CN221406500U - Scanning pen - Google Patents

Abstract

The application relates to the technical field of scanning, and provides a scanning pen which comprises a device host and a scanning assembly. A screen and a first camera are arranged on the equipment host; the scanning assembly is provided with a second camera and is movably connected with the equipment host through a movable assembly, and the scanning assembly can move relative to the equipment host, so that the scanning assembly at least has an unfolding state and a storage state; in the storage state, the scanning assembly is stored in the equipment host; in the unfolded state, the scanning assembly relatively extends out of the equipment host, so that the scanning assembly is convenient to hold and scan. The scanning assembly can move relative to the equipment host and has a storage state and an unfolding state, and the scanning pen in the storage state is smaller. The first camera arranged on the equipment host can be used for rapidly scanning or photographing large-space scanning contents, and the second camera arranged on the scanning assembly can be used for scanning single-line or multi-line scanning contents, so that the use scenes of the scanning pen are enriched.

Description

Scanning pen

Technical Field

The application relates to the field of scanning, in particular to a scanning pen.

Background

In the related art, the application scene of the scanning pen is relatively single, and the functions of scanning, point reading and the like can be realized only by using the scanning element at the front end of the pen head under the normal condition, but the scanning pen cannot rapidly scan and identify the contents to be scanned in a large scale, so that various use requirements of users cannot be met, and the intelligent degree of the scanning pen is not ideal. In addition, most of the scanning pens in the related art are in a straight-bar type structure, so that the occupied space is large, the scanning pens are not easy to carry about, and the utilization rate of the scanning pens is reduced.

Disclosure of utility model

Aiming at the technical problems, the embodiment of the application discloses a scanning pen, a scanning assembly can be movably connected relative to a device host, the scanning assembly can be switched between an unfolding state and a storage state, and the occupied space of the scanning pen can be greatly reduced when the scanning assembly is in the storage state. A user can also select to use the first camera on the equipment host to finish the rapid scanning of the content to be scanned with a larger area according to the personal scanning requirement, or use the second camera on the scanning assembly to conduct one-line or multi-line targeted scanning, so that different scanning requirements of the user are met.

In order to achieve the above object, an embodiment of the present application provides a scanning pen, including a device host and a scanning assembly. A screen and a first camera are arranged on the equipment host; the scanning assembly is provided with a second camera and is movably connected with the equipment host through a movable assembly, and the scanning assembly can move relative to the equipment host, so that the scanning assembly at least has an unfolding state and a storage state; in the storage state, the scanning assembly is stored in the equipment host; in the unfolded state, the scanning assembly relatively extends out of the equipment host, so that the scanning assembly is convenient to hold and scan.

In some embodiments, the scanning assembly is in a storage state, and the second camera is closed and stored in the device host along with the scanning assembly; the scanning assembly is in an unfolding state, and the second camera is opened and exposed out of the equipment host along with the scanning assembly.

In some embodiments, the device host has opposite first and second sides, the first side of the device host is provided with a screen, and the second side of the device host is provided with a first camera.

In some embodiments, the second side of the device host is further provided with a receiving slot; under the state of accomodating, scanning assembly accomodates in accomodating the groove at least partially, and first camera and accomodate the groove and arrange along the length direction of equipment host computer.

In some embodiments, a device host includes a mounting slot and a speaker assembly disposed within the mounting slot, the speaker assembly including a speaker housing and a speaker disposed within the speaker housing; the loudspeaker shell is also provided with a mounting port, and the first camera is arranged in the mounting port.

In some embodiments, the mounting groove is provided with a support step on an inner wall thereof, the device host further comprises a decoration piece arranged on the support step, the decoration piece covers the notch of the mounting groove, and the speaker housing is positioned below the decoration piece.

In some embodiments, the trim piece is provided with a camera lens, and the camera lens is correspondingly disposed on the first camera.

In some embodiments, the movable component is a rotating component, and the scanning component is rotationally connected with the equipment host through the rotating component and can turn over relative to the equipment host; in the storage state, the scanning assembly is folded on the equipment host; in the deployed state, the scan assembly is deployed around the device host.

In some embodiments, the rotating assembly is disposed at an end of the device host.

In some embodiments, the width of the scanning component is less than the width of the device host, and the thickness of the scanning component is less than the thickness of the device host.

In some embodiments, a first circuit board and a connection wire electrically connected to the first circuit board are provided in the device host, and the connection wire extends from the device host through the movable assembly into the scanning assembly and connects to a second circuit board in the scanning assembly.

In some embodiments, the movable assembly includes a first shaft disposed on the scanning assembly, the first shaft being inserted into the mounting hole of the device host and capable of rotating relative to the mounting hole, a channel communicating the device host and the scanning assembly being disposed on the first shaft, and the connection line entering the scanning assembly through the channel.

In some embodiments, the device host includes a first flexible circuit board that connects the first camera to the first circuit board.

In some embodiments, the scanning assembly includes a scanning housing, the scanning housing has an extension direction, one end of the scanning housing is movably connected with the device host through the movable assembly, the scanning housing is used for a user to hold the scanning pen around the extension direction when the scanning housing is turned over relative to the device host and is in an unfolded state, and the second camera is disposed at the other end of the scanning housing and scans through a scanning window on the scanning housing.

