CN213717949U - Inductive switch mounting structure and inductive switch - Google Patents

Abstract

The utility model discloses an inductive switch mounting structure and inductive switch. Inductive switch mounting structure, including the switch body, be equipped with on the switch body be used for with by the convenient mounting structure of connector connection, convenient mounting structure includes swing joint's elasticity joint portion. Through the convenient mounting structure who sets up on the switch body, locate the elasticity joint portion on the switch body promptly and can dismantle by the connector and be connected for inductive switch's switch body can be simple, convenient install on the furniture that needs the illumination, solve the problem that current inductive switch structure is complicated, inconvenient installation.

Description

Inductive switch mounting structure and inductive switch

[ technical field ] A method for producing a semiconductor device

The utility model relates to an induction lamp technical field, concretely relates to inductive switch mounting structure and inductive switch.

[ background of the invention ]

At present, induction lamps are arranged on some furniture needing illumination, such as wardrobes, cabinets, book cabinets, file cabinets, drawer cabinets and the like. Use the wardrobe as the example, the wardrobe is accomodate the apparatus as a clothing and has been widely used by people, all is equipped with the horizontal pole that hangs the clothing in general wardrobe or accomodates devices such as drawer in order to make things convenient for people to use, for the clothing of taking of people, the response lamp is triggered by inductive switch when people open the wardrobe door, provides illumination light for people and makes things convenient for people to take the clothing. However, with the change of fashion trend, the recent luxury and extremely simple furniture style becomes the mainstream trend, the intelligent lighting system is more important in the furniture fitting, each group of cabinets needs to be against the illumination, and a plurality of illumination products can appear in each group of cabinets. Each lamp product is provided with an induction switch, so that the cost of the induction lamp is greatly increased, and the installation structure is complex, inconvenient to operate and not attractive enough; when the cabinet door is opened, the lamps in the cabinet are hardly opened at the same time, and the induction switches are arranged on each layer, so that the wardrobe cannot realize centralized control of the induction lamps, and very uncomfortable feeling is brought to a user. Therefore, it is necessary to develop and innovate a new centralized control inductive switch to solve at least one of the above problems.

[ Utility model ] content

The utility model provides an inductive switch mounting structure solves the problem that current inductive switch structure is complicated, inconvenient installation.

In order to solve the above problem, the utility model provides a technical scheme as follows: inductive switch mounting structure, including the switch body, be equipped with on the switch body be used for with by the convenient mounting structure of connector connection, convenient mounting structure includes swing joint's elasticity joint portion.

The easy-to-mount structure includes a mounting positioning portion for defining a mounting position of the switch body.

The mounting and positioning portion includes a flange extending radially outward along a front end surface of the switch body.

The elastic clamping part comprises limiting clamping strips which are arranged on two sides of the switch body and have outward elastic trend; the limiting clamping strip is connected to one end of the switch body; the limiting clamping strip comprises a first extending part and a second extending part, wherein the first extending part extends from the switch body to the direction away from the switch body gradually, and the second extending part is connected with the first extending part and gradually approaches the switch body; the distance from the joint of the first extension part and the second extension part to the switch body is the largest.

And the outer side surface of the joint of the first extension part and the second extension part is provided with a stopping strip protruding outwards.

The convenient mounting structure comprises a mounting part sleeved on the outer side of the switch body and used for mounting the switch body, and the elastic clamping part is elastically clamped with the mounting part.

The mounting piece is provided with a mounting cavity for sleeving the switch body, and a clamping part matched with the limiting clamping strip is arranged in the mounting cavity.

The switch comprises a switch body and is characterized in that one side surface of the mounting piece is provided with a mounting hole for connecting the mounting piece with a connected body, the other side surface of the mounting piece is provided with a display window corresponding to the mounting hole, and the switch body is provided with an information display area corresponding to the display window.

The utility model also provides an inductive switch convenient to installation, include inductive switch mounting structure, be equipped with inductive probe on the switch body.

The switch is characterized in that two induction probes are arranged on the switch body, one induction probe is arranged on the left side of the front end face of the switch body, and the other induction probe is arranged on the right side of the front end face of the switch body.

