CN215261807U

CN215261807U - Inductor based on multiple installation modes

Info

Publication number: CN215261807U
Application number: CN202120962983.2U
Authority: CN
Inventors: 程亚兵
Original assignee: Hytronik Electronics Co ltd
Current assignee: Hytronik Electronics Co ltd
Priority date: 2021-05-07
Filing date: 2021-05-07
Publication date: 2021-12-21
Anticipated expiration: 2031-05-07

Abstract

The utility model relates to an inductor based on many mounting means, establish the screwed inferior valve including the outside, locate the inside core assembly of inferior valve, locate the infrared mirror of inferior valve upper end, overlap in the outer lane of infrared mirror or circle the lens on, connect soon in the upper end threaded upper shell subassembly of inferior valve, connect soon in the middle part threaded lower cover of inferior valve, the upper shell subassembly can be fit for the mounting structure in multiple place, the infrared mirror can be suitable for the use of low latitude or high latitude, is equipped with bluetooth module and infrared sensor in the core assembly. The inner wall of inferior valve is equipped with a pair of first slot along vertically for the both sides flange edge of placeeing PCB board subassembly, is on a parallel with the inner wall of the inferior valve of PCB board subassembly one side, is equipped with a pair of second slot along vertically for placeeing lens, and the lower part of inferior valve is equipped with the wire guide, and the lateral part of inferior valve is equipped with the screw mouth. The lower shell, the lower cover, the machine core assembly and the lens adopt the general specification design, and the upper shell assembly is only required to be replaced for various different application places.

Description

Inductor based on multiple installation modes

Technical Field

The utility model relates to an infrared ray sensor product field especially relates to inductor based on many mounting means.

Background

The existing infrared sensors have various types and wide application, but have the following defects:

(1) in order to adapt to various application places, the structure and the specification of the device are many, and the design, material and production cost is increased;

(2) the universality of various products is poor, and the production and the maintenance are inconvenient.

To overcome these problems, we invented a sensor based on multiple mounting schemes.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an invention aim at solve current infrared ray sensor, there are structure, specification a lot, design, material, manufacturing cost rise, the commonality is poor, the inconvenient problem of production and maintenance. The concrete solution is as follows:

inductor based on many mounting means, including the outside screwed inferior valve of establishing, locate the inside core assembly of inferior valve, locate the infrared mirror of inferior valve upper end, overlap in the outer lane of infrared mirror or the lens of circling in, connect soon in the upper end threaded upper shell subassembly of inferior valve, connect soon in the threaded lower cover in the middle part of inferior valve, the upper shell subassembly can be fit for the mounting structure in multiple place, the infrared mirror can be suitable for the use of low latitude or high latitude, is equipped with bluetooth module and infrared sensor in the core assembly.

Further, the core assembly comprises a PCB assembly provided with the Bluetooth module and the infrared sensor, a wiring terminal table fixed on one side of the PCB assembly, and an antenna arranged on the PCB assembly.

Furthermore, the infrared sensor is arranged at the upper end of the PCB assembly, the body of the infrared sensor is sleeved in the infrared mirror, and the antenna is wound around the infrared sensor in a semicircular shape.

Further, the inner wall of inferior valve is equipped with a pair of first slot along vertically for insert the both sides flange limit of PCB board subassembly, is on a parallel with the inner wall of the inferior valve of PCB board subassembly one side, is equipped with a pair of second slot along vertically for insert lens, the lower part of inferior valve is equipped with the wire mouth, and the lateral part of inferior valve is equipped with the screw mouth.

Further, the lens is annular, and a pair of pins vertically extend downwards from the lower side of the annular, and the pins are inserted into the second slot.

Further, the infrared mirror comprises an upper lens and a lower frame.

Alternative 1: the upper shell assembly comprises an annular hardware piece sleeved at the upper end of the lower shell and a circular surface cover screwed at the upper end of the lower shell and pressing the hardware piece, and a circular receiving window is arranged in the middle of the surface cover and used for exposing a dome of the lens.

Alternative 2: the epitheca subassembly including overlap in five gold tablets of annular of inferior valve upper end with connect soon in circular face lid on the mirror holder external screw thread, the upper side of hardware piece is hugged closely in the downside of mirror holder, and the internal thread of mirror holder connects soon in inferior valve upper end, the central through hole of mirror holder cup joint in the upper end of lens, the mirror holder upside the calotte of lens upwards stretches out outside the circular receiving window of face lid.

