CN112130621A - Multifunctional conference all-in-one machine - Google Patents

Abstract

The invention discloses a multifunctional conference all-in-one machine, which comprises a case, a display screen automatic extending and retracting device and a microphone automatic extending and retracting device, wherein the display screen automatic extending and retracting device and the microphone automatic extending and retracting device are respectively arranged in the case; the automatic microphone extending and retracting device comprises an automatic microphone lifting mechanism arranged in the case, a microphone arranged on the automatic microphone lifting mechanism and capable of extending from a microphone extending port, and an automatic microphone flip opening and closing mechanism connected to the microphone flip. The multifunctional desk has the functions of the display screen and the microphone, can realize the functions of automatically lifting the display screen and the microphone to extend out for use, automatically descending the display screen and the microphone for storage after use, has strong practicability, does not occupy the position of a desktop after use, can keep the desktop neat and attractive, can protect the display screen and the microphone, and plays a role in dust prevention and water prevention.

Description

Multifunctional conference all-in-one machine

Technical Field

The invention relates to the field of electronic equipment, in particular to a multifunctional conference all-in-one machine.

Background

With the continuous development and progress of electronic devices and science and technology, computer display screens and microphones are used for speaking, and the computer microphone is widely applied to places such as meeting rooms, education institutions and training institutions. Currently, there are three general situations:

(1) the computer display screen and the microphone are placed on a desktop for a long time for use, and cannot be folded after being used, so that dust is accumulated on the computer display screen and the microphone, the service life is shortened, the position of the desktop is occupied, and the tidiness and the attractiveness of the desktop are influenced;

(2) the projection screen is directly hung on the wall for displaying, when the microphone is held by hand, dust can be accumulated on the projection screen, and the microphone is randomly placed after being used, so that the position of a desktop is occupied, the tidiness and the attractiveness of the desktop are influenced, and the service life of the microphone is influenced;

(3) the notebook computer is troublesome to use when being carried each time.

Disclosure of Invention

In view of the above disadvantages, an object of the present invention is to provide a multifunctional conference all-in-one machine, which not only has the functions of a display screen and a microphone, but also can realize the functions of automatically lifting the display screen and the microphone to extend out for external use, and automatically lowering the display screen and the microphone for storage after use.

The technical scheme adopted by the invention to achieve the aim is as follows:

a multifunctional conference integrated machine comprises a case, wherein a display screen extension port and a microphone extension port are respectively arranged at the upper end of the case, a display screen flip cover is arranged on the display screen extension port, and a microphone flip cover is arranged on the microphone extension port; the automatic opening and closing mechanism for the display screen turnover cover comprises a first fixed seat arranged at the lower part of the inner side of the case, a first pull rod rotationally connected with the display screen turnover cover, a first positioning sliding piece slidably arranged on the first fixed seat and connected with the first pull rod, an upper pushing block formed on a display screen lifting support of the automatic display screen lifting mechanism, a resetting pushing block rotationally arranged on the upper pushing block and positioned above the first positioning sliding piece, and a first buffer spring connected between the resetting pushing block and the upper pushing block; the automatic microphone extending and retracting device comprises an automatic microphone lifting mechanism arranged in the case, a microphone arranged on the automatic microphone lifting mechanism and capable of extending from a microphone extending port, and at least one automatic microphone flip opening and closing mechanism connected with a microphone flip; the automatic opening and closing mechanism of the microphone flip comprises a second fixed seat arranged at the lower part of the inner side of the case, a second pull rod rotatably connected to the microphone flip, a second positioning sliding part slidably arranged on the second fixed seat and connected to the second pull rod, a pushing part connected to a microphone lifting support of the automatic microphone lifting mechanism and acting on the second positioning sliding part, an upper push block slidably arranged on the second fixed seat and positioned below the second positioning sliding part, and a third buffer spring connected between the upper push block and the inner side of the case.

As a further improvement of the present invention, a first longitudinal sliding hole for the first positioning sliding member to slide is formed on the first fixing seat, and the first longitudinal sliding hole mainly comprises a first vertical sliding hole and a first oblique sliding hole formed by bending an upper portion of the first vertical sliding hole inward.

As a further improvement of the invention, the end part of the upper pushing block is provided with an upper hook part; the end part of the reset push block is provided with a lower hook part.

As a further improvement of the invention, an upper connecting shaft is arranged on the reset push block, a lower connecting shaft is arranged on the upper push block, and the first buffer spring is connected between the upper connecting shaft and the lower connecting shaft.

As a further improvement of the invention, a second buffer spring is connected between the inner wall of the case and the first pull rod.

As a further improvement of the invention, two ends of the display screen flip are respectively and rotatably arranged on the inner wall of the case through a connecting plate, and the upper end of the first pull rod is rotatably connected with the connecting plate.

As a further improvement of the present invention, the automatic display screen lifting mechanism comprises a display screen lifting rack and at least one lifting guide rod which are vertically arranged in the case, a display screen lifting support which is arranged in the case and is slidably arranged on the lifting guide rod, a display screen lifting drive motor which is arranged in the case and is connected with the display screen lifting support, and a display screen lifting transmission gear which is arranged on an output shaft of the display screen lifting drive motor and is meshed with the display screen lifting rack, wherein the display screen is arranged on the display screen lifting support; at least one lifting guide sliding seat is movably sleeved on the lifting guide rod, and the back of the display screen lifting support is fixedly connected with the lifting guide sliding seat; the display screen lifting support is characterized in that two ends of the display screen lifting support are respectively provided with a display screen automatic swing angle assembly, the display screen automatic swing angle assembly comprises a swing angle linkage plate rotatably arranged at the end part of the display screen lifting support and at least one first reset spring connected between the swing angle linkage plate and the side edge of the display screen lifting support, and the display screen is arranged on the swing angle linkage plates at two ends of the display screen lifting support; meanwhile, a swinging ejection piece for ejecting the lower part of the swinging angle linkage plate is arranged on the inner wall of the case; the upper part of the swing angle linkage plate is rotatably arranged on the display screen lifting support, a transverse sliding hole is formed at the lower part of the swing angle linkage plate, and a sliding shaft inserted into the transverse sliding hole is arranged on the side edge of the display screen lifting support; meanwhile, a protruding part facing one side of the swinging ejection piece is convexly arranged at the lower part of the swinging angle linkage plate; one end of the first reset spring is connected to the upper part of the swing angle linkage plate, and the other end of the first reset spring is connected to the lower part of the side edge of the display screen lifting support; the swinging ejection piece mainly comprises a bearing seat arranged on the inner wall of the case and at least one bearing rotatably arranged on the bearing seat.

As a further improvement of the present invention, a second longitudinal sliding hole for the second positioning sliding member to slide is formed on the second fixing seat, and the second longitudinal sliding hole mainly comprises a second vertical sliding hole and a second oblique sliding hole formed by bending the upper part of the second vertical sliding hole towards the inner side of the chassis.

As a further improvement of the invention, an opening is formed on the pushing member, an upper hook body is formed at the upper part of the opening, an upper guide inclined plane is formed at the inner side of the upper hook body, and the upper guide inclined plane inclines towards the inner side of the case from top to bottom; a lower hook body is formed at the lower part of the opening, a lower guide inclined plane is formed at the inner side edge of the lower hook body, and the lower guide inclined plane inclines towards the inner side of the case from top to bottom.

As a further improvement of the invention, a limit guide inclined plane is formed on the upper end surface of the push-up block, and the limit guide inclined plane is inclined towards the inner side of the case from top to bottom; a third longitudinal sliding hole is formed on the upper pushing block, and at least one positioning piece is arranged on the second fixed seat and embedded into the third longitudinal sliding hole.