In some embodiments, the scanning assembly includes a second flexible circuit board connecting the second camera to the second circuit board; the scanning assembly further comprises a battery arranged in the scanning shell, the battery is located between the second circuit board and the second camera, and the second flexible circuit board is pressed on the battery.

Compared with the prior art, the application has the beneficial effects that:

The scanning pen provided by the embodiment of the application has the advantages that the scanning assembly can move relative to the equipment host and has the storage state and the unfolding state, and the scanning assembly can be protected from being damaged in the storage state; meanwhile, the scanning pen in the storage state is smaller and more exquisite, and is convenient to carry. The first camera that equipment host computer set up can be used for scanning or shooing by a wide margin scanning content fast, and the second camera that scanning assembly set up can be with scanning single line or multirow scanning content to satisfy user's different scanning demands, richened the service scenario of scanning pen.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a rear view of a scanner pen receiving state in a preferred embodiment;

FIG. 2 is a bottom view of a preferred embodiment of the scanner pen storage state;

FIG. 3 is a side view of a scanning pen deployment process in a preferred embodiment;

FIG. 4 is a side view of a preferred embodiment of a scanner pen stowed condition;

FIG. 5 is a front view of a scanner pen in a preferred embodiment in an extended position;

FIG. 6 is a grip diagram of a scanning pen in a preferred embodiment;

FIG. 7 is a schematic view of the structure of a scanning pen in a deployed state in a preferred embodiment;

FIG. 8 is a schematic view showing a configuration of a scanner pen storing state in a preferred embodiment;

FIG. 9 is a cross-sectional view taken along the direction A-A in FIG. 8;

FIG. 10 is a partial exploded pictorial view of a scanning pen in a preferred embodiment;

FIG. 11 is a schematic view of a hidden portion scan housing of a scanning pen in a preferred embodiment;

Fig. 12 is an enlarged view at B in fig. 11.

Reference numerals illustrate:

1 equipment host, 2 screens, 3 scanning components, 4 converging curved surfaces, 5 smooth curved surfaces, 6 power switches, 10 first cameras, 30 second cameras, 20 accommodating grooves, 40 mounting grooves, 401 supporting steps, 50 speaker housings, 501 mounting openings, 502 first through openings, 60 decorating pieces, the camera lens comprises a 601 camera lens, a 70 first rotating shaft, a 702 shaft body, a 703 connecting piece, a 704 channel, a 703 connecting piece, an 80 first circuit board, an 801 connecting wire, an 802 first flexible circuit board, a 90 second circuit board, a 901 second flexible circuit board, a 100 battery, a 110 scanning shell and a 112 scanning window.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the present application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", and the like indicate an azimuth or a positional relationship based on that shown in the drawings. These terms are only used to better describe the present application and its embodiments and are not intended to limit the scope of the indicated devices, elements or components to the particular orientations or to configure and operate in the particular orientations.

Also, some of the terms described above may be used to indicate other meanings in addition to orientation or positional relationships, for example, the term "upper" may also be used to indicate some sort of attachment or connection in some cases. The specific meaning of these terms in the present application will be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "mounted," "configured," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish between different devices, elements, or components (the particular species and configurations may be the same or different), and are not used to indicate or imply the relative importance and number of devices, elements, or components indicated. Unless otherwise indicated, the meaning of "a plurality" is two or more.

At present, most of the handheld intelligent scanning pens in the related art are in a simple pen shape or a straight bar shape, the structure is single, the handheld intelligent scanning pen is not easy to carry, and the scanning heads of the scanning pens are positioned at the end parts, so that the handheld intelligent scanning pens are extremely easy to damage. In addition, the handheld intelligent scanning pen generally uses the scanning element positioned at the end of the pen head to scan, read and translate, but the scanning area of the scanning element is limited by the width of the scanning pen, so that more contents cannot be scanned at one time.

Based on this, the application discloses a scanning pen comprising a device host 1 and a scanning assembly 3. Comprising a device host 1 and a scanning assembly 3. The device host 1 is provided with the screen 2 and the first camera 10, the scanning assembly 3 is provided with the second camera 30, and a user can select to use the first camera 10 or the second camera 30 for scanning according to personal scanning requirements, so that the intelligence of a scanning pen is improved.

The scanning pen of the present application will be described in detail with reference to the accompanying drawings.

Referring to fig. 12 together, and in particular to fig. 1 to 6, 8 and 11, the present application provides a scanning pen, which includes a device host 1 and a scanning assembly 3. The device host 1 is provided with a screen 2 and a first camera 10; the scanning assembly 3 is provided with a second camera 30, the scanning assembly 3 is movably connected with the equipment host 1 through a movable assembly, and the scanning assembly 3 can move relative to the equipment host 1, so that the scanning assembly 3 at least has an unfolding state and a storage state; in the storage state, the scanner unit 3 is stored in the device host 1; in the unfolded state, the scanning assembly 3 relatively extends out of the device host 1, so that the scanning assembly 3 is convenient to hold and scan.

In this embodiment, the scanning component 3 is movably connected with the device host 1 through the movable component, in the unfolded state, the scanning component 3 relatively extends out of the device host 1, and the holding part of the user is arranged on the extended scanning component 3, so that the movable component is not extruded in the scanning process of the scanning component 3, the loss of the movable component can be further reduced, and the durability of the scanning pen is improved; meanwhile, the influence of the holding part on the visual angle of the screen 2 can be reduced, and the reading experience of the screen 2 is improved.

