CN209928314U - Integrated circuit structure for display device - Google Patents

Abstract

The utility model discloses an integrated circuit structure for a display device, which belongs to the technical field of computers, wherein the display device comprises a plurality of display screens; the integrated circuit structure comprises a mainboard, a switch module, an interface expansion module, a power amplifier module and a power supply module, wherein the switch module is electrically connected with the mainboard and communicated with an external power supply; the interface expansion module is provided with an interface signal input end and a plurality of interface signal output ends; the power amplifier module is provided with a power amplifier signal input end and a plurality of power amplifier signal output ends; the power supply module is provided with a power supply input end and a plurality of power supply output ends, the power supply module is communicated with an external power supply through the power supply input end, and the power supply module is electrically connected with the corresponding display screens through the power supply output ends. The utility model discloses reach and only need a small amount of external power cords, just can carry out the transmission of electric power for a plurality of display screens, reduced shared space size, simplified external circuit, convenient to use's technological effect.

Description

Integrated circuit structure for display device

Technical Field

The utility model belongs to the technical field of the computer, in particular to an integrated circuit structure for display device.

Background

Computers have become more and more popular and have been developed toward multimedia and multi-function. The display screen is used as computer input and output equipment, and can display a certain electronic file on the screen through specific transmission equipment and reflect the electronic file to human eyes. When people need to check more information, a plurality of display screens are often adopted for watching.

For the existing technology applied to a computer, a display screen of the computer mainly transmits signals by a host, and one display screen and one host usually need two external power lines to supply power respectively, for example, one power line is connected with external power supply equipment and then connected with the host to provide power transmission for the host; and the other power line is connected with external power supply equipment and then is connected with the display screen to provide power transmission for the display screen. However, when the number of the display screens is plural, for example, when the number of the display screens is 5, 5 display screens need to be connected to 5 hosts, respectively, and 10 external power lines are needed for the transmission of power to the 5 display screens and the 5 hosts. Like this if need supply power for a plurality of display screens, often can need set up many power cords outside the main frame of computer, many power cords have taken more exterior space, can produce adverse effect to user's office environment. And when the number of external power cords is large, the external power cords are easily wound together with other external wires, so that external circuits are complex, and if circuit faults occur, the circuits are difficult to distinguish in time by users, so that the circuits are not beneficial to rapidly removing the faults, and the daily use and maintenance of the users are not convenient.

In summary, in the existing technology applied to a computer, when power is required to be supplied to a plurality of display screens, a plurality of external power lines need to be accessed from external power supply equipment, and then the external power lines are connected with a host computer for transmitting signals into the display screens, so that the power lines in the external space are more, the occupied space is larger, the external lines are complex, and the use is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that in the current technique of being applied to the computer, there is when needs supply power for a plurality of display screens, need insert many external power cords from external power supply unit, be connected many external power cords with the host computer that spreads into for a plurality of display screens provides the signal again to make the power cord in the external space more, occupation space is great, external circuit is complicated, uses inconvenient technical problem.

In order to solve the above technical problem, the utility model provides an integrated circuit structure for display device, an mainframe box is arranged in to integrated circuit structure for display device, display device includes: a plurality of display screens; the integrated circuit structure includes: a main board; the switch module is electrically connected with the mainboard and communicated with an external power supply so as to supply power to the mainboard through the external power supply; the interface extension module, the interface extension module is provided with an interface signal input end and a plurality of interface signal output end, the interface extension module passes through the interface signal input end with the mainboard electricity is connected, the interface extension module passes through a plurality of the interface signal output end is connected with a plurality of peripheral equipment electricity that corresponds, a plurality of peripheral equipment includes two kinds in following equipment at least: keyboard, mouse, hard disk; the power amplifier module, the power amplifier module is provided with a power amplifier signal input part and a plurality of power amplifier signal output part, the power amplifier module passes through power amplifier signal input part with the mainboard electricity is connected, the power amplifier module passes through a plurality of power amplifier signal output part and a plurality of peripheral hardware part electricity that corresponds are connected, a plurality of peripheral hardware part includes two kinds in following accessory at least: microphones, stereos, earphones; the power module, power module is provided with a power input end and a plurality of power output end, power module passes through power input end with external power communicates with each other, power module passes through a plurality of power output end and a plurality of that corresponds the display screen electricity is connected, with through one power module a plurality of power output end does respectively a plurality of display screen power transmission.

Furthermore, the switch module, the interface extension module, the power amplifier module and the power supply module are all integrated on the mainboard.

Furthermore, a plurality of transmission assemblies are arranged between the power output ends and the corresponding display screens, one end of each transmission assembly is electrically connected with the corresponding power output end, the other end of each transmission assembly is electrically connected with the corresponding display screen, and the transmission assemblies are respectively a plurality of the display screens for transmitting electric power.

Further, the plurality of display screens include: m six-dimensional angle displays and N two-dimensional angle displays; the number of transmission assemblies includes: the M six-dimensional transmission suites comprise M six-dimensional fasteners and M first conveying lines, each six-dimensional fastener is sleeved on one corresponding first conveying line, one end of each first conveying line is electrically connected with one corresponding power output end, the other end of each first conveying line is electrically connected with one corresponding six-dimensional angle display, and M is a positive integer; n two-dimensional transmission external member, N two-dimensional transmission external member includes N two-dimensional fastener and N second transfer chain, each two-dimensional fastener cover is established one that corresponds on the second transfer chain, each one end of second transfer chain and one that corresponds the power output end electricity is connected, the other end of second transfer chain and one that corresponds two-dimensional angle display electricity is connected, N is the positive integer.

Further, the M six-dimensional fasteners include: the device comprises M first supporting ends, wherein each first supporting end is internally provided with a first supporting channel; the device comprises M first sleeves, wherein each first sleeve is internally provided with a first sleeving channel, so that a channel for the first conveying line to pass through is formed by the first supporting channel and the first sleeving channel, one end of each first conveying line is electrically connected with the corresponding power output end, and the other end of the first conveying line sequentially passes through the first supporting channel and the first sleeving channel and is electrically connected with the corresponding six-dimensional angle display.

Further, the N two-dimensional fasteners include: each second support end is internally provided with a second support channel; each second sleeve is internally provided with a second sleeving channel so as to form a channel for the second conveying line to pass through by the second supporting channel and the second sleeving channel, one end of each second conveying line is electrically connected with the corresponding power output end, and the other end of each second conveying line sequentially passes through the second supporting channel and the second sleeving channel and is electrically connected with the corresponding two-dimensional angle display.

Furthermore, the main case is provided with M first conveying holes and N second conveying holes; one end of each first conveying line is electrically connected with the corresponding power output end, and the other end of each first conveying line sequentially penetrates through the first conveying hole, the first supporting channel and the first sleeving channel to be electrically connected with the corresponding six-dimensional angle display; one end of each second conveying line is electrically connected with the corresponding power output end, and the other end of each second conveying line sequentially penetrates through the second conveying hole, the second supporting channel and the second sleeving channel to be electrically connected with the corresponding two-dimensional angle display.

Further, said M is equal to 4.

Further, said N is equal to 2.

