CN215272398U - Infrared subassembly rapid Assembly structure of intelligence closestool - Google Patents

Abstract

The utility model relates to an infrared subassembly rapid Assembly structure of intelligent closestool. The infrared receiving head solves the problems that in the prior art, an infrared receiving head is inconvenient to install and assemble, and the signal receiving range is not wide enough. The novel closestool comprises a closestool cover body, wherein a mounting seat is arranged on one side of the closestool cover body, a positioning assembly is arranged on one side of the mounting seat, a mounting assembly with an infrared receiving window is arranged in the positioning assembly, the infrared receiving window is hemispherical and is exposed out of the outer wall of the mounting seat, an infrared receiving assembly is arranged in the infrared receiving window, an infrared receiving module at one end of the infrared receiving assembly is located on the circumferential inner side of the infrared receiving window and is exposed out of the outer wall of the mounting seat, and one end, away from the infrared receiving module, of the infrared receiving assembly is fixed through the assembly of the cover body assembly. The utility model has the advantages that: the signal receiving range is wide, the effect is good, and the assembly is rapid.

Description

Infrared subassembly rapid Assembly structure of intelligence closestool

Technical Field

The utility model relates to an infrared receiving technology field, concretely relates to intelligent closestool's infrared subassembly rapid Assembly structure.

Background

At present, most electronic products are provided with a remote control receiving device which is used for switching on and off a power supply of an electric appliance or transmitting signals, a core component, namely an infrared receiving head, is arranged in the remote control receiving device, the infrared receiving head is generally directly fixed on a circuit board in a pin welding mode, although the fixing mode is simple and direct, due to the insufficient rigidity of the pins, the pins are easy to deform to cause inaccurate positioning, and further the sensitivity of the remote control receiving device on signal receiving is influenced; moreover, the existing infrared receiving head is complex in mounting structure and inconvenient to assemble, and meanwhile, the assembled infrared receiving head is generally positioned in equipment, so that the signal receiving range is not wide enough, and the signal receiving strength is influenced.

In order to solve the defects of the prior art, people have long searched for and put forward various solutions. For example, chinese patent literature discloses a mounting structure of an infrared receiving head [ CN201410302262.3], which comprises an infrared receiving head, a circuit board, and a bracket, wherein the infrared receiving head comprises a receiving body and a pin extending from the receiving body, the bracket comprises a main board and clamping plates respectively disposed at two sides of the main board, the two clamping plates and the main board enclose a U-shaped groove for the infrared receiving head to penetrate, convex strips protruding from inner side surfaces of the two clamping plates are in spacing fit with side surfaces of the receiving body, clamping blocks for pressing the pin are respectively disposed at lower ends of the two convex strips, a distance between the two clamping blocks is smaller than a distance between the two convex strips, a limiting strip protruding from an inner side wall of the main board is in spacing fit with a bottom surface of the receiving body, and the limiting strip is located obliquely above the clamping blocks; the bottom surface of mainboard stretches out there is the buckle head, opens on the circuit board have with buckle head complex card hole, still opens on the circuit board and supplies pin cartridge complex through-hole.

Above-mentioned scheme has solved to a certain extent among the prior art infrared receiving head pin and has warp easily and lead to the inaccurate and then influence the problem of signal sensitivity in location, but this scheme still has a lot of not enoughly, for example: the structure is complicated, the assembly is inconvenient, moreover, the signal reception scope is not extensive enough, influences signal reception's intensity.

Disclosure of Invention

The utility model aims at the above problem, a reasonable in design is provided, and signal reception is effectual and assemble convenient intelligent closestool's infrared subassembly rapid Assembly structure.

In order to achieve the above purpose, the utility model adopts the following technical proposal: this intelligent closestool's infrared subassembly rapid Assembly structure, including the closestool lid, closestool lid one side is equipped with the mount pad, mount pad one side is equipped with locating component, be equipped with the installation component that has the infrared ray receiving window in the locating component, the infrared ray receiving window is hemispherical and exposes in the mount pad outer wall, be equipped with the infrared ray receiving assembly in the infrared ray receiving window, and the infrared receiving module of infrared ray receiving assembly one end is located infrared ray receiving window circumference inboard and exposes in the mount pad outer wall, the infrared ray receiving assembly is kept away from infrared receiving module one end and is passed through the assembly lid subassembly and fix. Through set up infrared ray receiving assembly in the installation component that has infrared ray receiving window, utilize locating component to fix a position installation component one end to fix and seal through assembling lid body unit mount subassembly, make infrared receiving module be located infrared ray receiving window circumference inboard and expose in the mount pad outer wall simultaneously, not only can realize infrared ray receiving assembly's rapid Assembly, it is convenient to install, can make infrared receiving module's receiving range wider moreover, and the receiving effect is better.