Specifically, after the scanning assembly 3 extends, the user holds two sides of the scanning assembly 3 in the width direction, and the front side of the device host 1 is provided with the screen 2 and faces to the side far away from the hand of the user. The scanning pen comprises, but is not limited to, a scanning function, and can also have other functions such as translation, recording, playing, video recording and the like.

The first camera 10 provided on the device host 1 may be used for fast scanning or photographing and recording of a large-scale scanned content. When scanning is performed by using the first camera 10, the scanning unit 3 may be in a stored state or an expanded state. The user holds the device host 1 and hangs above the object to be scanned, and scans or photographs the object to be scanned through the first camera 10, so that the object to be scanned with a large space can be scanned quickly, and the functions of scanning, translating and the like are completed.

The second camera 30 provided on the scanning assembly 3 can be used to more specifically scan and record one or more lines of scanned content. When the user has the above-mentioned requirement for targeted scanning, the user can place the scanning assembly 3 in an unfolded state, and perform one-line or multi-line scanning on a certain section of content in the object to be scanned by using the second camera 30 arranged at the end of the scanning assembly 3, so as to complete the functions of scanning, translation and the like.

Therefore, the scanning pen provided by the embodiment of the application has the advantages that the scanning assembly 3 can move relative to the equipment host 1 and has the storage state and the unfolding state, so that the scanning pen is smaller and more compact and is convenient to carry. The first camera 10 arranged on the equipment host 1 can be used for rapidly scanning or photographing large-scale scanning contents, and the second camera 30 arranged on the scanning assembly 3 can be used for scanning single-line or multi-line scanning contents, so that different scanning requirements of users are met, and the use scenes of the scanning pen are enriched.

To further protect the second camera 30, the durability of the scanning pen is improved. In other embodiments, the scanning assembly 3 is in the storage state, and the second camera 30 is closed and stored in the device host 1 along with the scanning assembly 3; the scanning assembly 3 is in an unfolded state, and the second camera 30 is opened and exposed to the device host 1 along with the scanning assembly 3.

Specifically, when the scanning assembly 3 is in the storage state, it is explained that the user does not need to use the scanning assembly 3 to scan at this time, and the second camera 30 is stored in the device host 1, so that the second camera 30 can be protected from damage caused by collision, falling, and the like.

Further, when the scanning assembly 3 is in the unfolded state, it indicates that the user needs to use the second camera 30 to perform the targeted scanning, the second camera 30 needs to move along with the scanning assembly 3 and be exposed to the device host 1, and the second camera 30 can scan the object to be scanned, so as to be convenient for the user to use.

In an alternative way, the second camera 30 may be automatically turned on when the scanning assembly 3 is extended relative to the device host 1 to be in the extended state. In other words, once the scanning assembly 3 is switched from the storage state to the unfolding state, the second camera 30 can be automatically turned on, so that the scanning assembly 3 can be immediately in the state to be scanned. In this way, the user does not need to manually start the second camera 30, so that the operation steps of the user are simplified, and the convenience of operation and the use experience of the user (especially the child user) are improved.

Alternatively, the second camera 30 may be automatically turned off when the scanning assembly 3 is stored relative to the device host 1 to be in the storage state. That is, when the scanning module 3 is stored in the host 1, the second camera 30 is automatically turned off. The second camera 30 is located in the device host 1 when the scanning assembly 3 is stored relative to the device host 1, and the second camera 30 cannot be aligned with the object to be scanned at this time, so that the second camera 30 is automatically closed when the scanning assembly 3 is stored relative to the device host 1, and the user does not need to manually operate and close the device host 1, thereby effectively improving the convenience and experience of use of the user.

The automatic opening of the scanning camera when the scanning assembly 3 is extended to be in the unfolded state relative to the device host 1 may be, for example: a sensor such as a photosensor, an ultrasonic sensor, or a capacitive sensor may be provided. A photosensor (e.g., a laser sensor) will be described below as an example.

The light sensor is capable of emitting light to detect the status of the scanning assembly 3 relative to the device host 1. Specifically, when the scanning assembly 3 is located at the storage position, the light emitted by the light sensor is blocked by the scanning assembly 3, so that the light sensor can emit an optical signal to the device host 1, and the device host 1 controls the scanning camera to be turned off. Similarly, when the scanning component 3 extends out relative to the device host 1 to be in the unfolded state, the light emitted by the light sensor is not blocked, so that the light sensor can send corresponding optical signals to the device host 1, and the device host 1 can control the scanning camera to be turned on.

In other embodiments, the device host 1 has opposite first and second sides, the first side of the device host 1 being provided with the screen 2 and the second side of the device host 1 being provided with the first camera 10.

Specifically, the device host 1 may include a first surface and a second surface opposite to each other, the first surface may be provided with the screen 2, the second surface may be provided with the first camera 10, and the first camera 10 is electrically connected to the screen 2. Therefore, when the user faces the screen 2, the first camera 10 can be used to shoot objects or scenery at the rear end of the screen 2, so that the scanning pen also has a shooting function of the rear camera, and the function of the scanning pen is effectively expanded.