Further, the sum of the length of the first supporting channel and the length of the first sleeving channel is smaller than the length of the first conveying line; the sum of the length of the second supporting channel and the length of the second sleeving channel is smaller than the length of the second conveying line.

Has the advantages that:

the utility model provides an integrated circuit structure for display device, a power input end and the external power supply through power module in the integrated circuit structure communicate each other, come to input from a power input end with the electric power that external power supply provided. Simultaneously, a plurality of power output end and a plurality of display screen electricity interconnect who corresponds in the power module, the electric power that external power source provided can carry to a plurality of display screen through a plurality of power output end after a power input end input. Therefore, only one power line is needed to be communicated with the external power supply and the power input end, electric power enters from one power input end of the power supply module and is transmitted to the plurality of display screens through the plurality of power output ends, and the plurality of display screens can be powered. After a plurality of power lines are connected with an external power supply respectively, electric power transmission on the plurality of display screens is avoided. And then the number of power lines connected with an external power supply is reduced, and the occupied external space is reduced. And the switch module is electrically connected with the mainboard, the switch module is mutually communicated with an external power supply, and the power is supplied to the mainboard through the external power supply. The interface signal input end of the interface extension module is electrically connected with the main board, a plurality of interface signal output ends of the interface extension module are electrically connected with a plurality of corresponding peripheral equipment, and the main board can transmit signals with the peripheral equipment through the plurality of interface signal output ends. The power amplifier signal input part of the power amplifier module is electrically connected with the main board, a plurality of power amplifier signal output parts of the power amplifier module are electrically connected with a plurality of corresponding peripheral accessories, and the main board can also transmit signals through the plurality of power amplifier signal output parts and the peripheral accessories. The switch module, the interface expansion module, the power amplifier module, the power supply module and the mainboard are all arranged inside the mainframe box. When a plurality of display screens are supplied with power, an external power line is connected with a host computer for transmitting signals into the plurality of display screens by only inserting the external power line from external power supply equipment, so that electric power can be transmitted for the plurality of display screens simultaneously, the number of the power lines in external space is reduced, the occupied space is reduced, external circuits are simplified, and convenience is brought to use. Therefore, the technical effects that only a small amount of external power lines are needed, electric power can be transmitted for the display screens, the occupied space is reduced, external circuits are simplified, and the display screen is convenient to use are achieved.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used 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 invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a block diagram of an overall structure of an integrated circuit structure for a display device according to an embodiment of the present invention;

fig. 2 is a block diagram of a switch module in an integrated circuit structure for a display device according to an embodiment of the present invention;

fig. 3 is a block diagram illustrating an interface expansion module in an integrated circuit structure for a display device according to an embodiment of the present invention;

fig. 4 is a block diagram illustrating a power amplifier module in an integrated circuit structure for a display device according to an embodiment of the present invention;

fig. 5 is a block diagram of a power module in an integrated circuit structure for a display device according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a six-dimensional transmission kit used in an integrated circuit structure of a display device according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a two-dimensional transmission kit used in an integrated circuit structure of a display device according to an embodiment of the present invention;

fig. 8 is a schematic diagram of a display device in an integrated circuit structure for the display device according to an embodiment of the present invention;

fig. 9 is a block diagram of an overall structure of an integrated circuit structure for a display device according to an embodiment of the present invention.

Detailed Description

The utility model discloses an integrated circuit structure 20 for display device 10, a power input end 2051 and external power supply 30 through power module 205 communicate each other in integrated circuit structure 20 to come to input the electric power that external power supply 30 provided from a power input end 2051. Meanwhile, the plurality of power output terminals 2052 in the power module 205 are electrically connected to the corresponding plurality of display screens, and after the power provided by the external power supply 30 is input from one power input terminal 2051, the power is transmitted to the plurality of display screens through the plurality of power output terminals 2052. Thus, only one power line is needed to be communicated with the external power supply 30 and the power input end 2051, electric power enters from the power input end 2051 of the power supply module 205 and is transmitted to the plurality of display screens through the plurality of power output ends 2052, and then the plurality of display screens can be powered. After a plurality of power lines are respectively connected with the external power supply 30, electric power transmission on the plurality of display screens is avoided. Which in turn reduces the number of power cords connected to the external power supply 30 and reduces the amount of occupied external space. The switch module 202 is electrically connected to the motherboard 201, and the switch module 202 and the external power supply 30 are connected to each other, so that the motherboard 201 is supplied with power from the external power supply 30. The interface signal input end 2031 of the interface expansion module 203 is electrically connected to the motherboard 201, a plurality of interface signal output ends 2032 of the interface expansion module 203 are electrically connected to a plurality of corresponding peripheral devices, and the motherboard 201 can transmit signals with the peripheral devices through the plurality of interface signal output ends 2032. The power amplifier signal input end 2041 of the power amplifier module 204 is electrically connected with the mainboard 201, a plurality of power amplifier signal output ends 2042 of the power amplifier module 204 are electrically connected with a plurality of corresponding peripheral accessories, and the mainboard 201 can also transmit signals through the plurality of power amplifier signal output ends 2042 and the peripheral accessories. The switch module 202, the interface expansion module 203, the power amplifier module 204, the power supply module 205 and the main board 201 are all arranged inside the main cabinet 50. When a plurality of display screens are supplied with power, an external power line is connected with a host computer for transmitting signals into the plurality of display screens by only inserting the external power line from external power supply equipment, so that electric power can be transmitted for the plurality of display screens simultaneously, the number of the power lines in external space is reduced, the occupied space is reduced, external circuits are simplified, and convenience is brought to use. Therefore, the technical effects that only a small amount of external power lines are needed, electric power can be transmitted for the display screens, the occupied space is reduced, external circuits are simplified, and the display screen is convenient to use are achieved.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art belong to the protection scope of the present invention; the "and/or" keyword "referred to in this embodiment represents sum or two cases, in other words, a and/or B mentioned in the embodiment of the present invention represents two cases of a and B, A or B, and describes three states where a and B exist, such as a and/or B, representing: only A does not include B; only B does not include A; including A and B.

Also, in embodiments of the invention, when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and similar expressions used in the embodiments of the present invention are for illustrative purposes only and are not intended to limit the present invention.

It should be noted that, for the purpose of describing the present invention in more detail, the following explanation is made to the direction of rotation in the embodiment of the present invention: the upward rotation is a direction in which the first display 1011 or the second display 1012 moves in a direction away from the ground when the first display 1011 or the second display 1012 is placed at positions sequentially close to the ground; downward rotation refers to a direction opposite to the direction of upward rotation; the left rotation is a direction in which the fifth display 1021 is toward the third display 1013 when the fifth display 1021, described below, is between the first display 1011 and the third display 1013; a right turn refers to a direction opposite to the direction of a left turn; the forward tilt refers to a direction in which the display surface of the first display 1011 moves in a direction that makes an acute angle with the floor surface on the side of the display surface of the first display 1011 when the first display 1011 and the floor surface are perpendicular to each other; lean back refers to the direction opposite to the forward direction.

