CN112214127B - Bank touch control all-in-one machine - Google Patents

Abstract

The application relates to the technical field of touch control integrated machines, and discloses a bank touch control integrated machine, which comprises: a main housing including a mounting cavity; the installation cavity is arranged in the main shell, and is positioned at one end of the main shell; a mounting window is arranged on one side surface of the main shell, and the mounting window is communicated with the mounting cavity; the touch screen is clamped on the installation window; one end of the pushing mechanism is arranged on the back side wall of the installation cavity, the back side wall is opposite to the installation window, and the other end of the pushing mechanism is provided with an installation part for placing the touch screen. According to the bank touch control integrated machine disclosed by the application, the touch screen is clamped in the installation window of the main shell, the pushing mechanism is arranged on the back side wall of the installation cavity, and the touch screen is installed and fixed by the pushing mechanism, so that the overhaul difficulty of the touch screen in the later period is reduced, the replacement of the touch screen by bank staff is facilitated, and the maintenance period is shortened.

Description

Bank touch control all-in-one machine

Technical Field

The application relates to the technical field of touch control integrated machines, in particular to a bank touch control integrated machine.

Background

The touch control integrated machine perfectly combines the touch screen, the host machine and the integrated machine shell, and finally can realize touch control operation through one power line; the touch control integrated machine is convenient to use, a user can directly input coordinate information to the computer by using a finger or other objects, and the touch control integrated machine is the same as a mouse and a keyboard and is input equipment; by using the technology, the operation of the host computer can be realized only by lightly touching the icon or the text on the display screen of the computer with fingers, so that the man-machine interaction is more straightforward. The touch control integrated machine is widely applied to a plurality of fields such as banks, airports, entertainment venues and the like.

At present, a touch control integrated machine is generally arranged in a bank hall by a bank, so that better service is provided for customers, and the working efficiency of the bank or the customers is improved. The touch control integrated machine of the bank can carry out overall management on all the businesses of the bank, so that queuing numbers of business handling windows are conveniently coordinated; meanwhile, the customer can also know, inquire and the like of the corresponding service through the touch control integrated machine, so that the customer can arrange numbers and can rapidly and accurately handle the required service.

When the touch screen of the touch control integrated machine in the bank fails, the touch control integrated machine in the bank is in maintenance reporting due to the specificity of the bank, so that the safety of the bank is protected, the approval process in the bank is complicated, and the maintenance period is long. During the fault maintenance of the touch control integrated machine in the bank, the customer handles business to the bank without the assistance of the touch control integrated machine, and the workload of bank staff is increased, so that the business handling process becomes disordered in a natural and orderly way, the business handling time of the customer is increased, the experience of the customer is greatly reduced, and the risk of customer loss is increased.

In the process of implementing the embodiments of the present disclosure, it is found that at least the following problems exist in the related art:

when the touch screen of the touch control integrated machine in the bank fails, the maintenance period is long, the office efficiency of the bank is reduced, and meanwhile, the experience of a customer is also reduced.

Disclosure of Invention

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview, and is intended to neither identify key/critical elements nor delineate the scope of such embodiments, but is intended as a prelude to the more detailed description that follows.

The embodiment of the disclosure provides a bank touch control all-in-one machine, which aims to solve the problems that when a touch screen of the touch control all-in-one machine in a bank fails, the maintenance period is long, the office efficiency of the bank is reduced, and the experience of a customer is also reduced.

In some embodiments, a bank touch integrated machine includes: a main housing including a mounting cavity; the installation cavity is arranged in the main shell, and is positioned at one end of the main shell; a mounting window is arranged on one side surface of the main shell, and the mounting window is communicated with the mounting cavity; the touch screen is clamped on the installation window; one end of the pushing mechanism is arranged on the back side wall of the mounting cavity, the back side wall is opposite to the mounting window, and the other end of the pushing mechanism is provided with a mounting part for placing the touch screen; wherein the pushing mechanism comprises a static state and a working state; when the pushing mechanism is in the static state, the mounting part is positioned at a first mounting position; when the pushing mechanism is in the working state, the mounting part moves from the first mounting position to the mounting window.

In some embodiments, a screen opening is arranged on one side wall of the main shell; the screen placing port is communicated with the mounting cavity.

In some embodiments, the touch screen is clamped within the mounting window by a clamping structure.

In some embodiments, the main housing further comprises: the waste screen cavity is arranged in the main shell and is communicated with the mounting cavity.

In some embodiments, a screen taking port is arranged on one side wall of the main shell, and the screen taking port is communicated with the waste screen cavity.

In some embodiments, a side of the main housing provided with the mounting window is at a particular angle to a bottom surface of the main housing.

In some embodiments, the pushing mechanism comprises: one end of the displacement component is arranged on the back side wall, and the other end of the displacement component is provided with the mounting part; the pushing assembly is arranged on the mounting part; the pushing component is used for pushing the touch screen.

In some embodiments, the displacement assembly comprises: the driving motor is arranged on the back side wall, and an output shaft of the driving motor faces the mounting window; one end of the screw rod is connected with an output shaft of the driving motor; the screen board is arranged on the screw rod.

In some embodiments, the pushing assembly comprises: the pushing plate is arranged on one side surface of the screen placing plate, which faces the mounting window; the telescopic piece is arranged on one side surface of the screen board facing the back side wall; the telescopic end of the telescopic piece penetrates through the screen placing plate and is connected with the pushing plate.

In some embodiments, the pushing assembly further comprises: and one end of the guide component is arranged on the back side wall, and the other end of the guide component is arranged on one side surface of the screen board facing the back side wall.

