CN219999355U - Inductive head mounting structure of inductive switch - Google Patents

Abstract

The utility model relates to the field of inductive switches, in particular to an inductive head mounting structure of an inductive switch, which comprises a mounting seat and an inductive probe shell clamped on the mounting seat, wherein a plurality of raised strips are arranged on the inductive probe shell at intervals; the mounting part and the two clamping parts are surrounded to form a containing cavity for clamping the induction probe shell. According to the utility model, the mounting seat is mounted on the inner side of the cabinet body through the mounting hole by the screws, then the convex strips are clamped in the grooves and slide along the grooves, the induction probe shell is driven to be clamped in the accommodating cavity, and thus the mounting of the induction head of the induction switch is completed, the mounting process is simple and convenient, and the detachable structure is convenient to maintain or replace.

Description

Inductive head mounting structure of inductive switch

Technical Field

The utility model relates to the field of inductive switches, in particular to an inductive head mounting structure of an inductive switch.

Background

With the development of scientific technology and the improvement of the living standard of people, shops can choose to install the lamp belts in the showcases for better displaying commodities, and some families can choose to install the lamp belts in bookcases or wardrobes and the like for searching the objects conveniently. The traditional switch is installed on the lamp strip, and the lamp strip is manually turned on or turned off every time when being used, so that the lamp strip is more complicated. The general public prefers to use the inductive switch to control the opening and closing of the lamp strip, and the inductive switch generally comprises a touch-type inductive switch, a hand-sweeping-type inductive switch, a door-control-type inductive switch and a human body inductive switch.

At present, the induction switch is installed in a laminate or directly installed at the inner side of a cabinet body, and the common point of the two installation modes is not detachable, so that if faults occur, the whole switch is required to be taken out for maintenance or replacement, and the induction switch is very inconvenient.

Disclosure of Invention

In order to facilitate maintenance or replacement of the inductive switch, the utility model provides an inductive head mounting structure of the inductive switch.

The utility model provides an inductive head mounting structure of an inductive switch, which adopts the following technical scheme:

the induction head mounting structure of the induction switch comprises a mounting seat and an induction probe shell clamped on the mounting seat, wherein a plurality of raised strips are arranged on the induction probe shell at intervals, the mounting seat comprises a mounting part and two clamping parts symmetrically arranged relative to the mounting part, the mounting part is provided with at least one mounting hole for an external screw to pass through, a plurality of grooves are arranged on the clamping parts at intervals, and the raised strips are embedded in the grooves; the mounting part and the two clamping parts are surrounded to form a containing cavity for clamping the induction probe shell.

Through adopting above-mentioned technical scheme, wear external screw through the mounting hole, install the mount pad in the internal mode of cabinet, install earlier and accomplish the mount pad, locate the inductive probe shell card in the mount pad again, specifically, locate the sand grip card in the recess and slide along the recess to drive inductive probe shell card and locate the holding intracavity, can accomplish inductive switch's installation of inductive head, the installation simple and convenient. The structure is established to the card of sand grip and recess plays the effect that the guide inductive probe shell card was located in the mount pad to play accurate installation and spacing effect, prevent that inductive probe shell from dropping easily, inductive probe shell and mount pad's detachable construction can be comparatively portably take off the inductive head simultaneously, maintains or replace it, and the practicality is high.

Optionally, a first flange is disposed on the top of the induction probe housing outwards, and a first accommodating groove for accommodating the first flange is concavely disposed on the top of the installation part.

Through adopting above-mentioned technical scheme, locate first holding groove with first flange card, can be fixed in the mount pad with the inductive probe shell, promote the connection stability of inductive probe shell and mount pad, thereby reduce the possibility that the inductive probe shell takes place the skew in the use influences the result of use.

Optionally, the protruding strip is arranged along the length direction of the induction probe shell, and the groove is arranged along the length direction of the clamping part.

Or, alternatively, the protruding strips are arranged along the width direction of the induction probe shell, and the grooves are arranged along the width direction of the clamping part.

Through adopting above-mentioned technical scheme, with sand grip joint in the recess, can promote the stability that inductive probe shell and mount pad are connected, thereby reduce the possibility that inductive probe shell takes place the skew in the use influences the result of use.