Referring to fig. 1 and 9, fig. 1 is a block diagram of an overall structure of an integrated circuit structure 20 for a display device 10 according to an embodiment of the present invention, and fig. 9 is a block diagram of an overall structure of an integrated circuit structure for a display device according to an embodiment of the present invention. The embodiment of the present invention provides an integrated circuit structure 20 for display device 10, integrated circuit structure 20 for display device 10 includes display device 10 and integrated circuit structure 20, now carries out the following detailed description to display device 10 and integrated circuit structure 20 respectively:

for the display device 10:

the display device 10 includes: a plurality of display screens. The plurality of display screens include: m six-dimensional angle displays 101 and N two-dimensional angle displays 102. Wherein M is equal to 4 and N is equal to 2.

Referring to fig. 6, 7 and 8, fig. 6 is a schematic structural diagram of a six-dimensional transmission kit 401 in an integrated circuit structure 20 for a display device 10 according to an embodiment of the present invention; fig. 7 is a schematic structural diagram of a two-dimensional transmission kit 402 in an integrated circuit structure 20 for a display device 10 according to an embodiment of the present invention; fig. 8 is a schematic diagram of a display device 10 in an integrated circuit structure 20 for the display device 10 according to an embodiment of the present invention. The casing of the main cabinet 50 includes M first installation areas and N second installation areas, each first installation area is provided with a six-dimensional angle adjusting mechanism detachably connected thereto, and each second installation area is provided with a two-dimensional angle adjusting mechanism detachably connected thereto. The M first mounting regions refer to a positive integer number of first mounting regions, for example, 1 first mounting region, 2 first mounting regions, 3 first mounting regions, 4 first mounting regions, 5 first mounting regions, 6 first mounting regions, 7 first mounting regions, and the like. The following M first supporting ends 4011a are respectively provided in the M first mounting areas, and are used to fix the following M six-dimensional angle adjusting mechanisms to support the following M six-dimensional angle adjusting mechanisms. The N second mounting regions refer to a positive integer number of second mounting regions, for example, 1 second mounting region, 2 second mounting regions, 3 second mounting regions, 4 second mounting regions, 5 second mounting regions, 6 second mounting regions, 7 second mounting regions, and the like, and the following N second supporting ends 4021a are respectively disposed in the N second mounting regions and are used to fix the following N two-dimensional angle adjusting mechanisms so as to support the following N two-dimensional angle adjusting mechanisms. When M is equal to 4 and N is equal to 2, the 4 first mounting areas respectively refer to a first placing area, a second placing area, a third placing area and a fourth placing area; the 2 second mounting regions refer to a fifth placement region and a sixth placement region, respectively. The mainframe 50 can be fixed to be set up on the desktop, through 4 six-dimensional angle adjustment mechanism respectively detachable settings at first place the region, the second is placed the region, the third is placed the region, in the fourth is placed the region, for example every six-dimensional angle adjustment mechanism's first support end 4011a comes to dismantle with every first installing zone through the bolt and is connected, every two-dimensional angle adjustment mechanism's second support end 4021a comes to dismantle with every second installing zone through the bolt and is connected, then come for every six-dimensional angle adjustment mechanism through mainframe 50 and desktop, and every two-dimensional angle adjustment mechanism provides the support.

With continued reference to fig. 1, fig. 6 and fig. 8, in the M six-dimensional angle indicators 101 and the M six-dimensional angle adjustment mechanisms, each six-dimensional angle indicator 101 is movably disposed on the housing of the main chassis 50 through one six-dimensional angle adjustment mechanism. When M equals 4, 2 first installation areas are divided into one group, and each group is distributed in parallel. Each six-dimensional angle adjustment mechanism is provided with first supporting end 4011a, first angle adjustment end, and each six-dimensional angle adjustment mechanism can dismantle through first supporting end 4011a and mainframe box 50 and be connected, and each six-dimensional angle adjustment mechanism passes through first angle adjustment end and each six-dimensional angle display 101 swing joint to the first display surface that adjusts six-dimensional angle display 101 through first angle adjustment end can face six different directions. The first angle adjusting end comprises a first sleeve 4011b, a first fastening part, a first rotating shaft, a first connector, a second rotating shaft, a first longitudinal arm, a third rotating shaft, a second connector, a fourth rotating shaft and a first supporting seat. First sleeve 4011b and first support end 4011a are fixedly connected to support first sleeve 4011b via first support end 4011a, and first sleeve 4011b and first support end 4011a are perpendicular to each other. The first fastening component comprises a first elastic band, a first buckle and a first adjusting flange, the first elastic band is provided with a first elastic end, a second elastic end and a first middle section, and the first middle section is positioned between the first elastic end and the second elastic end; the first buckle is fixedly connected with the first elastic end and the second elastic end respectively so as to adjust the distance between the first elastic end and the second elastic end through the first buckle; the first adjusting flange is fixedly connected with the first middle section and is positioned between the first elastic end and the second elastic end. The first connecting head is provided with a first groove and a second adjusting flange, the first adjusting flange is located in the first groove, the first adjusting flange and the first groove are provided with first through holes which are aligned, and the first rotating shaft penetrates through the first through holes, so that the first groove and the first adjusting flange rotate relative to the first rotating shaft. The second rotating shaft is vertical to the first rotating shaft; a second groove is formed in one end of the first longitudinal arm, a third adjusting flange is arranged at the other end of the first longitudinal arm and is positioned in the second groove, second through holes which are aligned are formed in the second groove and the second adjusting flange, the second through holes are perpendicular to the first through holes, and a second rotating shaft penetrates through the second through holes so that the second groove and the second adjusting flange can rotate relative to the second rotating shaft; the third rotating shaft and the second rotating shaft are vertical to each other. The second connector is provided with a third groove and a fourth groove, the third adjusting flange is positioned in the third groove, the third groove and the third adjusting flange are provided with third through holes which are aligned, the third through holes are vertical to the second through holes, the third rotating shaft penetrates through the third through holes, and the third groove and the third adjusting flange rotate relative to the third rotating shaft; the fourth rotating shaft is vertical to the third rotating shaft. The first supporting seat is provided with a fourth adjusting flange, the first clamping piece and the fourth adjusting flange are located in a fourth groove, the fourth adjusting flange and the fourth groove are provided with fourth through holes which are aligned, a fourth rotating shaft penetrates through the fourth through holes and is perpendicular to the third through holes, the fourth adjusting flange and the fourth groove rotate relative to the fourth rotating shaft, and the first supporting seat is clamped with the six-dimensional angle display 101 through the first clamping piece.