The bank touch control all-in-one machine provided by the embodiment of the disclosure can realize the following technical effects:

according to the bank touch control integrated machine disclosed by the application, the touch screen is clamped in the installation window of the main shell, and the pushing mechanism is arranged on the back side wall of the installation cavity, so that the push mechanism is used for installing and fixing the touch screen, the overhaul difficulty of the touch screen in the later period is reduced, and the touch screen can be replaced by bank staff conveniently. When the touch screen of the bank touch control integrated machine fails, a bank worker can directly replace the touch screen of the bank touch control integrated machine without performing fault repair, so that the approval flow of fault repair is reduced, and the maintenance period is shortened.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which:

FIG. 1 is an exploded schematic view of a banking touch all-in-one machine in accordance with one embodiment of the present application;

fig. 2 is an enlarged view of a portion a of fig. 1;

FIG. 3 is a schematic diagram of an exploded structure of a touch all-in-one machine for banks according to one embodiment of the present application;

fig. 4 is a schematic structural diagram of a touch integrated machine for banks according to an embodiment of the present application;

FIG. 5 is an exploded schematic view of a banking touch all-in-one machine in accordance with one embodiment of the present application;

FIG. 6 is a schematic diagram of an exploded structure of a touch all-in-one machine for banks according to one embodiment of the present application;

fig. 7 is an enlarged view of a portion B of fig. 5;

fig. 8 is an enlarged view of a portion C of fig. 3;

fig. 9 is a schematic structural diagram of a bank touch integrated machine according to an embodiment of the present application;

fig. 10 is an enlarged view of a portion D of fig. 5;

FIG. 11 is a schematic diagram of a bank touch integrated machine according to an embodiment of the present application;

fig. 12 is a schematic structural diagram of a pushing mechanism of a touch integrated machine for a bank according to an embodiment of the present application.

Reference numerals:

1. a main housing; 11. a mounting cavity; 111. a groove; 12. a first side; 13. installing a window; 14. a back side wall; 15. a waist-shaped hole; 16. a recess; 17. a screen placing port; 171. a rubber stopper; 18. a waste screen cavity; 19. a screen taking opening; 2. a touch screen; 21. a display section; 22. a body member; 3. a pushing mechanism; 31. a displacement assembly; 311. a driving motor; 312. an output shaft; 313. a screw rod; 314. a screen board is arranged; 315. a fixed block; 316. a mounting plate; 317. a positioning piece; 32. a pushing assembly; 321. a pushing plate; 322. a telescoping member; 323. a telescoping end; 324. a rubber pad; 4. a protective sheet; 5. a clamping structure; 51. a clamping cavity; 52. a clamping piece; 53. an interlayer space; 54. chamfering; 55. a slit; 56. a spring; 6. a wiring structure; 61. a wiring section; 62. a wiring protrusion; 63. a rubber sleeve; 7. a guide assembly; 71. a guide rail rod; 72. a guide rod; a specific angle a.

Detailed Description

So that the manner in which the features and techniques of the disclosed embodiments can be understood in more detail, a more particular description of the embodiments of the disclosure, briefly summarized below, may be had by reference to the appended drawings, which are not intended to be limiting of the embodiments of the disclosure. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may still be practiced without these details. In other instances, well-known structures and devices may be shown simplified in order to simplify the drawing.

The terms first, second and the like in the description and in the claims of the embodiments of the disclosure and in the above-described figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe embodiments of the present disclosure. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

In the embodiments of the present disclosure, the terms "upper", "lower", "inner", "middle", "outer", "front", "rear", and the like indicate an azimuth or a positional relationship based on that shown in the drawings. These terms are used primarily to better describe embodiments of the present disclosure and embodiments thereof and are not intended to limit the indicated device, element, or component to a particular orientation or to be constructed and operated in a particular orientation. 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 embodiments of the present disclosure will be understood by those of ordinary skill in the art in view of the specific circumstances.

In addition, the terms "disposed," "connected," "secured" and "affixed" are to be construed broadly. For example, "connected" may be in 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 embodiments of the present disclosure may be understood by those of ordinary skill in the art according to specific circumstances.

The term "plurality" means two or more, and "plurality" means two or more.

It should be noted that, without conflict, the embodiments of the present disclosure and features of the embodiments may be combined with each other.

Referring to fig. 1 to 3, an embodiment of the disclosure provides a bank touch integrated machine, which includes a main housing 1, a touch screen 2, and a pushing mechanism 3. The main shell 1 comprises a mounting cavity 11, the mounting cavity 11 is arranged in the main shell 1, and the mounting cavity 11 is positioned at one end of the main shell 1; a mounting window 13 is provided on one side surface of the main casing 1, and the mounting window 13 communicates with the mounting chamber 11. The touch screen 2 is clamped to the mounting window 13. One end of the pushing mechanism 3 is arranged on a back side wall 14 of the installation cavity 11, the back side wall 14 is opposite to the installation window 13, and an installation part for placing the touch screen 2 is arranged at the other end of the pushing mechanism 3.

Wherein the pushing mechanism 3 comprises a stationary state and an operating state. When the pushing mechanism 3 is in a static state, the mounting part is positioned at a first mounting position; when the pushing mechanism 3 is in an operating state, the mounting portion moves from the first mounting position to the mounting window 13.

