CN209843582U

CN209843582U - Intelligent toggle switch

Info

Publication number: CN209843582U
Application number: CN201921054695.6U
Authority: CN
Inventors: 张芳
Original assignee: Xi'an Xu Tong Electronic Polytron Technologies Inc
Current assignee: Xi'an Xu Tong Electronic Polytron Technologies Inc
Priority date: 2019-07-08
Filing date: 2019-07-08
Publication date: 2019-12-24
Anticipated expiration: 2029-07-08

Abstract

An intelligent toggle switch belongs to the field of electronic switches and comprises a handle rod and a shell; the method is characterized in that: the device also comprises a locking seat, a buckle, a sucker connecting rod and a sucker type electromagnetic locker; the buckle comprises a first buckle component and a second buckle component; both ends of the locking seat are movably connected with a first buckle component; two ends of the sucker connecting rod are respectively provided with a second buckle component; a supporting plate is arranged on the inner wall of the side wall of the shell opposite to the second buckle assembly; the sucker connecting rod and the locking seat are both horizontally arranged; the sucker is fixedly arranged at one half of the length of the sucker connecting rod; the sucker type electromagnetic locker is fixedly arranged on the shell; the height of the sucker corresponds to that of the sucker type electromagnetic locker; the shell of the toggle switch is internally provided with the locking seat, the buckle, the sucker connecting rod and the sucker type electromagnetic locker to realize the in-place self-locking and automatic centering functions of the toggle switch, and the toggle switch has the advantages of simple structure, easy preparation and suitability for popularization and application.

Description

Intelligent toggle switch

Technical Field

The utility model belongs to the electronic switch field especially relates to an intelligence button switch.

Background

The toggle switch realizes the connection or disconnection of contacts by pulling a handle rod to contact a V-shaped contact plate in the toggle switch by utilizing a lever principle. The currently used button switch structure does not have a reliable self-locking function, and the false operation caused by triggering the switch due to mistaken touch often occurs in use, so that the use is influenced.

Disclosure of Invention

The utility model aims at solving the above problem, provide an intelligent toggle switch that possesses auto-lock and automatic centering in target in place.

The utility model discloses an intelligent button switch, which comprises a handle rod and a shell; the device also comprises a locking seat, a buckle, a sucker connecting rod and a sucker type electromagnetic locker; the buckle comprises a first buckle component and a second buckle component; the first buckle component and the second buckle component are matched with each other to realize buckle connection; the locking seat is fixedly arranged on the handle rod; both ends of the locking seat are movably connected with a first buckle component; two ends of the sucker connecting rod are respectively provided with a second buckle component; a supporting plate is arranged on the inner wall of the side wall of the shell opposite to the second buckle assembly; the second buckle assembly is placed on the supporting plate; the sucker connecting rod and the locking seat are both horizontally arranged; the sucker is fixedly arranged at one half of the length of the sucker connecting rod; the middle part of the sucker connecting rod is suspended under the action of the second clamping components at the two ends; the sucker type electromagnetic locker is fixedly arranged on the shell; the height of the sucker corresponds to that of the sucker type electromagnetic locker.

Intelligence button switch, the swing joint mode of locking seat and buckle subassembly one is articulated.

In the intelligent button switch of the utility model, the first buckle component comprises a swing locking block and a hinge pin; the locking seat is provided with a pin hole for hinging; the tail end of the swing locking block is provided with a pin hole for hinging; the cross section of the swing locking block is conical; a track rod is vertically arranged on the side wall of the swing locking block, and a track groove is arranged on the side wall of the shell corresponding to the track rod; one end of the track rod is fixedly connected with the swing locking block, and the other end of the track rod is arranged in the track groove; the front end of the swing locking block is provided with a curved surface clamping joint; a groove is arranged between the clamping head and the front end of the swing locking block; the second buckle component comprises a conical pressing block, a compression spring and a sleeve; the conical pressing block comprises a left conical pressing block and a right conical pressing block; the left conical pressing block and the right conical pressing block are arranged oppositely; the tail ends of the conical pressing blocks are fixedly provided with mounting shafts; one end of the sleeve is fixedly connected with the shell, and the other end of the sleeve is sleeved with the mounting shaft; the compression spring is sleeved on the sleeve.