In addition, the six-dimensional angle display 101 is provided with a first snap joint, and the first snap joint and the first display surface are perpendicular to each other. The first clamping piece comprises a first base, 2 first clamping arms and a first bracket, wherein the 2 first clamping arms are respectively arranged at two sides of the first base so as to form a first slide way through the 2 first clamping arms of the first base, the six-dimensional angle display 101 is connected with the first slide way in a sliding mode through a first clamping connector, and the 2 first clamping arms are fixedly connected with each other so as to be clamped with the first clamping connector through the 2 first clamping arms; the first clamping joint is T-shaped. First bracket is fixed to be set up on first base, and first bracket is located between 2 first joint arms to it is right through first bracket first joint supports. The M six-dimensional angle displays 101 refer to 1 six-dimensional angle display 101, 2 six-dimensional angle displays 101, 3 six-dimensional angle displays 101, 4 six-dimensional angle displays 101, 5 six-dimensional angle displays 101, 6 six-dimensional angle displays 101, 7 six-dimensional angle displays 101, and the like, and when M is equal to 4, the 4 six-dimensional angle displays 101 refer to a first display 1011, a second display 1012, a third display 1013, and a fourth display 1014, respectively. The M six-dimensional angle adjusting mechanisms are 1 six-dimensional angle adjusting mechanism, 2 six-dimensional angle adjusting mechanisms, 3 six-dimensional angle adjusting mechanisms, 4 six-dimensional angle adjusting mechanisms, 5 six-dimensional angle adjusting mechanisms, 6 six-dimensional angle adjusting mechanisms, 7 six-dimensional angle adjusting mechanisms, 8 six-dimensional angle adjusting mechanisms and the like, wherein the 4 six-dimensional angle adjusting mechanisms are respectively connected with 4 six-dimensional angle displays 101, namely, a first angle adjusting end of one six-dimensional angle adjusting mechanism is connected with one six-dimensional angle display 101.

The first support end 4011a has a cylindrical hollow structure, which is a first support passage having a space therein for accommodating a power line, a data line, etc. (i.e., the first supply line 4012). Both ends of first support end 4011a can dismantle with first region of placing respectively and be connected, first sleeve 4011b fixed connection, for example through the bolt with first support end 4011a fixed mounting in first region of placing to even as an organic whole first support end 4011a and mainframe box 50. When it is necessary to remove the first supporting end 4011a, the first supporting end 4011a and the main cabinet 50 are separated from each other by detaching the bolt. The first bushing 4011b has a long cylindrical hollow structure, that is, a first socket passage having a space for accommodating a power line, a data line, and the like (i.e., the first supply line 4012). The first casing 4011b is supported by the first support end 4011a by fixedly connecting the first casing 4011b and the first support end 4011 a. First bushing 4011b is equipped with first elastic cord in one of deviating from first support end 4011a serves the cover, and the both ends of first elastic cord are provided with first buckle, realize carrying out the tight regulation to first elastic cord through first buckle. When the first elastic band is released, the first elastic band can move in a direction toward both ends of the first sleeve 4011 b. When the first elastic band is in tension, the first elastic band can be secured to the first sleeve 4011 b. The outside of first elastic cord is provided with first regulation flange, and first regulation flange and the first recess phase-match of first connector to with first regulation flange setting in the inside of first recess. First through holes aligned with each other are provided on the first groove and the first adjustment flange, and the first adjustment flange and the first groove are rotated in an upward or downward direction about the first rotation shaft by passing the first rotation shaft through the first through holes.

Simultaneously, one side that first connector deviates from first recess is provided with the second and adjusts the flange, and the second is adjusted the flange and is matched with the second recess of first longitudinal wall, and the second is adjusted the flange and is located the second recess, is provided with the second through-hole of mutual alignment in second is adjusted flange and second recess. After the second rotating shaft passes through the second mounting hole, the second adjusting flange and the second groove can rotate in the direction towards the left or the right by taking the second rotating shaft as a central rotating shaft. One end of the first longitudinal arm, which is far away from the second groove, is provided with a third adjusting flange, the third adjusting flange is matched with a third groove of the second connector, the third adjusting flange is positioned in the third groove, third through holes are formed in the third adjusting flange and the third groove, and the third rotating shaft penetrates through the third through holes to enable the third adjusting flange and the third groove to move forwards in the direction of forward inclination or backward inclination by taking the third rotating shaft as a central rotating shaft. One side of the second connector, which deviates from the third groove, is provided with a fourth groove, the fourth groove is matched with a fourth adjusting flange of the first supporting seat, the fourth adjusting flange is positioned inside the fourth groove, and fourth through holes which are aligned with each other are formed in the fourth groove and the fourth adjusting flange. After the fourth rotating shaft passes through the fourth through hole, the fourth groove and the fourth adjusting flange rotate in the direction that the rotating shaft faces to the left or the right by taking the fourth rotating shaft as a center.

The first clamping piece of the first supporting seat and the six-dimensional angle display 101 are clamped with each other, for example, 1 first clamping arm is respectively arranged on two sides of the first base, a first slide way is formed by 2 first clamping arms and the first base, a first clamping head of the six-dimensional angle display 101 and the first slide way are matched with each other, namely, the first clamping head of the six-dimensional angle display 101 is inserted into the first slide way, the first clamping head can slide towards the top side or the bottom side of the first base, and the top side and the bottom side of the first base are respectively located at two ends of the first clamping arm. The first clamping joint can be arranged at the center of the first display surface, so that the first display surface is more stable. The first slide is provided with an opening at the top side of the first base, from which opening the first snap joint of the six-dimensional angle display 101 is inserted into the first slide. The first bracket is arranged at the bottom side of the first base of the first slide way, and due to the gravity action of the six-dimensional angle display 101, after the first clamping head of the six-dimensional angle display 101 is inserted into the first slide way, the first clamping head will move towards the direction of the first bracket. After first bracket and first joint touched each other, first bracket can provide the holding power for first joint, fixes first joint in first bracket department, avoids first joint to fall from first slide then, realizes fixing six-dimensional angle display 101 on first supporting seat. When the six-dimensional angle display 101 needs to be disassembled, the first clamping joint of the six-dimensional angle display 101 is moved towards the direction away from the first bracket, and then the first clamping joint of the six-dimensional angle display 101 will leave from the opening at the top side of the first base, so that the first clamping joint of the six-dimensional angle display 101 and the first base are separated from each other. Thereby the technical effect of being convenient for installing and disassembling the display is achieved.

With continued reference to fig. 1, 7 and 8, each two-dimensional angle display 102 is movably disposed on the main housing 50 via a two-dimensional angle adjustment mechanism. When N equals 2, the 2 second mounting areas are aligned with each other, the 2 first mounting areas are distributed on one side of the 2 second mounting areas, and the 2 first mounting areas are distributed on the other side of the 2 second mounting areas. Each two-dimensional angle adjusting mechanism is provided with a second supporting end 4021a and a second angle adjusting end, each two-dimensional angle adjusting mechanism is detachably connected with the main case 50 through the second supporting end 4021a, each two-dimensional angle adjusting mechanism is movably connected with each two-dimensional angle display 102 through the second angle adjusting end, and a second display surface of the two-dimensional angle display 102 is adjusted to move towards two different directions through the second angle adjusting end. The second angle adjusting end comprises a second sleeve 4021b, a second fastening part, a fifth rotating shaft and a second supporting seat.