Optionally, the main housing 1 is integrally formed with a mounting cavity 11 inside, and the mounting cavity 11 is located at one end near the top of the main housing 1. The front surface of the main casing 1 is a first side 12, the first side 12 is perpendicular to the side of the top of the main casing 1, and when a customer uses the bank touch integrated machine, the first side 12 of the main casing 1 faces the customer. The first side 12 is provided with a through hole, and the through hole is rectangular; for example, a rectangular through hole is integrally formed in the first side 12, and the through hole communicates with the mounting cavity 11, and can be regarded as the mounting window 13. When the touch screen 2 is not mounted to the mounting window 13, an installer or a bank staff can observe the condition inside the mounting chamber 11 through the mounting window 13. For example, the touch screen 2 is directly placed in the installation window 13, and thus the touch screen 2 is clamped in the installation window 13. The side wall opposite to the mounting window 13 in the mounting cavity 11 is a back side wall 14, one end of the pushing mechanism 3 is fixedly arranged on the back side wall 14, the other end of the pushing mechanism 3 can be regarded as a mounting part, and the touch screen 2 can be placed on the mounting part.

The pushing mechanism 3 comprises two states, one of which is a non-working state, which can be regarded as a static state; the other state is a working state, which can be regarded as a motion state. When the pushing mechanism 3 is in a stationary state, the position of the pushing mechanism 3 at the end away from the back side wall 14 as shown in fig. 3 may be regarded as a first mounting position, i.e. the mounting portion is located at the first mounting position. When the pushing mechanism 3 is in an operating state, one end of the pushing mechanism 3 away from the back side wall 14 moves in a direction away from the back side wall 14, i.e. the mounting portion moves from the first mounting position towards the mounting window 13. When the touch screen 2 of the touch integrated machine does not fail, the installation part of the pushing mechanism 3 can be at the first installation position, or the installation part of the pushing mechanism 3 is abutted against the touch screen 2 in the installation window 13, so that the touch screen 2 is clamped in the installation window 13 more stably. When the touch screen 2 of the touch control integrated machine breaks down, a bank worker can directly detach the broken down touch screen 2, firstly incline the new touch screen 2 into the installation cavity 11, then place the new touch screen 2 on the installation part, and then adjust the position of the new touch screen 2 on the installation part, so that when the pushing mechanism 3 is in a working state, the installation part can accurately push the new touch screen 2 into the installation window 13.

In the embodiment of the disclosure, the touch screen is clamped in the installation window of the main shell, the pushing mechanism is arranged on the back side wall of the installation cavity, and the touch screen is installed and fixed by the pushing mechanism, so that the overhaul difficulty of the touch screen in the later stage is reduced, and the touch screen is convenient for bank staff to replace. When the touch screen of the bank touch control integrated machine fails, a bank worker can directly replace the touch screen of the bank touch control integrated machine without performing fault repair, so that the approval flow of fault repair is reduced, and the maintenance period is shortened. For example, the original machine fault report and repair needs to go through a plurality of processes of reporting machine faults, filling fault report and repair forms, middle examination and approval of multi-layer leaders, coordinating machine maintenance time, maintenance personnel going to the gate for maintenance and the like, and the touch screen maintenance process of the original bank touch control integrated machine is complex and complicated, and has long maintenance period. The pushing device is arranged in the main shell of the bank touch control integrated machine disclosed by the application, so that the maintenance difficulty of the touch screen in the later period is reduced, and when the touch screen of the touch control integrated machine breaks down, the bank only needs to directly replace the touch screen of the touch control integrated machine by bank staff, so that the maintenance period of the touch screen of the touch control integrated machine is shortened. Especially when a customer handles business to a bank, the touch screen of the touch control integrated machine breaks down, a bank worker can timely replace the touch screen of the touch control integrated machine, so that the high work efficiency of the bank is reflected, the workload of the bank worker is reduced, the business handling flow of the bank is orderly, the business handling time of the customer is shortened, the experience of the customer when the customer handles business is improved, and the risk of customer loss is reduced.

Alternatively, as shown in fig. 1 to 3, a waist-shaped hole 15 is provided on one side surface of the main casing 1, for example, the waist-shaped hole 15 is integrally formed on one side surface of the main casing 1, and the waist-shaped hole 15 communicates with the installation cavity 11. One side provided with the waist-shaped hole 15 is perpendicular to the first side 12 and at the same time perpendicular to the side of the top of the main housing 1. The waist-shaped holes 15 can be used for inserting the protection sheets 4. The shape of the protective sheet 4 is rectangular, and the protective sheet 4 may be made of an elastic material, for example, the protective sheet 4 may be made of a rubber material. The left side wall of the installation cavity 11 may be regarded as the left side wall of the main casing 1, and the right side wall of the installation cavity 11 may be regarded as the right side wall of the main casing 1. For example, the right side wall of the main casing 1 is integrally provided with a waist-shaped hole 15, a worker can insert the protection sheet 4 into the installation cavity 11 from the waist-shaped hole 15, when the protection sheet 4 is completely immersed into the waist-shaped hole 15, one end of the protection sheet 4 is abutted against the left side wall of the installation cavity 11, the protection sheet 4 isolates the touch screen 2 in the installation cavity 11 from the pushing mechanism 3 and plays a protective role on the pushing mechanism 3, so that the worker is prevented from damaging the pushing mechanism 3 when the touch screen 2 is detached.

Alternatively, as shown in fig. 1 to 3, two recesses 16 are integrally formed on one side surface of the main casing 1. Two recesses 16 are provided at both ends of the waist-shaped hole 15 in the longitudinal direction thereof, respectively. A recess 16 is provided on one side of the main housing 1 to facilitate the removal of the protective sheet 4 by a worker.