In other embodiments, the second side of the device host 1 is further provided with a receiving slot 20; in the storage state, the scanning assembly 3 is at least partially stored in the storage slot 20, and the first camera 10 and the storage slot 20 are arranged along the length direction of the device host 1.

In this embodiment, referring to fig. 7, the scanning assembly 3 can be in a storage state relative to the device host 1, and the scanning assembly 3 is at least partially stored in the storage slot 20, so that the scanning assembly 3 can be protected; meanwhile, after the scanning assembly 3 is stored in the storage groove 20 of the equipment host 1, the scanning pen is smaller and more portable in the storage state.

Alternatively, the movable component may be a rotating component. The scanning component 3 can be turned over to the storage groove 20 through the movable component, the storage groove 20 can be arranged on one side, deviating from the screen 2, of the equipment host 1, and the scanning component 3 can be turned over along the length direction of the equipment host 1 and at least partially stored in the storage groove 20.

In a variant embodiment, the receiving slot 20 may be provided on the left side or the rear side of the apparatus main body 1, and the scanning assembly 3 may be turned over along the width direction of the apparatus main body 1 and received in the receiving slot 20.

The first camera 10 and the accommodating groove 20 are arranged side by side along the length direction of the device host 1, that is, the first camera 10 may be located at a position where the second surface of the device host 1 is close to the top of the length direction, and the accommodating groove 20 may be located below the first camera 10 along the length direction. In this way, the scanning assembly 3, whether in the unfolded state or the folded state, does not cause shielding of the first camera 10. That is, in any case, the scanning pen can be used at any time as long as a user needs to use the first camera 10 to scan, and the state of the scanning assembly 3 does not need to be adjusted, so that the use convenience of the scanning pen is improved.

In addition, the first camera 10 and the storage groove 20 are arranged side by side along the length direction of the host machine along the equipment, and the space of the second surface of the host machine 1 can be fully utilized, so that the host machine 1 is more compact and small in structure.

In order to improve the integration degree of the scanning pen, in other embodiments, referring to fig. 10, the device host 1 includes a mounting slot 40 and a speaker assembly disposed in the mounting slot 40, and the speaker assembly includes a speaker housing 50 and a speaker disposed in the speaker housing 50; the speaker housing 50 is further provided with a mounting opening 501, and the first camera 10 is disposed in the mounting opening 501.

In this embodiment, the mounting groove 40 may be aligned with the above-mentioned receiving groove 20 along the length direction of the device host 1, that is, the mounting groove 40 may be located at a position where the second surface of the device host 1 is close to the top in the length direction thereof, and the receiving groove 20 may be located below the mounting groove 40 along the length direction. Arranging the mounting groove 40 and the receiving groove 20 along the length direction of the apparatus main body 1 can make the structure of the apparatus main body 1 more compact, rationally utilizing the space of the second face of the apparatus main body 1.

The speaker assembly is arranged in the mounting groove 40, and comprises a speaker housing 50 and a speaker arranged on the speaker housing 50, the first camera 10 is arranged on the speaker housing 50, and the speaker housing 50 can be multiplexed into a supporting device for supporting the first camera 10, so that the number of structural components in the equipment host 1 is reduced, and the integration degree of the scanning pen is improved.

Referring to fig. 9, the speaker housing 50 may be provided with a mounting hole 501, the opening of the mounting hole 501 faces one side of the screen 2, the size of the mounting hole 501 is adapted to the size of the housing of the first camera 10, and the first camera 10 may be fixed in the mounting hole 501 by bonding or welding. The speaker housing 50 is further provided with a first port 502 at a position corresponding to the mounting port 501, and the first camera 10 obtains image information in the environment through the first port 502 to realize functions of scanning, recording, and the like.

In order to prevent dust from entering the mounting port 501 through the first through port 502 on the speaker housing 50 and contaminating the first camera 10, a camera sealant may be adhered between the first camera 10 and the speaker housing 50, so as to ensure that a seal is formed between the first camera 10 and the speaker housing 50 to ensure that the first camera 10 is in a clean working environment.

In other embodiments, the supporting step 401 is disposed on the inner wall of the mounting groove 40, the device host 1 further includes a decoration 60 disposed on the supporting step 401, the decoration 60 covers the notch of the mounting groove 40, and the speaker housing 50 is located below the decoration 60.

In this embodiment, referring to fig. 9, a support step 401 is provided on the inner wall of the mounting groove 40, the support step 401 being provided around the circumference of the mounting groove 40, there being a set distance between the support step 401 and the notch of the mounting groove 40, the set distance being positively correlated with the thickness of the decoration 60 provided on the support step 401.

The outer surface of the decoration 60 may have an aesthetic appearance by a coating process or the like, and the decoration 60 is disposed at the support step 401 to cover the notch of the mounting groove 40 and to cover the speaker housing 50, so that the scanner pen has a more design-like appearance.

The decoration 60 may be provided to the support step 401 by bonding or welding, and the decoration 60 may also form a seal with the support step 401 by bonding, thereby preventing dust from entering the mounting groove 40 to contaminate the first camera 10.

Further, the decoration 60 is provided with a camera lens 601, and the camera lens 601 is correspondingly disposed on the first camera 10.