Second sleeve 4021b and second support end 4021a are fixedly coupled to support second sleeve 4021b by second support end 4021a, and second sleeve 4021b and second support end 4021a are perpendicular to each other. The second fastening component comprises a second elastic band, a second buckle and a fifth adjusting flange, the second elastic band is provided with a third elastic end, a fourth elastic end and a second middle section, and the second middle section is positioned between the third elastic end and the fourth elastic end; the second buckle is fixedly connected with the third elastic end and the fourth elastic end respectively, so that the distance between the third elastic end and the fourth elastic end can be adjusted through the second buckle; the fifth adjusting flange is fixedly connected with the second middle section and is positioned between the third elastic end and the fourth elastic end. The fifth rotating shaft is vertical to the second sleeve 4021 b; the second supporting seat is provided with a fifth groove and a second clamping piece, the fifth adjusting flange is located in the fifth groove, the fifth adjusting flange and the fifth groove are provided with a fifth through hole which is aligned, the fifth through hole is perpendicular to the second sleeve 4021b, the fifth through hole is penetrated by the fifth rotating shaft, the fifth adjusting flange and the fifth groove rotate relative to the fifth rotating shaft, and the second supporting seat is clamped with the two-dimensional angle display 102 through the second clamping piece.

In addition, the two-dimensional angle display 102 is further provided with a second clamping head, and the second clamping head and the second display surface are perpendicular to each other; the second clamping joint is T-shaped. The second clamping piece comprises a second base, 2 second clamping arms and a second bracket, the 2 second clamping arms are respectively arranged on two sides of the second base to form a second slide way through the second base and the 2 second clamping arms, the two-dimensional angle display 102 is connected with the second slide way in a sliding mode through a second clamping connector, and the 2 second clamping arms are fixedly connected to clamp the second clamping connectors through the 2 second clamping arms; the second bracket is fixedly arranged on the second base, and the second bracket is positioned between the 2 second clamping arms so as to support the second clamping joint through the second bracket. The N two-dimensional angle displays 102 refer to 1 two-dimensional angle display 102, 2 two-dimensional angle displays 102, 3 two-dimensional angle displays 102, 4 two-dimensional angle displays 102, 5 two-dimensional angle displays 102, 6 two-dimensional angle displays 102, 7 two-dimensional angle displays 102, and the like, and when N is equal to 2, the 2 two-dimensional angle displays 102 refer to a fifth display 1021 and a sixth display 1022, respectively. The N two-dimensional angle adjusting mechanisms are 1 two-dimensional angle adjusting mechanism, 2 two-dimensional angle adjusting mechanisms, 3 two-dimensional angle adjusting mechanisms, 4 two-dimensional angle adjusting mechanisms, 5 two-dimensional angle adjusting mechanisms, 6 two-dimensional angle adjusting mechanisms, 7 two-dimensional angle adjusting mechanisms, 8 two-dimensional angle adjusting mechanisms and the like. The 2 two-dimensional angle adjusting mechanisms are respectively connected with the 2 two-dimensional angle displays 102, that is, the second angle adjusting end of each two-dimensional angle adjusting mechanism is connected with each two-dimensional angle display 102.

The second support end 4021a presents a cylindrical hollow structure, that is, a second support passage having a space therein for accommodating a power supply line, a data line, and the like (i.e., the second transfer line 4022). The two ends of the second supporting end 4021a are detachably connected to the second placing area and the second sleeve 4021b is fixedly connected, for example, the second supporting end 4021a is fixedly installed in the second placing area by bolts, so as to connect the second supporting end 4021a and the main chassis 50 into a whole. When it is necessary to remove the second support end 4021a, the second support end 4021a and the main cabinet 50 are separated from each other by rotating a bolt connecting the second support end 4021a and the second placement region. Second cannula 4021b is supported by second support end 4021a by fixedly attaching second cannula 4021b to second support end 4021 a. The second sleeve 4021b has a long cylindrical hollow structure, which is a second sleeving passage having a space for accommodating a power line, a data line, and the like (i.e., the second conveying line 4022). The second elastic band is sleeved on one end of the second sleeve 4021b, which is far away from the second support end 4021a, the two ends of the second elastic band are provided with second buckles, and the tightness of the second elastic band is adjusted through the second buckles. When the second elastic is released, the second elastic can move in a direction towards both ends of the second sleeve 4021 b. When the second elastic is in tension, the second elastic is secured to second sleeve 4021 b. And a fifth adjusting flange is arranged on the outer side of the second elastic band, and the fifth adjusting flange is matched with a fifth groove of the second supporting seat, namely the fifth adjusting flange is arranged in the fifth groove. The fifth groove and the fifth adjusting flange are provided with fifth through holes which are aligned with each other, and after the fifth rotating shaft passes through the fifth through holes, the fifth adjusting flange and the fifth groove rotate in a forward tilting or backward tilting direction by taking the fifth rotating shaft as a central rotating shaft.

And, the second joint spare and the mutual joint of two-dimentional angle display 102 of second supporting seat, for example be provided with 1 second joint arm respectively in the both sides of second base, 2 second joint arms form a second slide, and the second joint head and the second slide of two-dimentional angle display 102 match each other, are about to insert the second joint head of two-dimentional angle display 102 in the second slide, and the second joint head just can slide towards the top side of second base or the direction of bottom side. The second clamping joint can be arranged at the center of the second display surface, so that the second display surface is more stable. The top side and the bottom side of the second base are located at two ends of the second clamping arm respectively, the second slideway is provided with an opening at the top side of the second base, and the second clamping joint of the two-dimensional angle display 102 is inserted into the second slideway from the opening. The second bracket is arranged at the bottom side of the second base on the second slide way, the second clamping joint of the six-dimensional rotating display is inserted into the second slide way, and due to the gravity action of the six-dimensional rotating display, the second clamping joint moves in the direction towards the second bracket, and after the second bracket and the second clamping joint touch each other, the second bracket can provide supporting force for the second clamping joint, so that the second clamping joint is fixed at the second bracket. And then the second clamping head is prevented from falling from the second slide way, and the two-dimensional angle display 102 can be fixed on the second support seat. When the two-dimensional angle display 102 needs to be disassembled, the second clamping head of the two-dimensional angle display 102 is moved in a direction away from the second bracket, and at this time, the second clamping head of the two-dimensional angle display 102 will leave from the opening at the top side of the second base, so that the second clamping head of the two-dimensional angle display 102 and the second base are separated from each other. Thereby the technical effect of being convenient for rapidly installing and disassembling the display is achieved.

