CN212463301U - Scanning device - Google Patents

Abstract

The utility model provides a scanning device, include: the device comprises a cable, an upper channel integral module and a lower channel integral module; the first tail end of the upper channel integral module is rotatably embedded into the lower channel integral module to form a hollow connecting channel; the cable extends from the upper channel piece module through the connecting channel to the lower channel piece module; the second tail end of the upper channel integral module is rotatably embedded into the lower channel integral module, and the first tail end and the second tail end are positioned on the same central axis; the first tail end and/or the second tail end are/is provided with a buckling part. The embodiment of the utility model provides a pass through the buckle and connect the whole module of upper channel and the whole module of lower channel to settle the cable in the buckle passageway, in scanning device's side, settle the cable through the curb plate subassembly, avoid using to connect with parts such as screw, round pin axle, can play the effect of hiding the line of walking when reducing the part again.

Description

Scanning device

Technical Field

The utility model relates to an information acquisition technical field especially relates to a scanning device.

Background

In the real life, often involve and utilize the scanning to carry out information acquisition to the sample of paper medium, however the scanning device who can realize flip function on the market uses pin or metal axle as the rotation axis usually to cooperation screw forms the pin joint, and meanwhile, the cable of scanning device flip part passes the lower part that the through-hole inserted the module, thereby realizes the connection of module and walks arranging of line.

This common approach suffers from the following disadvantages: (1) the upper part and the lower part of the scanning device are connected by pins, screws and the like, most of the parts are connected on the side surface of the device, and more parts are used during connection, so that the experience feeling of a user is poor; (2) the upper part and the lower part of the device are wired, and when the cover is turned, the upper cable can be seen to be exposed outside, and then the lower part is introduced, so that the experience feeling for a user is poor.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention has been made to provide a scanning device that overcomes or at least partially solves the above problems.

In order to solve the above problem, the utility model discloses a scanning device, include: the device comprises a cable, an upper channel integral module and a lower channel integral module;

the first tail end of the upper channel integral module is rotatably embedded into the lower channel integral module to form a hollow connecting channel;

the cable extends from the upper channel piece module through the connecting channel to the lower channel piece module;

the second tail end of the upper channel integral module is rotatably embedded into the lower channel integral module, and the first tail end and the second tail end are positioned on the same central axis;

the first tail end and/or the second tail end are/is provided with a buckling part.

Optionally, the upper channel one-piece module comprises: the upper channel plate shaft is positioned at the second tail end of the upper channel integral module;

the lower channel one-piece module comprises: the lower channel plate shaft is positioned at the second tail end of the lower channel integral module;

the lower channel plate shaft is embedded into the upper channel plate hole in a fitting manner;

the upper channel plate shaft is embedded into the lower channel plate hole in a fitting mode.

Optionally, the upper channel plate shaft is a hollow shaft.

Optionally, the upper channel plate shaft is composed of two upper channel plate semicircular shafts;

and a gap is arranged between the two semicircular shafts of the upper channel plate.

Optionally, the upper channel plate semicircular shaft is made of an elastic material.

Optionally, the buckling part is the upper channel plate shaft, a boss is arranged on the semicircular shaft edge of the upper channel plate, and the boss on the semicircular shaft edge of the upper channel plate and the hole wall of the hole of the lower channel plate form an inverted buckling structure.

Optionally, the lower channel one-piece module comprises: a lower channel assembly and a side plate assembly;

the lower channel assembly is positioned right below the upper channel whole module and is connected with the upper channel whole module;

the side plate assembly is connected to one side of the lower channel assembly;

the cables extend from the upper channel one-piece module through the lower channel plate holes from the upper channel one-piece module to the side plate assemblies.

Optionally, the height of the side plate assembly is the sum of the height of the upper channel whole module and the height of the lower channel assembly.

Optionally, the lower channel assembly and the side plate assembly are provided with an opening through which the cable extends from the side plate assembly to the lower channel assembly.

Optionally, the upper channel integral module further comprises a magnet disposed at a front end of the upper channel integral module;

the lower channel integral module also comprises a metal sheet arranged on the lower channel integral module;

when the upper channel integral module and the lower channel integral module are closed, the magnet is attached to the metal sheet.

