CN109681734B - Intelligent adjusting device and adjusting method - Google Patents

Abstract

The invention relates to the technical field of display screens, in particular to an intelligent adjusting device and an adjusting method, wherein the intelligent adjusting device comprises a plurality of display modules, a wireless induction type servo stepping telescopic device is arranged on each display module, the plurality of wireless induction type servo stepping telescopic devices are supported on the bottom surface of the display screen, a handheld wireless induction adjusting and calibrating device is arranged on the top surface of the display screen, and the handheld wireless induction adjusting and calibrating device is in wireless communication with the wireless induction type servo stepping telescopic device; the telescopic rod is perpendicular to the corresponding display module, the first installation block is sleeved on the top end of the telescopic rod through threads, a spherical movable head is arranged at the top end of the first installation block, the movable head is positioned in a movable cavity, the movable cavity is arranged on a second installation block, and the second installation block is connected with the corresponding display screen; the movable cavity is provided with a blocking cover, and the blocking cover is in threaded sleeve connection with the second installation block. The invention can preferably adjust the height difference between adjacent display screens, so that the display screens have better flatness during installation.

Description

Intelligent adjusting device and adjusting method

Technical Field

The invention relates to the technical field of display screens, in particular to an intelligent adjusting device and an adjusting method.

Background

At present, LED display screen products, in particular to small-spacing products, gradually progress from the 1.2mm point spacing of the main stream of the market to smaller spacing development and production. Products with 0.7mm pitch have emerged, followed by products with 0.6mm pitch and smaller pitches in other packaging formats are gradually pushed out and commercialized, and flatness control is a technological threshold around which they cannot bypass. The method is simple in processing precision, assembly precision and on-site manual adjustment precision, can increase cost greatly and is low in efficiency, and particularly the flatness of the whole large screen is controlled during installation.

Disclosure of Invention

The invention provides an intelligent adjusting device and an adjusting method, which can overcome certain or certain defects in the prior art.

The intelligent adjusting device comprises a plurality of display modules, wherein the display modules are connected into a plane, a plurality of wireless induction type servo stepping telescopic devices are arranged on any display module, the plurality of wireless induction type servo stepping telescopic devices are supported on the bottom surface of a display screen, a handheld wireless induction adjusting and calibrating device is arranged on the top surface of the display screen, and the handheld wireless induction adjusting and calibrating device is in wireless communication with the wireless induction type servo stepping telescopic devices; the wireless induction type servo stepping telescopic device comprises a stepping telescopic mechanism, the stepping telescopic mechanism comprises a telescopic rod, the telescopic rod is perpendicular to a corresponding display module, a first installation block is sleeved on the top end of the telescopic rod through threads, a spherical movable head is arranged on the top end of the first installation block, the movable head is positioned in a movable cavity, the movable cavity is arranged on a second installation block, and the second installation block is connected with a corresponding display screen; the movable cavity is provided with a blocking cover, and the blocking cover is in threaded sleeve connection with the second installation block.

According to the invention, the plane formed by connecting the display modules enables the plurality of display screens to be provided with a reference basis during installation, the wireless induction type servo stepping telescopic device can automatically adjust the height of the display screens, so that the plurality of display screens can be kept horizontal, the display screens have better flatness, the handheld wireless induction type adjustment calibration device can detect the adjacent display screens, detect the height difference of the adjacent display screens and timely send wireless signals to the wireless induction type servo stepping telescopic device, and the wireless induction type servo stepping telescopic device can automatically adjust the display screens. When the display screen needs to be obliquely placed, if the display screen is directly fixedly connected with the wireless induction type servo stepping telescopic device, the display screen cannot be obliquely placed, so that the applicability is small, different wireless induction type servo stepping telescopic devices can adjust the display screen to be in an oblique state through rotation of the movable head in the movable cavity, the adjusting process is quite stable, and the display screen cannot be damaged due to rotation when the wireless induction type servo stepping telescopic device is lifted or lowered. Through the cooperation between fender lid, first installation piece and the second installation piece for the connection and the dismantlement process between display screen and the wireless induction type servo step-by-step telescoping device are very swift.

Preferably, the wireless induction type servo stepping telescopic device comprises a shell, wherein a stepping telescopic mechanism, a first wireless signal receiving and transmitting device for receiving data transmitted by the wireless induction adjustment calibration device and a first control chip for converting the data into an electric signal and controlling the stepping telescopic mechanism are arranged in the shell, and the first wireless signal receiving and transmitting device and the first control chip are located on a first PCB.