As a further improvement of the invention, a connecting piece is arranged on the push-up block, and the third buffer spring is connected between the connecting piece and the second fixed seat.

As a further improvement of the invention, a fourth buffer spring is connected between the inner wall of the case and the second pull rod.

As a further improvement of the invention, the microphone flip cover is rotatably arranged on the inner wall of the case through a connecting block, and the upper end of the second pull rod is rotatably connected with the connecting block.

As a further improvement of the present invention, the automatic microphone lifting mechanism comprises a microphone lifting rack vertically arranged in the case, a microphone lifting bracket slidably arranged in the case, a microphone lifting driving motor arranged in the case and connected to the microphone lifting bracket, and a microphone lifting transmission gear arranged on an output shaft of the microphone lifting driving motor and engaged with the microphone lifting rack, wherein the microphone is arranged on the microphone lifting bracket; at least one lifting guide sliding block is fixedly connected to each of two ends of the microphone lifting support, and a lifting guide sliding groove for the lifting guide sliding block to be embedded and to slide in a lifting manner is formed in the inner wall of the case; a microphone lifting positioning mechanism is arranged in the case and comprises a lifting sliding plate arranged on the inner wall of the case, a microphone positioning frame arranged at the upper end of the lifting sliding plate and a second reset spring connected between the lower end of the lifting sliding plate and the inner wall of the case, wherein a microphone perforation for a microphone to pass through is formed on the microphone positioning frame, and a pushing connecting block positioned right below the microphone lifting support is arranged at the lower end of the lifting sliding plate; a rubber plug matched with the extension opening of the microphone is arranged on the microphone perforation of the microphone positioning frame.

As a further improvement of the invention, at least one wire clamping groove is formed on the inner side of the case, the wire clamping groove mainly comprises a strip-shaped clamping groove formed on the inner side of the case and a limiting strip block formed above the strip-shaped clamping groove, wherein a strip-shaped wire inlet notch is formed between one side of the strip-shaped clamping groove and one side of the limiting strip block; an incoming line guide inclined plane is formed on one side of the strip-shaped clamping groove and at the position of the strip-shaped incoming line notch, and the incoming line guide inclined plane extends along the length direction of the strip-shaped clamping groove; an arc-shaped part is arranged on the inner side wall of the strip-shaped clamping groove far away from the strip-shaped wire inlet notch, and the arc-shaped part extends along the length direction of the strip-shaped clamping groove; an arc-shaped concave edge is formed at each of two ends of the limiting strip block; the wire clamping groove is formed on the bottom of at least one inner side wall of the case; the strip-shaped clamping groove is formed in the bottom edge in the case, and the limiting strip block is arranged on the inner side wall of the case.

The invention has the beneficial effects that:

(1) through integrating display screen and microphone on quick-witted case to through the automatic elevating system of display screen and the automatic mechanism that opens and shuts of display screen flip, and microphone automatic elevating system and the automatic mechanism that opens and shuts of microphone flip combine together, with control display screen flip and the automatic mechanism that opens and shuts of microphone flip, and display screen and the automatic lift of microphone, realize that display screen and microphone rise automatically and stretch out quick-witted case outside and use, after the use, automatic decline withdraws quick-witted incasement collection. Therefore, the multifunctional display screen and microphone box has the functions of a display screen and a microphone simultaneously, is convenient to use and high in practicability, can be stored in the machine box after being used, does not occupy the position of a desktop, can keep the desktop neat and attractive, can achieve the storage and protection effects on the display screen and the microphone, plays a dustproof and waterproof role, and prolongs the service life of the multifunctional display screen and microphone box.

(2) Through the special structural design of the automatic opening and closing mechanism of the display screen flip cover and the automatic opening and closing mechanism of the microphone flip cover, the structural design is reasonable, the precision is high, the automatic opening and closing of the display screen flip cover and the microphone flip cover can be realized, the display screen and the microphone are matched to extend, use and withdraw, and the automation degree is high. Meanwhile, the hand-clamping prevention function is achieved.

(3) Through the automatic elevating system of display screen and the automatic elevating system of microphone that drive display screen and microphone automatic rising by having special structural design, structural design is reasonable, and the precision is high, at whole lift in-process, moves stably, steadily, and the noise is little, long service life.

(4) Through the automatic angle of oscillation subassembly of display screen by display screen lifting support both ends, can realize carrying out automatic angle of oscillation to the display screen, reach the purpose of slope display screen, convenient to use person obtains the viewing angle that is most suitable for watching the content that shows on the display screen.

(5) Through addding microphone lift positioning mechanism, at the ascending in-process with descending of microphone, fix a position the microphone by microphone locating rack of microphone lift positioning mechanism, prevent that the indiscriminate swing phenomenon from appearing in the microphone for the microphone can be stable, steady rise and descend.

(6) The line arrangement, the positioning and the hiding of the line inside the case are realized through a line clamping groove structure formed by combining the strip-shaped clamping grooves and the limiting strips in the case, the line arrangement inside the case is more orderly through the line arrangement and the hiding, less space inside the case is occupied, space is vacated for other structures inside the case, and the internal structure of the case is not influenced; meanwhile, the line is stably positioned, so that the phenomenon of line shifting and shaking is avoided, and the line faults are reduced.

The above is an overview of the technical solutions of the present invention, and the present invention is further described below with reference to the accompanying drawings and the detailed description thereof.

Drawings

Fig. 1 is a schematic view of an overall internal structure of a multifunctional conference all-in-one machine according to an embodiment;

fig. 2 is a schematic overall external structure diagram of the multifunctional conference all-in-one machine according to the first embodiment;

fig. 3 is a schematic structural diagram illustrating a combination of the display screen flip automatic opening and closing mechanism and the display screen lifting bracket in a state where the display screen flip is closed according to the first embodiment;

fig. 4 is a schematic structural view illustrating a combination of the first fixing seat, the upper pushing block, the reset pushing block and the first positioning sliding member when the flip cover of the display screen is in a closed state according to the first embodiment;

FIG. 5 is a schematic front view of the combination of the upper pushing block and the repositioning pushing block in the first embodiment;

FIG. 6 is a schematic view of a back structure of the upper pushing block combined with the restoring pushing block in the first embodiment;

fig. 7 is a schematic structural diagram of an automatic opening and closing mechanism of a display screen flip in a half-open state according to the first embodiment;

fig. 8 is a schematic structural view illustrating a combination of the first fixing seat, the upper pushing block, the reset pushing block and the first positioning sliding member when the flip cover of the display screen is in a half-open state according to the first embodiment;

fig. 9 is a schematic structural diagram of an automatic opening and closing mechanism of a display screen flip in an open state according to the first embodiment;

fig. 10 is a schematic structural view illustrating a combination of the first fixing seat, the upper pushing block, the reset pushing block and the first positioning sliding member when the flip cover of the display screen is in the open state according to the first embodiment;

FIG. 11 is a schematic view of a combination of an automatic lifting mechanism and a display panel according to an embodiment of the present invention;

fig. 12 is a schematic structural view of the automatic display screen tilt angle assembly in the second embodiment when the display screen is in the vertical state;

FIG. 13 is a diagram illustrating a state in which the display panel automatic tilt angle assembly drives the display panel to swing according to the second embodiment;