Alternatively, as shown in fig. 1 to 3, the bottom of the installation cavity 11 and the left side wall of the installation cavity 11 are each integrally formed with a recess 111. One end of the protection sheet 4 firstly passes through the waist-shaped hole 15 to enter the installation cavity 11, one end of the protection sheet 4 slides along the groove 111 at the bottom of the installation cavity 11 towards the left side wall of the installation cavity 11 until one end of the protection sheet 4 slides into the groove 111 at the left side wall of the installation cavity 11, and then the protection of the pushing mechanism 3 can be completed. Set up recess 111 in installation cavity 11, be convenient for the slip of protective sheet 4, can make protective sheet 4 to push mechanism 3's protection effect better simultaneously.

Alternatively, as shown in fig. 1 to 4, when the installer installs the touch-control integrated machine, the installer first places one touch screen 2 on the installation portion of the push mechanism 3, and the touch screen 2 on the installation portion can be regarded as a second touch screen. Then, the protection sheet 4 is inserted into the installation cavity 11 through the waist-shaped hole 15, and the push mechanism 3 in the installation cavity 11 and the second touch screen are closed together by the protection sheet 4 to protect the push mechanism. Finally, a touch screen 2 is clamped in the installation window 13, and the touch screen 2 can be regarded as a first touch screen. When the first touch screen of the later-stage touch control all-in-one machine breaks down, maintenance personnel are not required to go up, the bank staff only needs to take down the first touch screen from the installation window 13, then the protection sheet 4 is pulled away from the waist-shaped hole 15, finally the installation part of the driving pushing mechanism 3 moves towards the installation window 13, the second touch screen on the installation part is clamped in the installation window 13, the maintenance of the touch control all-in-one touch screen 2 can be completed, and the maintenance difficulty is reduced.

In some embodiments, as shown in connection with fig. 5 to 7, a screen opening 17 is provided on one side wall of the main casing 1; the screen placing port 17 is communicated with the mounting cavity 11.

Alternatively, a through hole is provided on the left side wall or the right side wall of the main casing 1, for example, a through hole is integrally formed on the right side wall of the main casing 1, and the through hole communicates with the installation cavity 11. The through hole can be regarded as a screen opening 17. The screen opening 17 is rectangular in shape. The touch screen 2 is placed on the installation part of the pushing mechanism 3 through the screen placing opening 17, and the installation part is located at the first installation position at this time, namely, the screen placing opening 17 is located at the first installation position.

Optionally, a rubber plug 171 is clamped on the screen opening 17 on the right side wall of the main casing 1, the shape of the rubber plug 171 is long, and the shape of the rubber plug 171 is matched with the shape of the screen opening 17. The rubber plug 171 is arranged on the right side wall of the main shell 1, so that the rubber plug 171 can conveniently plug the pushing device in the installation cavity 11, and a dustproof effect is achieved.

Optionally, two recesses 16 are integrally formed on the right side wall of the main casing 1. The two recesses 16 are respectively provided at both ends of the screen opening 17 in the longitudinal direction thereof. The two ends of the screen placing port 17 are provided with the concave parts 16, so that when a worker needs to place the touch screen 2 on the installation part of the pushing mechanism 3 through the screen placing port 17, the worker can conveniently take out the rubber plug 171 through the concave parts 16 at the two ends of the screen placing port 17.

In the embodiment of the disclosure, a screen placing port is arranged on the side wall of the main shell and used for placing the touch screen on the installation part through the screen placing port. When the touch screen of the touch control integrated machine fails, the new touch screen is stored independently in order to reduce damage to the new touch screen caused by the failed touch screen when the failed touch screen is disassembled. The faulty touch screen is detached firstly, then a new touch screen enters the installation cavity through the screen placing port, and the new touch screen is placed on the installation part. The embodiment of the disclosure adopts a loading principle similar to a firearm to install the touch screen, so that a worker can replace a new touch screen to an installation window more accurately.

In some embodiments, as shown in fig. 3, 8 and 9, the touch screen 2 is clamped in the mounting window 13 through the clamping structure 5.

Optionally, the clamping structure 5 includes a clamping cavity 51 and a clamping piece 52. The end of the installation window 13, which is close to the installation cavity 11, is integrally formed with a clamping cavity 51. The clamping pieces 52 are arranged on the cavity wall of the clamping cavity 51, and an interlayer space 53 is formed between two adjacent clamping pieces 52. For example, the clamping member 52 is provided on the upper cavity wall and/or the lower cavity wall of the clamping cavity 51. For example, both the upper and lower chamber walls of the click-on chamber 51 are provided with click-on members 52. The connection mode of the clamping piece 52 and the cavity wall of the clamping cavity 51 can be welding, bonding, integral molding or the like.

Optionally, the touch screen 2 includes a display part 21, a body part 22. The display part 21 and the main body member 22 are rectangular in shape, and the area of the main body member 22 is larger than that of the display part 21. When the touch screen 2 is clamped in the mounting window 13, the display part 21 is positioned in the mounting window 13, and the main body part 22 is positioned in the clamping cavity 51. The shape of the display member 21 is adapted to the shape of the mounting window 13. The display unit 21 may be regarded as the touch screen 2 for displaying information to the client and for facilitating the client to touch and retrieve the information. The top of the main body member 22 is abutted against the clamping member 52 positioned on the upper cavity wall of the clamping cavity 51, and the bottom of the main body member 22 is abutted against the clamping member 52 positioned on the lower cavity wall of the clamping cavity 51, so that the touch screen 2 is clamped in the mounting window 13.

Alternatively, the shape of the engaging member 52 is an elongated block. The clamping member 52 is disposed between the body member 22 and the cavity wall of the clamping cavity 51. For example, one side of the clamping member 52 is fixed to the wall of the clamping chamber 51, and the other side abuts against the bottom or top of the main body member 22. The clamping member 52 may be made of an elastic material, for example, the clamping member 52 is made of a rubber material. The clamping piece 52 with elastic performance can enable the touch screen 2 to be clamped in the mounting window 13 more stably.