Optionally, a second flange is disposed on the top of the mounting portion and extends toward the accommodating cavity, and the second flange abuts against the first flange.

Through adopting above-mentioned technical scheme, the second flange can restrict the position of inductive probe shell for inductive probe shell can not follow the longitudinal direction of installation department and remove, can promote the connection stability of inductive probe shell and mount pad, thereby reduce the possibility that inductive probe shell takes place the skew in the use influences the result of use.

Optionally, the mounting seat further comprises two rebound parts symmetrically arranged with respect to the mounting part, and the rebound parts are connected with the clamping part.

Through adopting above-mentioned technical scheme, the resilience portion has certain compliance, can convenient to use person breaks off with the fingers and thumb, can not cause the foreign matter to feel to the hand to be convenient for install the inductive head in the mount pad, also be convenient for simultaneously take out maintenance or replacement with the mount pad of installing, promote the comfort level of use.

Optionally, a second accommodating groove is concavely formed in the top of the clamping portion, and the second accommodating groove is communicated with the first accommodating groove.

Through adopting above-mentioned technical scheme, second storage tank and first storage tank intercommunication can hold simultaneously and establish first flange, can promote the connection stability of inductive probe shell and mount pad, thereby reduces the possibility that inductive probe shell takes place the skew in the use influences the result of use.

Optionally, the top of the clamping portion is an upwardly extending oblique side.

Through adopting above-mentioned technical scheme, the setting of hypotenuse can be convenient for look for suitable angle of getting and put and take out inductive probe shell from the mount pad or install in the mount pad, promotes the comfort level of use.

Optionally, the clamping portion is concavely provided with a unfilled corner for accommodating the first flange corresponding to the inclined edge of the top.

Through adopting above-mentioned technical scheme, the first flange of inductive probe shell can the joint in unfilled corner to promote the connection stability of inductive probe shell and mount pad, thereby reduce the possibility that inductive probe shell takes place the skew in the use influences the result of use.

Optionally, the bottom of installation department is provided with winding displacement hole and guiding mouth, the guiding mouth is offered to the top from the bottom edge of installation department, the guiding mouth with the winding displacement hole intercommunication.

Through adopting above-mentioned technical scheme, the electric wire gets into the winding displacement downthehole via the guiding hole for the electric wire law is accomodate in the winding displacement downthehole, promotes the aesthetic measure of inductive switch after the installation, reduces the wire mess problem after the installation.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the mounting seat is mounted on the inner side of the cabinet body through the mounting hole by passing an external screw, the induction probe shell is clamped in the mounting seat, specifically, the raised strips are clamped in the grooves, the raised strips slide along the grooves to drive the induction probe shell to be clamped in the accommodating cavity, the first flange is simultaneously clamped in the first accommodating groove and is clamped in the unfilled corner, and the induction probe shell of the induction switch can be mounted simply and conveniently; the clamping structure of the convex strips and the grooves plays a role in guiding the induction probe shell to be clamped in the mounting seat, plays a role in accurate mounting and limiting, prevents the induction probe shell from falling easily, and reduces the possibility that the induction probe shell is deviated in the use process so as to influence the use effect; meanwhile, the detachable structure of the induction probe shell and the mounting seat is convenient for taking down the induction head to repair or replace the induction head;

2. the resilience part can facilitate the user to break the clamping part, the elasticity of the resilience part is convenient for the finger to be accommodated in the accommodating cavity with smaller volume so as to detach the induction probe shell from the mounting seat, and the resilience part can clamp the induction probe shell stably after recovery, thereby improving the convenience of disassembly and assembly; and the oblique angle can be convenient for look for suitable angle of taking to be convenient for install inductive probe shell in the mount pad, also be convenient for take out maintenance or replacement with the mount pad of installing simultaneously, promote the comfort level of use.

Drawings

Fig. 1 is a schematic structural view of the mounting base in embodiment 1.

Fig. 2 is a schematic structural view of the induction head casing according to embodiment 1 and embodiment 3.

Fig. 3 is a schematic structural view of the mounting base in embodiment 2.

Fig. 4 is a schematic structural view of the induction head casing according to embodiment 2 and embodiment 4.

Fig. 5 is a schematic structural view of the mounting base in embodiment 3.

Fig. 6 is a schematic structural view of the mounting base in embodiment 4.