Alternative 3: the epitheca subassembly including overlap in the five gold sheets of rectangle of the upper end platform of inferior valve with press in the rectangle face lid of five gold sheet upsides of rectangle, the middle part of rectangle face lid is equipped with hollow cylinder, and the hollow cylinder center is circular receiving window, is used for exposing the calotte of lens, hollow cylinder's inner wall are equipped with the screw thread, are used for connect soon in the upper end of inferior valve.

Alternative 4: the epitheca subassembly including overlap in the five gold sheets of rectangle of the upper end platform of inferior valve locate the rectangle foam-rubber cushion of five gold sheet upsides of rectangle, press in the rectangle face lid of five gold sheet upsides of rectangle, the middle part of rectangle face lid is equipped with hollow cylinder, and the hollow cylinder center is circular receiving window for expose the calotte of lens, a pair of incurve pothook of hollow cylinder both sides column wall downwardly extending is used for the joint the inferior valve, and replace the lower cover, the somatic part of pothook are near the outer wall both sides of inferior valve, the hook portion of pothook tightly catches the bottom of inferior valve.

To sum up, adopt the utility model discloses a technical scheme has following beneficial effect:

the utility model provides a current infrared ray sensor, there are structure, specification a lot, design, material, manufacturing cost rise, the commonality is poor, the problem of inconvenient production and maintenance. The lower shell, the lower cover, the machine core assembly and the lens adopt general specification design, and for various different application places, only the upper shell assembly needs to be replaced, and two infrared mirrors (for low-altitude use and high-altitude use) are designed for different distances, so that the problems of universality and maintenance among various products are conveniently solved. The product cost is reduced, the production efficiency of the product is improved, the management of materials is simplified, the period of product transformation is shortened, and obvious economic benefit is obtained. The Bluetooth module is arranged in the movement assembly of the scheme, and can be set and controlled in a related manner through Bluetooth with a mobile phone.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed to be used in the description of the embodiments of the present invention will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive faculty.

FIG. 1 is a structural diagram of an embodiment 1 of the sensor based on multiple installation methods;

fig. 2 is an exploded view of an embodiment 1 of the sensor based on multiple installation methods;

FIG. 3 is a structural diagram of an embodiment 2 of the sensor based on multiple installation methods;

fig. 4 is an exploded view of embodiment 2 of the sensor based on multiple installation methods;

FIG. 5 is a structural diagram of an embodiment 3 of the sensor based on multiple installation methods;

fig. 6 is an exploded view of embodiment 3 of the sensor based on multiple installation methods;

FIG. 7 is a structural diagram of an embodiment 4 of the sensor based on multiple installation methods;

fig. 8 is an exploded view of embodiment 4 of the sensor based on multiple installation methods;

FIG. 9 is a structural view of the lower case of the present invention;

fig. 10 is an internal structure view of the lower case of the present invention;

FIG. 11 is a schematic view of a lens of the present invention;

fig. 12 is an exploded view of an infrared mirror according to embodiments 1, 3, and 4 of the present invention;

fig. 13 is a structural view of a face cover according to embodiment 3 of the present invention;

fig. 14 is a structural view of a face cover according to embodiment 4 of the present invention.

Description of reference numerals:

10-lower shell, 11-first slot, 12-second slot, 13-wire guide, 14-screw opening, 15-platform, 20-PCB board assembly, 21-wiring terminal block, 30-infrared mirror, 31-lens, 32-lens frame, 33-dome, 34-second lens frame, 35-second lens, 40-lens, 41-pin, 50-upper shell assembly, 51-five gold sheet, 52-first surface cover, 53-receiving window, 54-second surface cover, 55-second receiving window, 56-second five gold sheet, 57-third surface cover, 58-third gold sheet, 59-fourth surface cover, 60-lower cover, 70-infrared sensor, 80-antenna, 90-sponge pad, 571-hollow cylinder, 591-second hollow cylinder, 592-hook.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1:

as shown in fig. 1, 2, 9 to 12, the sensor based on multiple mounting modes includes a lower shell 10 with threads on the outside, a movement assembly disposed inside the lower shell 10, an infrared mirror 30 disposed on the upper end of the lower shell 10, a lens 40 sleeved on the outer ring (for example, embodiments 1, 3, 4) or the inner ring (for example, embodiment 2) of the infrared mirror 30, an upper shell assembly 50 screwed on the threads on the upper end of the lower shell 10, and a lower cover 60 screwed on the threads in the middle of the lower shell 10, wherein the upper shell assembly 50 is suitable for mounting structures in various places, the infrared mirror 30 is suitable for use in low altitude or high altitude, and the movement assembly is provided with a bluetooth module (not shown in the figures) and an infrared sensor 70. The infrared mirror 30 includes two parts, an upper lens 31 and a lower frame 32.