FIG. 14 is another diagram illustrating the display panel being swung by the automatic display panel swing angle assembly according to the second embodiment;

fig. 15 is a schematic structural diagram of an automatic opening and closing mechanism of a microphone flip cover in a closed state according to a third embodiment;

fig. 16 is a schematic front structural view illustrating the combination of the second fixing seat, the push-up block and the second positioning sliding member in the third embodiment;

fig. 17 is a schematic back structural view of the third embodiment of the present invention, wherein the second fixing seat, the push-up block and the second positioning sliding member are combined together;

fig. 18 is a schematic structural view of a second fixing base in the third embodiment;

FIG. 19 is a schematic view showing the structure of a pusher according to a third embodiment of the present invention;

fig. 20 is a schematic structural diagram of an automatic opening and closing mechanism of a microphone flip in a half-open state according to a third embodiment;

fig. 21 is a schematic structural diagram of an automatic opening and closing mechanism of a microphone flip in an open state according to a third embodiment;

FIG. 22 is a schematic structural view of an automatic lifting mechanism of a microphone according to a fourth embodiment;

FIG. 23 is a schematic structural view of a wire clamping groove provided in the chassis according to the fifth embodiment;

fig. 24 is a partial structural schematic view of a wire clamping groove arranged in a case in a fifth embodiment.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the predetermined purposes, the following detailed description of the embodiments of the present invention is provided with the accompanying drawings and the preferred embodiments.

The first embodiment is as follows:

referring to fig. 1 and 2, an embodiment of the invention provides a multifunctional conference all-in-one machine, which includes a case 1, wherein a display screen extension port 11 and a microphone extension port 12 are respectively formed at an upper end of the case 1, a display screen flip 2 is arranged on the display screen extension port 11, and a microphone flip 3 is arranged on the microphone extension port 12. The multifunctional conference all-in-one machine of the embodiment further comprises a display screen automatic extending and retracting device 4 and a microphone automatic extending and retracting device 5 which are respectively arranged in the case 1, wherein the display screen automatic extending and retracting device 4 comprises a display screen automatic lifting mechanism 41 arranged in the case 1, a display screen 42 arranged on the display screen automatic lifting mechanism 41 and capable of extending from the display screen extending port 11, and at least one display screen flip automatic opening and closing mechanism 43 arranged in the case 1 and connected to the display screen flip 2. The automatic microphone extending and retracting device 5 comprises an automatic microphone lifting mechanism 51 arranged in the case 1, a microphone 52 arranged on the automatic microphone lifting mechanism 51 and capable of extending from the microphone extending port 12, and at least one automatic microphone flip opening and closing mechanism 53 connected to the microphone flip 3.

The display screen 42 can be driven by the automatic display screen lifting mechanism 41 to do lifting movement, and the automatic display screen flip cover opening and closing mechanism 43 controls the opening and closing of the display screen flip cover 2, so that the display screen 42 can extend out of the display screen extension opening 11 for use and can be automatically retracted after use; meanwhile, the microphone 52 can be driven by the automatic microphone lifting mechanism 51 to do lifting movement, and the opening and closing of the microphone flip 3 is controlled by the automatic microphone flip opening and closing mechanism 53, so that the microphone 52 can be extended from the microphone extension port 12 for use, and can be automatically retracted after use.

In this embodiment, as shown in fig. 3, the automatic opening and closing mechanism 43 for the display screen flip cover includes a first fixing seat 431 disposed at the lower portion of the inner side of the chassis 1, a first pull rod 432 rotatably connected to the display screen flip cover 2, a first positioning sliding member 433 slidably disposed on the first fixing seat 431 and connected to the first pull rod 432, an upper pushing block 434 formed on the display screen lifting bracket 410 of the automatic display screen lifting mechanism 41, a returning pushing block 435 rotatably disposed on the upper pushing block 434 and located above the first positioning sliding member 433, and a first buffer spring 436 connected between the returning pushing block 435 and the upper pushing block 434, wherein a first longitudinal sliding hole 4311 for sliding the first positioning sliding member 433 is formed on the first fixing seat 431, the first longitudinal sliding hole 4311 mainly includes a first vertical sliding hole 43111 and a first oblique sliding hole 43112 formed by bending the upper portion of the first vertical sliding hole 43111 inward, as shown in fig. 4.

Specifically, the bent portion of the first vertical sliding hole 43111 and the first inclined sliding hole 43112 is a smooth arc-shaped structure, so that the first positioning sliding element 433 can smoothly move between the first vertical sliding hole 43111 and the first inclined sliding hole 43112.

Due to the special structural design of the combination of the first longitudinal sliding hole 4311 and the first positioning sliding member 433, not only can a guiding function be provided for the up-and-down movement of the first pull rod 432, but also the up-and-down movement range of the first pull rod 432 can be limited, so as to ensure that the opening and closing movement strokes of the display screen flip 2 are the same each time.

Specifically, as shown in fig. 5, the end of the upper pushing block 434 has an upper hook 4340. In the process that the display screen lifting bracket 410 drives the upper pushing block 434 to move upwards, the upper hook portion 4340 applies an upward acting force to the first positioning sliding member 433, so that the first positioning sliding member 433 moves upwards in the first vertical sliding hole 43111 until the first positioning sliding member 433 slides into the first inclined sliding hole 43112; then, the upper hook portion 4340 is separated from the first positioning slider 433, and the upper push block 434 continues to move upward.

Specifically, as shown in fig. 5, a lower hook 4350 is provided at the end of the reset push block 435. In the process that the display screen lifting support 410 drives the reset push block 435 to move downwards, the lower hook portion 4350 acts on the first positioning sliding member 433 downwards, so that the first positioning sliding member 433 slides out of the first oblique sliding hole 43112 along the oblique inner wall of the first oblique sliding hole 43112 until entering the first vertical sliding hole 43111; then, as the reset pushing block 435 moves downward, the first positioning sliding member 433 is driven to move downward in the first vertical sliding hole 43111.

Specifically, as shown in fig. 6, an upper connecting shaft 4351 is disposed on the reset push block 435, a lower connecting shaft 4101 is disposed on the upper push block 434, and the first buffer spring 436 is connected between the upper connecting shaft 4351 and the lower connecting shaft 4101. For the effect of the first buffer spring 436, in the process of closing the display screen flip cover 2 onto the display screen extension opening 11, due to the existence of the first buffer spring 436, when the reset push block 435 applies a downward acting force to the first positioning slide 433, an upward reaction force exists on the reset push block 435 by the first positioning slide 433, so that the reset push block 435 rotates, and the first buffer spring 436 is elastically deformed, and then the first buffer spring 436 plays a role of buffering and preventing hands from being pinched. Specifically, after the display screen 42 is driven by the display screen automatic lifting mechanism 41 to descend and be accommodated in the case 1, the display screen flip 2 needs to be closed; therefore, the first pull rod 432 drives the display screen flip cover 2 to swing towards the display screen extension opening 11, and at this time, if a hand is placed in the display screen extension opening 11, if the first buffer spring 436 does not exist, the swing closing action of the display screen flip cover 2 applies a large acting force to the hand, a hand clamping phenomenon occurs, and the hand is seriously injured. Due to the existence of the first buffer spring 436 in the embodiment, a good buffering effect is achieved, the acting force when the display screen flip cover 2 touches a human hand is weakened, the time when the display screen flip cover 2 touches the human hand is slowed down, and therefore the injury degree of the human hand is reduced.

Specifically, the first positioning slider 433 may be a screw or a bolt.

In order to further play a role of buffering and preventing hands from being clamped, a second buffer spring 437 is connected between the inner wall of the case 1 and the first pull rod 432 in the embodiment. In the process that first pull rod 432 reciprocated, elastic deformation takes place for second buffer spring 437, provides the cushioning effect by second buffer spring 437, prevents that first pull rod 432 atress from removing at the excessive speed, plays the purpose that the tong was prevented in the buffering.