Intelligence toggle switch, the curved surface that curved surface joint was convex.

In the intelligent toggle switch of the utility model, the cross section of the locking seat is H-shaped; a through hole is formed in the middle of the locking seat; the locking seat is sleeved on the handle rod through the through hole; both ends of the locking seat are provided with mounting grooves for mounting the swing locking block; and pin holes for hinging are formed in the two side walls of the mounting groove.

Intelligence toggle switch, the longitudinal section of the groove face of recess is convex.

Intelligence toggle switch through the institutional advancement to current toggle switch, sets up locking seat, buckle, sucking disc connecting rod and sucking disc formula electromagnetic locking ware in toggle switch's casing and realize the auto-lock and the automatic function of returning in target to toggle switch, just intelligence toggle switch's simple structure, easily preparation is suitable for popularization and application.

Drawings

Fig. 1 is a schematic view of a longitudinal cross-sectional structure of an intelligent toggle switch according to the present invention;

FIG. 2 is an exploded view of the toggle switch of the present invention;

fig. 3 is a schematic structural view of the buckle of the present invention;

fig. 4 is a schematic view of a clamping state structure of the buckle of the present invention;

the device comprises a 1-swinging pin, a 2-mounting plate, a 3-reset spring, a 4-handle rod, a 5-guide post, a 6-V-shaped touch plate, a 7-upper contact, a 8-lower contact, a 9-mounting seat, a 10-shell, a 11-sucker type electromagnetic locker, a 12-sucker connecting rod, a 13-left conical pressing block, a 14-right conical pressing block, a 15-compression spring, a 16-sleeve, a 17-hinge pin, a 18-swinging locking block, a 19-locking seat, a 20-track rod, a 21-mounting shaft, a 22-track groove, a 23-clamping joint, a 24-groove and a 25-support plate.

Detailed Description

The intelligent button switch of the present invention will be described in detail with reference to the accompanying drawings and examples.

Example one

As shown in fig. 1 and fig. 2, the structure assembling process of the intelligent button switch of the present invention includes: the mounting plate 2 is fixedly connected with a handle lever 4 by a swinging pin 1; two reset springs 3 are arranged on two sides of a handle rod 4, and the reset springs 3 are fixed by a mounting plate 2; fixing a guide post 5 with the tail end of the handle rod 4 through internal threads; two upper contacts 7 are arranged with a V-shaped contact plate 6 through hole interference fit; mounting the V-shaped touch plate 6 with the mounting seat 9 through bosses on two sides; two swing lock blocks 18 are hinged to the handle lever 4 by two hinge pins 17.

The above-mounted component is connected as one component to the housing 10 by the mount 9, and the shaft of the swing lock block 18 is mounted on the circular arc rail of the housing 10. The compression spring 15 is sleeved on the sleeve 16 and is sleeved and installed together with the shaft sleeve of the right conical pressing block 14, the side surfaces of two ends of the shell 10 are provided with positioning holes, the sleeve 16 is installed in the hole, the installation shaft 21 of the conical pressing block is installed in the sleeve 16, the compression spring 15 is installed between the sleeve 16 and the conical pressing block, the compression spring 15 is longer in design length and has a large compression amount, at the moment, one end of the compression spring 15 presses the conical pressing block forwards, the other end of the compression spring presses the sleeve 16 towards the inside of the hole of the shell 10, the positions of the holes at two ends of the shell 10 are determined, the conical pressing blocks, the sleeve 16 and the compression spring 15 are distributed in bilateral symmetry, so when the compression spring 15 presses the left conical pressing block 13 towards the right, the corresponding right conical pressing block 14 is also pressed towards the left, and the left and right conical pressing blocks 14 are tightly.

Two ends of the sucker connecting rod 12 are respectively connected with the top surfaces of the two left conical pressing blocks 13 through rivets; fixing the sucker type electromagnetic locker 11 with the shell 10 through screws; the front end of the sucker connecting rod 12 close to the sucker type electromagnetic locker 11 is inlaid with a magnet.