For the integrated circuit structure 20:

the integrated circuit structure 20 includes a motherboard 201, a switch module 202, an interface expansion module 203, a power amplifier module 204, and a power supply module 205. The switch module 202, the interface expansion module 203, the power amplifier module 204 and the power supply module 205 are all integrated on the motherboard 201. The switch module 202 is electrically connected with the motherboard 201, and the switch module 202 and the external power supply 30 are communicated with each other to supply power to the motherboard 201 through the external power supply 30; the interface expansion module 203 is provided with an interface signal input terminal 2031 and a plurality of interface signal output terminals 2032, the interface expansion module 203 is electrically connected to the motherboard 201 through the interface signal input terminal 2031, the interface expansion module 203 is electrically connected to a plurality of corresponding peripheral devices through the plurality of interface signal output terminals 2032, and the plurality of peripheral devices at least include two of the following devices: keyboard, mouse, hard disk, etc.; the power amplifier module 204 is provided with a power amplifier signal input part 2041 and a plurality of power amplifier signal output part 2042, the power amplifier module 204 passes through the power amplifier signal input part 2041 with the mainboard 201 electricity is connected, the power amplifier module 204 is through a plurality of the power amplifier signal output part 2042 is connected with a plurality of peripheral hardware part electricity that corresponds, a plurality of the peripheral hardware part includes two kinds in the following accessory at least: microphones, stereos, earphones, and the like; the power module 205 is provided with a power input end 2051 and a plurality of power output end 2052, the power module 205 passes through the power input end 2051 with external power supply 30 communicates with each other, the power module 205 passes through a plurality of power output end 2052 and a plurality of that corresponds the display screen electricity is connected, with through one the power module 205 the plurality of power output end 2052 do respectively be the plurality of display screen power transmission. A plurality of transmission assemblies 40 are arranged between the plurality of power output ends 2052 and the corresponding plurality of display screens, one end of each transmission assembly 40 is electrically connected with the corresponding one of the power output ends 2052, and the other end of each transmission assembly 40 is electrically connected with the corresponding one of the display screens, so that the plurality of transmission assemblies 40 respectively transmit electric power to the plurality of display screens.

The number of transmission assemblies 40 includes M six-dimensional transmission suites 401, N two-dimensional transmission suites 402. The M six-dimensional transmission kits 401 comprise M six-dimensional fasteners 4011 and M first conveying lines 4012, each six-dimensional fastener 4011 is sleeved on a corresponding first conveying line 4012, one end of each first conveying line 4012 is electrically connected with a corresponding power output end 2052, the other end of each first conveying line 4012 is electrically connected with a corresponding six-dimensional angle display 101, and M is a positive integer; the M six-dimensional fasteners 4011 include M first support ends 4011a and M first sleeves 4011 b. A first support channel is arranged in each first support end 4011 a; each be provided with a first suit passageway in the first sleeve 4011b to through first support passageway with first suit passageway forms one and supplies first transfer chain 4012 passes the passageway, each first transfer chain 4012's one end and corresponding one power output end 2052 electricity is connected, first transfer chain 4012's the other end passes in proper order first support passageway, first suit passageway and corresponding one six-dimensional angle display 101 electricity is connected. The sum of the length of the first supporting channel and the length of the first sleeving channel is less than the length of the first conveying line 4012; the N two-dimensional transmission kits 402 include N two-dimensional fasteners 4021 and N second conveyor lines 4022, each of the two-dimensional fasteners 4021 is sleeved on a corresponding one of the second conveyor lines 4022, one end of each of the second conveyor lines 4022 is electrically connected to a corresponding one of the power output terminals 2052, the other end of each of the second conveyor lines 4022 is electrically connected to a corresponding one of the two-dimensional angle displays 102, and N is a positive integer.

The N two-dimensional fasteners 4021 include N second support ends 4021a and N second sleeves 4021 b. A second support channel is arranged in each second support end 4021 a; a second sleeving channel is arranged in each second sleeving 4021b, so that a channel for the second conveying line 4022 to pass through is formed by the second supporting channel and the second sleeving channel, one end of each second conveying line 4022 is electrically connected with a corresponding power output end 2052, and the other end of each second conveying line 4022 sequentially passes through the second supporting channel and the second sleeving channel to be electrically connected with a corresponding two-dimensional angle display 102. The sum of the length of the second supporting channel and the length of the second sleeving channel is smaller than the length of the second conveying line 4022. The integrated circuit structure 20 for the display device 10 is disposed in a main chassis 50, and the main chassis 50 is provided with M first conveying holes 501 and N second conveying holes 502; one end of each first conveying line 4012 is electrically connected with a corresponding power output end 2052, and the other end of each first conveying line 4012 sequentially penetrates through the first conveying hole 501, the first supporting channel and the first sleeving channel to be electrically connected with a corresponding six-dimensional angle display 101; one end of each second conveying line 4022 is electrically connected to a corresponding one of the power output terminals 2052, and the other end of the second conveying line 4022 sequentially passes through the second conveying hole 502, the second supporting channel, and the second sleeving channel to be electrically connected to a corresponding one of the two-dimensional angle displays 102.

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 8 and fig. 9, fig. 1 is a block diagram of an overall structure of an integrated circuit structure 20 for a display device 10 according to an embodiment of the present invention; fig. 2 is a block diagram of a switch module 202 in the integrated circuit structure 20 of the display device 10 according to an embodiment of the present invention; fig. 3 is a block diagram illustrating an interface expansion module 203 in the integrated circuit structure 20 of the display device 10 according to an embodiment of the present invention; fig. 4 is a block diagram illustrating a power amplifier module 204 in the integrated circuit structure 20 of the display device 10 according to an embodiment of the present invention; fig. 5 is a block diagram of a power module 205 in an integrated circuit structure 20 of a display device 10 according to an embodiment of the present invention. The first transfer hole 501 provided in the first placement area has a space for accommodating a wire (i.e., the first transfer line 4012) for transferring power, data, and the like. By positioning the first supporting end 4011a in the first placement area, the first supporting passage in the first supporting end 4011a, in which a space for accommodating the first delivery line 4012 is provided, is kept aligned with the first delivery hole 501. Since the first supply hole 501 and the first support passage are matched, the first supply line 4012 can extend from the first supply hole 501 into the first support passage. First set of connecing passageway that sets up in the first bushing 4011b has the space that holds first transfer chain 4012, first set of connecing passageway and first support passageway match each other, for example, the connector department with first set of connecing passageway and first support passageway aligns each other, make first transfer chain 4012 can pass first delivery port 501 in proper order, first support passageway, communicate each other with six-dimensional angle display 101 behind the first set of connecing passageway, then provide required electric energy for six-dimensional angle display 101 through first transfer chain 4012, and mainboard 201 in six-dimensional angle display 101 and the integrated circuit structure 20, switch module 202, interface expansion module 203, data transmission between the power amplifier module 204. Because first transfer chain 4012 in proper order from first delivery hole 501, first support channel, the first suit passageway of placing in the region pass the back and communicate each other with six-dimensional angle display 101 to reach and to hide communication data line, power cord etc. and improved the security of communication data line, power cord etc. and the technological effect of the stability of permanent work. A second feed hole 502 is provided in the second placement area, and the second feed hole 502 has a space for accommodating the second feed line 4022 therethrough. By arranging the second support end 4021a in the second placement area, the second support passage in the second support end 4021a is aligned with the second delivery hole 502, and the second delivery line 4022 can extend from the second delivery hole 502 into the second support passage because the second delivery hole 502 is matched with the second support passage. A second sleeving channel provided in the second sleeve 4021b has a space to accommodate the second conveying line 4022. The second sleeve joint channel is matched with the second support channel, for example, after the connecting ports of the second sleeve joint channel and the second support channel are aligned with each other, the second conveying line 4022 sequentially passes through the second conveying hole 502, the second support channel and the second sleeve joint channel and then can be communicated with the two-dimensional angle display 102, so that required electric energy is provided for the two-dimensional angle display 102, and data transmission among the two-dimensional angle display 102 and the integrated circuit structure 20, the main board 201, the switch module 202, the interface expansion module 203 and the power amplifier module 204 is realized. Because second transfer chain 4022 passes back and communicates each other with two-dimensional angle display 102 from second delivery hole 502, second support channel, the second cover that the second placed the region in proper order to reach and to hide communication data line, power cord etc. improve the security of communication data line, power cord etc. and the technical effect of the stability of permanent work.