In order to facilitate the first pull rod 432 to smoothly open and close the display screen flip 2, in this embodiment, two ends of the display screen flip 2 are respectively rotatably disposed on the inner wall of the chassis 1 through a connecting plate 21, and the upper end of the first pull rod 432 is rotatably connected to the connecting plate 21. Because the first pull rod 432, the connecting plate 21 and the display screen flip cover 2 are adaptively rotated, the display screen flip cover 2 can be opened and closed smoothly by the first pull rod 432. Therefore, the number of the display screen flip automatic opening and closing mechanisms 43 in this embodiment is two, and the two mechanisms are respectively connected to the connecting plates 21 at the two ends of the display screen flip 2.

When the display screen flip 2 needs to be opened, so that the display screen 42 can be extended out from the display screen extension port 11 for use, the display screen automatic lifting mechanism 41 drives the display screen lifting support 410 to move upward, and then the display screen lifting support 410 drives the upper push block 434 to move upward, and the upper hook portion 4340 of the upper push block 434 applies an upward acting force to the first positioning slider 433, as shown in fig. 7 and 8, so that the first positioning slider 433 moves upward in the first vertical sliding hole 43111 until the first positioning slider 433 slides into the first oblique sliding hole 43112, that is, the first positioning slider 433 is limited in the first oblique sliding hole 43112, as shown in fig. 9 and 10; in the process, the first pull rod 432 moves upwards, so that the first pull rod 432, the connecting plate 21 and the display screen flip cover 2 rotate adaptively, the display screen flip cover 2 is driven to move away from the display screen extension opening 11, and the display screen extension opening 11 is completely opened; then, as the first positioning sliding member 433 slides into the first inclined sliding hole 43112, the upper hook portion 4340 of the upper pushing block 434 is separated from the first positioning sliding member 433, and the display screen lifting bracket 410 continues to move upward, and finally drives the display screen 42 to extend out of the display screen extension opening 11 for use.

When the display screen 42 needs to be retracted into the chassis 1 after being used, the automatic display screen lifting mechanism 41 drives the display screen lifting bracket 410 and the display screen 42 to move downward until the lower hook portion 4350 of the reset push block 435 on the display screen lifting bracket 410 moves downward to contact with the first positioning sliding member 433, and the lower hook portion 4350 acts downward on the first positioning sliding member 433, so that the first positioning sliding member 433 slides out of the first oblique sliding hole 43112 along the oblique inner wall of the first oblique sliding hole 43112 until entering the first vertical sliding hole 43111, that is, the states of fig. 9 and 10 are changed into the states of fig. 7 and 8; then, with the downward movement of the reset push block 435, the first positioning slider 433 is driven to move downward in the first vertical sliding hole 43111; in the process that the first positioning sliding member 433 moves down, the display screen 42 is completely retracted into the chassis 1, and meanwhile, as the first pull rod 432 moves down, the first pull rod 432 pulls the connecting plate 21 downward, so that the first pull rod 432, the connecting plate 21 and the display screen flip cover 2 rotate adaptively, and the display screen flip cover 2 is driven to move to the display screen extension opening 11 to cover the display screen extension opening 11, as shown in fig. 3 and 4, the retraction of the display screen 42 is completed.

In this embodiment, as shown in fig. 11, the automatic display screen lifting mechanism 41 includes a display screen lifting rack 411 and at least one lifting guide rod 412 vertically disposed in the chassis 1, a display screen lifting support 410 disposed in the chassis 1 and slidably disposed on the lifting guide rod 412, a display screen lifting driving motor 413 disposed in the chassis 1 and connected to the display screen lifting support 410, and a display screen lifting transmission gear 414 disposed on an output shaft of the display screen lifting driving motor 413 and engaged with the display screen lifting rack 411, wherein the display screen 42 is disposed on the display screen lifting support 410. The display screen lifting driving motor 413 provides driving force to drive the display screen lifting transmission gear 414 to rotate, and since the display screen lifting rack 411 is fixed in the case 1, when the display screen lifting transmission gear 414 rotates, the display screen lifting transmission gear must move up and down along the display screen lifting rack 411, so as to drive the display screen lifting support 410 and the display screen 42 to do lifting movement. For example, when the screen lifting transmission gear 414 rotates clockwise, the screen lifting bracket 410 and the screen 42 move up, and vice versa, the screen lifting bracket 410 and the screen 42 move down.

In this embodiment, the display screen lifting rack 411 is engaged with the display screen lifting transmission gear 414, so that the lifting movement is realized, the noise is low, the operation is stable and stable, and the service life is long.

Simultaneously, in order to improve display screen lifting support 410 when being elevating movement, can not take place the slope, this embodiment is in the movable sleeve is equipped with an at least lift direction slide 415 on the lift guide bar 412, the display screen lifting support 410 back is with lift direction slide 415 fixed connection for display screen lifting support 410 is vertical motion along lift guide bar 412 under display screen lift driving motor 413's drive, can not appear the slope phenomenon, improves display screen lifting support 410 and display screen 42 and is elevating movement's stability and accuracy.

The multifunctional conference all-in-one machine provided by the embodiment is particularly suitable for being installed in places such as conference rooms, education institutions and training institutions, and paperless office speech is realized. When the multifunctional conference all-in-one machine is installed, the multifunctional conference all-in-one machine can be integrally embedded into a table, the upper end face of the machine case 1 can be flushed with the table top, the position of the table top is not occupied, the whole machine is neat and attractive, the multifunctional conference all-in-one machine is not required to be additionally carried in use at every time, the use is convenient, and the practicability is high. Through the multifunctional conference all-in-one machine provided by the embodiment, paperless office work can be realized.

Example two:

the main difference between the first embodiment and the second embodiment is that, as shown in fig. 11 and 12, two ends of the display screen lifting bracket 410 are respectively provided with a display screen automatic swing angle assembly 416, specifically, the display screen automatic swing angle assembly 416 includes a swing angle linkage plate 4161 rotatably disposed at an end of the display screen lifting bracket 410, and at least one first return spring 4162 connected between the swing angle linkage plate 4161 and a side edge of the display screen lifting bracket 410, and the display screen 42 is disposed on the swing angle linkage plate 4161 at two ends of the display screen lifting bracket 410; meanwhile, a swing ejecting piece 4162 for ejecting the lower part of the swing angle linkage plate 4161 is arranged on the inner wall of the case 1.

In the process that the display screen lifting bracket 410 rises, the swing angle linkage plate 4161 rises along with the rise, and when the swing angle linkage plate 4161 does not rise to the side edge of the swing ejecting piece 4162, the swing angle linkage plate 4161 drives the display screen 42 to rise vertically along with the display screen lifting bracket 410 and extend out of the display screen extension opening 11; when the swing angle linkage plate 4161 rises to the front side of the swing angle linkage plate 4162, as shown in fig. 12, the swing angle linkage plate 4162 contacts with the lower portion of the swing angle linkage plate 4161, and as the swing angle linkage plate 4161 continues to rise, the swing angle linkage plate 4161 is pushed outward by the swing angle linkage member 4162, so that the upper portion of the swing angle linkage plate 4161 swings inward by a certain angle, and the display screen 42 is driven to swing by a corresponding angle, so as to achieve the purpose of tilting the display screen 42, as shown in fig. 13 and 14, a user can conveniently view the content displayed on the display screen 42, and at this time, the first return spring 4162 deforms. In the process that the swing angle linkage plate 4161 drives the display screen 42 to descend along with the display screen lifting support 410 and retract into the case 1, the swing angle linkage plate 4161 continuously descends, when the lower part of the swing angle linkage plate 4161 gradually disengages from the swing ejecting piece 4162, the swing ejecting piece 4162 releases acting force on the lower part of the swing angle linkage plate 4161, under the action of elastic restoring force of the first restoring spring 4162, the swing ejecting piece 4162 drives the display screen 42 to reversely swing and reset, and finally vertically descends and retracts into the case 1.