Further, the movement assembly includes a PCB assembly 20 provided with a bluetooth module and an infrared sensor 70, a connection terminal block 21 fixed to one side of the PCB assembly 20, and an antenna 80 (a bluetooth antenna) provided on the PCB assembly 20.

Further, the infrared sensor 70 is disposed at the upper end of the PCB assembly 20, the body of the infrared sensor is nested in the infrared mirror 30, and the antenna 80 is wound around the infrared sensor 70 in a semicircular shape.

Further, a pair of first slots 11 is longitudinally formed in the inner wall of the lower case 10, and is used for inserting the two side plate edges of the PCB assembly 20, a pair of second slots 12 is longitudinally formed in the inner wall of the lower case 10, which is parallel to one side of the PCB assembly 20, and is used for inserting the lens 40, a wire guide 13 (for leading out a wire) is formed in the lower portion of the lower case 10, and a screw opening 14 (for extending a screw and a screwdriver) is formed in the side portion of the lower case 10.

Further, the lens 40 has a ring shape, and a pair of pins 41 vertically extend downward from the lower side of the ring shape, and the pins 41 are inserted into the second insertion groove 12.

Alternatively, the upper case assembly 50 includes a ring-shaped medal 51 fitted over the upper end of the lower case 10, and a circular face cover (i.e., a first face cover 52) screwed to the upper end of the lower case 10 and pressing the medal 51, and the first face cover 52 is provided at a middle portion thereof with a circular receiving window 53 for exposing the dome 33 of the lens 31.

Example 2:

as shown in fig. 3 and 4, different from embodiment 1, the upper shell assembly 50 includes a circular hardware piece 51 sleeved on the upper end of the lower shell 10, and a circular surface cover (i.e., a second surface cover 54) screwed on the external thread of the frame (i.e., the second frame 34), the upper side of the hardware piece 51 is closely attached to the lower side of the second frame 34, the internal thread of the second frame 34 is screwed on the upper end of the lower shell 10, the central through hole of the second frame 34 is sleeved on the upper end of the lens 40, and the dome 33 of the lens (i.e., the second lens 35) on the upper side of the second frame 34 protrudes upward out of the circular receiving window (i.e., the second receiving window 55) of the second surface cover 54. The rest of the contents are the same as those of embodiment 1, and are not described again here. The product of the embodiment 2 is suitable for being installed and used in high-altitude remote places.

Example 3:

as shown in fig. 5, 6, 12 and 13, the difference from embodiment 1 is that the upper casing assembly 50 includes a rectangular hardware (i.e. the second hardware 56) sleeved on the upper end platform 15 of the lower casing 10, and a rectangular surface cover (i.e. the third surface cover 57) pressed on the upper side of the second hardware 56, the middle of the third surface cover 57 is provided with a hollow cylinder 571, the center of the hollow cylinder 571 is a circular receiving window 53 for exposing the dome 33 of the lens 31, and the inner wall of the hollow cylinder 571 is provided with a thread for screwing on the upper end thread of the lower casing 10. The rest of the contents are the same as those of embodiment 1, and are not described again here.

Example 4:

as shown in fig. 7, 8, 12 and 14, in the present embodiment 4, which is a modification of embodiment 3, the upper casing assembly 50 includes a rectangular hardware plate (i.e. the third hardware plate 58) sleeved on the upper platform 15 of the lower casing 10, a rectangular sponge pad 90 disposed on the upper side of the third hardware plate 58, a rectangular surface cover (i.e. the fourth surface cover 59) pressed on the upper side of the third hardware plate 58, a hollow cylinder (i.e. the second hollow cylinder 591) disposed in the middle of the fourth surface cover 59, a circular receiving window 53 formed in the center of the second hollow cylinder 591 for exposing the dome 33 of the lens 31, a pair of inward-bent hooks 592 extending downward from the two side walls of the second hollow cylinder 591 for engaging with the lower casing 10 and replacing the lower cover 60 (i.e. omitting the lower cover 60), wherein the body portions of the hooks 592 abut against the two sides of the outer wall of the lower casing 10, and the hook portions of the hooks 592 abut against the bottom of the lower casing 10. The rest of the contents are the same as those of embodiment 3, and are not described again here.