The assembled intelligent button switch comprises a handle rod 4 and a shell 10 as shown in figure 2; the device also comprises a locking seat 19, a buckle, a sucker connecting rod 12 and a sucker type electromagnetic locker 11; the buckle comprises a first buckle component and a second buckle component; the first buckle component and the second buckle component are matched with each other to realize buckle connection; the locking seat 19 is fixedly arranged on the handle rod 4; the cross section of the locking seat 19 is H-shaped; a through hole is arranged in the middle of the locking seat 19; the locking seat 19 is sleeved on the handle rod 4 through the through hole; both ends of the locking seat 19 are provided with mounting grooves for mounting the swing locking block 18; and pin holes for hinging are formed in the two side walls of the mounting groove. Two ends of the locking seat 19 are movably connected with a first buckle assembly, and the locking seat 19 is hinged with the first buckle assembly; two ends of the sucker connecting rod 12 are respectively provided with a second buckle component; a support plate 25 is arranged on the inner wall of the side wall of the shell 10 opposite to the second buckle component; the second buckle assembly is placed on the support plate 25 to overcome the gravity borne by the second buckle assembly, and the support plate 25 provides a support function for the second buckle assembly; the sucker connecting rod 12 and the locking seat 19 are both horizontally arranged; the sucker is fixedly arranged at one half of the length of the sucker connecting rod 12; the middle part of the sucker connecting rod 12 is suspended under the action of the second clamping components at the two ends; the sucker type electromagnetic locker 11 is fixedly arranged on the shell 10; the height of the suction cup corresponds to the height of the suction cup type electromagnetic lock 11. After the sucker type electromagnetic locking device 11 is installed, a certain distance is reserved between the sucker type electromagnetic locking device and the magnet of the sucker connecting rod 12, the sucker connecting rod 12 is close to the front end of the sucker type electromagnetic locking device 11, the inlaid magnet is arranged, so that when the sucker type electromagnetic locking device 11 is electrified to work, the magnet of the sucker connecting rod 12 is adsorbed under the action of a magnetic field and is contacted with the front end of the sucker type electromagnetic locking device 11, and linear motion of the sucker connecting rod 12 is achieved.

As shown in fig. 3, the intelligent toggle switch of the present invention comprises a latch assembly including a swing lock block 18 and a hinge pin 17; the locking seat 19 is provided with a pin hole for hinging; the tail end of the swing locking block 18 is provided with a pin hole for hinging; the cross section of the swing locking block 18 is conical; a track rod 20 is vertically arranged on the side wall of the swing locking block 18, and a track groove 22 is arranged on the side wall of the shell 10 corresponding to the track rod 20; one end of the track rod 20 is fixedly connected with the swing locking block 18, and the other end is arranged in the track groove 22; the front end of the swing locking block 18 is provided with a curved surface clamping joint 23, and the curved surface of the curved surface clamping joint 23 is arc-shaped; a groove 24 is arranged between the clamping head 23 and the front end of the swing locking block 18, and the longitudinal section of the groove surface of the groove 24 is arc-shaped; in the process of movement, the track rod 20 of the swing locking block 18 is limited in the semi-circular arc groove, and the swing locking block 18 moves to the left and right conical pressing blocks 14 according to the set track under the limitation of the track rod 20; the second buckle component comprises a conical pressing block, a compression spring 15 and a sleeve 16; the conical pressing block comprises a left conical pressing block 13 and a right conical pressing block 14; the left conical pressing block 13 and the right conical pressing block 14 are arranged oppositely; the tail ends of the conical pressing blocks are fixedly provided with mounting shafts 21; one end of the sleeve 16 is fixedly connected with the shell 10, and the other end is sleeved with the mounting shaft 21; the compression spring 15 is sleeved on the sleeve 16. The side at both ends of casing 10 has the locating hole, sleeve 16 installs in the locating hole, the installation axle 21 of toper briquetting is installed in sleeve 16, compression spring 15 installs between sleeve 16 and toper briquetting, compression spring 15 design length is longer, has very big compressive capacity, compression spring 15 one end is pressed the toper briquetting forward this moment, the other end is pressed sleeve 16 to the hole of casing 10 inside, because the position of the hole at casing 10 both ends is definite, the toper briquetting, sleeve 16 and compression spring 15 bilateral symmetry distribute, so when compression spring 15 extrudees left toper briquetting 13 right, corresponding right toper briquetting 14 also extrudees left, mutual extrusion lets left and right toper briquetting 14 tightly contact together.