The utility model discloses a following advantage: through connecting whole piece of last passageway and connecting whole piece module of passageway and whole piece module of passageway down, and settle the cable in the buckle passageway, in scanning device's side, settle the cable through the curb plate subassembly in the whole piece module of passageway down, avoid using the screw, parts such as round pin axle are connected, can play the effect of hiding the line of walking again when reducing the part, in addition, it can pass through the last passageway hollow shaft to go up the passageway cable, through the curb plate, reach the passageway down, this kind walks the line mode, can not only walk the circular line, utilize good last passageway axle excision partial size, also can walk the golden finger winding displacement, can avoid winding displacement golden finger to buckle, influence performance. The wiring mode avoids the cable from being exposed outside the module, and enhances the user experience.

Drawings

Fig. 1 is a first view structure diagram of an embodiment of a scanning device according to the present invention before an upper channel module and a lower channel module are connected.

Fig. 2 is a second view structure diagram of an embodiment of the present invention before the upper channel module and the lower channel module are connected.

Fig. 3 is a schematic diagram of a cable routing manner in a scanning device according to an embodiment of the present invention.

Fig. 4 is a schematic view of the shaft fit between the upper channel plate hole and the lower channel plate before the upper channel module and the lower channel module are connected in an embodiment of the present invention.

Fig. 5 is a schematic view of the shaft fit between the upper channel plate hole and the lower channel plate after the upper channel integral module and the lower channel integral module are connected according to an embodiment of the present invention.

Fig. 6 is a first view structural diagram of the semicircular shaft of the upper channel plate according to an embodiment of the present invention.

Fig. 7 is a third view structural diagram of the semicircular shaft of the upper channel plate according to the embodiment of the present invention.

Fig. 8 is a schematic diagram of the hole matching between the upper channel plate shaft and the lower channel plate before the upper channel integral module and the lower channel integral module are connected according to an embodiment of the present invention.

Fig. 9 is a schematic diagram of the hole fit between the shaft of the upper channel plate and the hole of the lower channel plate after the upper channel module and the lower channel module are connected according to an embodiment of the present invention.

Fig. 10 is a first view structural diagram of an embodiment of a scanning device according to the present invention after an upper channel module and a lower channel module are connected.

Fig. 11 is a second view structural diagram of the embodiment of the present invention after the upper channel whole module and the lower channel whole module are connected.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

Referring to fig. 1, a first view structure diagram of an embodiment of a scanning device according to the present invention is shown before an upper channel module and a lower channel module are connected. Referring to fig. 2, a second view structure diagram of an embodiment of the present invention before the upper channel module and the lower channel module are connected is shown. Referring to fig. 3, which shows a schematic diagram of a wiring manner of a cable in a scanning device according to an embodiment of the present invention, the scanning device may specifically include: the cable, the upper channel whole module 1 and the lower channel whole module 2;

the first tail end of the upper channel integral module 1 is rotatably embedded into the lower channel integral module 2 to form a hollow connecting channel;

the cables extend from the upper channel one-piece module 1 through the connecting channel to the lower channel one-piece module 2;

the second tail end of the upper channel integral module 1 is rotatably embedded into the lower channel integral module 2, and the first tail end and the second tail end are positioned on the same central axis;

the first tail end and/or the second tail end are/is provided with a buckling part.

In the embodiment of the present invention, the upper channel whole module 1 has a first tail end and a second tail end, and the first tail end and the second tail end are on the same central axis. The first tail end is rotatably embedded into the lower channel whole module, the second tail end is also rotatably embedded into the lower channel whole module, the first tail end and/or the second tail end are/is provided with a clamping part for clamping the upper channel whole module and the lower channel whole module, and the upper channel whole module 1 and the lower channel whole module 2 can also take the hollow channel as an axis and present an opening state and a closing state through the clamping part. When the scanning device is in a non-working state, the upper channel whole module and the lower channel whole module can be opened in a rotating mode, and when the scanning device is in a working state, the scanning device can be closed in a rotating mode. Meanwhile, when the first tail end is rotatably embedded into the lower channel integral module, a hollow connecting channel is formed from the upper channel integral module 1 to the lower channel integral module 2 through the clamping part, and the cable can form a wiring mode from the upper channel integral module to the lower channel integral module through the hollow connecting channel.