Specifically, referring to fig. 10, the decoration 60 is further provided with a second opening corresponding to the first opening 502, and the second opening may be provided with a camera lens 601. Because the first camera 10 is disposed corresponding to the first through hole 502, the camera lens 601, the second through hole, the first through hole 502 and the first camera 10 are disposed correspondingly, so as to reduce the loss of light entering the first camera 10.

The camera lens 601 may be fixed to the outer circumference of the second port by a lens fixing adhesive to stably set the camera lens 601 on the decoration 60, thereby protecting the optical lens of the first camera 10.

The trim 60 may also be provided with a set of sound outlet holes that may communicate with sound transfer holes in the speaker housing 50. In this way, the scan result emitted by the speaker in the form of voice can be clearly received by the user.

In another embodiment, the movable component is a rotating component, and the scanning component 3 is rotatably connected with the equipment host 1 through the rotating component and can turn over relative to the equipment host 1; in the storage state, the scanning assembly 3 is folded on the device host 1; in the deployed state, the scanning assembly 3 is deployed around the device host 1.

In this embodiment, the scanning assembly 3 is rotatably connected to the device host 1 through a rotation assembly, and can be turned over relative to the device host 1, so that the scanning assembly 3 has an unfolded state and a stored state.

Specifically, referring to fig. 3, a rotation member is provided at an end of the apparatus main body 1, and the scanning member 3 is rotatable around the end of the apparatus main body 1. It should be noted that the present application is particularly limited to protecting that the user can hold the extended scanning assembly 3 and scan, and the movable assembly in the present application includes, but is not limited to, a rotating assembly, and may also be a sliding or ejecting movable structure. The rotating assembly may also be provided on the side, back side, etc. of the device host 1.

Further, the width of the scanning component 3 is smaller than the width of the device host 1, and the thickness of the scanning component 3 is smaller than the thickness of the device host 1.

In this embodiment, the width of the scanning component 3 is smaller than the width of the device host 1, so that the size of the scanning component 3 is more consistent with the holding size of a human body, and meanwhile, the problem of poor holding feeling caused by oversized device host 1 can be avoided. The scanning component 3 is smaller than the thickness of the equipment host 1, so that the scanning component 3 can be placed in the storage groove 20 of the equipment host 1, and meanwhile, after the scanning component 3 is placed in the storage groove 20, the side wall of the scanning component 3 can be flush with the rear side wall of the equipment host 1, and in a storage state, the scanning pen has better visual appearance effect.

Further, referring to fig. 4, in the accommodated state, an end of the scanning assembly 3 remote from the rotating assembly partially exceeds the accommodation groove 20 in the thickness direction of the apparatus main body 1; and/or, in the storage state, the groove wall of the storage groove 20 is provided with a groove with an opening facing the scanning assembly 3, so that a user can conveniently stir and rotate the scanning assembly 3 from the opening of the groove by using fingertips.

In this embodiment, in the storage state, the end of the scanning module 3 away from the rotating module partially extends beyond the storage groove 20 in the thickness direction of the apparatus main unit 1, so that the scanning module 3 can be easily separated from the storage groove 20. In addition, a groove with an opening facing the scanning assembly 3 is provided on the groove wall of the storage groove 20, and the scanning assembly 3 can be separated from the storage groove 20 from the opening of the groove.

Specifically, the groove may be located at any edge of the receiving groove 20, and most preferably, in this embodiment, the groove is disposed at an end of the scanning assembly 3 away from the rotating assembly, so long as the opening of the groove faces and communicates with the receiving groove 20, so that the scanning assembly 3 can be separated from the receiving groove 20 more quickly and more effort-effectively, the specific structure of the groove is not further limited, and the groove may be square, semicircular, semi-elliptical, and the like. While only two quick-release structures are shown in the present application that can quickly release the scanning assembly 3 from the receiving slot 20, the present application includes but is not limited to these two structures.

Further, the equipment host 1 is also provided with a locking mechanism and a resetting mechanism; in the storage state, the locking mechanism stores the scanning assembly 3 in the equipment host 1, and at this time, the scanning assembly 3 compresses the reset mechanism; in the deployed state, the reset mechanism releases the elasticity and pushes the scanning assembly 3 to rotate relative to the device host 1 until the scanning assembly 3 rotates to a preset position of the device host 1, for example, approximately parallel to the device host 1.

In this embodiment, the locking mechanism fixes the scanning module 3 to the receiving groove 20 of the device host 1, and prevents the scanning module 3 from arbitrarily rotating in the receiving groove 20; the locking is released, the reset mechanism can drive the scanning assembly 3 to turn to the unfolding state, and in the unfolding state, the reset mechanism can always keep the parallel fastening state between the scanning assembly 3 and the equipment host 1, so that the equipment host 1 and the scanning assembly 3 are prevented from shaking or the equipment host 1 rotates to the scanning assembly 3 side. In addition, the locking mechanism and the reset mechanism can be the same component, and the component can have both locking and reset functions.

Specifically, the locking mechanism is a locking manner commonly used in the art or related fields, such as a button, a knob, and the like. As long as the unfolding and folding processes can be embodied, are within the scope of the present application. The return mechanism is a common elastic member, such as a torsion spring, and the present application will not be further described.