In foretell intelligent closestool's infrared subassembly rapid Assembly structure, the installation component is including the installation framework, and installation framework circumference inboard forms installation space, and arbitrary one side of installation framework is equipped with arc positioning groove, and the installation framework upper end has the U-shaped constant head tank that is used for fixing a position infrared ray receiving component. Fix a position the infrared ray receiving assembly through the installation framework, prevent that infrared ray receiving assembly and mount pad inner wall from producing the contact, the protecting effect is good, and stability is good.

In the infrared component quick assembly structure of the intelligent closestool, one side, far away from the installation space, of the installation frame body is provided with the guide cylinder part, and the infrared receiving window is fixedly connected with one end of the guide cylinder part. The exposed range of the infrared receiving window can be adjusted by utilizing the guide cylinder part, and the flexibility is good.

In the infrared component quick assembly structure of the intelligent closestool, the upper end of the guide cylinder part is provided with the limiting convex block.

In the above infrared component rapid assembly structure of the intelligent toilet, the infrared receiving component includes a circuit board, a plurality of electronic components are arranged on the circuit board, and the infrared receiving module is connected with one of the electronic components through pins.

In foretell intelligent closestool's infrared subassembly rapid Assembly structure, assembly lid subassembly is including the assembly framework, and the inboard mounting groove that is used for installing the circuit board that forms of assembly framework circumference, and the mounting groove circumference is equipped with a plurality of L shape location portions that are the symmetry and set up, and assembly framework both sides are frame location portion in addition, are equipped with the locating hole on the frame location portion. The frame positioning part keeps the assembly frame and the mounting seat fixed.

In foretell intelligent closestool's infrared subassembly rapid Assembly structure, assembly framework circumference inner wall is equipped with a plurality of joint spare that are used for fixed circuit board, and still is equipped with a plurality of through wires holes that correspond the setting with electronic component on the assembly framework. Utilize the joint spare can effectively fix the circuit board, stability is good.

In foretell intelligent closestool's infrared subassembly rapid Assembly structure, locating component includes the locating frame body, and locating frame body circumference inboard forms the constant head tank, and is equipped with the receiving window locating hole that communicates with the mount pad outside in the constant head tank each other. The positioning frame body can effectively fix the installation frame body, so that the infrared receiving assembly is kept stable.

In foretell intelligent closestool's infrared subassembly rapid Assembly structure, the locating frame body bottom is equipped with spacing arch, and locating frame body one side is vertical to be equipped with and is the location arch that corresponds the setting with arc positioning groove.

In the infrared component quick assembly structure of the intelligent closestool, the two sides of the positioning component are provided with the mounting posts which are correspondingly arranged with the positioning holes. Through mutually supporting of erection column and locating hole, the dismouting is convenient.

Compared with the prior art, the utility model has the advantages of: the structure is simple, reasonable in design through setting up infrared receiving module at the infrared ray receiving window, and the infrared ray receiving window sets up at the mount pad outer wall, makes infrared receiving module have wider receiving range, and signal reception is effectual, fixes the circuit board of assembling lid subassembly through assembling lid subassembly moreover, utilizes locating component to fix a position infrared receiving module, and not only stable effectual, convenient assembling moreover.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural view of the infrared receiving module of the present invention installed in the assembly frame;

fig. 3 is a back structural view of the assembly frame body of the present invention;

fig. 4 is a schematic structural view of the mounting frame body in the present invention;

fig. 5 is a schematic view of the installation position of the present invention;

fig. 6 is a schematic view of the positioning frame position in the present invention;

fig. 7 is an enlarged view of a structure in fig. 6.