Compared with the prior art, the utility model has the advantages of it is following:

1. the utility model discloses an inductive switch mounting structure, through the convenient mounting structure who sets up on the switch body, the elasticity joint portion that locates on the switch body promptly can be dismantled with the connected body and be connected for inductive switch's switch body can be simply, convenient installation on the furniture that needs the illumination, has solved the complicated, inconvenient problem of installing of current inductive switch structure;

2. the utility model discloses an inductive switch mounting structure, through the spacing card strip that sets up in switch body both sides with by the internal surface apical grafting of the mounting groove that sets up on the connector, make inductive switch's switch body simple, convenient card locate by the mounting groove of connector in, inductive switch installs simply, swiftly, the operation of being convenient for has solved the problem that current inductive switch structure is complicated, inconvenient to install; the outer side surface of the joint of the first extension part and the second extension part of the limiting clamping strip is provided with the stopping strip protruding outwards, so that the friction force between the limiting clamping strip and the inner surface of the mounting groove is increased, the switch body connected with the limiting clamping strip is stably clamped in the mounting groove of the connected body and cannot be easily separated, and a relatively stable state is kept; the flange arranged on the front end face of the switch body plays a limiting role that the switch body cannot continuously slide into the mounting groove, and the front end face of the switch body is flush with the surface of the connected body, so that the switch body looks beautiful and tidy;

3. the inductive switch of the utility model has the advantages that the switch body of the inductive switch can simply slide into and be relatively fixed in the mounting groove of the furniture through the elastic limit clamping strip and the flange of the convenient mounting structure, the embedded mounting is realized on the furniture needing illumination, and the inductive switch is integrated with the furniture into a whole and is beautiful and elegant; the induction switch of the utility model is fixed on the furniture needing illumination by passing the mounting part of the convenient mounting structure through the display window and the mounting hole by screws, and then the switch body is clamped in and relatively fixed in the mounting part by the limiting clamping strip and the flange, so that the open installation is realized on the furniture needing illumination, and the installation structure of the induction switch is simple and convenient for installation;

4. the induction switch of the utility model realizes that the induction lamps of each layer in the furniture can be simultaneously opened when any one or two doors are opened by making one induction probe arranged close to the left on the front end surface of the switch body correspond to one door arranged close to the left on the furniture and one induction probe arranged close to the right on the front end surface of the switch body correspond to one door arranged close to the right on the furniture; when the two side-by-side doors are closed together, the induction lamps of all layers in the furniture are simultaneously turned off, so that the centralized control of the induction lamps is realized, and the induction lamps can be simultaneously turned on or simultaneously turned off;

5. the utility model discloses an inductive switch can also set up built-in battery on the switch body, and for inductive switch's inductive probe power supply, inductive probe sends inductive signal to the receiver with wireless mode again, and the receiver finally realizes the centralized control of wireless drive formula inductive switch to the inductive lamp according to all illumination lamps and lanterns in the inductive signal switch board of receiving.

[ description of the drawings ]

Fig. 1 is a perspective view of an inductive switch according to embodiment 1 of the present invention.

Fig. 2 is a front view of an inductive switch according to embodiment 1 of the present invention.

Fig. 3 is a state diagram of the inductive switch according to embodiment 1 of the present invention before installation.

Fig. 4 is a state diagram of the induction switch according to embodiment 1 of the present invention after installation.

Fig. 5 is a perspective view of an inductive switch according to embodiment 2 of the present invention.

Fig. 6 is an exploded view of an inductive switch according to embodiment 2 of the present invention.

Fig. 7 is a cross-sectional view of an inductive switch according to embodiment 2 of the present invention along section line a-a in fig. 5.

Fig. 8 is a schematic view of an installation manner of an installation member of an induction switch according to embodiment 2 of the present invention.

Fig. 9 is a state diagram of the inductive switch according to embodiment 2 of the present invention after installation.

Fig. 10 shows an ir correlation interface of a receiver according to embodiment 3 of the present invention.

Fig. 11 is a power interface of a receiver according to embodiment 3 of the present invention.

Fig. 12 is a second infrared correlation tube interface of the receiver according to embodiment 3 of the present invention.

Fig. 13 is an MCU interface of a receiver according to embodiment 3 of the present invention.

Fig. 14 is a circuit diagram of an induction lamp switch control circuit according to embodiment 3 of the present invention.

Fig. 15 is a power supply circuit diagram according to embodiment 3 of the present invention.

Fig. 16 is an infrared correlation receiving circuit diagram of an inductive probe according to embodiment 3 of the present invention.