It should be noted that, in this embodiment, the resetting process of the resetting mechanism may be reversed. That is, in the storage state, the reset mechanism releases the elasticity and pushes the scanning assembly 3 to be fixed to the storage groove 20 in a turnover manner; in the unfolded state, the scanning assembly 3 is turned over and the reset mechanism is pressed, so that the scanning assembly 3 is turned over to a scanning position, and then the scanning assembly 3 is fixed at the position through the locking mechanism, and at this time, the scanning position of the scanning assembly 3 includes but is not limited to being turned over to be parallel to the device host 1. Meanwhile, other similar overturning driving structures, such as a magnetic driving structure, a motor driving structure and the like, can be arranged on the equipment host 1.

In a variant embodiment, the device host 1 is further provided with a holding structure capable of holding the scanning assembly 3 stationary in the deployed state.

In this embodiment, the function of the holding structure is partially the same as that of the reset mechanism in the above embodiment, and in the unfolded state, the holding structure can enable the scanning assembly 3 to be turned over to a designated position and then to be kept fixed, so that the device host 1 can be kept stable when the scanning assembly 3 is kept, and the device host 1 is prevented from bending during the scanning process, so that a user cannot see the screen 2 or the device host 1 extrudes the hand of the user, and the use experience of the user is further affected. Specifically, the holding structure includes, but is not limited to, a magnetic attraction structure, a damping structure, and the like.

Further, referring to fig. 5, the scanning assembly 3 is further provided with a converging curved surface 4, and the converging curved surface 4 is disposed at one end of the scanning assembly 3 close to the rotating assembly and converges toward a side far from the rotating assembly.

In this embodiment, be equipped with the curved surface 4 that contracts on the scanning subassembly 3, can further reduce the width of scanning subassembly 3, the curved surface 4 that contracts sets up simultaneously and is close to the one end of rotating the subassembly at scanning subassembly 3 and receive the beam to the one side of keeping away from the rotating the subassembly for under the expansion state, the equipment host computer 1 is excessive smoother to be connected between the scanning subassembly 3, accords with ergonomic more, and is more flexible beautiful, has also avoided in the scanning process, and the lower lateral wall of equipment host computer 1 withstands user's hand, leads to the user to use experience inadequately. Specifically, in this embodiment, the converging curved surface 4 is located at two sides of the width direction of the scanning component 3, and the part is held when the scanning component 3 is held, and meanwhile, the converging curved surface 4 is converging inwards along the length direction of the equipment host 1, so that the radian of the converging curved surface 4 becomes monotonically smaller, and the converging curved surface 4 on the scanning component 3 gradually conforms to the length direction of the equipment host 1, so that the scanning component 3 is more convenient to hold.

Preferably, referring to fig. 5 and 6, the device host 1 is further provided with a smooth curved surface 5, and the smooth curved surface 5 is arranged at the end of the device host 1 provided with the rotating component; in the unfolded state, the smooth curved surface 5 is smoothly connected with the converging curved surface 4.

In this embodiment, the end portion that has the rotating assembly of equipment host 1 is equipped with slick and sly curved surface 5, slick and sly curved surface 5 extends along the length direction of equipment host 1 and towards scanning subassembly 3 for under the expansion state, slick and down curved surface 5 and the curved surface 4 of closing beam are smooth along the length direction of equipment host 1, make the scanning pen more smooth under the expansion state, more have flexible curve to be beautiful, also further reduce the extrusion discomfort of equipment host 1 lateral wall to the user's palm, when making to hold scanning subassembly 3 and scan, the scanning pen more matches with the human posture of holding, more accords with man-machine interaction design, has more to hold feel and comfort.

Specifically, the smooth curved surface 5 on the device host 1 not only can be arranged at one end of the device host 1 where the rotating component is arranged, but also other ends of the device host 1 can be provided with the smooth curved surface 5, so that the use experience is better.

Further, referring to fig. 3, the device host 1 is further provided with a power switch 6 and a charging port, and the power switch 6 and the charging port are respectively located on the left side or the right side of the device host 1.

In order to achieve the communication connection and signal transmission between the device host 1 and the scanning assembly 3, referring to fig. 10 and 11, in other embodiments, a first circuit board 80 and a connection line 801 electrically connected to the first circuit board 80 are provided in the device host 1, and the connection line 801 extends from the device host 1 through the movable assembly into the scanning assembly 3 and connects to a second circuit board 90 in the scanning assembly 3.

Specifically, the embodiment further includes a flexible connection line 801, the first circuit board 80 is disposed in the device host 1, the second circuit board 90 is disposed in the scanning assembly 3, and the flexible connection line 801 passes through the movable assembly to connect the first circuit board 80 and the second circuit board 90, so as to realize signal transmission between the device host 1 and the scanning assembly 3.

It should be noted that, in order to prevent the scanning assembly 3 from pressing the connection line 801 during the movement, the movable assembly may be provided with a channel having a supporting and communicating function, so that the movable assembly and the scanning assembly 3 will not be pressed against the flexible connection line 801 all the time during the switching of the scanning assembly 3 between the unfolded state or the stored state, thereby increasing the durability of the connection line 801.

Further, the connection line 801 may be a coaxial line, which may be used for transmitting signals. The copper core in the center of the coaxial line can be used for transmitting high-level signals, and the copper core can be coated by insulating materials. Outside the insulating material is a cylindrical metal film coaxial with the copper core, which can be used to transmit low-level signals. The coaxial line can provide stable signal transmission between the first circuit board 80 and the second circuit board 90, and has strong interference resistance.