According to the invention, the shell has a protection function, the stepping telescopic mechanism can be telescopic, the height of the display screen can be adjusted, the first wireless signal receiving and transmitting device can be in wireless communication with the wireless induction adjustment calibration device, the first control chip can convert wireless signals into electric signals so as to control the stepping telescopic mechanism to work, and the first PCB is used for stably mounting components.

Preferably, a first installation cavity with an opening facing the display screen is arranged in the shell, a cover plate is arranged at the opening of the first installation cavity, the stepping telescopic mechanism is positioned in the first installation cavity, and the stepping telescopic mechanism can axially extend and retract along the first installation cavity and penetrate out of the cover plate; the first PCB board is located at the bottom of the first mounting cavity.

In the invention, the first mounting cavity is used for mounting components in the wireless induction type servo stepping telescopic device, and the cover plate is convenient to mount and replace the components.

Preferably, the handheld wireless sensing adjustment calibration device comprises a device body, wherein a contact sensing device for collecting data of a reference surface of a display screen, a second wireless signal receiving and transmitting device for transmitting data, a laser ranging device for measuring and calculating the height difference of the adjacent reference surfaces and a second control chip for processing the data are arranged in the device body, and the second wireless signal receiving and transmitting device, the laser ranging device and the second control chip are located on a second PCB.

In the invention, the device body has a protection function, the contact sensing device collects data through contact and transmits the data to the second control chip, the second control chip controls the laser ranging device to range, and the measured distance signal is transmitted to the first wireless signal receiving and transmitting device through the second wireless signal receiving and transmitting device.

Preferably, a second installation cavity with an opening facing the display screen is arranged in the device body, the contact sensing device is positioned at the opening of the second installation cavity, the second PCB is parallel to the contact sensing device, and the laser ranging device faces the opening of the second installation cavity.

The second installation cavity is used for installing components in the handheld wireless induction adjustment calibration device.

Preferably, the device body is provided with a perforation, a touch switch is arranged in the perforation, the touch switch is connected with the second PCB, and the touch switch penetrates out of the device body through the perforation.

According to the invention, the touch switch passes through the device body through the through hole, so that the touch switch is convenient to operate, and the touch switch can control the handheld wireless induction adjustment calibration device to be opened or closed so as to meet the requirements of work and use.

Preferably, a power supply for supplying power is arranged in the second mounting cavity.

Preferably, the display module is connected together through a plurality of connecting pieces, a plurality of mounting seats are arranged on the display module, and the wireless induction type servo stepping telescopic device is arranged on the mounting seats.

In the invention, the installation seat ensures that the position of the wireless induction type servo stepping telescopic device is more stable.

The invention also provides an adjusting method of the intelligent adjusting device, which comprises the following steps:

1. mounting the display module at the mounting position;

2. install wireless induction type servo step-by-step telescoping device on the display module assembly, cup joint first installation piece on wireless induction type servo step-by-step telescoping device's telescopic link to the activity intracavity on inserting the second installation piece with the activity head on the first installation piece is fixed through the fender lid, is connected to the display screen with the second installation piece.

3. Attaching the wireless induction adjustment calibration device to the joint of the adjacent display screens to check the height difference of the adjacent display screens;

4. if the height difference exists, the wireless induction adjustment calibration device starts wireless signals to the wireless induction type servo stepping telescopic device, and the wireless signals to the wireless induction type servo stepping telescopic device are used for telescopic adjustment, so that the heights of adjacent display screens are consistent.

The contact sensing device in the wireless sensing adjustment calibration device sends a contact signal to the second control chip after contacting the display screen, the second control chip controls the laser ranging device to range, when the height difference exists, the second wireless signal receiving and sending device sends a wireless signal to the first wireless signal receiving and sending device, the first wireless signal receiving and sending device sends the wireless signal to the first control chip, and the first control chip converts the wireless signal into an electric signal to control the stepping telescopic mechanism to carry out telescopic adjustment.

The adjusting method can preferably adjust the height difference between adjacent display screens, so that the display screens have better flatness during installation.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent adjusting apparatus in embodiment 1;

FIG. 2 is a schematic diagram showing the connection structure of the movable head and the movable chamber in embodiment 1;

FIG. 3 is a schematic diagram of a wireless inductive servo stepping telescopic device in embodiment 1;

FIG. 4 is an exploded view of the wireless induction type servo stepping telescopic device in the embodiment 1;

fig. 5 is a schematic structural diagram of a handheld wireless sensing adjustment calibration device in embodiment 1;

fig. 6 is an exploded view of the structure of the handheld wireless sensor adjustment calibration device in embodiment 1.