In the figure, the toilet lid 1, the mounting seat 11, the positioning component 2, the positioning frame 21, the positioning groove 22, the receiving window positioning hole 23, the limit protrusion 24, the positioning protrusion 25, the mounting post 26, the mounting component 3, the infrared receiving window 31, the mounting frame 32, the mounting space 33, the arc-shaped positioning groove 34, the U-shaped positioning groove 35, the guide cylinder part 36, the limit protrusion 37, the infrared receiving component 4, the infrared receiving module 41, the circuit board 42, the electronic component 43, the stitch 44, the mounting lid component 5, the mounting frame 51, the mounting groove 52, the L-shaped positioning part 53, the frame positioning part 54, the positioning hole 55, the clip 56, and the threading hole 57.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-7, the infrared component fast assembly structure of the intelligent toilet bowl includes a toilet bowl cover 1, a mounting seat 11 is disposed on one side of the toilet bowl cover 1, a positioning component 2 is disposed on one side of the mounting seat 11, a mounting component 3 having an infrared receiving window 31 is disposed in the positioning component 2, the infrared receiving window 31 is hemispherical and exposed out of the outer wall of the mounting seat 11, an infrared receiving component 4 is disposed in the infrared receiving window 31, an infrared receiving module 41 at one end of the infrared receiving component 4 is located on the inner circumferential side of the infrared receiving window 31 and exposed out of the outer wall of the mounting seat 11, and one end of the infrared receiving component 4, which is far away from the infrared receiving module 41, is fixed by assembling a cover component 5. Fix infrared receiving assembly 4 through assembly lid subassembly 5 and installation component 3, utilize locating component 2 to fix a position installation component 3, make infrared receiving module 41 be located infrared receiving window 31, and infrared receiving window 31 sets up at mount pad 11 outer wall, consequently makes infrared receiving module 41 have wider signal reception scope, and signal reception is effectual, and is more convenient during the assembly moreover, and is pleasing to the eye practical.

The mounting assembly 3 includes a mounting frame 32, a mounting space 33 is formed on the circumferential inner side of the mounting frame 32, an arc-shaped positioning groove 34 is formed on any side of the mounting frame 32, and a U-shaped positioning groove 35 for positioning the infrared receiving assembly 4 is formed at the upper end of the mounting frame 32.

A guide cylinder portion 36 is provided on a side of the mounting frame 32 away from the mounting space 33, and the infrared receiving window 31 is fixedly connected to one end of the guide cylinder portion 36. The guide cylinder portion 36 is mainly used for adjusting the exposed range of the infrared receiving window 31,

furthermore, a limit bump 37 is arranged at the upper end of the guide cylinder part 36. The stopper projection 37 is used to prevent friction damage between the mounting frame 32 and the positioning frame 21 during assembly.

Obviously, the infrared receiving assembly 4 comprises a circuit board 42, on which circuit board 42 several electronic components 43 are arranged, and the infrared receiving module 41 is connected to one of the electronic components 43 by means of a pin 44.

In detail, the assembly cover assembly 5 includes an assembly frame 51, an installation groove 52 for installing the circuit board 42 is formed on the circumferential inner side of the assembly frame 51, a plurality of L-shaped positioning portions 53 are symmetrically arranged on the circumferential inner side of the installation groove 52, frame positioning portions 54 are further arranged on both sides of the assembly frame 51, and positioning holes 55 are formed on the frame positioning portions 54. The fitting of the fitting frame body 51 and the mounting frame body 32 fixes the circuit board 42.

Furthermore, the inner circumferential wall of the assembly frame 51 is provided with a plurality of fasteners 56 for fixing the circuit board 42, and the assembly frame 51 is further provided with a plurality of threading holes 57 corresponding to the electronic components 43.

Specifically, the positioning assembly 2 includes a positioning frame 21, a positioning groove 22 is formed on the inner side of the positioning frame 21 in the circumferential direction, and a receiving window positioning hole 23 communicated with the outer side of the mounting seat 11 is formed in the positioning groove 22. The positioning frame 21 is used to stabilize the mounting frame 32 and also to prevent the mounting frame from being inaccurately positioned.

Preferably, the bottom of the positioning frame body 21 is provided with a limiting protrusion 24, and one side of the positioning frame body 21 is vertically provided with a positioning protrusion 25 corresponding to the arc-shaped positioning groove 44.

More specifically, the positioning assembly 2 is provided with mounting posts 26 on both sides thereof, which are disposed corresponding to the positioning holes 55.

