating space 111, for controlling a gas flow, wherein the gas can remove particles attached to the target surface of the target device 200 moving into the first accommodating space; by moving the target device 200 to the first accommodating space 111, the target device 200 can be in a specific spatial posture, and the particles attached to the target surface of the target device 200 moving into the first accommodating space can be removed by the gas, at this time, two functions of positioning the target device in the specific spatial posture and removing the particles attached to the target surface of the target device are arranged at one spatial position, so that the space utilization rate is improved, the time for moving the target device by the bearing device is shortened, and the production efficiency of the electronic device can be greatly improved.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. An electronic device, characterized in that the electronic device comprises:

a first housing having a first receiving space; the bearing equipment moving relative to the first shell can drive the target equipment outside the first accommodating space to move into the first accommodating space;

the first assembly is arranged in the first accommodating space, can move in the first accommodating space and is used for enabling the target equipment moved into the first accommodating space through the bearing equipment to be in a first target space posture on the bearing equipment;

a second component, at least partially disposed in the first containing space, for controlling a flow of gas, wherein the gas can remove particles attached to a target surface of the target device moving into the first containing space.

2. The electronic device of claim 1, wherein the carrying device is capable of driving the target device to move into the first accommodating space along a first direction;

the first assembly is movable in a second direction, the first direction and the second direction satisfying a vertical condition.

3. The electronic device of claim 2, wherein the first component comprises:

the moving part is arranged in the first accommodating space, is positioned on the bearing side of the bearing equipment and can move to a first set position in the first accommodating space along a second direction at a first height, wherein the first height is the distance between the moving part and the bearing equipment;

the blocking piece is fixed in the first accommodating space, is positioned on the bearing side of the bearing equipment and is positioned in the moving direction of the moving piece at a second height, and the second height is the distance between the blocking piece and the bearing equipment; the value of the second height is greater than the value of the first height; under the condition that the moving element moves to a first set position along a second direction, the projection distance of the moving element and the blocking element on the bearing equipment meets a preset condition, and the preset condition is matched with a first size parameter of the target equipment;

if the bearing equipment drives the target equipment to move to the first accommodating cavity along the first direction, the moving part is used for pushing the first body of the target equipment to move to a first set position on the bearing equipment along the second direction at a first height; if the moving piece pushes the first body of the target device to move on the bearing device to a first set position along a second direction, the blocking piece is used for contacting with the second body of the target device to force the second body to rotate from a first included angle to a set included angle relative to the first body; the second body is rotatably connected with the first body, the set included angle is 90 degrees, and the angle of the first included angle is larger than 90 degrees.

4. The electronic device of claim 2, wherein the first component comprises:

the moving part is arranged in the first accommodating space, is positioned on the bearing side of the bearing equipment and can move to a first set position in the first accommodating space along a second direction at a first height, wherein the first height is the distance between the moving part and the bearing equipment;

the turnover piece is arranged in the first accommodating space, is positioned on the bearing side of the bearing equipment and can move to a second set position in the first accommodating space; when the turnover piece moves to a second set position in the first accommodating space, a third height is formed between the turnover piece and the bearing equipment, and the value of the third height is greater than that of the first height;

if the bearing equipment drives the target equipment to move to the first accommodating cavity along the first direction, the moving part is used for pushing the first body of the target equipment to move to a first set position on the bearing equipment along the second direction at a first height; when the turnover piece moves to a second set position in the first accommodating space, the turnover piece is used for pushing or pulling the second body of the target equipment to rotate from a second included angle to a set included angle relative to the first body; the second body is rotatably connected with the first body, and the angle of the second included angle is smaller than that of the set included angle, or the angle of the second included angle is larger than that of the set included angle.

5. The electronic device of claim 1, wherein the first component comprises:

the turnover piece is arranged in the first accommodating space, is positioned on the bearing side of the bearing equipment and can move to a second set position in the first accommodating space; when the turnover piece moves to a second set position in the first accommodating space, a third height is formed between the turnover piece and the bearing equipment, and the value of the third height is matched with a second size parameter of the target equipment;

if the bearing device drives the target device to move into the first accommodating cavity along a first direction, and the overturning piece moves to a second set position in the first accommodating space, the overturning piece is used for pushing or pulling the second body of the target device to rotate to a set included angle from a third included angle relative to the first body of the target device; the second body is rotatably connected with the first body, and the angle of the third included angle is smaller than that of the set included angle, or the angle of the third included angle is larger than that of the set included angle.

6. The electronic device of claim 1, wherein the first housing further has a first inlet and a first outlet; the first inlet and the first outlet are respectively communicated with the first accommodating space; the first inlet and the first outlet are located on different sides of the first housing; the bearing equipment can drive target equipment outside the first accommodating space to move into the first accommodating space through the first inlet, and the bearing equipment can drive the target equipment to move out of the first accommodating space through the first outlet;

the electronic device further includes:

a second housing disposed adjacent to the first housing, having a second receiving space and a second inlet; the second inlet is communicated with the second accommodating space; the second inlet corresponds to the position of the first outlet; the bearing device can drive the target device to move out of the first accommodating space from the first outlet and move into the second accommodating space from the second inlet;

the third assembly is arranged in the second accommodating space, faces a second direction and is used for detecting the target surface of the target device which is moved into the second accommodating space through the bearing device and is in a second target space posture;

and the fourth component is arranged between the first shell and the second shell and used for blocking outside particles from entering the first accommodating space and the second accommodating space.

7. The electronic device of claim 6, wherein the first target spatial attitude is for the target device to be in the second target spatial attitude by movement of a carrier device into the second accommodation space; wherein, within the second accommodation space, the third component obtains detection data from the target device at the second target spatial pose.

8. The electronic device of any of claims 1-7, wherein the second component comprises:

the blowing device is arranged in the first accommodating space, can blow air to the target equipment moved into the first accommodating space, and can remove particles attached to the target surface of the target equipment moved into the first accommodating space;

the electronic device further includes: the fifth assembly is arranged in the first accommodating space, can suck the air in the first accommodating space and is used for removing the particulate matters in the air in the first accommodating space; or, the second assembly further comprises: and the air suction device is arranged in the first accommodating space, can suck the air in the first accommodating space and is used for removing the particulate matters in the air in the first accommodating space.

9. The electronic device according to claim 8, wherein the blowing device blows air in a second direction, and the blowing device is movable in a third direction with respect to the first housing; the blowing device is used for removing particles in the length direction of the target surface of the target equipment; and a fourth included angle is formed between the third direction and the first direction, the angle of the fourth included angle is more than or equal to 0 degree, and the angle of the fourth included angle is less than 90 degrees.

10. The electronic device according to claim 9, wherein the blowing means comprises:

a fixing portion disposed in the first accommodating space;

a moving part connected with the fixed part and capable of moving along a third direction relative to the fixed part;

at least two blowing heads which blow air towards the second direction, are arranged on the moving part at intervals along a fourth direction and are used for removing the particulate matters in the height direction of the target surface of the target equipment; wherein the fourth direction and the third direction are perpendicular.

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