CN214621238U - Contact sensor, travel switch and clothes airing machine - Google Patents

Abstract

The utility model discloses a contact sensor, which comprises a main body and an elastic trigger part, wherein the main body is provided with a contact; the elastic trigger piece comprises a connecting part, a buffer part and a trigger part, wherein the first end of the connecting part is connected with the main body, the second end of the connecting part extends towards the direction close to the contact, the first end of the buffer part is connected with the second end of the connecting part, the second end of the buffer part bends towards the direction close to the first end of the connecting part and extends, the second end of the buffer part is separated from the first end of the buffer part, the first end of the trigger part is connected with the second end of the buffer part, the second end of the trigger part extends towards the direction close to the first end of the connecting part, the trigger part is separated from the connecting part, and the trigger part is used for contacting with an object; when the trigger part is extruded, the trigger part moves towards the direction close to the connecting part and drives the connecting part to contact with the contact. Which can reduce the rigid shear impact on the touch sensor. The utility model also discloses a travel switch and airing machine.

Description

Contact sensor, travel switch and clothes airing machine

Technical Field

The utility model relates to a position detection technical field especially relates to a contact sensor and travel switch and airing machine.

Background

The lower limit travel switch of the telescopic bracket popular in the existing clothes airing machine industry is used for detecting the position of the telescopic bracket falling to the lowest point by detecting the position of a guide part (such as a guide pulley or a slide block) on a slide rail. In the structure, the front face of the end part of the straight elastic trigger piece in the travel switch is generally vertically installed in the moving direction opposite to the guide component, and during installation, the elastic trigger piece of the travel switch needs to be inserted into the slide rail or at least needs to be sheared and connected with the guide component.

However, in such a structure of directly shearing the connection trigger travel switch, the travel switch is easily damaged by rigid impact generated by shearing of the guide member, and for this reason, structural improvement of the travel switch applied to the clothes drying machine is required.

SUMMERY OF THE UTILITY MODEL

In order to overcome the deficiencies of the prior art, one of the objects of the present invention is to provide a touch sensor, which can reduce the rigid shear impact on the touch sensor, thereby reducing the risk of damage to the touch sensor.

A second object of the utility model is to provide a travel switch, it can reduce the rigidity shearing impact to travel switch to reduce the damaged risk of travel switch.

The third object of the utility model is to provide a airing machine, it can reduce the rigidity shearing impact to contact sensor to reduce the damaged risk of contact sensor.

The purpose of the utility model is realized by adopting the following technical scheme:

a touch sensor, comprising:

a body provided with a contact; and

the elastic trigger piece comprises a connecting part, a buffering part and a triggering part, wherein the first end of the connecting part is connected with the main body, the second end of the connecting part extends towards the direction close to the contact, the first end of the buffering part is connected with the second end of the connecting part, the second end of the buffering part bends towards the direction close to the first end of the connecting part and extends, the second end of the buffering part is separated from the first end of the buffering part, the first end of the triggering part is connected with the second end of the buffering part, the second end of the triggering part extends towards the direction close to the first end of the connecting part, the inner side of the triggering part is separated from the connecting part, and the triggering part is used for contacting with an object;

when the triggering portion is squeezed, the triggering portion moves towards a direction close to the connecting portion and drives the connecting portion to be in contact with the contact.

Further, when the triggering portion is pressed in place, the second end of the buffering portion is still spaced from the first end of the buffering portion, or the inner side of the triggering portion is still spaced from the connecting portion.

Further, the triggering portion protrudes relative to the buffer portion in a direction away from the inner side of the triggering portion, the outer side of the triggering portion is used for being in contact with an object, and the outer side of the triggering portion is opposite to the inner side of the triggering portion.

Furthermore, the outer side of the triggering part is provided with a first triggering surface used for contacting with an object, and the first triggering surface protrudes relative to the buffer part.

Furthermore, the triggering part is also provided with a pair of second triggering surfaces, the second triggering surfaces are inclined surfaces, and one of the second triggering surfaces is connected with the second end of the buffering part and the first end of the first triggering surface; and the first end of the other second trigger surface is connected with the second end of the first trigger surface, and the second end of the second trigger surface inclines towards the direction close to the connecting part.

Further, the buffering portion comprises a first side plate portion, a connecting portion and a second side plate portion which are connected in sequence, the first side plate portion is connected with the second end of the connecting portion, the second side plate portion is connected with the first end of the triggering portion, and the first side plate portion is opposite to the second side plate portion.

Further, the connection part is of an arc-shaped structure or a straight plate-shaped structure.

Further, the elastic trigger piece further includes: the limiting part is arranged at the second end of the triggering part.

Further, the elastic trigger piece is made of metal materials or plastic materials.

A travel switch comprises the contact type sensor.