Specifically, the upper part of the swing angle linkage plate 4161 is rotatably disposed on the display screen lifting bracket 410, a transverse sliding hole 41611 is formed at the lower part of the swing angle linkage plate 4161, and a sliding shaft 4101 inserted into the transverse sliding hole 41611 is disposed on the side edge of the display screen lifting bracket 410; meanwhile, a protrusion 41610 facing the swing ejecting member 4162 is protruded at the lower portion of the swing angle interlocking plate 4161. Meanwhile, an installation block 417 is arranged upwards at the end of the display screen lifting bracket 410, and the upper part of the swing angle linkage plate 4161 is rotatably connected with the installation block 417 through a bolt 418.

When the swing angle linkage plate 4161 rises to the positive side of the swing ejecting member 4162, the swing ejecting member 4162 contacts the protrusion 41610 of the swing angle linkage plate 4161 and the protrusion 41610 is pushed outward by the swing ejecting member 4162, and the transverse sliding hole 41611 of the swing angle linkage plate 4161 slides along the sliding shaft 4101 with the bolt 418 at the upper part of the swing angle linkage plate 4161 as the center point, thereby swinging a certain angle, as shown in fig. 14. The transverse sliding hole 41611 is combined with the sliding shaft 4101 to limit the swinging path and angle of the swinging angle linkage plate 4161, so that the stability and accuracy of the swinging angle linkage plate 4161 during swinging are improved, and the phenomenon of disordered swinging is avoided.

Specifically, one end of the first return spring 4162 is connected to the upper portion of the swing angle linkage plate 4161, and the other end is connected to the lower portion of the side edge of the display screen lifting bracket 410. In the process that the swing angle linkage plate 4161 swings with the bolt 418 at the upper part as the central point, the upper part of the swing angle linkage plate 4161 drives the display screen 42 to swing at a corresponding angle, and the first return spring 4162 is stretched to generate corresponding deformation, and after the acting force for promoting the swing action to disappear, the first return spring 4162 provides restoring acting force for resetting.

Specifically, the swinging ejecting member 4162 is mainly composed of a bearing seat 41621 disposed on the inner wall of the chassis 1, and at least one bearing 41622 rotatably disposed on the bearing seat 41621. When the oscillating angle linkage plate 4161 rises to the lower part and the protrusion 41610 contacts with the lower edge of the bearing 41622, the oscillating angle linkage plate 4161 continues to rise, the protrusion 41610 and the bearing 41622 generate a relative force, the protrusion 41610 drives the bearing 41622 to rotate until the oscillating angle linkage plate 4161 rises to the positive side of the protrusion 41610, and in the process, the bearing 41622 pushes the protrusion 41610 outwards to enable the oscillating angle linkage plate 4161 to rotate. Therefore, the rotation of the rotatable bearing 41622 provides an auxiliary function for the lifting of the swing angle linkage plate 4161, and prevents the excessive resistance from affecting the continuous lifting of the swing angle linkage plate 4161 when the protrusion 41610 is just in contact with the bearing 41622.

Example three:

the main difference between the present embodiment and the first or second embodiment is that, as shown in fig. 15 and fig. 16, the microphone flip automatic opening and closing mechanism 53 includes a second fixed seat 531 disposed at the lower portion of the inner side of the chassis 1, a second pull rod 532 rotatably connected to the microphone flip 3, a second positioning sliding member 533 slidably disposed on the second fixed seat 531 and connected to the second pull rod 532, a pushing member 534 connected to the microphone lifting bracket 510 of the microphone automatic lifting mechanism 51 and acting on the second positioning sliding member 533, an upper pushing block 535 slidably disposed on the second fixed seat 531 and located below the second positioning sliding member 533, and a third buffer spring 536 connected between the upper pushing block 535 and the inner side of the chassis 1, wherein a second longitudinal sliding hole 5311 for the second positioning sliding member 533 to slide is formed on the second fixed seat 531, and the second longitudinal sliding hole 5311 mainly consists of a second vertical sliding hole 53111, a vertical sliding hole sliding, And a second inclined sliding hole 53112 formed by bending the upper portion of the second vertical sliding hole 53111 toward the inner side of the chassis 1, as shown in fig. 18.

Specifically, the bent portions of the second vertical sliding hole 53111 and the second inclined sliding hole 53112 are smooth arc-shaped structures, so that the second positioning sliding member 533 can smoothly move between the second vertical sliding hole 53111 and the second inclined sliding hole 53112.

Due to the special structural design of the combination of the second longitudinal sliding hole 5311 and the second positioning sliding member 533, not only a guiding function can be provided for the up-and-down movement of the second pull rod 532, but also the up-and-down movement range of the second pull rod 532 can be limited, so as to ensure that the opening and closing strokes of the microphone flip 3 are the same each time.

Specifically, as shown in fig. 19, an opening 5340 is formed on the pushing member 534, an upper hook 5341 is formed at an upper portion of the opening 5340, and in the process that the microphone lifting bracket 510 drives the pushing member 534 to move downward, the upper hook 5341 acts downward on the second positioning slider 533, so that the second positioning slider 533 slides out of the second inclined sliding hole 53112 along the inclined inner wall of the second inclined sliding hole 53112 until entering the second vertical sliding hole 53111; then, as the pushing member 534 moves downward, the second positioning sliding member 533 is driven to move downward in the second vertical sliding hole 53111. Meanwhile, an upper guiding inclined plane 53411 is formed at the inner side edge of the upper hook 5341, and the upper guiding inclined plane 53411 is inclined from the top to the bottom towards the inner side of the case 1. Due to the special design of the upper guiding inclined plane 53411, in the downward moving process of the pushing member 534, the second positioning sliding member 533 slides outward under the guiding action of the upper guiding inclined plane 53411 of the upper hook 5341, thereby sliding out of the second inclined sliding hole 53112 and entering the second vertical sliding hole 53111. Therefore, the second positioning sliding member 533 can slide out of the second oblique sliding hole 53112 and enter the second vertical sliding hole 53111 smoothly, and the sliding stability of the second positioning sliding member 533 is improved.

Meanwhile, as shown in fig. 19, a lower hook 5342 is formed at the lower portion of the opening 5340, and in the process that the microphone lifting bracket 510 drives the pushing member 534 to move upwards, the lower hook 5342 acts on the second positioning sliding member 533 upwards, so that the second positioning sliding member 533 moves vertically upwards along the second vertical sliding hole 53111 until entering the second inclined sliding hole 53112, so that the second positioning sliding member 533 is limited in the second inclined sliding hole 53112. Meanwhile, a lower guiding inclined plane 53421 is formed at the inner side of the lower hook 5342, and the lower guiding inclined plane 53421 is inclined from the top to the bottom toward the inner side of the case. Due to the special design of the lower guiding inclined surface 53421, when the pushing member 534 pushes the second positioning sliding member 533 to move upward to the connection position of the second vertical sliding hole 53111 and the second inclined sliding hole 53112, the second positioning sliding member 533 slides toward the second inclined sliding hole 53112 under the guiding action of the lower guiding inclined surface 53421 of the lower hook 5342, and thus slides into the second inclined sliding hole 53112. Therefore, the second positioning sliding member 533 can smoothly slide into the second inclined sliding hole 53112 from the second vertical sliding hole 53111, and the sliding stability of the second positioning sliding member 533 is improved.