Referring to fig. 4, a schematic diagram of the shaft fit between the upper channel plate hole and the lower channel plate before the upper channel whole module and the lower channel whole module are connected in an embodiment of the present invention is shown.

Referring to fig. 5, a schematic diagram of the shaft fit between the upper channel plate hole and the lower channel plate after the upper channel whole module and the lower channel whole module are connected in the embodiment of the scanning device of the present invention is shown.

In an optional embodiment of the present invention, the upper channel module 1 comprises: an upper channel hole 11 at a first tail end of the upper channel whole module 1, an upper channel plate shaft 12 at a second tail end of the upper channel whole module 1;

the lower channel one-piece module 2 comprises: a lower channel hole 22 at a first end of the lower channel complete module 2, a lower channel plate shaft 21 at a second end of the lower channel complete module;

the lower channel plate shaft 21 is fitted and embedded in the upper channel plate hole 11;

the upper channel plate shaft 12 fits into the lower channel plate hole 22.

In practical application, the upper channel module 1 includes an upper channel plate shaft 12 and an upper channel plate hole 11, and the upper channel plate shaft 12 and the upper channel plate hole 11 are distributed on the first tail end and the second tail end of the upper channel module. The lower channel module also comprises a lower channel plate hole 22 and a lower channel plate shaft 21, and the lower channel plate shaft 21 is fitted with the upper channel plate hole 11 for rotary embedding, the structure before embedding is the section A1, the structure after embedding is the section A2, and/or the lower channel plate hole 22 is fitted with the upper channel plate shaft 12 for rotary embedding, the structure before embedding is the section B1, and the structure after embedding is the section B2. When actually assembling the upper channel whole module 1 and the lower channel whole module 2, the height of the upper channel whole module 1 can be adjusted to the position where the upper channel plate shaft 12 and the lower channel plate hole 22 are on the same horizontal line, and when a predetermined space is reserved between the upper channel plate shaft 12 and the lower channel plate hole 22, the upper channel plate shaft 12 is pushed to the middle of the lower channel plate hole 22, and the upper channel plate hole 11 and the lower channel plate shaft 21 are simultaneously pulled to be attached and embedded, so that the assembly of the upper channel whole module 1 and the lower channel whole module 2 can be completed.

In an alternative embodiment of the present invention, the upper channel plate shaft 12 is a hollow shaft.

In practical application, the upper channel plate shaft 12 is a hollow shaft, and under the condition that the upper channel plate shaft 12 is matched with the lower channel plate hole 21, when the scanning device starts to arrange cables, the cables can be led out from the upper channel integral module 1 through the upper channel plate shaft and guided into the lower channel plate hole 22 along with the assembly of the upper channel integral module 1 and the lower channel integral module 2 before the upper channel plate shaft 12 is attached and embedded into the lower channel plate hole 22, so that the cables can be conveniently arranged in the scanning device when entering the lower channel integral module 2.

Referring to fig. 6, a first view structure diagram of the upper channel plate semicircular shaft of the embodiment of the present invention is shown.

Referring to fig. 7, a third view structure diagram of the semicircular shaft of the upper channel plate of an embodiment of the present invention is shown.

In an optional embodiment of the present invention, the upper channel plate shaft 12 is composed of two upper channel plate semicircular shafts 121;

a gap is arranged between the two semicircular shafts 121 of the upper channel plate.

In an alternative embodiment of the present invention, the upper channel plate semicircular shaft 121 is made of an elastic material.

In practical applications, the upper channel plate shaft 12 is formed by two semicircular shafts 121, and a gap is left between the semicircular shafts 121. For the manufacture of the two semicircular shafts 121, a cutting process may be added after the hollow shaft is formed, for example: obtained by cutting a closed cylindrical plate shaft; or may be formed by directly using a plate shaft mold with a gap, which is not limited in the present invention. Meanwhile, the material of the semicircular shaft 121 of the upper channel plate is an elastic material, such as TPE (Thermoplastic elastomer), TPR (Total Thermoplastic Response), etc., which is not limited herein. Go up channel plate semicircle axle 121 and be elastic material, and be provided with the gap, in channel plate hole 22 under last channel plate axle 12 embedding, utilize predetermined gap, give the space that last channel plate semicircle axle 121 takes place deformation at the embedding in-process, easily go up channel plate axle 12 and imbed under in channel plate hole 22, after the embedding is accomplished, go up and lead to the shape that board semicircle axle 121 can reply again in channel plate axle 22 down, also make the cooperation of last whole piece module 1 of passageway and lower passageway whole piece module 2 more fasten. Furthermore, the diameter of the upper channel plate shaft 12 may be equal to or even slightly larger than the diameter of the lower channel plate hole 22, and a more secure fit of the upper and lower channel one- piece modules 1, 2 may also be achieved.