Fig. 17 is an infrared correlation tube emission circuit diagram of an inductive probe according to embodiment 3 of the present invention.

Fig. 18 is a circuit diagram of an inductive probe U4 according to embodiment 4 of the present invention.

Fig. 19 is a circuit diagram of an inductive probe U5 according to embodiment 4 of the present invention.

Fig. 20 is a circuit diagram of the MCU according to embodiment 4 of the present invention.

Fig. 21 is a circuit diagram of a 2.4G communication module according to embodiment 4 of the present invention.

Fig. 22 is a charging-power supply circuit diagram of the battery according to embodiment 4 of the present invention.

[ detailed description ] embodiments

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

Examples 1, 2, 3 and 4 all use a multi-layer double-door wardrobe as representative of the furniture to be illuminated to illustrate the advantages of the inductive switch of the present invention.

Example 1: as shown in fig. 1 to 4, the present embodiment provides an inductive switch, the inductive switch includes a switch body 1, a convenient mounting structure 4 for being connected with a connected body is provided on the switch body 1, the convenient mounting structure 4 includes a movably connected elastic clamping portion 4 a. Through the convenient mounting structure 4 that sets up on the switch body, locate elasticity joint portion 4a on the switch body promptly and can dismantle with by the connector and be connected for inductive switch's switch body can be simple, convenient install on the wardrobe that needs the illumination, solve the problem that current inductive switch structure is complicated, inconvenient installation.

The inductive switch is installed on the top wall or the lower wall or the rear inner wall of the wardrobe or the middle part of the layered plate in an embedded installation mode, so that the wardrobe door can completely shield the inductive switch. The wardrobe 3 is provided with a waist-shaped mounting groove 31 for inserting the switch body and the limiting clamping strip. The inductive probes 13 are electrically connected with the inductive lamps in a parallel connection mode, so that the inductive lamps are controlled in a centralized mode through the inductive switches and can be opened or closed simultaneously, as shown in the attached drawing 2, two inductive probes 13 are arranged on the switch body 1, one of the inductive probes 13 is arranged on the left side of the front end face of the switch body 1, the other inductive probe 13 is arranged on the right side of the front end face of the switch body 1, a switch door arranged on the left side of the wardrobe corresponds to the position of the inductive probe arranged on the left side, a switch door arranged on the right side corresponds to the position of the inductive probe arranged on the right side, and each inductive probe of the inductive switches corresponds to one wardrobe door. The dotted line M in the figure represents the projection of the door seam of the split doors, and when any one door or two doors of the wardrobe are completely opened, the induction lamps connected with the induction switches in parallel are completely opened to illuminate the space in the wardrobe. When the two doors are closed completely, the induction lamps in the wardrobe are closed completely at the same time. Therefore, the opening and closing of the induction lamps in different spaces in the wardrobe can be controlled only by arranging one induction switch on the furniture, and the induction switches do not need to be arranged in each layer or each space, so that the cost of the induction switches is saved.

Each induction probe comprises a light projector and a light receiver, the light projector can be any one of a bulb, a red light LED, a green light LED and an IR infrared light LED, and the light receiver can be a photosensitive transistor or a photodiode or a photosensitive resistor. In this embodiment, the light projector is a red LED and is located on the left side of the inductive probe 13; the light receiver is a photodiode and is located on the right side of the inductive probe 13.

Convenient mounting structure 4 is including being used for injecing the installation location portion 4b of the mounted position of switch body 1, installation location portion 4b makes the length of switch body card locating in the mounting groove certain promptly, avoids continuing or too much stretching into in the mounting groove.

Installation location portion 4b includes follows the outside radial flange that extends of terminal surface before the switch body 1, when the installation goes into in mounting groove 31 as switch body 1, along the outside radial flange that extends of terminal surface before the switch body and mounting groove top joint, the flange plays the effect that prevents the switch body further to the mounting groove internal slipping, as shown in figure 4, makes the preceding terminal surface of switch body and the plane parallel and level of wardrobe, seems inductive switch and wardrobe fuse as an organic whole, elegant appearance. The flange also plays the effect of being convenient for pull out the position of exerting oneself of switch body in the mounting groove simultaneously, plays the effect of fixed mounting inductive switch with spacing card strip together.