Detailed Description

For a further understanding of the present invention, the present invention will be described in detail with reference to the drawings and examples. It is to be understood that the examples are illustrative of the present invention and are not intended to be limiting.

Example 1

As shown in fig. 1 to 6, this embodiment provides an intelligent adjusting apparatus, which is characterized in that: the wireless induction type servo stepping telescopic device comprises a plurality of display modules 110, wherein the plurality of display modules 110 are connected into a plane, a plurality of wireless induction type servo stepping telescopic devices 120 are arranged on any one display module 110, the plurality of wireless induction type servo stepping telescopic devices 120 are supported on the bottom surface of a display screen 130, a handheld wireless induction type adjustment calibration device 140 is arranged on the top surface of the display screen 130, and the handheld wireless induction type adjustment calibration device 140 is in wireless communication with the wireless induction type servo stepping telescopic devices 120;

the wireless induction type servo stepping telescopic device 120 comprises a stepping telescopic mechanism 123, the stepping telescopic mechanism 123 comprises a telescopic rod 1231, the telescopic rod is perpendicular to the corresponding display module 110, a first installation block 210 is sleeved on the top end of the telescopic rod 1231 in a threaded manner, a spherical movable head 220 is arranged on the top end of the first installation block 210, the movable head 220 is positioned in a movable cavity 231, the movable cavity 231 is arranged on a second installation block 230, and the second installation block 230 is connected with the corresponding display screen 130; the movable cavity 231 is provided with a blocking cover 232, and the blocking cover 232 is in threaded sleeve connection with the second mounting block 230.

The plane that display module 110 connects into makes a plurality of display screens 130 have reference basis when the installation, and wireless induction type servo step-by-step telescoping device 120 can be adjusted the height of display screen 130 voluntarily, makes a plurality of display screens 130 keep the level, has better roughness, and handheld wireless induction adjusts calibrating device 140 can detect adjacent display screen 130, detects its difference in height to in time send wireless signal to wireless induction type servo step-by-step telescoping device 120, realize the automatic adjustment of wireless induction type servo step-by-step telescoping device 120 to display screen 130. When the display screen 130 needs to be obliquely placed, if the display screen 130 is directly fixedly connected with the wireless induction type servo stepping telescopic device 120, the display screen 130 cannot be obliquely placed, so that the applicability is small, the display screen 130 can be adjusted to be in an oblique state by different wireless induction type servo stepping telescopic devices 120 through rotation of the movable head 220 in the movable cavity 231, the adjusting process is quite stable, and the connection and disassembly processes between the display screen 130 and the wireless induction type servo stepping telescopic device 120 are quite rapid through the cooperation among the blocking cover 232, the first mounting block 210 and the second mounting block 230.

The movable cavity 231 is hemispherical, and has a diameter 0.5mm larger than that of the movable head 220, and the blocking cover 232 is also provided with a through cavity for the movable head 220 to pass through, and the through cavity can block the movable head 220 in the movable cavity 231. Thus, the movable head 220 is easily installed and removed.

In this embodiment, the wireless induction type servo stepping telescopic device 120 includes a housing 121, a stepping telescopic mechanism 123, a first wireless signal receiving and transmitting device 126 for receiving data transmitted by the wireless induction adjustment calibration device 140, and a first control chip 127 for converting the data into an electrical signal and controlling the stepping telescopic mechanism 123 are disposed in the housing 121, and the first wireless signal receiving and transmitting device 126 and the first control chip 127 are disposed on a first PCB 125.

The shell 121 has the guard action, and step-by-step telescopic machanism 123 can stretch out and draw back, and then adjusts the height of display screen 130, and first wireless signal receiving and sending device 126 can carry out radio communication with wireless sensing adjustment calibrating device 140, thereby first control chip 127 can become the signal conversion with radio signal and control step-by-step telescopic machanism 123 work, and first PCB board 125 is used for stable installation components and parts.

The working principle of the stepping telescopic mechanism 123 is: the screw rod is controlled to rotate through the stepping motor, and the screw rod rotates to drive the gear to move, so that the telescopic rod is telescopic.

In this embodiment, a first installation cavity 122 with an opening facing the display screen 130 is provided in the housing 121, a cover plate 124 is provided at an opening of the first installation cavity 122, a step-by-step expansion mechanism 123 is located in the first installation cavity 122, and the step-by-step expansion mechanism 123 can axially expand and contract along the first installation cavity 122 and pass through the cover plate 124; the first PCB 125 is located at the bottom of the first mounting cavity 122.