It should be noted that the switch module 202 includes a switch button and JPL1, JPL1 refers to a connector, and JPL1 is a signal connection line between the power LED and the switch button. The switch key is connected with JPL1 and controls JPL 1; JPL1 communicates with motherboard 201 to control whether motherboard 201 is powered on. For example, the switch button is pressed to transmit the on/off signal to the motherboard 201 through the JPL1, so as to control whether the external power 30 flows through the JPL1, and then control the motherboard 201 in the main chassis 50 to be turned on or turned off. The interface expansion module 203 refers to a USB3.0 expansion, and the interface expansion module 203 includes USB3.1, USB3.2USB3.3, and TPPE-C, USBIN 1. The interface signal outputs 2032 of the interface expansion module 203 may be referred to as USB3.1, USB3.2USB3.3, and TPPE-C. USB in1 is connected to the motherboard 201 to communicate USB signals between the motherboard 201 and the interface expansion module 203. USB3.1, USB3.2USB3.3, and TPPE-C are connected to USBIN1, respectively. USB3.1, USB3.2USB3.3 is a USB connector, and USB3.1, USB3.2USB3.3 supports input and output of USB signals. TPPE-C is also a USB connector, and supports input and output of USB signals. For example, the USB3.1 is connected with an external keyboard, the TPPE-C is connected with an external mobile phone, and the like. And then, the communication between a keyboard, a mouse, a hard disk and the like in the peripheral equipment and the mainboard 201 is realized. The power amplifier module 204 refers to a power Amplifier (AUDIO) module, and the power amplifier module 204 includes F _ AUDIO1, a power amplifier chip, F _ OUT1, F _ MIC1, and JSPK 1. F _ AUDIO1 denotes a connector, and F _ AUDIO1 is a signal transmission line connected to the main board 201. F _ OUT1 refers to the audio output. F _ MIC1 refers to an audio input, such as a headphone MIC input. JSPK1 refers to an audio power amplifier, JSPK1 supports 2X3W horn. The main board 201 and the F _ AUDIO1 are electrically connected to communicate the power amplifier signal between the main board 201 and the F _ AUDIO 1. The power amplifier chip is connected with the F _ AUDIO1, the F _ OUT1, the F _ MIC1 and the JSPK1 are respectively connected with the power amplifier chip, and the F _ OUT1, the F _ MIC1 and the JSPK1 are controlled by the power amplifier chip. The plurality of power amplifier signal output ends 2042 in the power amplifier module 204 refer to F _ OUT1, F _ MIC1 and JSPK1, and the plurality of power amplifier signal output ends 2042 are electrically connected with a plurality of corresponding peripheral accessories, for example, F _ OUT1 is connected with a sound, and F _ MIC1 is connected with a microphone. And then, the communication between the microphone, the sound, the earphone and the like in the peripheral accessories and the mainboard 201 is realized.

Also, the power module 205 includes DC _ IN2, DC _ a1, DC _ a2, DC _ A3, DC _ a4, DC _ a5, DC _ a 6. When the external power supply 30 is connected to the DC _ IN2, the DC _ IN2 is connected to the DC _ a1, the DC _ a2, the DC _ A3, the DC _ a4, the DC _ a5, and the DC _ a6, respectively. DC _ IN2 refers to the power supply input 2051, the input power range of DC _ IN2 is 19V 5 to 7A. DC _ a1, DC _ a2, DC _ A3, DC _ a4, DC _ a5, DC _ a6 are power output connectors, each of which is connected to an external display. The number of power output terminals 2052 in the power module 205 may be several, and the number of power output terminals 2052 refers to 1 power output terminal 2052, 2 power output terminals 2052, 3 power output terminals 2052, 4 power output terminals 2052, 5 power output terminals 2052, 6 power output terminals 2052, 7 power output terminals 2052, and the like. When there are 6 power output terminals 2052, the power output terminals 2052 of the power module 205 refer to DC _ a1, DC _ a2, DC _ A3, DC _ a4, DC _ a5, and DC _ a 6. The plurality of power output terminals 2052 are electrically connected to the corresponding plurality of display screens, respectively. For example, DC _ a1 is connected to the first display 1011 of the six-dimensional angle display 101 IN the display device 10, and the external power 30 enters the first display 1011 through DC _ IN2 and DC _ a1 IN sequence to supply power to the first display 1011; the DC _ a2 is connected to the second display 1012 of the six-dimensional angle display 101 IN the display device 10, and the external power 30 sequentially passes through the DC _ IN2 and the DC _ a2 to enter the second display 1012 to supply power to the second display 1012; DC _ A3 is connected to the third display 1013 of the six-dimensional angle display 101 IN the display device 10, and the external power supply 30 enters the third display 1013 through DC _ IN2 and DC _ A3 IN sequence to supply power to the third display 1013; DC _ a4 is connected to the fourth display 1014 of the six-dimensional angle display 101 IN the display device 10, and the external power 30 is supplied to the fourth display 1014 through DC _ IN2 and DC _ a4 IN sequence to supply power to the fourth display 1014; the DC _ a5 is connected to the fifth display 1021 of the two-dimensional angle display 102 IN the display device 10, and the external power source 30 sequentially passes through the DC _ IN2 and the DC _ a5 to enter the fifth display 1021 to supply power to the fifth display 1021; the DC _ a6 is connected to the sixth display 1022 of the two-dimensional angle display 102 IN the display device 10, and the external power source 30 is sequentially supplied to the sixth display 1022 through the DC _ IN2 and the DC _ a6 to supply power to the sixth display 1022. Thus, only one power line is required between the external power source and the power module 205, one end of the power module 205 is connected to the external power source, the other end of the power module 205 is connected to DC _ IN2 IN the power module 205 inside the main cabinet 50, and power is transmitted to the first display 1011, the second display 1012, the third display 1013, the fourth display 1014, the fifth display 1021, and the sixth display 1022 through DC _ a1, DC _ a2, DC _ A3, DC _ a4, DC _ a5, and DC _ a6, respectively. Like this when needs supply power for a plurality of display screens, because only one carries out the power cord that supplies power for a plurality of display screens between mainframe box 50 and external power source 30, reduced the quantity of power cord in the external space then, reduced shared space size, simplified external circuit, convenient to use. Therefore, the technical effects that only a small amount of external power lines are needed, electric power can be transmitted for the display screens, the occupied space is reduced, external circuits are simplified, and the display screen is convenient to use are achieved.