Reference numerals illustrate: 1. a mounting base; 111. a mounting hole; 112. a first accommodating groove; 113. a second flange; 114. a wire arrangement hole; 115. a guide opening; 121. a groove; 122. a second accommodating groove; 123. a beveled edge; 124. unfilled corners; 13. a receiving chamber; 14. a rebound part; 2. an inductive probe housing; 21. a convex strip; 22. a first flange.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-6.

Example 1

The embodiment of the utility model discloses an inductive head mounting structure of an inductive switch. Referring to fig. 1 and 2, the inductive head mounting structure of the inductive switch includes a mounting seat 1 and an inductive probe housing 2, the mounting seat 1 includes a mounting portion, a clamping portion and a rebound portion 14, the clamping portion is symmetrically disposed with respect to the mounting portion, the rebound portion 14 is symmetrically disposed with respect to the mounting portion and is connected to one side of the clamping portion away from the mounting portion, the two clamping portions and the two rebound portions 14 enclose to form a containing cavity 13 for containing and clamping the inductive probe housing 2, the mounting portion is provided with a mounting hole 111, a first containing groove 112, a wire arranging hole 114 and a guiding port 115, the mounting hole 111 is disposed in the middle of the mounting portion, and the mounting hole 111 is provided with at least one wire for an external screw to pass through, the first containing groove 112 is provided with one end surface of the mounting portion, the guiding port 115 is provided with the other end surface of the mounting portion, the wire arranging hole 114 is provided with a guiding port 115 close to the guiding port 115, the guiding port 115 extends from the end surface to the direction close to the mounting hole 111, and the guiding port 115 is communicated with the wire arranging hole 114, in particular, the wire arranging hole 114 is communicated with the guiding port 115 and forms a T-shaped wire clamping cavity for arranging the wire in the T-shaped cavity. The clamping portion is provided with a groove 121, a bevel edge 123 and a unfilled corner 124, referring to fig. 3, the sensing probe shell 2 is provided with a raised line 21 and a first flange 22, the raised line 21 is arranged along the length direction of the sensing probe shell 2, the first flange 22 is arranged at the end part of the sensing probe shell 2, further referring to fig. 2 and 3, the groove 121 is arranged at the inner side of the clamping portion, the groove 121 is arranged along the length direction of the mounting seat 1, the raised line 21 is clamped in the groove 121, the bevel edge 123 is arranged at one end surface of the clamping portion, which is close to the first accommodating groove 112, and extends upwards along the top of the clamping portion, the top end surface of the bevel edge 123 is communicated with the first accommodating groove 112, so that the first flange 22 is easy to align with the first accommodating groove 112 and slide into the first accommodating groove 112, the unfilled corner 124 is concavely arranged at the bevel edge 123 of the corresponding top of the clamping portion, and the first flange 22 is accommodated in the unfilled corner 124.

The implementation principle of the inductive head mounting structure of the inductive switch of the embodiment of the utility model is as follows: firstly, external screws penetrate through the mounting holes 111 to be mounted on the inner side of the cabinet body, the mounting of the mounting seat 1 is completed, then the induction probe shell 2 is clamped in the mounting seat 1, specifically, the raised strips 21 slide along the length direction of the mounting seat 1 and are clamped in the grooves 121, the induction probe shell 2 is clamped in the accommodating cavity 13, the first flange 22 is clamped in the first accommodating groove 112 and is clamped in the unfilled corner 124, and the electric wires are mounted in the T-shaped accommodating wire cavity along the guide opening 115, so that the mounting of the induction head of the induction switch can be completed.

Example 2

Referring to fig. 3 and 4, the present embodiment is different from embodiment 1 in that: the groove 121 is provided along the width direction of the mounting base 1, and the convex strip 21 is provided along the width direction of the sensing probe housing 2, that is, when the sensing probe housing 2 is cylindrical, the convex strip 21 is provided along the circumferential direction of the housing.

The implementation principle of embodiment 2 differs from that of embodiment 1 in that: the protruding strip 21 slides along the width direction of the mounting seat 1 and is clamped in the groove 121, namely, is clamped in the groove 121 along the circumferential direction of the induction head shell.