In order to further improve the durability of the connection line 801 and prevent the connection line 801 from being interfered by the scanning assembly 3 during the movement, in other embodiments, the movable assembly includes a first rotating shaft 70 disposed on the scanning assembly 3, the first rotating shaft 70 is inserted into a mounting hole of the device host 1 and can rotate relative to the mounting hole, a channel 704 is disposed on the first rotating shaft 70 to communicate the device host 1 and the scanning assembly 3, and the connection line 801 enters the scanning assembly 3 through the channel 704.

Specifically, referring to fig. 11 and 12, the movable assembly may include a first shaft 70, the first shaft 70 may include a shaft body 702 and a connecting member 703 integrally formed with the shaft body 702, the connecting member 703 may be provided with a fixing hole, and the connecting member 703 may be fixed to the scanning assembly 3 through the fixing hole by a fastener, so that the first shaft 70 is also fixed to the scanning assembly 3 and rotates synchronously with the scanning assembly 3.

Further, the shaft body 702 of the first rotating shaft 70 may be movably disposed in a mounting hole on the device host 1, which communicates with an inner cavity of the device host 1 where the first circuit board 80 is disposed. The shaft body 702 can rotate relative to the mounting hole under the driving of the scanning assembly 3. The shaft body 702 has a passage 704 extending in the axial direction thereof, and the passage 704 communicates between the device host 1 and the scanning unit 3, and the connection line 801 can pass through the passage 704 from the device host 1 to the scanning unit 3.

It will be appreciated that the shaft body 702 not only provides connection conditions for the connection lines 801 to connect the first circuit board 80 to the second circuit board 90, but also provides structural protection for the connection lines 801 to ensure that the scanning assembly 3 does not press against the connection lines 801 or interfere with the connection lines 801 during movement. The reliability and stability of signal transmission between the first circuit board 80 and the second circuit board 90 are ensured when the scanning assembly 3 is switched between the unfolded state and the stored state.

In other embodiments, referring to fig. 10, the device host 1 includes a first flexible circuit board 802, and the first flexible circuit board 802 connects the first camera 10 to the first circuit board 80.

In this embodiment, the device host 1 further includes a first flexible circuit board 802 therein, and one end of the first flexible circuit board 802 is connected to the image sensor in the first camera 10, and the other end is connected to the first circuit board 80 to transmit an image signal to the first circuit board 80.

The first flexible circuit board 802 has excellent flexibility and can be adapted to different relative positions of the first circuit board 80 and the first camera 10, so as to meet the electrical connection requirement of the first camera 10.

Alternatively, at least part of the first circuit board 80 may be located under the above-described mounting groove 40, so that the first circuit board 80 is connected with the speaker and the first camera 10 provided in the mounting groove 40 at the same time.

In order to improve the use comfort of the scanning pen, referring to fig. 7, the scanning assembly 3 includes a scanning housing 110, the scanning housing 110 has an extending direction, one end of the scanning housing 110 is movably connected with the device host 1 through a movable assembly, the scanning housing 110 is used for a user to hold the scanning pen around the extending direction when the scanning housing 110 is turned over relative to the device host 1 and is in an unfolded state, and the second camera 30 is disposed at the other end of the scanning housing 110 and scans through a scanning window 112 on the scanning housing 110.

One end of the scanning shell 110 is movably connected with the equipment host 1 through a movable component, when the scanning shell 110 is turned over relative to the equipment host 1, the scanning shell 110 is unfolded on the equipment host 1 and the second camera 30 is exposed, and the holding part of a user is arranged on the scanning shell 110, so that the influence of the holding part on the visual angle of the screen 2 is reduced, and the reading experience of the screen 2 is improved. When a user holds the scanning housing 110, the front side of the device host 1 is not contacted with the palm of the user and faces to one end far away from the palm of the user, which provides sufficient advantage for the screen 2 to be provided with a full screen, and the full screen 2 can bring better visual experience, so that browsing and reading are more convenient.

In practice, the end of the scan housing 110 may further include a scan window 112 for aligning the object to be scanned, and the second camera 30 may be disposed in the scan window 112 so that the object to be scanned may be aligned through the scan window 112. The scanning window 112 may structurally protect the optical lens of the second camera 30.

In another embodiment, the scanning assembly 3 includes a second flexible circuit board 901, the second flexible circuit board 901 connecting the second camera 30 to the second circuit board 90; the scanning assembly 3 further includes a battery 100 disposed in the scanning housing 110, the battery 100 being located between the second circuit board 90 and the second camera 30, and the second flexible circuit board 901 being pressed against the battery 100.

In this embodiment, the scan case 110 further includes a second flexible circuit board 901 therein, and one end of the second flexible circuit board 901 is connected to the image sensor in the second camera 30, and the other end is connected to the second circuit board 90 to transmit the image signal to the second circuit board 90.

Further, referring to fig. 11, the scanning pen further includes a battery 100, and the battery 100 is disposed in the scanning assembly 3. Through setting up battery 100 in scanning subassembly 3, can reduce the complete machine focus of scanning pen under the expansion state, make it be close to the position of gripping, also further reduce the weight of equipment host computer 1 simultaneously, can balance the weight of equipment host computer 1 and scanning subassembly 3, bring better balanced sense and use experience.