Optionally, the side of the clamping member 52 adjacent to the mounting cavity 11 is provided with a chamfer 54. For example, the clip 52 has a chamfer 54 integrally formed on a side thereof adjacent the mounting cavity 11. The chamfer 54 is provided on the engaging piece 52, so that the touch panel 2 can be more smoothly moved into the mounting window 13.

Alternatively, the shape of the clip 52 is rectangular sheet-like. The clip 52 is made of a metallic material. The engaging member 52 is disposed obliquely between the body member 22 and the cavity wall of the engaging cavity 51. For example, one end of the sheet-shaped clamping piece 52 is welded to the cavity wall of the clamping cavity 51 and is positioned at one side of the clamping cavity 51 close to the mounting cavity 11; the other end of the sheet-shaped clamping piece 52 is abutted against the bottom or the top of the main body piece 22, and is positioned on one side of the clamping cavity 51, which is close to the mounting window 13. A gap 55 is formed between the other end of the sheet-like engaging piece 52 and the cavity wall of the engaging cavity 51. When the mounting portion feeds the touch panel 2 into the mounting window 13, a portion of the mounting portion first enters the interlayer space 53 between the adjacent two of the engaging pieces 52. Along with the continuing movement of the installation department, the bottom of touch-sensitive screen 2 is contradicted earlier joint spare 52 and is fixed in the one end of joint chamber 51 chamber bottom, and the bottom of touch-sensitive screen 2 rises along with the slope setting of joint spare 52, then the top of touch-sensitive screen 2 is contradicted with joint spare 52 at joint chamber 51 top, afterwards the joint spare 52 of touch-sensitive screen 2 extrusion joint chamber 51 top and bottom to make joint chamber 51 top and joint spare 52 of bottom take place the deformation, joint spare 52 is close to the one end of installation window 13 and removes to the top or the bottom of joint chamber 51, gap 55 space diminish. The body member 22 of the touch screen 2 is clamped by utilizing the ductility of the metal of the clamping member 52, and meanwhile, the obliquely arranged clamping member 52 plays a role of a chamfer 54, so that the touch screen 2 can be clamped to the mounting window 13 more smoothly.

Optionally, a spring 56 is provided in the slit 55. One end of the spring 56 abuts against the wall of the clamping cavity 51, and the other end abuts against the side face of the clamping piece 52. Spring 56 is located in slot 55 on the side adjacent mounting window 13. The spring 56 is provided in the slit 55, so that the touch panel 2 can be more stably engaged with the mounting window 13.

In this disclosed embodiment, the joint structure includes joint chamber and joint spare, through set up the joint chamber in the installation window to set up the mode of joint spare in the joint intracavity, can make the touch-sensitive screen joint more stable in the installation window, the staff of also being convenient for changes the touch-sensitive screen simultaneously.

Optionally, as shown in fig. 3 and 8, the touch integrated machine further includes a wiring structure 6. The wiring structure 6 is disposed between the touch screen 2 and the clamping structure 5. The wiring structure 6 is used for supplying power, signal transmission, etc. to the touch screen 2.

Optionally, the wiring structure 6 includes a wiring portion 61, a wiring protrusion 62. The wiring portion 61 is provided at the top and/or bottom of the touch screen 2. For example, the wiring parts 61 are provided at the top and bottom of the touch screen 2. Alternatively, the wiring portion 61 is provided on the main body member 22 of the touch screen 2, for example, the wiring portion 61 is provided at the top and bottom of the main body member 22. The wiring portion 61 is a soldered circuit connector, and the shape of the wiring portion 61 is rectangular, so that the wiring connector can be ensured to have a sufficient area to collide with the wiring protrusion 62. The wiring protrusion 62 is provided on the clip 52. The wiring protrusion 62 has a cylindrical shape and one end is a round head. The wiring protrusion 62 is made of a metal material. The wiring protrusion 62 penetrates the sheet-shaped clamping piece 52, and the clamping protrusion is located at one end of the clamping piece 52 close to the mounting window 13. One end of the wiring protrusion 62, which is far away from the round head, is arranged in the gap 55 and is connected with a power line and a signal line of the touch control integrated machine. A rubber sleeve 63 is further arranged between the wiring protrusion 62 and the clamping piece 52, and the rubber sleeve 63 can prevent current on the wiring protrusion 62 from being transmitted to the main casing 1 of the touch control integrated machine. The sheet-shaped clamping piece 52 is punched, then the rubber sleeve 63 is adhered into the hole of the clamping piece 52, and finally the wiring lug 62 is adhered into the rubber sleeve 63. When the touch screen 2 is clamped in the mounting window 13, one end of the round head of the wiring protrusion 62 on the clamping piece 52 is abutted against the wiring portion 61 of the touch screen 2, and the wiring portion 61 of the touch screen 2 is not abutted against the clamping piece 52.

In this disclosed embodiment, divide into wiring portion and wiring protruding two parts with wiring structure, wiring portion sets up on the touch-sensitive screen, and wiring protruding sets up on the joint spare, accomplishes touch-sensitive screen joint in the installation window, accomplishes power supply, signal transmission of touch-sensitive screen simultaneously, provides convenience for staff's touch-sensitive screen change.

In some embodiments, as shown in connection with fig. 3, 4, 6, 9, the main housing 1 further comprises a waste screen cavity 18. The waste screen cavity 18 is arranged in the main shell 1, and the waste screen cavity 18 is communicated with the mounting cavity 11.