The principle of the embodiment is as follows: fix a position and fix infrared receiving assembly 4 through assembly lid subassembly 5 and installation component 3, set up infrared receiving module 41 to infrared receiving window 31 to set up infrared receiving window 31 to 11 outer walls of mount pad, make infrared receiving module 41 have the bigger signal reception scope, the receiving effect is good, simultaneously, utilize locating component 2 to stabilize installation component 3, simple structure not only, it is convenient to assemble moreover.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms of the toilet lid 1, the mount 11, the positioning member 2, the positioning frame 21, the positioning groove 22, the receiving window positioning hole 23, the positioning protrusion 24, the positioning protrusion 25, the mounting post 26, the mounting member 3, the infrared receiving window 31, the mounting frame 32, the mounting space 33, the arc-shaped positioning groove 34, the U-shaped positioning groove 35, the guide tube portion 36, the positioning protrusion 37, the infrared receiving member 4, the infrared receiving module 41, the circuit board 42, the electronic component 43, the stitch 44, the mounting lid member 5, the mounting frame 51, the mounting groove 52, the L-shaped positioning portion 53, the frame positioning portion 54, the positioning hole 55, the snap 56, the threading hole 57, etc. are used more frequently herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. A quick assembly structure of an infrared component of an intelligent closestool comprises a closestool cover body (1), one side of the toilet bowl cover body (1) is provided with an installation seat (11), one side of the installation seat (11) is provided with a positioning component (2), it is characterized in that the positioning component (2) is internally provided with a mounting component (3) with an infrared receiving window (31), the infrared receiving window (31) is hemispherical and exposed out of the outer wall of the mounting seat (11), an infrared receiving component (4) is arranged in the infrared receiving window (31), and an infrared receiving module (41) at one end of the infrared receiving component (4) is positioned at the circumferential inner side of the infrared receiving window (31) and exposed out of the outer wall of the mounting seat (11), one end of the infrared receiving component (4) far away from the infrared receiving module (41) is fixed by assembling a cover body component (5).

2. The infrared component rapid assembly structure of the intelligent closestool according to claim 1, wherein the installation component (3) comprises an installation frame body (32), an installation space (33) is formed on the circumferential inner side of the installation frame body (32), an arc-shaped positioning groove (34) is formed in any side of the installation frame body (32), and a U-shaped positioning groove (35) for positioning the infrared receiving component (4) is formed in the upper end of the installation frame body (32).

3. The infrared module rapid assembly structure of the intelligent closestool according to the claim 2, characterized in that a guide cylinder part (36) is connected to one side of the installation frame body (32) far away from the installation space (33), and the infrared receiving window (31) is fixedly connected with one end of the guide cylinder part (36).

4. The infrared module quick-assembly structure of the intelligent closestool according to the claim 3, characterized in that the upper end of the guide cylinder part (36) is provided with a limit bump (37).

5. The infrared component rapid-assembling structure of the intelligent closestool according to the claim 1 is characterized in that the infrared receiving component (4) comprises a circuit board (42), a plurality of electronic components (43) are arranged on the circuit board (42), and the infrared receiving module (41) is connected with one of the electronic components (43) through a pin (44).

6. The infrared component rapid assembly structure of the intelligent closestool according to claim 5, wherein the assembly cover body component (5) comprises an assembly frame body (51), an installation groove (52) for installing the circuit board (42) is formed on the circumferential inner side of the assembly frame body (51), a plurality of L-shaped positioning parts (53) which are symmetrically arranged are arranged on the inner circumference of the installation groove (52), frame body positioning parts (54) are arranged on two sides of the assembly frame body (51), and positioning holes (55) are arranged on the frame body positioning parts (54).

7. The infrared component rapid assembly structure of the intelligent closestool according to claim 6, wherein the circumferential inner wall of the assembly frame body (51) is provided with a plurality of clamping pieces (56) for fixing the circuit board (42), and the assembly frame body (51) is further provided with a plurality of threading holes (57) corresponding to the electronic elements (43).

8. The infrared component rapid assembly structure of the intelligent closestool according to claim 2, wherein the positioning component (2) comprises a positioning frame body (21), a positioning groove (22) is formed on the circumferential inner side of the positioning frame body (21), and a receiving window positioning hole (23) communicated with the outer side of the mounting seat (11) is formed in the positioning groove (22).

9. The infrared component rapid assembly structure of the intelligent closestool according to claim 8, wherein the bottom of the positioning frame body (21) is provided with a limiting protrusion (24), and one side of the positioning frame body (21) is vertically provided with a positioning protrusion (25) which is correspondingly arranged with the arc-shaped positioning groove (44).

10. The infrared component rapid assembly structure of the intelligent closestool according to claim 6, wherein the two sides of the positioning component (2) are provided with mounting posts (26) which are arranged corresponding to the positioning holes (55).

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