Referring to fig. 8, a schematic diagram of the cooperation between the upper channel plate shaft and the lower channel plate hole before the upper channel whole module and the lower channel whole module are connected in the embodiment of the scanning device of the present invention is shown.

Referring to fig. 9, a schematic diagram of the cooperation between the upper channel plate shaft and the lower channel plate hole after the upper channel whole module and the lower channel whole module are connected in the embodiment of the scanning device of the present invention is shown.

The utility model discloses an optional embodiment, the buckle part does go up passageway board axle 12, there is the boss on going up passageway board semicircle axle 121 edge, go up the boss on passageway board semicircle axle 121 edge with the pore wall of lower passageway plate hole 22 forms the back-off structure.

In practical application, after the assembly of the upper channel whole module 1 and the lower channel whole module 2 is completed, the boss on the edge of the upper channel plate semicircular shaft 121 and the hole wall of the lower channel plate hole 22 just form a back-off structure, so that the upper channel plate shaft 12 and the lower channel plate hole 21 are fixed, at the moment, on the other side of the tail end of the upper channel whole module 1, because the plate shaft fastening fixation is also completed on the upper channel plate hole 11 and the lower channel plate shaft 21, after the assembly of the upper channel whole module 1 and the lower channel whole module 2 is completed, because the back-off structure formed by the upper channel plate semicircular shaft 121 and the lower channel plate hole 22 exists, the upper channel whole module 1 and the lower channel whole module 2 cannot be separated.

Referring to fig. 10, a first view structure diagram after the upper channel whole module and the lower channel whole module are connected in an embodiment of the present invention is shown.

Referring to fig. 11, a second view structure diagram after the upper channel whole module and the lower channel whole module are connected in the embodiment of the present invention is shown.

In an optional embodiment of the present invention, the lower channel module 2 comprises: a lower channel assembly 23 and a side plate assembly 3;

the lower channel assembly 23 is positioned right below the upper channel whole module 1 and is connected with the upper channel whole module 1;

the side plate assembly 3 is connected to one side of the lower channel assembly 23;

the cables extend from the upper channel one-piece module 1 through the lower channel plate holes 22 from the upper channel one-piece module 1 to the side plate assemblies 3.

In practical application, the lower channel module 2 specifically includes two components, i.e., the lower channel component 23 and the side plate component 3. The lower channel assembly 23 is located right below the upper channel whole module 1, the side plate assembly 3 is located at one side of the lower channel assembly 23, and a second view after the upper channel whole module 1 and the lower channel whole module 2 are connected is shown in fig. 11. although compared with a second view before the upper channel whole module 1 and the lower channel whole module 2 are connected, which is shown in fig. 2, the state of the scanning device represented by fig. 11 is different from the state of the scanning device represented by fig. 2, and as can be seen from fig. 2 and 11, after the scanning device is assembled (the upper channel whole module 1 and the lower channel whole module 2 are connected), other connecting components are not needed to be adopted outside the scanning device, so that the connecting cost and the aesthetic degree of the scanning device are saved.

In an optional embodiment of the present invention, the height of the side plate assembly 3 is the sum of the height of the upper channel whole module 1 and the height of the lower channel assembly 23.

In practice, the height of the side panel assembly 3 corresponds to the sum of the height of the upper channel module and the height of the lower channel assembly. If the height of the side panel assembly 3 is too low, the height of the entire module and side panel assembly reserved for the upper channel may be affected, which also affects the diameter of the lower channel plate hole 21 and the diameter of the upper channel plate shaft 12, and thus the capacity of the cables in the upper channel plate shaft 12 is also reduced. If the side plate assembly 3 is higher than the upper channel module 1, on the one hand, the side plate assembly 3 is visually abrupt due to the protrusion, on the other hand, the size of the lower channel plate hole 21 is determined by the upper channel plate shaft 12, and the upper channel plate shaft 12 is determined by the upper channel module 1, in this case, if the side plate assembly 3 is higher than the upper channel module 1, the material is wasted.

