CN217363052U

CN217363052U - Novel photoinduction and infrared induction switch device

Info

Publication number: CN217363052U
Application number: CN202221014005.6U
Authority: CN
Inventors: 宁祺; 陈明亮; 张常华; 朱正辉; 赵定金
Original assignee: Guangzhou Baolun Electronics Co Ltd
Current assignee: Guangdong Baolun Electronics Co ltd
Priority date: 2022-04-27
Filing date: 2022-04-27
Publication date: 2022-09-02
Anticipated expiration: 2032-04-27

Abstract

The utility model discloses a novel photoinduction, infrared induction's switchgear, a serial communication port, including mutual embedding snap-in response subassembly and base subassembly, fixed mounting has photoinduction sensor and infrared transceiver on the response subassembly, and photoinduction sensor is used for the response whether there is the light in switchgear's the place ahead to shelter from, if shelter from, then send enable signal to infrared transceiver, infrared transceiver is used for receiving enable signal then opens or stop work, so that sheltering from switchgear is down, allows or forbids to open and close the external equipment that infrared transceiver is connected through sending infrared signal to infrared transceiver. The utility model discloses the design that utilizes to increase environment light sensor and infrared transceiver has increased the functional demand of switch button, increases the experience of user's performance, has promoted user experience degree.

Description

Novel photoinduction and infrared induction switch device

Technical Field

The utility model relates to a switching device technical field, concretely relates to novel photoinduction, infrared induction's switching device.

Background

At present, many switch keys only play a role of switches, for example, a physical switch on a display screen is pressed by a human hand to complete on or off, such a physical switch used on a display screen is simple in design, and usually, one side of the switch is pressed and the other side is pressed to be off, so that the switch has a single function, the experience of users is not high, and the social requirements are more and more difficult to meet. Along with the user to convenient operation, and structural design's outward appearance beautiful requirement is higher and higher, the switching device that can better promote user experience degree also is the product improvement direction of enterprise's concern.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model aims at providing a novel photoinduction, infrared induction's switching device, it can solve current switch because of the simple, not high problem of function singleness of design user experience degree.

Realize the technical scheme of the purpose of the utility model is that: a novel light-sensing and infrared-sensing switch device comprises a sensing component and a base component which are embedded and clamped together, wherein a light-sensing sensor and an infrared receiving and transmitting device are fixedly arranged on the sensing component,

the light sensing sensor is used for sensing whether light is shielded in front of the switch device or not, if the light is shielded, the light sensing sensor sends an enabling signal to the infrared receiving and sending device,

the infrared transceiver is used for starting or stopping working when receiving the enabling signal, so that under the condition of shielding the switch device, the infrared transceiver is allowed or forbidden to start and stop the external equipment connected with the infrared transceiver by sending the infrared signal to the infrared transceiver.

Further, the induction assembly and the base assembly are both cylindrical structures, so that the whole embedded and clamped together also presents a cylindrical structure.

Furthermore, the infrared transceiver is an independent infrared transmitting tube and an infrared receiving tube, or an infrared transmitting and receiving tube integrated with the infrared transmitting and receiving.

Further, the response subassembly includes upper casing, glass, fixed disk, PCB circuit board and the stationary blade of range upon range of the equipment together in proper order along the direction that is close to base subassembly, and one side end embedding block of upper casing is in the same place response subassembly and base subassembly equipment on the base subassembly, and the upper casing is equipped with a through-hole, and glass's one end embedding is fixed in the inboard of upper casing and shelters from completely the through-hole, glass's the other end laminating is in the outside of fixed disk, and fixed mounting has electric connection together on the PCB circuit board light sensor with infrared transceiver, the upper end of PCB circuit board is fixed on the fixed disk, and the light that passes behind the glass can shine the light sensor on the PCB circuit board, and one side end of PCB circuit passes the stationary blade after the embedding on the base subassembly, and the stationary blade laminating PCB circuit board is fixed on the upper casing.

Further, the upper shell is of a circular structure, and the through hole is formed in the middle of the upper shell.

Furthermore, the upper end of the PCB penetrates through the through hole of the fixed disc and then abuts against the glass or keeps a gap with the glass.

Furthermore, one side end of the PCB circuit board is provided with an extension part, and the extension part penetrates through the fixing piece and then is embedded into the base assembly.

Further, one side end fixedly connected with of epitheca is lower bulge, and through lower bulge embedding block on the base subassembly and with response subassembly and base subassembly equipment together.

Furthermore, the base component comprises a circular base and an upper protruding part fixedly arranged on the edge of one side of the base, the upper protruding part is embedded and clamped on the other side of the side where the lower protruding part of the upper shell is located, and the lower protruding part is embedded and clamped on the other side of the side where the upper protruding part of the base is located.