The products of examples 1, 3 and 4 are suitable for being installed and used in low-altitude and short-distance places. It should be noted that the embodiments listed in the present embodiment are not limited to the present embodiment, and the specific structure and shape of the lower case, the upper case member, the lens, and the like may be modified according to actual needs. Both the lens 31 and the second lens 35 are of spherical design and are specially constructed and constructed to accommodate the reception (and rejection of other interfering light) and convergence of infrared light, as is known in the art and will not be described in detail herein.

The above-described embodiments do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the above-described embodiments should be included in the protection scope of the technical solution.

Claims

1. Inductor based on many mounting means, its characterized in that: including the outside inferior valve that is equipped with the screw thread, locate the inside core assembly of inferior valve, locate the infrared mirror of inferior valve upper end, overlap in the outer lane of infrared mirror or the lens of interior circle, connect soon in the upper end threaded epitheca subassembly of inferior valve, connect soon in the middle part threaded lower cover of inferior valve, the epitheca subassembly can be fit for the mounting structure in multiple place, the infrared mirror can be suitable for the use of low latitude or high latitude, is equipped with bluetooth module and infrared sensor in the core assembly.

2. The multiple-mount-based inductor of claim 1, wherein: the movement assembly comprises a PCB assembly provided with the Bluetooth module and the infrared sensor, a wiring terminal table fixed on one side of the PCB assembly, and an antenna arranged on the PCB assembly.

3. The multiple-mount-based inductor of claim 2, wherein: the infrared sensor is arranged at the upper end of the PCB assembly, the body of the infrared sensor is sleeved in the infrared mirror, and the antenna is wound around the infrared sensor in a semicircular shape.

4. The multiple-mount-based inductor of claim 3, wherein: the inner wall of inferior valve is equipped with a pair of first slot along vertically for insert the both sides flange limit of PCB board subassembly, is on a parallel with the inner wall of the inferior valve of PCB board subassembly one side, is equipped with a pair of second slot along vertically for insert lens, the lower part of inferior valve is equipped with the wire mouth, and the lateral part of inferior valve is equipped with the screw mouth.

5. The multiple-mount-based inductor of claim 4, wherein: the lens is annular, and a pair of pins vertically extend downwards from the lower side of the annular and are inserted into the second slot.

6. The multiple-mount-based inductor of claim 5, wherein: the infrared mirror comprises an upper lens and a lower mirror frame.

7. The multiple-mount-based inductor of claim 6, wherein: the upper shell assembly comprises an annular hardware piece sleeved at the upper end of the lower shell and a circular surface cover screwed at the upper end of the lower shell and pressing the hardware piece, and a circular receiving window is arranged in the middle of the surface cover and used for exposing a dome of the lens.

8. The multiple-mount-based inductor of claim 6, wherein: the epitheca subassembly including overlap in five gold tablets of annular of inferior valve upper end with connect soon in circular face lid on the mirror holder external screw thread, the upper side of hardware piece is hugged closely in the downside of mirror holder, and the internal thread of mirror holder connects soon in inferior valve upper end, the central through hole of mirror holder cup joint in the upper end of lens, the mirror holder upside the calotte of lens upwards stretches out outside the circular receiving window of face lid.

9. The multiple-mount-based inductor of claim 6, wherein: the epitheca subassembly including overlap in the five gold sheets of rectangle of the upper end platform of inferior valve with press in the rectangle face lid of five gold sheet upsides of rectangle, the middle part of rectangle face lid is equipped with hollow cylinder, and the hollow cylinder center is circular receiving window, is used for exposing the calotte of lens, hollow cylinder's inner wall are equipped with the screw thread, are used for connect soon in the upper end of inferior valve.

10. The multiple-mount-based inductor of claim 6, wherein: the epitheca subassembly including overlap in the five gold sheets of rectangle of the upper end platform of inferior valve locate the rectangle foam-rubber cushion of five gold sheet upsides of rectangle, press in the rectangle face lid of five gold sheet upsides of rectangle, the middle part of rectangle face lid is equipped with hollow cylinder, and the hollow cylinder center is circular receiving window for expose the calotte of lens, a pair of incurve pothook of hollow cylinder both sides column wall downwardly extending is used for the joint the inferior valve, and replace the lower cover, the somatic part of pothook are near the outer wall both sides of inferior valve, the hook portion of pothook tightly catches the bottom of inferior valve.