Alternatively, the main casing 1 is internally configured with the waste screen chamber 18, for example, the main casing 1 is integrally formed with the waste screen chamber 18. The waste screen cavity 18 is positioned below the installation cavity 11, and a cavity opening of the waste screen cavity 18 is arranged at the cavity bottom of the installation cavity 11. The waste screen chamber 18 is located at one end of the mounting chamber 11 near the clamping chamber 51.

In the embodiment of the disclosure, the waste screen cavity is arranged in the main shell and is used for collecting the failed touch screen, so that the time for replacing the touch screen by a worker is saved. When no waste screen cavity is arranged in the main shell, a worker replaces the failed touch screen and pushes the failed touch screen into the installation cavity, and then the failed touch screen is obliquely taken out from the installation window, so that the maintenance period is long. Through the mode that sets up useless screen chamber in the main casing, the staff only need with the touch-sensitive screen that breaks down push useless screen chamber can, maintenance cycle is short.

In some embodiments, as shown in fig. 5, 6 and 10, a screen taking port 19 is provided on one side wall of the main casing 1, and the screen taking port 19 communicates with the waste screen cavity 18.

Optionally, a through hole is provided on the left side wall or the right side wall of the main casing 1, for example, a through hole is integrally formed on the right side wall of the main casing 1, and the through hole communicates with the waste screen chamber 18. The through hole can be regarded as a screen taking opening 19. The screen taking opening 19 is rectangular in shape, and the screen taking opening 19 can be used for the touch screen 2 to pass through. The screen taking port 19 is positioned at one end near the bottom of the waste screen cavity 18.

Optionally, a rubber plug 171 is clamped on the screen taking opening 19 on the right side wall of the main casing 1, the shape of the rubber plug 171 is long, and the shape of the rubber plug 171 is matched with the shape of the screen taking opening 19. The rubber plug 171 is arranged on the right side wall of the main shell 1, so that the rubber plug 171 can conveniently plug the touch screen 2 with the fault in the waste screen cavity 18, and a dustproof effect is achieved.

Optionally, two recesses 16 are integrally formed on the right side wall of the main casing 1. The two recesses 16 are respectively provided at both ends of the screen taking opening 19 in the longitudinal direction thereof. The two ends of the screen taking opening 19 are provided with the concave parts 16, so that when a worker needs to take out the failed touch screen 2 in the waste screen cavity 18 through the screen taking opening 19, the worker can take out the rubber plug 171 through the concave parts 16 at the two ends of the screen taking opening 19 conveniently.

In the embodiment of the disclosure, the screen taking opening is formed in the side wall of the main shell, so that workers can conveniently take out one or more failed touch screens in the waste screen cavity, the maintenance difficulty is reduced, and the maintenance time is shortened.

In some embodiments, as shown in connection with fig. 11, a side surface of the main casing 1 provided with the mounting window 13 makes a certain angle with the bottom surface of the main casing 1.

Alternatively, the first side 12 of the main casing 1 forms an angle with the bottom surface of the main casing 1, which may be regarded as a specific angle a.

Optionally, the specific angle a has a value ranging from 60 ° to 75 °. For example, the specific angle a is in the range of 62 ° to 73 °. For example, the specific angle a is in the range of 64 ° to 71 °. For example, the specific angle a is in the range of 65 ° to 70 °. For example, the specific angle a is in the range of 66 ° to 69 °. For example, the specific angle a is in the range of 67 ° to 68 °. For example, the specific angle a has a value of 67.5 °.

In the embodiment of the disclosure, the first side surface of the main shell and the bottom surface of the main shell form a specific angle, and the installation window is arranged on the first side surface, so that a customer can conveniently operate the touch screen of the touch control integrated machine, the customer can conveniently watch information on the touch screen, and the experience of using the touch control integrated machine by the customer is improved.

In some embodiments, as shown in connection with fig. 3, the pushing mechanism 3 includes a displacement assembly 31, a pushing assembly 32. One end of the displacement assembly 31 is arranged on the back side wall 14, and the other end of the displacement assembly 31 is provided with a mounting part; the pushing component 32 is disposed on the mounting portion, and the pushing component 32 is used for pushing the touch screen 2.

In the embodiment of the disclosure, the pushing mechanism is modularized in structure and divided into a displacement assembly and a pushing assembly, when the pushing mechanism breaks down, only the broken-down displacement assembly or pushing assembly is required to be maintained or replaced, so that the later maintenance cost is reduced.

In some embodiments, as shown in connection with fig. 3, 4, 6, and 11-12, the displacement assembly 31 includes a drive motor 311, a lead screw 313, and a screen 314. The driving motor 311 is arranged on the back side wall 14, and an output shaft 312 of the driving motor 311 faces the mounting window 13; one end of the screw 313 is connected with an output shaft 312 of the driving motor 311; the screen 314 is provided on the lead screw 313.