Furthermore, the lower convex part and the upper shell are of an integrated structure, and the upper convex part and the base are of an integrated structure.

The utility model has the advantages that: the utility model discloses the design that utilizes to increase environment light sensor and infrared transceiver has increased the functional demand of switch button, increases the experience of user's performance, has promoted user experience degree.

Drawings

FIG. 1 is one of the exploded schematic views of the present invention;

FIG. 2 is a second exploded view of the present invention;

the device comprises a sensing assembly 1, an upper shell 11, a lower protruding part 111, a glass 12, a fixed disc 13, a PCB 14, a fixing sheet 15, a base assembly 2, a base 21 and an upper protruding part 22.

Detailed Description

The invention will be further described with reference to the drawings and the embodiments.

As shown in fig. 1-2, a novel photoinduction and infrared induction switch device comprises an induction component 1 and a base component 2 which are mutually embedded and clamped together, wherein the induction component 1 and the base component 2 are both of cylindrical structures, so that the whole body embedded and clamped together also presents a cylindrical structure, and the appearance is more beautiful by the structural design, and the experience of a user is enhanced. The sensing component 1 is fixedly provided with a light sensing sensor and an infrared receiving and transmitting device, the infrared receiving and transmitting device can comprise an independent infrared transmitting tube and an infrared receiving tube, and also can be an infrared receiving and transmitting tube integrated with the infrared receiving and transmitting device, and the infrared receiving and transmitting tube is an existing product regardless of independent arrangement or integration, and is not repeated herein. The light-sensitive sensor is used for sensing whether light is shielded in front of the switch device (including a front side and a side front side), if so, the light-sensitive sensor sends an enabling signal to the infrared receiving and sending device, and the infrared receiving and sending device stops working after receiving the enabling signal, otherwise, the infrared receiving and sending device is in a working state and can send an infrared signal outwards and receive an external infrared signal, so that a user can open and close equipment (such as a display screen) connected with the infrared receiving and sending device by sending the infrared signal to the infrared receiving and sending device under the condition that the switch device is not shielded, and the effect of switching is achieved.

The sensing assembly 1 comprises an upper shell 11, glass 12, a fixed disc 13, a PCB circuit board 14 and a fixed plate 15 which are sequentially stacked and assembled together along the direction close to the base assembly 2, wherein the upper shell 11 is of a circular structure, a through hole is formed in the center of the upper shell, one end of the glass 12 is embedded and fixed on the inner side of the upper shell 11 (namely close to one part of the base assembly 2) and completely shields the through hole, and external light can penetrate through the glass 12 to enter the inner side of the glass 12. The outer side edge of the upper case 11 is fixedly connected with a lower protrusion 111. The other end of the glass 12 is attached to the outer side of the fixed plate 13 (i.e. the end away from the base assembly 2), and the glass 12 is completely fixed in the inner space between the fixed plate 13 and the upper shell 11 by the cooperation of the fixed plate 13 and the upper shell 11, so that the glass 12 is fixed and the glass 12 is prevented from falling off. The light sensing sensor and the infrared transceiver electrically connected together are fixedly mounted on the PCB 14, the upper end of the PCB 14 penetrates through a through hole (not marked in the figure) of the fixed disk 13 and then abuts against the glass 12, and the upper end of the PCB 14 can also be close to the glass 12 and has a certain gap, which can be adjusted according to actual needs, so that external light can directly irradiate the light sensing sensor on the PCB 14 after passing through the glass 12. When the light is completely or partially blocked (for example, blocked by a human body or a finger) in the front of the upper shell 11 or in the front of the side, the light-sensitive sensor senses the blocking and sends an enabling signal to the infrared transceiver, and the infrared transceiver stops working under the enabling signal. One side end of the PCB 14 is provided with an extension (not shown) in a rectangular bar, which is inserted into the base assembly 2 after passing through the fixing plate 15, so as to assemble the sensing assembly 1 and the base assembly 2 together. The fixing piece 15 is attached to the PCB 14 and fixed to the upper case 11, thereby fixing the PCB 14, the fixed plate 13 and the glass 12 to the upper case 11 and preventing the PCB 14, the fixed plate 13 and the glass 12 from falling off from the upper case 11.

Base subassembly 2 includes circular shape base 21 and the last bulge 22 of fixed mounting on the edge of base 21 one side, go up bulge 22 embedding block at the opposite side of the lower bulge 111 place side of last shell 11, lower bulge 111 embedding block is at the opposite side of the last bulge 22 place side of base 21, thereby make and go up bulge 22 and lower bulge 111 and mutually support and form an integrative cylindrical structure with sensing subassembly 1 and base subassembly 2 equipment together, both have the effect of infrared switch opening and closing, promote structural design's outward appearance aesthetic measure again, user experience has been promoted.