Specifically, as shown in fig. 16, a limiting guide inclined plane 5350 is formed on the upper end surface of the push-up block 535, and the limiting guide inclined plane 5350 is inclined from top to bottom toward the inside of the chassis. Due to the arrangement of the limiting guide inclined plane 5350, the second positioning sliding piece 533 sliding into the second inclined sliding hole 53112 is limited, and the second positioning sliding piece 533 is prevented from sliding out.

As for the combination manner of the pushing-up block 535 and the second fixing seat 531, as shown in fig. 16, in this embodiment, a third longitudinal sliding hole 5351 is formed on the pushing-up block 535, and at least one positioning member 5312 is disposed on the second fixing seat 531, preferably, the number of the positioning members 5312 is two, and the positioning members 5312 are embedded in the third longitudinal sliding hole 5351. Therefore, under the matching action of the positioning member 5312 and the third longitudinal sliding hole 5351, the push-up block 535 can vertically slide on the second fixing seat 531 along the positioning member 5312.

Specifically, as shown in fig. 17, a connecting member 5352 is disposed on the push-up block 535, and the third buffer spring 536 is connected between the connecting member 5352 and the second fixing seat 531. Therefore, when the push-up block 535 slides up and down along the second fixing seat 531, the third buffer spring 536 can provide elastic restoring force.

Meanwhile, with respect to the function of the third buffer spring 536, in the process of closing the microphone flip 3 onto the microphone extension opening 12, due to the existence of the third buffer spring 536, when the pushing member 534 applies a downward acting force to the second positioning sliding member 533, the pushing-up block 535 is simultaneously applied with a downward acting force, so that the third buffer spring 536 is elastically deformed and stretched, and then the third buffer spring 536 plays a role of buffering and preventing hands from being pinched. Specifically, after the microphone 52 is driven by the automatic microphone lifting mechanism 51 to descend and be accommodated in the case 1, the microphone flip 3 needs to be closed; therefore, the second pull rod 532 drives the microphone flip 3 to swing toward the microphone extension opening 12, and at this time, if the hand of the user is placed in the microphone extension opening 12, and if the third buffer spring 536 is not present, the swinging closing action of the microphone flip 3 will exert a large force on the hand of the user, and the hand clamping phenomenon will occur, so that the hand of the user is seriously injured. Due to the third buffer spring 536 of the present embodiment, a good buffering effect is achieved, the acting force when the microphone flip 3 touches the human hand is weakened, and the time when the microphone flip 3 touches the human hand is slowed down, so that the injury degree of the human hand is reduced.

Specifically, the second positioning sliding member 533, the positioning member 5312 and the connecting member 5352 may be screws or bolts.

In order to further play a role of buffering and preventing hands from being clamped, a fourth buffer spring 537 is connected between the inner wall of the case 1 and the second pull rod 532 in the embodiment. At the in-process that second pull rod 532 reciprocated, elastic deformation takes place for fourth buffer spring 537, provides the cushioning effect by fourth buffer spring 537, prevents that second pull rod 532 atress from moving too fast, plays the purpose that the buffering was prevented tong.

In order to facilitate the second pull rod 532 to open and close the microphone flip 3 smoothly, in this embodiment, the microphone flip 3 is rotatably disposed on the inner wall of the case 1 through a connecting block 31, and the upper end of the second pull rod 532 is rotatably connected to the connecting block 31. Because the second pull rod 532, the connecting block 31 and the microphone flip 3 rotate adaptively, the microphone flip 3 can be opened and closed smoothly by the second pull rod 532.

When the microphone flip 3 needs to be opened so that the microphone 52 can be extended out from the microphone extension port 12 for use, the microphone automatic lifting mechanism 51 drives the microphone lifting bracket 510 to move upward, and then the microphone lifting bracket 510 drives the pushing member 534 to move upward, and the lower hook 5342 of the pushing member 534 applies an upward acting force to the second positioning slider 533, as shown in fig. 15, 16 and 20, so that the second positioning slider 533 moves upward in the second vertical sliding hole 53111 until the second positioning slider 533 slides into the second inclined sliding hole 53112; in the process, the pushing member 534 continuously moves upwards, so that the pushing block 535 continuously moves upwards and returns under the action of the elastic restoring force of the third buffer spring 536; then, as the second positioning sliding piece 533 slides into the second inclined sliding hole 53112, the lower hook 5342 of the pushing piece 534 is separated from the second positioning sliding piece 533; the push-up block 535 moves upward to abut against the second positioning sliding member 533, so as to prevent the second positioning sliding member 533 from sliding out of the second inclined sliding hole 53112, and the second positioning sliding member 533 is limited in the second inclined sliding hole 53112, as shown in fig. 21.

In the process, the second pull rod 532 moves upwards, so that the second pull rod 532, the connecting block 31 and the microphone flip 3 are adaptively rotated, the microphone flip 3 is driven to move away from the microphone extension port 12, and the microphone extension port 12 is completely opened; then, the microphone lifting bracket 510 moves upward continuously, and finally drives the microphone 52 to extend out of the microphone extension opening 12 for use.

When the microphone 52 needs to be retracted into the chassis 1 after being used, the microphone automatic lifting mechanism 51 drives the microphone lifting bracket 510 and the microphone 52 to move downward until the upper hook 5341 of the pushing member 534 on the microphone lifting bracket 510 moves downward to contact with the second positioning slider 533, and the upper hook 5341 acts downward on the second positioning slider 533, so that the second positioning slider 533 slides out of the second inclined sliding hole 53112 along the inclined inner wall of the second inclined sliding hole 53112 until entering the second vertical sliding hole 53111, which is changed from the state shown in fig. 21 to the state shown in fig. 20; then, as the pushing member 534 moves downwards, the second positioning sliding member 533 is driven to move downwards in the second vertical sliding hole 53111; meanwhile, the pushing member 534 pushes the pushing block 535 downwards, so that the pushing block 535 moves downwards vertically along the positioning member 5312 on the second fixing seat 531, and the third buffer spring 536 is stretched, as shown in fig. 15. In the process that the second positioning sliding member 533 moves down, the microphone 52 is completely retracted into the case 1, and at the same time, as the second pull rod 532 moves down, the second pull rod 532 pulls the connection block 31 downward, so that the second pull rod 532, the connection block 31 and the microphone flip 3 adaptively rotate, thereby moving the microphone flip 3 to the microphone extension opening 12 to hold the microphone extension opening 12, as shown in fig. 15, completing the retraction of the microphone 52.

In this embodiment, as shown in fig. 22, the microphone automatic lifting mechanism 51 includes a microphone lifting rack 5111 vertically disposed in the case 1, a microphone lifting support 510 slidably disposed in the case 1, a microphone lifting driving motor 512 disposed in the case 1 and connected to the microphone lifting support 510, and a microphone lifting transmission gear 513 disposed on an output shaft of the microphone lifting driving motor 512 and engaged with the microphone lifting rack 5111, and the microphone 52 is disposed on the microphone lifting support 510. The microphone lifting driving motor 512 provides driving force to drive the microphone lifting transmission gear 513 to rotate, and since the microphone lifting rack 511 is fixed in the case 1, the microphone lifting transmission gear 513 must move up and down along the microphone lifting rack 511 when rotating, thereby driving the microphone lifting support 510 and the microphone 52 to do lifting movement. For example, when the microphone lift transmission gear 513 rotates clockwise, the microphone lift bracket 510 and the microphone 52 move upward, and conversely, the microphone lift bracket 510 and the microphone 52 move downward.