Intelligence toggle switch is carrying out the during operation, and this switch has "left", "well", "right" three-position break-make relation, and its principle is as follows: when the handle rod 4 is pulled to the left position, the tail end of the handle rod 4 is fixed with the guide post 5 to swing rightwards, the guide post 5 slides along the right side of the V-shaped touch plate 6, the right side of the V-shaped touch plate 6 moves downwards due to the lever principle, the upper contact 7 arranged on the right side of the V-shaped touch plate 6 is contacted with the lower contact 8 on the shell 10, and the contact conduction on the right side of the switch is realized. When the handle lever 4 is pulled to the right position, the contact on the left side of the switch is conducted due to the fact that the structures of the V-shaped touch plate 6, the upper contact 8 on the left side and the lower contact 8 on the left side are in a symmetrical relation with the right side, and the principle is the same as that of the V-shaped touch plate. When the switch is in the middle position, the handle rod 4 is limited by the left and right sequence return springs 3 and is in the neutral position, so that the handle rod 4 is not stressed and is in the neutral holding state, and all contacts in the middle position of the switch are disconnected.

Example two

On the basis of the first embodiment, the switch has a left position and a right position in-place self-locking function, and the principle is as follows: when the handle lever 4 is pulled to the left position, the swing locking block 18 forms a hinged structure with the handle lever 4 through the hinge pin 17, because the shaft of the swing locking block 18 is in the circular arc track of the shell 10, along with the rightward swing of the handle lever 4, the swing locking block 18 on the right side moves along the circular arc track and enters a designated position, which is a pressing mechanism formed by the compression spring 15, the sleeve 16, the left tapered pressing block 13 and the right tapered pressing block 14, as shown in the following figure 3, when the swing locking block 18 moves to the middle position of the left tapered pressing block 13 and the right tapered pressing block 14, at the moment, the tapered pressing block is pressed by the head part at the front end of the right tapered pressing block 14, the compression spring 15 retracts after being pressed, the middle distance between the left tapered pressing block 13 and the right tapered pressing block 14 increases, the head part of the swing locking block 18 enters between the tapered surfaces of the left tapered pressing block 14 and the right tapered pressing block 14, because, the middle is small, the rear end is large, as shown in fig. 3, after the head enters, the middle part is small, the pressure borne by the compression spring 15 is reduced, the distance between the left conical pressing block 13 and the right conical pressing block 14 is reduced, the distance is equal to the size of the head of the swing locking block 18, the middle part of the swing locking block 18 is smaller than the size of the head of the swing locking block 18, the swing locking block 18 is limited in the extrusion mechanism, as shown in fig. 4, the in-place self-locking function when the switch is pulled to the left position is realized. When the handle lever 4 is pulled to the right position, the principle is the same as the above, and the in-place locking function when the switch is pulled to the right position is realized.

EXAMPLE III

On the basis of the first embodiment, the switch has the function of automatically resetting the left position and the right position to the middle position, and the principle is as follows: when the switch is pulled to the left position from the middle position, the swing locking block 18 is limited in the extrusion mechanism and cannot be reset, the reset spring 3 is pressed leftwards, if the sucker type electromagnetic locker 11 receives a control signal at the moment, the sucker connecting rod 12 is sucked and locked by the sucker type electromagnetic locker 11, two ends of the sucker connecting rod 12 are connected with the right conical pressing block 14, the right conical pressing blocks 14 on the left side and the right side are forced to be away from the left conical pressing block 13, the distance of the away distance is larger than the size of the head of the swing locking block 18, at the moment, the head locking limit of the swing locking block 18 disappears, under the action of the pressure released by the reset spring 3, the handle rod 4 returns to the middle position and stops at the middle position due to the V-shaped limit of the V-shaped touch plate 6, and the function of automatically resetting the switch from the left position to the middle position is realized. When the switch is pulled from the middle position to the right position, the principle is the same as the above, and the process realizes the function that the switch is automatically reset from the right position to the middle position.