The first installation cavity 122 is used for installing components in the wireless induction type servo stepping telescopic device 120, and the cover plate 124 is arranged to facilitate installation and replacement of the components.

In this embodiment, the handheld wireless sensing adjustment calibration device 140 includes a device body 141, a contact sensing device 143 for collecting data of the reference surface of the display 130, a second wireless signal receiving and transmitting device 147 for transmitting data, a laser ranging device 145 for measuring and calculating the height difference of the adjacent reference surfaces, and a second control chip 146 for processing data are disposed in the device body 141, and the second wireless signal receiving and transmitting device 147, the laser ranging device 145 and the second control chip 146 are disposed on a second PCB 144.

The device body 141 has a protective function, the contact sensing device 143 collects data by contact and transmits the data to the second control chip 146, the second control chip 146 controls the laser ranging device 145 to perform ranging, and the measured distance signal is transmitted to the first wireless signal receiving and transmitting device 126 through the second wireless signal receiving and transmitting device 147.

The contact sensing device 143 is mainly composed of a high-hardness and high-sensitivity touch panel, which is not limited to a resistive type or a capacitive type, and other sensing forms.

In this embodiment, a second installation cavity 142 with an opening facing the display screen 130 is disposed in the device body 141, the contact sensing device 143 is located at a cavity opening of the second installation cavity 142, the second PCB 144 is parallel to the contact sensing device 143, and the laser ranging device 145 faces the cavity opening of the second installation cavity 142.

The second mounting cavity 142 is used for mounting components in the handheld wireless induction adjustment calibration device 140.

In this embodiment, the device body 141 is provided with a through hole 148, a touch switch 149 is disposed in the through hole 148, the touch switch 149 is connected with the second PCB 144, and the touch switch 149 passes through the through hole 148 and out of the device body 141.

The touch switch 149 passes through the through hole 148 and out of the device body 141, so that the touch switch 149 can be conveniently operated, and the touch switch 149 can control the handheld wireless sensing adjustment calibration device 140 to be opened or closed so as to meet the requirements of work and use.

In this embodiment, a power source for supplying power is provided in the second installation cavity 142.

In this embodiment, the display module 110 may be connected together through a plurality of connectors 112, and the display module 110 is provided with a plurality of mounting seats 111, and the wireless induction type servo stepping telescopic device 120 is located on the mounting seats 111.

The arrangement of the mounting base 111 makes the position of the wireless induction type servo stepping telescopic device 120 more stable.

The embodiment provides an adjusting method of an intelligent adjusting device, which comprises the following steps:

1. mounting the display module 110 at a mounting position;

2. the wireless induction type servo stepping telescopic device 120 is installed on the display module 110, the first installation block 210 is sleeved on a telescopic rod 1231 of the wireless induction type servo stepping telescopic device 120, the movable head 220 on the first installation block 210 is plugged into the movable cavity 231 on the second installation block 230 and is fixed through the blocking cover 232, and the second installation block 230 is connected to the display screen 130.

3. Attaching the wireless sensing adjustment calibration device 140 to the joint of the adjacent display screens 130 to check the height difference of the adjacent display screens 130;

4. if the height difference exists, the wireless sensing adjustment calibration device 140 starts wireless signals to the wireless sensing type servo stepping telescopic device 120, and the wireless signals to the wireless sensing type servo stepping telescopic device 120 perform telescopic adjustment, so that the heights of the adjacent display screens 130 are consistent.

The adjustment method can preferably adjust the height difference between the adjacent display screens 130, so that the display screens 130 have better flatness during installation.

The invention and its embodiments have been described above by way of illustration and not limitation, and the invention is illustrated in the accompanying drawings and described in the drawings in which the actual structure is not limited thereto. Therefore, if one of ordinary skill in the art is informed by this disclosure, the structural mode and the embodiments similar to the technical scheme are not creatively designed without departing from the gist of the present invention.

Claims (5)

1. An intelligent regulation device, its characterized in that: the wireless induction type servo stepping telescopic device comprises a plurality of display modules (110), wherein the display modules (110) are connected into a plane, a plurality of wireless induction type servo stepping telescopic devices (120) are arranged on any display module (110), the plurality of wireless induction type servo stepping telescopic devices (120) are supported on the bottom surface of a display screen (130), a handheld wireless induction adjustment calibration device (140) is arranged on the top surface of the display screen (130), and the handheld wireless induction adjustment calibration device (140) is in wireless communication with the wireless induction type servo stepping telescopic devices (120);