In an alternative embodiment, the lower protrusion 111 and the upper shell 11 are formed as a single body, and the upper protrusion 22 and the base 21 are formed as a single body.

In practical use, the switch device can be applied to a display screen, for example, an all-in-one machine for a video conference, the switch device is embedded in a frame of the display screen, when a user approaches to a position right in front of or in front of a side of the switch device (i.e., right in front of or in front of the glass 12), due to complete or partial blocking of light, the light sensor senses light blocking, and sends an enabling signal to the infrared transceiver, and the infrared transceiver receives the enabling signal and stops receiving an external infrared signal, at this time, the external cannot open or close the display screen by sending the infrared signal (for example, through a remote controller), so that the display screen cannot be closed by mistake due to the user in front of the display screen, because in this situation, the user usually needs to operate the display screen (for example, the all-in-one machine for a video conference) or watch content, it is not appropriate to turn off the display screen at this time. If the enabling signal is not received, the infrared receiving and transmitting device can normally receive an external infrared signal to carry out normal operation to open and close the display screen.

Of course, the infrared transceiver may also start working and close the display screen after receiving the enable signal; and after the enabling signal is not received, judging whether the display screen is closed according to whether an external infrared signal is received. Such an arrangement allows a user to close and shield the switch device (e.g. the user stands in front of the switch device or a finger is attached to the glass 12), which means that the display screen needs to be turned off, and compared to a conventional push-button switch, the experience of turning on and off the display screen by such an induction is higher.

The embodiment disclosed in this specification is only an example of the single-sided features of the present invention, and the protection scope of the present invention is not limited to this embodiment, and any other embodiments having equivalent functions all fall into the protection scope of the present invention. Various other modifications and changes may occur to those skilled in the art based on the teachings and concepts herein disclosed, and all such modifications and changes are intended to be included within the scope of the present invention.

Claims

1. A novel light-sensing and infrared-sensing switch device is characterized by comprising a sensing component and a base component which are mutually embedded and clamped together, wherein a light-sensing sensor and an infrared receiving and transmitting device are fixedly arranged on the sensing component,

2. The novel light-sensitive, infrared-sensitive switch device of claim 1, wherein the sensing component and the base component are both cylindrical structures, such that the whole body that is embedded and snapped together also presents a cylindrical structure.

3. The novel photo-sensing and infrared-sensing switch device as claimed in claim 1, wherein the infrared transceiver is an infrared transmitting tube and an infrared receiving tube, or an infrared transmitting and receiving tube integrated with an infrared transmitter.

4. The novel light-sensing and infrared-sensing switch device according to claim 1, wherein the sensing assembly comprises an upper housing, glass, a fixed disk, a PCB circuit board and a fixed plate which are sequentially stacked and assembled together along a direction close to the base assembly, one side end of the upper housing is embedded and clamped on the base assembly to assemble the sensing assembly and the base assembly together, the upper housing is provided with a through hole, one end of the glass is embedded and fixed on the inner side of the upper housing and completely shields the through hole, the other end of the glass is attached on the outer side of the fixed disk, the PCB circuit board is fixedly provided with the light-sensing sensor and the infrared transceiver which are electrically connected together, the upper end of the PCB circuit board is fixed on the fixed disk, light passing through the glass can irradiate the light-sensing sensor on the PCB circuit board, one side end of the PCB circuit passes through the fixed plate and then is embedded on the base assembly, the fixing piece is attached to the PCB and fixed on the upper shell.

5. The novel photo-sensing, infrared-sensing switch device as claimed in claim 4, wherein the upper housing is a circular structure, and the through hole is disposed at the center of the upper housing.

6. The novel light-sensing and infrared-sensing switch device according to claim 4, wherein the upper end of the PCB circuit board penetrates through the through hole of the fixing plate and then abuts against the glass or keeps a space with the glass.

7. The novel light-sensitive, infrared-sensitive switching device of claim 4, wherein an extension is disposed at one side of the PCB, and the extension is inserted into the base assembly after passing through the fixing plate.

8. The novel light-sensing and infrared-sensing switch device as claimed in claim 4, wherein a lower protrusion is fixedly connected to one side end of the upper housing, and the sensing assembly and the base assembly are assembled together by the lower protrusion being inserted and engaged with the base assembly.

9. The novel light-sensing and infrared-sensing switch device as claimed in claim 8, wherein the base assembly comprises a circular base and an upper protrusion fixedly mounted on an edge of one side of the base, the upper protrusion is embedded and engaged with the other side of the upper housing where the lower protrusion is located, and the lower protrusion is embedded and engaged with the other side of the base where the upper protrusion is located.

10. The novel photo-sensing, infrared-sensing switch device as claimed in claim 1, wherein the lower protrusion and the upper housing are integrally formed, and the upper protrusion and the base are integrally formed.