As shown in fig. 1, the elastic clamping portion 4a includes limiting clamping strips arranged on two sides of the switch body 1 and having outward elastic tendency, and the limiting clamping strips arranged on two sides of the switch body are in top connection with the inner surface of the installation groove 31 arranged on the connected body, namely the wardrobe. When installing induction switch, only need the spacing card strip of compression switch body both sides, make spacing card strip and switch body card between them accomplish induction switch's installation in the mounting groove promptly, induction switch installation is simple, swift, and the operation of being convenient for has solved the problem that current induction switch structure is complicated, inconvenient installation.

The limit clamping strip is connected to one end of the switch body 1, and as shown in the attached drawing 1, the limit clamping strip is connected to one end of the side surface of the switch body 1, which is far away from the induction probe 13; the limit clamping strip comprises a first extension part 121 and a second extension part 122, wherein the first extension part 121 extends from the switch body 1 to the direction away from the switch body 1 gradually, and the second extension part 122 is connected with the first extension part 121 and gradually approaches the switch body 1; the distance from the joint of the first extension portion 121 and the second extension portion 122 to the switch body 1 is the largest, that is, the limit clip strip is an arc shape in which the connecting portion is the farthest from the side surface of the switch body 1 and the two ends gradually approach to the side surface of the switch body, so that the limit clip strip can better press against the narrow side wall of the mounting groove, friction force between the limit clip strip and the inner side surface of the mounting groove is increased, and the switch body is prevented from being easily removed from the mounting groove under the condition that the switch body is sleeved in the mounting groove and can be removed from the mounting groove.

Specifically, when switch body 1 installs in to mounting groove 31, spacing card strip's first extension 121 and two narrow lateral wall 31a of mounting groove 31 advance the apical grafting, have elastic spacing card strip compressed, and give an effort of narrow lateral wall 31a, make spacing card strip sticis on the narrow lateral wall of mounting groove, along with the switch body slides in mounting groove 31, spacing card strip also slides in the mounting groove along with the switch body, the interact power between the narrow lateral wall that has elastic spacing card strip and mounting groove increases gradually, when the junction and the narrow lateral wall apical grafting of first extension and the second extension of spacing card strip, the interact power between the two increases to the biggest, make the firm installation in mounting groove 31 of switch body 1 of being connected with spacing card strip, be difficult to follow the interior roll-off of mounting groove.

As an optimized technical solution of this embodiment, the outer side surface of the joint of the first extending portion 121 and the second extending portion 122 is provided with a stopping strip 12a protruding outwards, and the stopping strip 12a increases the friction force between the limiting clamping strip and the narrow side wall of the mounting groove, so that the switch body can be more stably mounted in the mounting groove. As shown in the attached drawing 1, the stopping strips are respectively arranged on the limiting clamping strips at two sides of the switch body at intervals, so that the switch body is prevented from easily sliding out of the mounting part.

According to the inductive switch, the limit clamping strips arranged on the two sides of the switch body are abutted with the inner wall of the wardrobe mounting groove to fix the switch body in the mounting groove, and the friction force is increased through the stopping strips to improve the stability of the switch body; the position of the switch body is fixed through the flange and the limiting clamping strip; when the switch body is clamped into the mounting groove, the installation of the inductive switch is completed, so that the inductive switch is simple and convenient to install. The flange is flush with the plane of the wardrobe, and the inductive switch is integrated with the wardrobe in appearance, so that the wardrobe is elegant and attractive. The induction probes connected with the induction lamps in parallel are arranged on two sides of the front end face of the switch body 1, and the switch body is located in the middle position of the two split doors, so that the induction lamps in different spaces in the induction switch wardrobe can be turned on or turned off simultaneously, the induction switches do not need to be arranged in each layer or each space, and the cost is saved.

Example 2: as shown in fig. 5 to 9, the present embodiment provides an inductive switch, which has substantially the same structure and circuit connection manner as the inductive switch of embodiment 1, so that reference can be made to fig. 1 and 2 together, with the difference that: the inductive switch of the embodiment is arranged on the top inner wall or the layered plate or the bottom inner wall of the split-door wardrobe in an open mounting mode, and the inductive switch is arranged in the middle of the split door of the wardrobe through the mounting piece 2 without arranging a mounting groove.

Specifically, as shown in fig. 5, 6 and 7, the convenient installation structure of the inductive switch comprises a mounting part 2 sleeved outside the switch body 1 and used for installing the switch body 1, an elastic clamping part 4a is elastically clamped with the mounting part 2, and the mounting part 2 is used for being fixed on the wardrobe, and the middle part of the inner top wall of the wardrobe is used as an installation position of the mounting part 2 in the embodiment.