the wireless induction type servo stepping telescopic device (120) comprises a stepping telescopic mechanism (123), the stepping telescopic mechanism (123) comprises a telescopic rod (1231), the telescopic rod is perpendicular to a corresponding display module (110), a first installation block (210) is sleeved on the top end of the telescopic rod (1231) in a threaded manner, a spherical movable head (220) is arranged on the top end of the first installation block (210), the movable head (220) is located in a movable cavity (231), the movable cavity (231) is arranged on a second installation block (230), and the second installation block (230) is connected with a corresponding display screen (130); the movable cavity (231) is provided with a blocking cover (232), and the blocking cover (232) is in threaded sleeve connection with the second mounting block (230);

the movable cavity (231) is hemispherical and has a diameter which is 0.5mm larger than that of the movable head (220);

the wireless induction type servo stepping telescopic device (120) comprises a shell (121), a stepping telescopic mechanism (123), a first wireless signal receiving and transmitting device (126) for receiving data transmitted by the wireless induction adjustment calibration device (140) and a first control chip (127) for converting the data into an electric signal and controlling the stepping telescopic mechanism (123) are arranged in the shell (121), and the first wireless signal receiving and transmitting device (126) and the first control chip (127) are positioned on a first PCB (125);

a first installation cavity (122) with an opening facing the display screen (130) is arranged in the shell (121), a cover plate (124) is arranged at the cavity opening of the first installation cavity (122), a step telescopic mechanism (123) is positioned in the first installation cavity (122), and the step telescopic mechanism (123) can axially stretch out and draw back along the first installation cavity (122) and penetrate out of the cover plate (124); the first PCB (125) is positioned at the bottom of the first mounting cavity (122);

the handheld wireless sensing adjustment calibration device (140) comprises a device body (141), wherein a contact sensing device (143) for collecting data of a reference surface of the display screen (130), a second wireless signal receiving and transmitting device (147) for transmitting data, a laser ranging device (145) for measuring and calculating the height difference of adjacent reference surfaces and a second control chip (146) for processing the data are arranged in the device body (141), and the second wireless signal receiving and transmitting device (147), the laser ranging device (145) and the second control chip (146) are positioned on a second PCB (144);

a second installation cavity (142) with an opening facing the display screen (130) is arranged in the device body (141), the contact sensing device (143) is positioned at the cavity opening of the second installation cavity (142), the second PCB (144) is parallel to the contact sensing device (143), and the laser ranging device (145) faces the cavity opening of the second installation cavity (142);

a power supply for supplying power is arranged in the second mounting cavity (142).

2. The intelligent regulation device of claim 1, wherein: the device body (141) is provided with a perforation (148), a touch switch (149) is arranged in the perforation (148), the touch switch (149) is connected with the second PCB (144), and the touch switch (149) penetrates out of the device body (141) through the perforation (148).

3. The intelligent regulation device of claim 1, wherein: the display module (110) can be connected together through a plurality of connecting pieces (112), a plurality of installation seats (111) are arranged on the display module (110), and the wireless induction type servo stepping telescopic device (120) is arranged on the installation seats (111).

4. An adjustment method for the intelligent adjustment apparatus as claimed in any one of claims 1 to 3, characterized in that: the method comprises the following steps:

1. mounting the display module (110) at a mounting location;

2. the wireless induction type servo stepping telescopic device (120) is installed on the display module (110), the first installation block (210) is sleeved on a telescopic rod (1231) of the wireless induction type servo stepping telescopic device (120), a movable head (220) on the first installation block (210) is plugged into a movable cavity (231) on the second installation block (230) and is fixed through a blocking cover (232), and the second installation block (230) is connected to the display screen (130);

3. attaching a wireless induction adjustment calibration device (140) to the joint of the adjacent display screens (130) to check the height difference of the adjacent display screens (130);

4. if the height difference exists, the wireless sensing adjustment calibration device (140) starts wireless signals to the wireless sensing servo stepping telescopic device (120), and the wireless signals to the wireless sensing servo stepping telescopic device (120) carry out telescopic adjustment, so that the heights of the adjacent display screens (130) are consistent.

5. The method for adjusting an intelligent adjusting apparatus according to claim 4, wherein: the contact sensing device (143) in the wireless sensing adjustment calibration device (140) sends a contact signal to the second control chip (146) after contacting the display screen (130), the second control chip (146) controls the laser ranging device (145) to range, when a height difference exists, the second wireless signal receiving and sending device (147) sends a wireless signal to the first wireless signal receiving and sending device (126), the first wireless signal receiving and sending device (126) sends the wireless signal to the first control chip (127), and the first control chip (127) converts the wireless signal into an electric signal to control the stepping telescopic mechanism (123) to carry out telescopic adjustment.