In the embodiment, the microphone lifting rack 511 is meshed with the microphone lifting transmission gear 513, so that the lifting movement is realized, the noise is low, the operation is stable and stable, and the service life is long.

Simultaneously, in order to improve microphone lifting support 510 when being elevating movement, can not take place the slope, this embodiment is in microphone lifting support 510 both ends difference fixedly connected with at least one lift direction slider 514 be formed with on the machine case 1 inner wall and supply lift direction slider 514 embedding and the gliding lift direction spout that goes up and down (not seen in the figure) for microphone lifting support 510 is under the drive of microphone lift driving motor 512, is vertical motion along lift direction spout, and the slope phenomenon can not appear, improves microphone lifting support 510 and microphone 52 and is elevating movement's stability and accuracy.

Example four:

the main difference between the present embodiment and the third embodiment is that, as shown in fig. 22, a microphone lifting and positioning mechanism 54 is disposed in the casing 1, the microphone lifting and positioning mechanism 54 includes a lifting and lowering slide plate 541 disposed on the inner wall of the casing 1, a microphone positioning frame 542 disposed at the upper end of the lifting and lowering slide plate 541, and a second return spring 543 connected between the lower end of the lifting and lowering slide plate 541 and the inner wall of the casing 1, wherein a microphone through hole 5420 for the microphone 52 to pass through is formed on the microphone positioning frame 542, and a push connecting block 5410 located right below the microphone lifting and lowering support 510 is disposed at the lower end of the lifting and lowering slide plate 541; a rubber plug 5421 matched with the microphone extension opening 12 is arranged on the microphone perforation 5420 of the microphone positioning frame 542. The rubber plug 5421 has certain elasticity and flexibility, and plays a certain role in protecting the microphone 52; meanwhile, after the microphone 52 rises to the right position, the rubber plug 5421 is matched with the microphone extension port 12 to seal the microphone extension port 12, so that the dust-proof function in the case 1 is achieved.

In the process that the microphone lifting support 510 drives the microphone 52 to do lifting movement, the microphone 52 is limited in the microphone through hole 5420, so that the phenomenon of random swing cannot occur, and the microphone 52 can stably rise and fall.

Specifically, in the process that the microphone lifting bracket 510 drives the microphone 52 to descend, the microphone lifting bracket 510 synchronously pushes the pushing connecting block 5410 at the lower end of the lifting sliding plate 541 downwards, so that the lifting sliding plate 541 drives the microphone positioning frame 542 to synchronously move downwards, and the second return spring 543 is stretched to deform; when the microphone lifting bracket 510 drives the microphone 52 to ascend, the microphone lifting bracket 510 releases the acting force on the lifting slide plate 541, and the lifting slide plate 541 drives the microphone positioning frame 542 to restore and move upwards under the action of the elastic restoring force of the second restoring spring 543, so that the microphone positioning frame has an automatic return function; therefore, in the process of the microphone 52 being lifted or lowered by the microphone lifting bracket 510, the microphone 52 is positioned by the microphone positioning frame 542 of the microphone lifting positioning mechanism 54, so as to prevent the microphone 52 from swinging randomly and improve the stability and accuracy of the lifting and lowering of the microphone 52.

Example five:

the main difference between this embodiment and any one of the first to fourth embodiments is that, as shown in fig. 23 and fig. 24, at least one card line slot 14 is formed inside the chassis 1, and is used for placing the line card inside the chassis 1 into the card line slot 14, so as to perform the functions of arranging, positioning and hiding the line. Specifically, the card slot 14 mainly comprises a bar-shaped card slot 141 formed inside the chassis 1 and a limiting block 142 formed above the bar-shaped card slot 141, wherein a bar-shaped wire inlet slot 140 is formed between one side of the bar-shaped card slot 141 and one side of the limiting block 142. The line is clamped into the wire clamping groove 14 through the strip-shaped wire inlet notch 140, and the strip-shaped clamping groove 141 and the limiting strip block 142 are combined to realize the arrangement, the positioning and the hiding of the line. The circuits are arranged and hidden, so that the circuits in the case 1 are arranged more orderly, less space in the case 1 is occupied, space is made for other structures in the case 1, and the internal structure of the case 1 is not affected; meanwhile, the line is stably positioned, so that the phenomenon of line shifting and shaking is avoided.

In order to facilitate the circuit to be clamped into the card slot 14 through the strip-shaped wire inlet slot 140, in this embodiment, a wire inlet guide inclined plane 1411 is formed on one side of the strip-shaped card slot 141 and at a position located at the strip-shaped wire inlet slot 140, and the wire inlet guide inclined plane 1411 extends along the length direction of the strip-shaped card slot 141. The guiding function of the incoming line guiding inclined plane 1411 enables the line to easily enter the strip-shaped clamping groove 141 of the clamping groove 14, and the operation is convenient and fast.

Because the wires are all arc-shaped, in order to enable the wire group formed by a plurality of wires to be closely attached to the inner wall of the strip-shaped slot 141, in this embodiment, an arc-shaped portion 1413 is provided on the inner side wall of the strip-shaped slot 141, which is far away from the strip-shaped wire inlet notch 140, and the arc-shaped portion 1413 extends along the length direction of the strip-shaped slot 141. When in the bar draw-in groove 141 with line card to card wire casing 14, arc portion 1413's setting for circular-arc circuit can with the closely laminating that arc portion 1413 can be better, then can block into more circuits in the bar draw-in groove 141, the rational utilization bar draw-in groove 141 inner space prevents too big gap from appearing, plays better positioning action to the circuit from this, improves the stability that the circuit was arranged the location.

Meanwhile, an arc-shaped concave edge 1421 is formed at each end of the limiting block 142, and the arc-shaped concave edge 1421 performs a yielding function on the line, so that the line can be conveniently led out from the arc-shaped concave edge 1421 to be connected to other structures inside the chassis 1.

For the position arrangement of the wire clamping groove 14, the wire clamping groove 14 is formed on the bottom of at least one inner side wall of the case 1. Specifically, the strip-shaped card slot 141 is formed on the bottom edge in the chassis 1, and the limiting strip block 142 is disposed on the inner side wall of the chassis 1. Specifically, a wire clamping groove 14 can be respectively arranged at the bottoms of two opposite inner side walls of the case 1, so that the arrangement and positioning of more lines can be realized, and the specific design can be determined according to specific requirements.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that other structures obtained by using the same or similar technical features as the above-described embodiments of the present invention are within the protection scope of the present invention.

Claims (15)

1. A multifunctional conference integrated machine comprises a case, wherein a display screen extension port and a microphone extension port are respectively arranged at the upper end of the case, a display screen flip cover is arranged on the display screen extension port, and a microphone flip cover is arranged on the microphone extension port; the automatic opening and closing mechanism for the display screen turnover cover comprises a first fixed seat arranged at the lower part of the inner side of the case, a first pull rod rotationally connected with the display screen turnover cover, a first positioning sliding piece slidably arranged on the first fixed seat and connected with the first pull rod, an upper pushing block formed on a display screen lifting support of the automatic display screen lifting mechanism, a resetting pushing block rotationally arranged on the upper pushing block and positioned above the first positioning sliding piece, and a first buffer spring connected between the resetting pushing block and the upper pushing block; the automatic microphone extending and retracting device comprises an automatic microphone lifting mechanism arranged in the case, a microphone arranged on the automatic microphone lifting mechanism and capable of extending from a microphone extending port, and at least one automatic microphone flip opening and closing mechanism connected with a microphone flip; the automatic opening and closing mechanism of the microphone flip comprises a second fixed seat arranged at the lower part of the inner side of the case, a second pull rod rotatably connected to the microphone flip, a second positioning sliding part slidably arranged on the second fixed seat and connected to the second pull rod, a pushing part connected to a microphone lifting support of the automatic microphone lifting mechanism and acting on the second positioning sliding part, an upper push block slidably arranged on the second fixed seat and positioned below the second positioning sliding part, and a third buffer spring connected between the upper push block and the inner side of the case.