Alternatively, the main body of the driving motor 311 is fixed to the back side wall 14 in the mounting chamber 11 with screws or bolts, and the main body of the driving motor 311 is located on the side of the back side wall 14 near the top of the main casing 1. An output shaft 312 of the driving motor 311 faces the mounting window 13 of the main housing 1, and one end of the screw 313 is fixedly connected with the output shaft 312 of the driving motor 311. For example, the output shaft 312 of the driving motor 311 is integrally formed with the lead screw 313, or one end of the lead screw 313 is welded to the output shaft 312 of the driving motor 311. A hole is integrally formed in the side wall opposite to the back side wall 14 in the mounting chamber 11, and one end of the screw 313 remote from the driving motor 311 is inserted into the hole, and the hole can make the screw 313 rotate more stably. The panel 314 is rectangular in shape, and the panel 314 is disposed in the mounting chamber 11. The end face of the screen 314 near the top of the main housing 1 is welded with a fixing block 315, and the fixing block 315 is integrally formed with a threaded hole matched with the thread of the screw rod 313. One end of the screw 313 remote from the drive motor 311 is inserted through a threaded hole in the fixed block 315 into a hole in the side wall of the mounting cavity 11 opposite the back side wall 14. The output shaft 312 of the driving motor 311 rotates forward, the lead screw 313 rotates along with the output shaft 312 of the driving motor 311, the lead screw 313 rotates to push the fixed block 315 to move towards the mounting window 13, and the fixed block 315 drives the screen placing plate 314 to move towards the mounting window 13 together. A mounting plate 316 is provided on a side of the mounting plate 314 facing the mounting window 13, the mounting plate 316 being located at an end of the mounting plate 314 near the bottom of the mounting chamber 11, the mounting plate 316 being disposed perpendicular to the mounting plate 314. For example, the mounting plate 316 is integrally formed on a side of the mounting plate 314 facing the mounting window 13, or the mounting plate 316 is welded to a side of the mounting plate 314 facing the mounting window 13. The mounting plate 316 may be considered a mounting portion, or the structure formed by the mounting plate 316 and the mounting plate 314 may be considered a mounting portion. Placing the touch screen 2 on the screen placing plate 314, wherein one side, away from the mounting window 13, of the main body piece 22 of the touch screen 2 is abutted against one side, close to the mounting window 13, of the screen placing plate 314, and one end face, close to the bottom of the mounting cavity 11, of the touch screen 2 is abutted against one side, away from the bottom of the mounting cavity 11, of the mounting plate 316, so that the touch screen 2 can be placed on the mounting part of the pushing mechanism 3. The position of the screen 314 at the end of the lead screw 313 near the driving motor 311 as shown in fig. 6 can be regarded as the first mounting position. When the push mechanism 3 sends the touch screen 2 into the installation window 13, the installation plate 316 of the screen panel 314 firstly enters the interlayer space 53 between the two adjacent clamping pieces 52, the installation plate 316 is convenient for placing the touch screen 2 and simultaneously has a guiding function, the touch screen 2 can slide onto the clamping pieces 52 more smoothly, and the clamping pieces 52 are convenient for clamping the touch screen 2 so as to finish the clamping of the touch screen 2 in the installation window 13.

Optionally, a positioning member 317 is further provided on the bezel 314. For example, the positioning member 317 is welded to the panel 314, or the panel 314 is integrally formed with the positioning member 317. The positioning member 317 is provided on the left side wall or the right side wall of the mounting panel 314. For example, the positioning member 317 is disposed on the left side wall of the screen 314, that is, the positioning member 317 is disposed on an end surface of the screen 314 at an end remote from the screen opening 17. The positioning member 317 has a sheet shape, and the cross section of the positioning member 317 has an L shape. The positioning member 317 is disposed on the screen 314 in the same manner as the mounting plate 316 is disposed on the screen 314, and one end of the positioning member 317 is disposed on the left side wall of the screen 314 and the other end is bent toward the mounting window 13. The other end of the positioning member 317 is perpendicular to a side of the screen 314 facing the mounting window 13. The positioning member 317 is provided on the screen 314, so that a worker can more accurately place a touch on the mounting portion. When the installation part pushes the touch screen 2, the touch can be quickly and efficiently clamped on the installation window 13.

In the embodiment of the disclosure, the displacement assembly is modularized again, and is divided into three parts, namely a driving motor, a screw rod and a screen board, when any small part of the later displacement assembly breaks down, only the broken small part needs to be replaced, so that the later maintenance cost is reduced. Meanwhile, the output shaft of the driving motor drives the screw rod to rotate forwards or reversely to control the screen board to move towards the direction of the mounting window or the back side wall of the mounting cavity, so that the moving distance of the screen board is more accurate.

In some embodiments, as shown in connection with fig. 3, 4, 6, 11-12, the push assembly 32 includes a push plate 321, a telescoping member 322. The pushing plate 321 is disposed on a side surface of the screen 314 facing the mounting window 13; the telescopic piece 322 is arranged on one side surface of the screen 314 facing the back side wall 14; the telescoping end 323 of the telescoping member 322 extends through the mounting plate 314 and is connected to the push plate 321.

Alternatively, the push plate 321 may take a rectangular shape, or a polygonal shape. For example, the push plate 321 may have an X-shape as shown in fig. 12, and the use of the X-shaped push plate 321 can make the push plate 321 more uniformly stressed when pushing the touch screen 2. In the present embodiment, the shape of the push plate 321 is not limited as long as the push plate 321 can function to push the touch screen 2. The pushing plate 321 is disposed on a side of the screen 314 facing the mounting window 13, and the center of the pushing plate 321 and the center of the screen 314 are located on the central axis of the telescopic member 322. The telescopic piece 322 can adopt an electric push rod, an air cylinder, a hydraulic cylinder or the like. The body of the telescoping member 322 is secured to the side of the mounting plate 314 facing the back side wall 14 of the mounting cavity 11 with screws or bolts, the body of the telescoping member 322 being centrally located on the mounting plate 314. The center of the screen 314 is integrally formed with a circular through hole through which the telescopic end 323 of the telescopic member 322 passes. The telescopic end 323 of the telescopic member 322 passes through the through hole to reach a side of the screen 314 facing the mounting window 13, and is connected to a side of the push plate 321 facing the screen 314. For example, the push plate 321 is fixedly connected to the expansion end 323 of the expansion member 322 with a screw or a bolt, or the push plate 321 is welded to the expansion end 323 of the expansion member 322.