The mounting part 2 is provided with a mounting cavity 20 for sleeving the switch body 1, a clamping part 20a matched with the limiting clamping strip is arranged in the mounting cavity 20, as shown in the attached drawing 6, namely, the limiting clamping strip is in an arc shape that the connecting part is farthest away from the side surface of the switch body 1, and two ends of the limiting clamping strip gradually approach to the side surface of the switch body, so that the mounting part can be pressed by the limiting clamping strip better, friction force between the limiting clamping strip and the inner side surface of the clamping part is increased, and the switch body is prevented from being easily separated from the mounting part under the condition that the switch body is sleeved in the mounting part and can be separated from the mounting part.

Be equipped with on one side of installed part 2 and be used for with installed part 2 is the mounting hole 21a that the wardrobe is connected by the connector, be equipped with on the other side of installed part 2 with the corresponding display window 21b in mounting hole 21a position, the screw gets into or passes the installation cavity 20 of installed part when display window 21b conveniently installs the mounting, then fixes the roof at the wardrobe with the installed part through the mounting hole of locating an installed part side with the screw, avoids opening the harm of mounting groove to the wardrobe. In this embodiment, the mounting hole 21a is a countersunk hole so that the screw does not affect the movement of the switch body after the mounting member is fixed. The switch body 1 is provided with an information display area 14 corresponding to the display window 21b, and after the switch body is sleeved in the mounting piece, the display window can also be used for displaying a trademark of the display area arranged on the switch body, so that a user or a dealer can observe the trademark, and a manufacturer for manufacturing the induction switch is promoted.

The switch body and the one end of the same side of mounting hole are equipped with wire passing port 23 to switch body suit back in the installation cavity of installed part, the installed part can not damage the power cord of being connected with the switch body electricity to make the power cord of input or output hug closely the installation face, the power cord is used for being connected with luminescence unit and response lamp electricity, so that response switch control luminescence unit's opening and closing.

When installing the inductive switch of this embodiment, pass the mounting part through the screw on mounting hole 21a is fixed in wardrobe 3 earlier, then the spacing card strip of recompression switch body both sides is close to the switch body, make spacing card strip slide into the installation cavity of mounting part 2 with the switch body between them, slide into the in-process of installation cavity at spacing card strip, the joint portion of mounting part is pressed to the surface roof pressure of spacing card strip, make the stable installation in the installation cavity of switch body, the flange of terminal surface and the joint of mounting part are outside being located the installation cavity before the switch body, with the fixed switch body, inductive switch's installation has just so been accomplished, and is simple, and convenient, easy to operate, the current inductive switch structure is complicated, the problem of inconvenient installation has been solved.

The inductive switch of this embodiment, through earlier at wardrobe fixed surface installed part, then make inductive switch's switch body slide in the installation intracavity of installed part and can accomplish inductive switch's installation, inductive switch simple structure, simple to operate have solved the problem that current inductive switch structure is complicated, inconvenient installation. The same circuit connection mode as that of the embodiment 1 realizes that the inductive switches can simultaneously turn on or turn off the inductive lamps in different spaces in the wardrobe, and the inductive switches do not need to be arranged in each layer or each space, thereby saving the cost.

Example 3: the embodiment provides an inductive switch, which can be installed in an embedded manner as in the first embodiment, or can be installed by an installation component 2 as in the second embodiment, and the difference is that a built-in battery for supplying power is provided on the switch body, the inductive probe 13 is driven by the infrared correlation tube transmitting tube circuit and the infrared correlation tube receiving tube circuit shown in fig. 16 and 17, when the inductive probe 13 senses the opening and closing action of the cabinet door, the infrared correlation tube receiving circuit shown in fig. 16 generates an inductive signal and outputs the inductive signal to the I-RX end of the MCU shown in fig. 13, and the MCU further controls the inductive lamp switch control circuit shown in fig. 14 to be turned on, so that all the illumination lamps in the cabinet electrically connected with the inductive lamp switch control circuit are turned on. Of course, if the switch body is not provided with a built-in battery, the power circuit in fig. 15 can be used for supplying power to the MCU, the infrared correlation tube transmitting tube circuit, the infrared correlation tube receiving tube circuit and the induction lamp switch control circuit.