2. The multifunctional integrated conference machine as claimed in claim 1, wherein a first longitudinal sliding hole for the sliding of the first positioning sliding member is formed on the first fixing base, and the first longitudinal sliding hole mainly comprises a first vertical sliding hole and a first oblique sliding hole formed by bending an upper portion of the first vertical sliding hole inwards.

3. The multifunctional integrated conference machine as claimed in claim 1, wherein the end of the upper pushing block is provided with an upper hook part; the end part of the reset push block is provided with a lower hook part.

4. The multifunctional conference all-in-one machine as claimed in claim 1, wherein an upper connecting shaft is arranged on the reset push block, a lower connecting shaft is arranged on the upper push block, and the first buffer spring is connected between the upper connecting shaft and the lower connecting shaft.

5. The multifunctional conference all-in-one machine of claim 1, wherein a second buffer spring is connected between the inner wall of the case and the first pull rod.

6. The multifunctional conference all-in-one machine of claim 1, wherein two ends of the display screen flip are respectively and rotatably arranged on the inner wall of the case through a connecting plate, and the upper end of the first pull rod is rotatably connected with the connecting plate.

7. The multifunctional conference all-in-one machine of claim 1, wherein the display screen automatic lifting mechanism comprises a display screen lifting rack and at least one lifting guide rod which are vertically arranged in the case respectively, a display screen lifting support which is arranged in the case and is slidably arranged on the lifting guide rod, a display screen lifting driving motor which is arranged in the case and is connected with the display screen lifting support, and a display screen lifting transmission gear which is arranged on an output shaft of the display screen lifting driving motor and is meshed with the display screen lifting rack, wherein the display screen is arranged on the display screen lifting support; at least one lifting guide sliding seat is movably sleeved on the lifting guide rod, and the back of the display screen lifting support is fixedly connected with the lifting guide sliding seat; the display screen lifting support is characterized in that two ends of the display screen lifting support are respectively provided with a display screen automatic swing angle assembly, the display screen automatic swing angle assembly comprises a swing angle linkage plate rotatably arranged at the end part of the display screen lifting support and at least one first reset spring connected between the swing angle linkage plate and the side edge of the display screen lifting support, and the display screen is arranged on the swing angle linkage plates at two ends of the display screen lifting support; meanwhile, a swinging ejection piece for ejecting the lower part of the swinging angle linkage plate is arranged on the inner wall of the case; the upper part of the swing angle linkage plate is rotatably arranged on the display screen lifting support, a transverse sliding hole is formed at the lower part of the swing angle linkage plate, and a sliding shaft inserted into the transverse sliding hole is arranged on the side edge of the display screen lifting support; meanwhile, a protruding part facing one side of the swinging ejection piece is convexly arranged at the lower part of the swinging angle linkage plate; one end of the first reset spring is connected to the upper part of the swing angle linkage plate, and the other end of the first reset spring is connected to the lower part of the side edge of the display screen lifting support; the swinging ejection piece mainly comprises a bearing seat arranged on the inner wall of the case and at least one bearing rotatably arranged on the bearing seat.

8. The multifunctional integrated conference machine as claimed in claim 1, wherein a second longitudinal sliding hole for the second positioning sliding member to slide is formed on the second fixing base, and the second longitudinal sliding hole mainly comprises a second vertical sliding hole and a second oblique sliding hole formed by bending an upper portion of the second vertical sliding hole towards an inner side of the case.

9. The multifunctional integrated conference machine as claimed in claim 1, wherein an opening is formed on the pushing member, an upper hook is formed on the upper portion of the opening, and an upper guide slope is formed on the inner side of the upper hook, the upper guide slope being inclined from top to bottom toward the inner side of the cabinet; a lower hook body is formed at the lower part of the opening, a lower guide inclined plane is formed at the inner side edge of the lower hook body, and the lower guide inclined plane inclines towards the inner side of the case from top to bottom.

10. The multifunctional integrated conference machine as claimed in claim 1, wherein a limiting guide inclined plane is formed on the upper end surface of the push-up block, and the limiting guide inclined plane is inclined from top to bottom towards the inner side of the case; a third longitudinal sliding hole is formed on the upper pushing block, and at least one positioning piece is arranged on the second fixed seat and embedded into the third longitudinal sliding hole.

11. The multifunctional integrated conference machine as claimed in claim 1, wherein a connecting piece is arranged on the push-up block, and the third buffer spring is connected between the connecting piece and the second fixed seat.

12. The multifunctional conference all-in-one machine of claim 1, wherein a fourth buffer spring is connected between the inner wall of the case and the second pull rod.

13. The multifunctional conference all-in-one machine of claim 1, wherein the microphone flip cover is rotatably arranged on the inner wall of the case through a connecting block, and the upper end of the second pull rod is rotatably connected with the connecting block.

14. The multifunctional conference all-in-one machine as claimed in claim 1, wherein the microphone automatic lifting mechanism comprises a microphone lifting rack vertically arranged in the case, a microphone lifting support slidably arranged in the case, a microphone lifting driving motor arranged in the case and connected with the microphone lifting support, and a microphone lifting transmission gear arranged on an output shaft of the microphone lifting driving motor and meshed with the microphone lifting rack, wherein the microphone is arranged on the microphone lifting support; at least one lifting guide sliding block is fixedly connected to each of two ends of the microphone lifting support, and a lifting guide sliding groove for the lifting guide sliding block to be embedded and to slide in a lifting manner is formed in the inner wall of the case; a microphone lifting positioning mechanism is arranged in the case and comprises a lifting sliding plate arranged on the inner wall of the case, a microphone positioning frame arranged at the upper end of the lifting sliding plate and a second reset spring connected between the lower end of the lifting sliding plate and the inner wall of the case, wherein a microphone perforation for a microphone to pass through is formed on the microphone positioning frame, and a pushing connecting block positioned right below the microphone lifting support is arranged at the lower end of the lifting sliding plate; a rubber plug matched with the extension opening of the microphone is arranged on the microphone perforation of the microphone positioning frame.

15. The multifunctional integrated conference machine according to claim 1, wherein at least one line clamping groove is formed on the inner side of the case, the line clamping groove mainly comprises a bar-shaped clamping groove formed on the inner side of the case and a limit block formed above the bar-shaped clamping groove, wherein a bar-shaped line inlet notch is formed between one side of the bar-shaped clamping groove and one side of the limit block; an incoming line guide inclined plane is formed on one side of the strip-shaped clamping groove and at the position of the strip-shaped incoming line notch, and the incoming line guide inclined plane extends along the length direction of the strip-shaped clamping groove; an arc-shaped part is arranged on the inner side wall of the strip-shaped clamping groove far away from the strip-shaped wire inlet notch, and the arc-shaped part extends along the length direction of the strip-shaped clamping groove; an arc-shaped concave edge is formed at each of two ends of the limiting strip block; the wire clamping groove is formed on the bottom of at least one inner side wall of the case; the strip-shaped clamping groove is formed in the bottom edge in the case, and the limiting strip block is arranged on the inner side wall of the case.

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