Optionally, a rubber pad 324 is further provided on a side of the push plate 321 facing the mounting window 13. The rubber pad 324 has the same shape as the push plate 321. For example, the rubber pad 324 may take the shape of an X. Rubber pad 324 is adhered to the side of push plate 321 facing mounting window 13. The rubber pad 324 is arranged on one side, facing the installation window 13, of the push plate 321, so that the risk that the touch screen 2 is placed on the installation portion by workers to be damaged can be reduced, and the risk that the touch screen 2 is pushed into the installation window 13 by the push plate 321 to be failed can also be reduced.

In the embodiment of the disclosure, the pushing component is arranged on the screen placing board of the displacement component, so that the touch screen can be clamped in the mounting window more accurately, and the risk that the touch screen is damaged in the clamping process is reduced. The displacement assembly firstly moves the touch screen into the clamping cavity, then the displacement assembly stops working, the telescopic end of the telescopic piece stretches out to push the push plate to move towards the installation window, the push plate pushes the touch screen into the installation window, and a worker can conveniently finish replacing a new touch screen.

In some embodiments, as shown in connection with fig. 3, 4, 6, the pushing assembly 32 further comprises a guiding assembly 7. One end of the guide assembly 7 is disposed on the back side wall 14, and the other end of the guide assembly 7 is disposed on a side surface of the screen 314 facing the back side wall 14.

Optionally, the guide assembly 7 comprises a guide rail bar 71, a guide bar 72. One end of the guide rail rod 71 is disposed on the back side wall 14 of the mounting cavity 11, the other end of the guide rail rod 71 faces the mounting window 13, and a hole is integrally formed on the end surface of the other end of the guide rail rod 71, and the guide rod 72 can be inserted into the hole. The screen 314 is integrally formed with a through hole. One end of the guide rod 72 is disposed on a side surface of the push plate 321 facing the back side wall 14 of the mounting cavity 11, and the other end of the guide rod 72 passes through the through hole of the placement screen 314 and enters the hole of the guide rail 71. The holes of the guide rail bars 71 guide the guide bars 72.

Alternatively, one ends of the four guide rods 72 are welded to four corners of the X-shaped push plate 321, respectively, and the other ends of the four guide rods 72 pass through the through holes at the four corners of the screen 314 and enter the corresponding holes of the guide rail rods 71 located on the back side wall 14. By arranging the guide assemblies 7 at the four corners of the push plate 321, the push plate 321 can be more stable and more accurate in the pushing process of pushing the touch screen 2.

In this disclosed embodiment, set up guide assembly on push plate of push assembly, can make the push plate get into the propelling movement process of installing window at the propelling movement touch-sensitive screen more stable, the propelling movement precision is higher, reduces the operation degree of difficulty, the staff of being more convenient for changes the touch-sensitive screen.

The above description and the drawings illustrate embodiments of the disclosure sufficiently to enable those skilled in the art to practice them. Other embodiments may include structural and other modifications. The embodiments represent only possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in, or substituted for, those of others. The embodiments of the present disclosure are not limited to the structures that have been described above and shown in the drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (7)

1. The utility model provides a bank touch-control all-in-one which characterized in that includes:

a main housing including a mounting cavity; the installation cavity is arranged in the main shell, and is positioned at one end of the main shell; a mounting window is arranged on one side surface of the main shell, and the mounting window is communicated with the mounting cavity;

the touch screen is clamped on the installation window;

one end of the pushing mechanism is arranged on the back side wall of the mounting cavity, the back side wall is opposite to the mounting window, and the other end of the pushing mechanism is provided with a mounting part for placing the touch screen;

wherein the pushing mechanism comprises a static state and a working state; when the pushing mechanism is in the static state, the mounting part is positioned at a first mounting position; when the pushing mechanism is in the working state, the mounting part moves from the first mounting position to the mounting window;

a screen placing port is arranged on one side wall of the main shell; the screen placing port is communicated with the mounting cavity; the screen placing port is positioned at the first installation position; the touch screen is placed on the installation part of the pushing mechanism through the screen placing port;

the main housing further includes:

the waste screen cavity is arranged in the main shell and is communicated with the mounting cavity.

2. The touch-control all-in-one machine according to claim 1, wherein,

the touch screen is clamped in the mounting window through a clamping structure.

3. The touch-control all-in-one machine according to claim 1, wherein,

a screen taking opening is formed in one side wall of the main shell, and the screen taking opening is communicated with the waste screen cavity.

4. The touch-sensitive all-in-one of claim 1, wherein the pushing mechanism comprises:

one end of the displacement component is arranged on the back side wall, and the other end of the displacement component is provided with the mounting part;

the pushing assembly is arranged on the mounting part; the pushing component is used for pushing the touch screen.

5. The touch-sensitive all-in-one of claim 4, wherein the displacement assembly comprises:

the driving motor is arranged on the back side wall, and an output shaft of the driving motor faces the mounting window;

one end of the screw rod is connected with an output shaft of the driving motor;

the screen board is arranged on the screw rod.

6. The touch-sensitive all-in-one of claim 5, wherein the push assembly comprises:

the pushing plate is arranged on one side surface of the screen placing plate, which faces the mounting window;

the telescopic piece is arranged on one side surface of the screen board facing the back side wall;

the telescopic end of the telescopic piece penetrates through the screen placing plate and is connected with the pushing plate.

7. The touch-sensitive all-in-one of claim 6, wherein the push assembly further comprises:

and one end of the guide component is arranged on the back side wall, and the other end of the guide component is arranged on one side surface of the screen board facing the back side wall.