Example 4: considering the simplicity requirement of wiring in the cabinet, the present embodiment provides a wireless-driven inductive switch: the inductive probe U4 shown in fig. 18 and the inductive probe U5 shown in fig. 19 form a group of inductive probes 13, the MCU shown in fig. 20 and the 2.4G communication module shown in fig. 21 are integrated into a front end inductive unit, an inductive lamp switch control circuit is powered as a rear end receiving control unit to be connected with the lighting lamps in the cabinet, the inductive lamp switch control circuit is also connected with the 2.4G communication module, when the inductive probes 13 shown in fig. 18 and 19 sense that the cabinet is opened, an inductive signal is generated and sent to the MCU shown in fig. 20, the MCU sends a signal to the rear end receiving control unit through the 2.4G communication module shown in fig. 21, then all the lighting lamps in the cabinet electrically connected with the MCU are lightened through the inductive lamp switch control circuit, and finally the centralized control of the wireless driving inductive switch on the inductive lamps in the cabinet is realized.

In the above wireless driving method, a lithium battery is used as the front end sensing unit, that is, a lithium battery and a charging/supplying circuit shown in fig. 22 are incorporated in the front end sensing unit, the output of the lithium battery is converted into 3.3V as a power supply through DC-DC conversion, and a charging control chip is provided to realize charging through a USB interface.

Considering the energy consumption and the energy-conserving demand of product, MCU adopts the low-power consumption principle of intermittent type trigger to drive inductive probe, and inductive probe does not receive and dispatch the signal continuously more promptly, and signal receiving and dispatching interval several milliseconds/second at every turn not only satisfies the demand of cabinet door switch action response, has saved the energy consumption to the utmost again, lets the device duration longer.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. Inductive switch mounting structure, including switch body (1), its characterized in that: the switch is characterized in that a convenient mounting structure (4) connected with a connected body is arranged on the switch body (1), and the convenient mounting structure (4) comprises an elastic clamping part (4a) which can be movably connected.

2. The inductive switch mounting structure according to claim 1, wherein: the easy-to-mount structure (4) further includes a mounting positioning portion (4b) for defining a mounting position of the switch body (1).

3. The inductive switch mounting structure according to claim 2, wherein: the mounting and positioning part (4b) comprises a flange which extends outwards and radially along the front end surface of the switch body (1).

4. The inductive switch mounting structure according to claim 1, wherein: the elastic clamping part (4a) comprises limiting clamping strips which are arranged on two sides of the switch body (1) and have outward elastic trend; the limiting clamping strip is connected to one end of the switch body (1); the limiting clamping strip comprises a first extending part (121) extending from the switch body (1) to the direction away from the switch body (1) gradually, and a second extending part (122) connected with the first extending part (121) and approaching the switch body (1) gradually; the distance from the joint of the first extension part (121) and the second extension part (122) to the switch body (1) is the largest.

5. The inductive switch mounting structure according to claim 4, wherein: the outer side surface of the joint of the first extension part (121) and the second extension part (122) is provided with a blocking strip (12a) protruding outwards.

6. The inductive switch mounting structure according to claim 5, wherein: the convenient installation structure (4) further comprises an installation part (2) sleeved on the outer side of the switch body (1) and used for installing the switch body (1), and the elastic clamping part (4a) is elastically clamped with the installation part (2).

7. The inductive switch mounting structure according to claim 6, wherein: be equipped with on installed part (2) and be used for the suit installation cavity (20) of switch body (1), be equipped with in installation cavity (20) with spacing card strip assorted joint portion (20 a).

8. The inductive switch mounting structure according to claim 7, wherein: be equipped with on one side of installed part (2) be used for with installed part (2) with be connected body connected mounting hole (21a), be equipped with on the another side of installed part (2) with corresponding display window (21b) in installed hole (21a) position, be equipped with on switch body (1) with the corresponding information display region (14) in display window (21b) position.

9. Inductive switch, its characterized in that: an induction switch mounting structure comprising the induction switch according to any one of claims 1 to 8, said switch body (1) being provided with an induction probe (13).

10. The inductive switch of claim 9, wherein: the switch is characterized in that two induction probes (13) are arranged on the switch body (1), one of the two induction probes (13) is arranged on the left side of the front end face of the switch body (1), and the other induction probe (13) is arranged on the right side of the front end face of the switch body (1).

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