In addition, the holding structures such as anti-skid lines, finger-shaped grooves and the like can be arranged at the position on the scanning shell 110 suitable for holding by a user, and meanwhile, the gravity center of the whole machine in the unfolded state is arranged between the holding structures and the rotating assembly, so that the whole machine head is prevented from being lighter in weight, and stable scanning is facilitated.

The second flexible circuit board 901 also has excellent flexibility, the battery 100 is arranged between the second circuit board 90 and the second camera 30, and the second flexible circuit board 901 spans the battery 100 to connect the two and covers the battery 100, so that the second flexible circuit board 901 has a positioning function on the battery 100, and the battery 100 is prevented from loosening in the process of rotating the scanning housing 110.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the application.

Claims (15)

1. A scanning pen, comprising:

the device comprises a device host, wherein a screen and a first camera are arranged on the device host;

the scanning assembly is provided with a second camera and is movably connected with the equipment host through a movable assembly, and the scanning assembly can move relative to the equipment host so that the scanning assembly at least has an unfolding state and a storage state;

In the storage state, the scanning assembly is stored in the equipment host;

In the unfolded state, the scanning assembly relatively extends out of the equipment host, so that the scanning assembly is convenient to hold and scan.

2. The scanning pen according to claim 1, wherein the scanning pen comprises a scanning pen,

The scanning assembly is in the storage state, and the second camera is closed and stored in the equipment host along with the scanning assembly;

The scanning assembly is in an unfolding state, and the second camera is opened and exposed out of the equipment host along with the scanning assembly.

3. The scanning pen according to claim 1, wherein the scanning pen comprises a scanning pen,

The device host is provided with a first surface and a second surface which are opposite, the first surface of the device host is provided with the screen, and the second surface of the device host is provided with the first camera.

4. A scanning pen as claimed in claim 3, characterized in that,

The second surface of the equipment host is also provided with a storage groove;

Under the state of accomodating, scanning subassembly at least part accomodate in accomodate the groove, first camera with accomodate the groove and follow the length direction of equipment host computer arranges.

5. The scanning pen according to claim 1, wherein the scanning pen comprises a scanning pen,

The equipment host comprises a mounting groove and a loudspeaker assembly arranged in the mounting groove, wherein the loudspeaker assembly comprises a loudspeaker shell and a loudspeaker arranged in the loudspeaker shell;

The loudspeaker shell is also provided with a mounting port, and the first camera is arranged in the mounting port.

6. The scanning pen according to claim 5, wherein,

The inner wall of the mounting groove is provided with a supporting step, the equipment host machine further comprises a decorating part arranged on the supporting step, the decorating part is covered on the notch of the mounting groove, and the loudspeaker shell is positioned below the decorating part.

7. The scanning pen according to claim 6, wherein,

The decoration is provided with a camera lens, and the camera lens is correspondingly arranged on the first camera.

8. The scanning pen according to any one of claims 1 to 7, wherein,

The movable component is a rotating component, and the scanning component is rotationally connected with the equipment host through the rotating component and can turn over relative to the equipment host;

In the storage state, the scanning assembly is folded on the equipment host;

in the deployed state, the scanning assembly is deployed around the device host.

9. The scanning pen of claim 8, wherein the scanning pen is configured to,

The rotating component is arranged at the end part of the equipment host machine.

10. The scanning pen of claim 8, wherein the scanning pen is configured to,

The width of the scanning component is smaller than the width of the equipment host, and the thickness of the scanning component is smaller than the thickness of the equipment host.

11. The scanning pen of claim 8, wherein the scanning pen is configured to,

The device host is provided with a first circuit board and a connecting wire electrically connected with the first circuit board, and the connecting wire extends out of the device host, enters the scanning assembly through the movable assembly and is connected with a second circuit board in the scanning assembly.

12. The scanning pen according to claim 11, wherein the scanning pen comprises a scanning pen,

The movable assembly comprises a first rotating shaft which is arranged in the scanning assembly, the first rotating shaft is inserted into a mounting hole of the equipment host machine and can rotate relative to the mounting hole, a channel which is communicated with the equipment host machine and the scanning assembly is arranged on the first rotating shaft, and the connecting line enters the scanning assembly through the channel.

13. The scanning pen according to claim 11, wherein the scanning pen comprises a scanning pen,

The device host includes a first flexible circuit board connecting the first camera to the first circuit board.

14. The scanning pen according to claim 11, wherein the scanning pen comprises a scanning pen,

The scanning assembly comprises a scanning shell, the scanning shell is provided with an extending direction, one end of the scanning shell is movably connected with the equipment host through the movable assembly, the scanning shell is used for a user to hold the scanning pen around the extending direction under the condition that the scanning shell is turned over relative to the equipment host and is in an unfolding state, and the second camera is arranged at the other end of the scanning shell and scans through a scanning window on the scanning shell.

15. The scanning pen of claim 14, wherein the scanning pen is configured to,

The scanning assembly comprises a second flexible circuit board which connects the second camera to the second circuit board;

The scanning assembly further comprises a battery arranged in the scanning shell, the battery is located between the second circuit board and the second camera, and the second flexible circuit board is pressed on the battery.