Example four

On the basis of the first embodiment, the switch has the function of manually resetting the left position and the right position to the middle position, and the principle is as follows: when the switch is pulled to the left position from the middle position, the swing locking block 18 is limited in the extrusion mechanism and cannot be reset, the reset spring 3 is pressed leftwards, at the moment, when the handle lever 4 is manually pulled rightwards, if the manually pulling force is greater than the pressure of the compression spring 15 in the pressing mechanism, the head of the swing locking block 18 can be separated from the pressing mechanism, under the action of the pressure released by the reset spring 3, the handle lever 4 returns to the middle position and stops at the middle position due to the V-shaped limit of the V-shaped touch plate 6, and the function of manually resetting the switch to the middle position from the left position is realized in the process. When the switch is pulled from the "middle" position to the "right" position, the principle is the same as that described above, and the process realizes the function of manually resetting the switch from the "right" position to the "middle" position.

Claims

1. An intelligent button switch comprises a handle rod (4) and a shell (10); the method is characterized in that: the device also comprises a locking seat (19), a buckle, a sucker connecting rod (12) and a sucker type electromagnetic locker (11); the buckle comprises a first buckle component and a second buckle component; the locking seat (19) is fixedly arranged on the handle rod (4); both ends of the locking seat (19) are movably connected with a first buckle component; two ends of the sucker connecting rod (12) are respectively provided with a second buckle component; a support plate (25) is arranged on the inner wall of the side wall of the shell (10) opposite to the second buckle component; the second buckle component is placed on the support plate (25); the sucker connecting rod (12) and the locking seat (19) are both horizontally arranged; the sucker is fixedly arranged at one half of the length of the sucker connecting rod (12); the sucker type electromagnetic locker (11) is fixedly arranged on the shell (10); the height of the sucker corresponds to that of the sucker type electromagnetic locker (11).

2. The intelligent button switch of claim 1, wherein: the locking seat (19) is hinged with the first buckle assembly in a movable connection mode.

3. The intelligent button switch according to claim 1 or 2, wherein: the first buckle component comprises a swing locking block (18) and a hinge pin (17); the locking seat (19) is provided with a pin hole for hinging; the tail end of the swing locking block (18) is provided with a pin hole for hinging; the cross section of the swing locking block (18) is conical; a track rod (20) is vertically arranged on the side wall of the swing locking block (18), and a track groove (22) is arranged on the side wall of the shell (10) corresponding to the track rod (20); one end of the track rod (20) is fixedly connected with the swing locking block (18), and the other end of the track rod is arranged in the track groove (22); the front end of the swing locking block (18) is provided with a curved surface clamping joint (23); a groove (24) is arranged between the clamping head (23) and the front end of the swing locking block (18); the second buckle component comprises a conical pressing block, a compression spring (15) and a sleeve (16); the conical pressing block comprises a left conical pressing block (13) and a right conical pressing block (14); the left conical pressing block (13) and the right conical pressing block (14) are arranged oppositely; the tail ends of the conical pressing blocks are fixedly provided with mounting shafts (21); one end of the sleeve (16) is fixedly connected with the shell (10), and the other end of the sleeve is sleeved with the mounting shaft (21); the compression spring (15) is sleeved on the sleeve (16).

4. The intelligent button switch of claim 3, wherein: the curved surface of the curved surface clamping joint (23) is arc-shaped.

5. The intelligent button switch according to claim 4, wherein: the cross section of the locking seat (19) is H-shaped; a through hole is arranged in the middle of the locking seat (19); the locking seat (19) is sleeved on the handle rod (4) through the through hole; both ends of the locking seat (19) are provided with mounting grooves for mounting the swing locking block (18); and pin holes for hinging are formed in the two side walls of the mounting groove.

6. The intelligent button switch of claim 5, wherein: the longitudinal section of the groove surface of the groove (24) is arc-shaped.