Example 3

Referring to fig. 2 and 5, the present embodiment is different from embodiment 1 in that: the mounting part further comprises a second flange 113 arranged at the top of the mounting part and extending towards the accommodating cavity 13, and when the first flange 22 is clamped in the first accommodating groove 112, the second flange 113 is abutted with the first flange 22; further, the clamping portion further includes a second accommodating groove 122 concavely arranged at the top of the clamping portion, and the second accommodating groove 122 is communicated with the first accommodating groove 112, so that the clamping stability of the mounting portion and the clamping portion to the induction probe housing 2 is improved.

The implementation principle of embodiment 3 is different from that of embodiment 1 in that: when the induction probe housing 2 is mounted, the first flange 22 is abutted against the second flange 113, so that the first flange 22 can be conveniently and accurately positioned and clamped in the second accommodating groove 122.

Example 4

Referring to fig. 4 and 6, this embodiment is different from embodiment 2 in that: the mounting part further comprises a second flange 113 arranged at the top of the mounting part and extending towards the accommodating cavity 13, and when the first flange 22 is clamped in the first accommodating groove 112, the second flange 113 is abutted with the first flange 22; further, the clamping portion further includes a second accommodating groove 122 concavely arranged at the top of the clamping portion, and the second accommodating groove 122 is communicated with the first accommodating groove 112, so that the clamping stability of the mounting portion and the clamping portion to the induction probe housing 2 is improved.

The implementation principle of embodiment 4 differs from that of embodiment 2 in that: when the induction probe housing 2 is mounted, the first flange 22 is mounted in contact with the second flange 113, and the first flange 22 is engaged with the second accommodation groove 122.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (10)

1. An inductive head mounting structure of an inductive switch, which is characterized in that: the induction probe comprises a mounting seat (1) and an induction probe shell (2) clamped on the mounting seat (1), wherein a plurality of raised strips (21) are arranged on the induction probe shell (2) at intervals, the mounting seat (1) comprises a mounting part and two clamping parts symmetrically arranged relative to the mounting part, at least one mounting hole (111) for an external screw to pass through is formed in the mounting part, a plurality of grooves (121) are arranged on the clamping parts at intervals, and the raised strips (21) are embedded in the grooves (121); the mounting part and the two clamping parts are surrounded to form a containing cavity (13) for clamping the induction probe shell (2).

2. The inductive head mounting structure of an inductive switch of claim 1, wherein: the top of the induction probe shell (2) is outwards provided with a first flange (22), and the top of the installation part is concavely provided with a first accommodating groove (112) for accommodating the first flange (22).

3. The inductive head mounting structure of an inductive switch according to claim 2, wherein: the raised strips (21) are arranged along the length direction of the induction probe shell (2), and the grooves (121) are arranged along the length direction of the clamping part.

4. The inductive head mounting structure of an inductive switch according to claim 2, wherein: the convex strips (21) are arranged along the width direction of the induction probe shell (2), and the grooves (121) are arranged along the width direction of the clamping part.

5. The inductive head mounting structure of an inductive switch of claim 4, wherein: the top of the mounting part extends to the accommodating cavity (13) and is provided with a second flange (113), and the second flange (113) is abutted with the first flange (22).

6. The inductive head mounting structure of an inductive switch according to any one of claims 1 to 5, wherein: the mounting seat (1) further comprises two rebound parts (14) symmetrically arranged relative to the mounting part, and the rebound parts (14) are connected with the clamping part.

7. The inductive head mounting structure of an inductive switch according to claim 2, wherein: the top of the clamping part is concavely provided with a second accommodating groove (122), and the second accommodating groove (122) is communicated with the first accommodating groove (112).

8. The inductive head mounting structure of an inductive switch of claim 1, wherein: the top of the clamping part is provided with an upward extending bevel edge (123).

9. The inductive head mounting structure of an inductive switch of claim 8, wherein: the clamping part is concavely provided with a unfilled corner (124) for accommodating the first flange (22) corresponding to the inclined edge (123) of the top.

10. The inductive head mounting structure of an inductive switch of claim 1, wherein: the bottom of the installation part 9 is provided with a wire arranging hole (114) and a guide opening (115), the guide opening (115) is arranged from the bottom edge of the installation part to the top, and the guide opening (115) is communicated with the wire arranging hole (114).