The utility model provides an integrated circuit structure 20 for display device 10, a power input end 2051 and external power supply 30 through power module 205 communicate each other in integrated circuit structure 20, come to input the electric power that external power supply 30 provided from a power input end 2051. Meanwhile, the plurality of power output terminals 2052 in the power module 205 are electrically connected to the corresponding plurality of display screens, and after the power provided by the external power supply 30 is input from one power input terminal 2051, the power is transmitted to the plurality of display screens through the plurality of power output terminals 2052. Thus, only one power line is needed to be communicated with the external power supply 30 and the power input end 2051, electric power enters from the power input end 2051 of the power supply module 205 and is transmitted to the plurality of display screens through the plurality of power output ends 2052, and then the plurality of display screens can be powered. After a plurality of power lines are respectively connected with the external power supply 30, electric power transmission on the plurality of display screens is avoided. Which in turn reduces the number of power cords connected to the external power supply 30 and reduces the amount of occupied external space. The switch module 202 is electrically connected to the motherboard 201, and the switch module 202 and the external power supply 30 are connected to each other, so that the motherboard 201 is supplied with power from the external power supply 30. The interface signal input end 2031 of the interface expansion module 203 is electrically connected to the motherboard 201, a plurality of interface signal output ends 2032 of the interface expansion module 203 are electrically connected to a plurality of corresponding peripheral devices, and the motherboard 201 can transmit signals with the peripheral devices through the plurality of interface signal output ends 2032. The power amplifier signal input end 2041 of the power amplifier module 204 is electrically connected with the mainboard 201, a plurality of power amplifier signal output ends 2042 of the power amplifier module 204 are electrically connected with a plurality of corresponding peripheral accessories, and the mainboard 201 can also transmit signals through the plurality of power amplifier signal output ends 2042 and the peripheral accessories. The switch module 202, the interface expansion module 203, the power amplifier module 204, the power supply module 205 and the main board 201 are all arranged inside the main cabinet 50. When a plurality of display screens are supplied with power, an external power line is connected with a host computer for transmitting signals into the plurality of display screens by only inserting the external power line from external power supply equipment, so that electric power can be transmitted for the plurality of display screens simultaneously, the number of the power lines in external space is reduced, the occupied space is reduced, external circuits are simplified, and convenience is brought to use. Therefore, the technical effects that only a small amount of external power lines are needed, electric power can be transmitted for the display screens, the occupied space is reduced, external circuits are simplified, and the display screen is convenient to use are achieved.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the examples, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced by equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (10)

1. An integrated circuit structure for a display device, the integrated circuit structure for a display device being disposed in a main chassis, characterized in that:

the display device includes: a plurality of display screens;

the integrated circuit structure includes:

a main board;

the switch module is electrically connected with the mainboard and communicated with an external power supply so as to supply power to the mainboard through the external power supply;

the interface extension module, the interface extension module is provided with an interface signal input end and a plurality of interface signal output end, the interface extension module passes through the interface signal input end with the mainboard electricity is connected, the interface extension module passes through a plurality of the interface signal output end is connected with a plurality of peripheral equipment electricity that corresponds, a plurality of peripheral equipment includes two kinds in following equipment at least: keyboard, mouse, hard disk;

the power amplifier module, the power amplifier module is provided with a power amplifier signal input part and a plurality of power amplifier signal output part, the power amplifier module passes through power amplifier signal input part with the mainboard electricity is connected, the power amplifier module passes through a plurality of power amplifier signal output part and a plurality of peripheral hardware part electricity that corresponds are connected, a plurality of peripheral hardware part includes two kinds in following accessory at least: microphones, stereos, earphones;

the power module, power module is provided with a power input end and a plurality of power output end, power module passes through power input end with external power communicates with each other, power module passes through a plurality of power output end and a plurality of that corresponds the display screen electricity is connected, with through one power module a plurality of power output end does respectively a plurality of display screen power transmission.

2. An integrated circuit structure for a display device as claimed in claim 1, characterized in that:

the switch module, the interface extension module, the power amplifier module and the power supply module are all integrated on the mainboard.

3. An integrated circuit structure for a display device as claimed in claim 2, characterized in that:

the power output end and the corresponding plurality of are provided with a plurality of transmission assembly between the display screen, each transmission assembly's one end and a corresponding one the power output end electricity is connected, transmission assembly's the other end and a corresponding one the display screen electricity is connected to be through a plurality of transmission assembly is a plurality of respectively the display screen carries electric power.

4. An integrated circuit structure for a display device as claimed in claim 3, characterized in that:

the plurality of display screens include: m six-dimensional angle displays and N two-dimensional angle displays;

the number of transmission assemblies includes:

the M six-dimensional transmission suites comprise M six-dimensional fasteners and M first conveying lines, each six-dimensional fastener is sleeved on one corresponding first conveying line, one end of each first conveying line is electrically connected with one corresponding power output end, the other end of each first conveying line is electrically connected with one corresponding six-dimensional angle display, and M is a positive integer;

n two-dimensional transmission external member, N two-dimensional transmission external member includes N two-dimensional fastener and N second transfer chain, each two-dimensional fastener cover is established one that corresponds on the second transfer chain, each one end of second transfer chain and one that corresponds the power output end electricity is connected, the other end of second transfer chain and one that corresponds two-dimensional angle display electricity is connected, N is the positive integer.

5. The integrated circuit structure for a display device of claim 4, wherein the M six-dimensional fasteners comprise:

the device comprises M first supporting ends, wherein each first supporting end is internally provided with a first supporting channel;

m first sleeves, each be provided with a first suit passageway in the first sleeve, in order to pass through first support channel with first suit passageway forms a confession the passageway that first transfer chain passed, the other end of first transfer chain passes in proper order first support channel first suit passageway with one that corresponds six-dimensional angle display electricity is connected.

6. The integrated circuit structure for a display device of claim 5, wherein the N two-dimensional fasteners comprise:

each second support end is internally provided with a second support channel;

and each second sleeve is internally provided with a second sleeving channel so as to form a channel for the second conveying line to pass through the second supporting channel and the second sleeving channel, and the other end of the second conveying line sequentially passes through the second supporting channel and the second sleeving channel and the corresponding two-dimensional angle display to be electrically connected.

7. An integrated circuit structure for a display device as claimed in claim 6, characterized in that:

the main case is provided with M first conveying holes and N second conveying holes;

one end of each first conveying line is electrically connected with the corresponding power output end, and the other end of each first conveying line sequentially penetrates through the first conveying hole, the first supporting channel and the first sleeving channel to be electrically connected with the corresponding six-dimensional angle display;

one end of each second conveying line is electrically connected with the corresponding power output end, and the other end of each second conveying line sequentially penetrates through the second conveying hole, the second supporting channel and the second sleeving channel to be electrically connected with the corresponding two-dimensional angle display.

8. An integrated circuit structure for a display device as claimed in claim 7, wherein:

said M is equal to 4.

9. An integrated circuit structure for a display device as claimed in claim 8, wherein:

said N is equal to 2.

10. An integrated circuit structure for a display device as claimed in claim 9, wherein:

the sum of the length of the first supporting channel and the length of the first sleeving channel is less than the length of the first conveying line;

the sum of the length of the second supporting channel and the length of the second sleeving channel is smaller than the length of the second conveying line.

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