In an alternative embodiment of the present invention, the lower channel assembly 23 and the side plate assembly 4 are provided with an opening through which the cable extends from the side plate assembly 3 to the lower channel assembly 23.

In practical application, after the assembly of the upper channel whole module 1 and the lower channel whole module 2 is completed, the circuit is led into the side plate assembly 3 from the upper channel plate shaft 12, an opening is arranged between the side plate assembly 3 and the lower channel assembly 23, and the cable can be led out from the side plate assembly 3 to the lower channel assembly 23 through the opening.

In an optional embodiment of the present invention, the upper channel integral module 1 further includes a magnet disposed at a front end of the upper channel integral module 1;

the lower channel integral module 2 also comprises a metal sheet arranged on the lower channel integral module 2;

when the upper channel integral module 1 and the lower channel integral module 2 are closed, the magnet is attached to the metal sheet.

In practical application, the magnet arranged at the front end of the upper channel integral module 1 and the metal sheet arranged in the lower channel integral module 2 can be attached to the scanning device in the working state, so that scanned objects are prevented from being affected when the scanning device is in the working state, for example, the scanned objects are blown to the scanning device by wind or the scanned objects are separated from the scanning device due to the shaking of the scanning environment.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or terminal that comprises the element.

The above detailed description is made on the scanning device provided by the present invention, and the principle and the implementation of the present invention are explained by applying a specific example, and the above description of the embodiment is only used to help understanding the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (10)

1. A scanning device, comprising: the device comprises a cable, an upper channel integral module and a lower channel integral module;

the first tail end of the upper channel integral module is rotatably embedded into the lower channel integral module to form a hollow connecting channel;

the cable extends from the upper channel piece module through the connecting channel to the lower channel piece module;

the second tail end of the upper channel integral module is rotatably embedded into the lower channel integral module, and the first tail end and the second tail end are positioned on the same central axis;

the first tail end and/or the second tail end are/is provided with a buckling part.

2. The scanning device according to claim 1,

the upper channel one-piece module comprises: the upper channel plate shaft is positioned at the second tail end of the upper channel integral module;

the lower channel one-piece module comprises: the lower channel plate shaft is positioned at the second tail end of the lower channel integral module;

the lower channel plate shaft is embedded into the upper channel plate hole in a fitting manner;

the upper channel plate shaft is embedded into the lower channel plate hole in a fitting mode.

3. The scanning device of claim 2, wherein the upper channel plate shaft is a hollow shaft.

4. A scanning device as claimed in claim 3,

the upper channel plate shaft consists of two upper channel plate semicircular shafts;

and a gap is arranged between the two semicircular shafts of the upper channel plate.

5. The scanning device of claim 4, wherein the upper channel plate semicircular shaft is an elastic material.

6. The scanning device according to claim 5, wherein the locking portion is the upper channel plate shaft, a boss is provided on the semicircular shaft edge of the upper channel plate, and the boss on the semicircular shaft edge of the upper channel plate and the hole wall of the lower channel plate hole form an inverted structure.

7. The scanning device according to claim 2,

the lower channel one-piece module comprises: a lower channel assembly and a side plate assembly;

the lower channel assembly is positioned right below the upper channel whole module and is connected with the upper channel whole module;

the side plate assembly is connected to one side of the lower channel assembly;

the cables extend from the upper channel one-piece module through the lower channel plate holes from the upper channel one-piece module to the side plate assemblies.

8. The scanning device of claim 7, wherein the height of the side plate assembly is the sum of the height of the upper channel unitary module and the height of the lower channel assembly.

9. The scanning device of claim 8, wherein the lower channel assembly and the side plate assembly define an opening through which the cable extends from the side plate assembly to the lower channel assembly.

10. The scanning device according to any of claims 1-9, wherein the upper channel integral module further comprises a magnet disposed at a front end of the upper channel integral module;

the lower channel integral module also comprises a metal sheet arranged on the lower channel integral module;

when the upper channel integral module and the lower channel integral module are closed, the magnet is attached to the metal sheet.

Images