A clothes drying machine comprising:

a host;

the pair of slide rails are respectively arranged at two opposite ends of the host;

a bracket;

the pair of scissor type lifting driving mechanisms are in transmission connection with a driving device in the host and are respectively arranged between the end part of the bracket and a slide rail, the first end of each scissor type lifting driving mechanism is in sliding fit with the slide rail through a guide part, and the second end of each scissor type lifting driving mechanism is connected with the end part of the bracket; and

in the above-mentioned contact sensor, the main body is connected with the host, the trigger portion extends into the slide rail, and the trigger portion can contact with the guide member to trigger the contact sensor.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the connection part, the buffer part and the trigger part are combined to ensure that the contact sensor can contact with an object (such as a guide part) through the outer side of the trigger part, at the moment, the trigger part is extruded, the elastic trigger part generates displacement deformation towards the direction close to the contact, the contact is pushed by the connection part to act so as to realize the triggering of the contact sensor, the elastic trigger part can contact with the object (such as the guide part) through the outer side of the trigger part, non-shearing contact (namely side extrusion contact) is formed between the elastic trigger part and the object, the rigid impact on the contact sensor is reduced, in addition, the second end of the buffer part is separated from the first end thereof, and the inner side of the trigger part is separated from the connection part, so that displacement buffer intervals are formed between the second end of the buffer part and the first end thereof, and between the inner side of the trigger part and the connection part, and good buffer effect can be achieved, the rigid impact on the touch sensor can be further reduced, so that the risk of impact damage to the touch sensor is effectively reduced, and the service life of the touch sensor is longer.

Drawings

Fig. 1 is a schematic structural view of the clothes airing machine of the present invention in a first state;

fig. 2 is a schematic structural view of the clothes airing machine shown in fig. 1, wherein the main machine and the slide rail are indicated by dotted lines for convenience of understanding;

fig. 3 is an enlarged view of a portion a of the clothes drying machine shown in fig. 2;

figure 4 is a schematic structural view of the clothes drying machine shown in figure 1 in a second state;

fig. 5 is a schematic structural view of the clothes drying machine shown in fig. 4, wherein the main machine and the slide rail are shown in a dashed line for easy understanding;

fig. 6 is an enlarged partial view of the airing machine shown in fig. 5 at the position B;

fig. 7 is a schematic view of the touch sensor of the clothes drying machine of fig. 6 from a first perspective;

fig. 8 is a schematic view of the touch sensor shown in fig. 7 from a second perspective.

In the figure: 1. a host; 2. a slide rail; 21. perforating; 3. a scissor lift drive mechanism; 4. a bracket; 5. a guide member; 6. a touch sensor; 61. a main body; 611. a contact; 62. an elastic trigger; 621. a connecting portion; 622. a buffer section; 6221. a first side plate portion; 6222. a joining section; 6223. a second side plate portion; 623. a trigger section; 6231. a first trigger surface; 6232. a second trigger surface; 624. a limiting part.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

Referring to fig. 1 to 6, a clothes drying machine according to a preferred embodiment of the present invention is shown, and the clothes drying machine includes a main body 1, a slide rail 2, a scissor-type lift driving mechanism 3, a bracket 4, a guide member 5, and a contact sensor 6.

Wherein, be equipped with drive arrangement (not shown in the figure) in the host computer 1, the relative both ends of host computer 1 all set firmly slide rail 2, for can stable connection bracket 4, all be equipped with a scissors fork lift actuating mechanism 3 between the tip of each slide rail 2 and bracket 4, specifically speaking, the first end of scissors fork lift actuating mechanism 3 articulates there is guide part 5, this guide part 5 locates slide rail 2 and can slide on slide rail 2, the second end of scissors fork lift actuating mechanism 3 is articulated with the tip of bracket 4, go up and down and realize the lift of bracket 4 through driving scissors fork lift actuating mechanism 3. It will be appreciated that the guide member 5 may be embodied as a slider or a guide pulley.

The touch sensor 6 in this embodiment is used for detecting the lowest descending position of the carrier 4, the touch sensor 6 is electrically connected with the control system of the clothes drying machine, referring to fig. 7 and 8, the touch sensor 6 comprises a main body 61 and an elastic trigger 62, wherein, as shown in fig. 3 and 6, the main body 61 is provided with a contact 611 for triggering the contact, the elastic trigger 62 is used for triggering the contact 611, the elastic trigger 62 is preferably integrally formed by using a metal material or a plastic material with certain elasticity, referring to fig. 8, the elastic trigger 62 comprises a connecting portion 621, a buffer portion 622 and a triggering portion 623, a first end of the connecting portion 621 is connected with the main body 61, a second end of the connecting portion 621 extends in a direction close to the contact 611, the buffer portion 622 is provided with at least one, the first end of the buffer portion 622 is connected with the second end of the connecting portion 621, the second end of the buffer portion 622 bends and extends in a direction close to the first end of the connecting portion 621, the second end of the buffering portion 622 is separated from the first end of the buffering portion 622, the first end of the triggering portion 623 is connected to the second end of the buffering portion 622, the second end of the triggering portion 623 extends toward the first end of the connecting portion 621, the inner side of the triggering portion 623 is separated from the connecting portion 621, and the outer side of the triggering portion 623 is used for contacting an object.

Referring to fig. 3 and fig. 6, in this embodiment, the main body 61 is fixedly disposed at the end of the main body 1, the second end of the buffering portion 622 abuts against the outer wall of the side portion of the sliding rail 2, the triggering portion 623 penetrates through the through hole 21 disposed at the side portion of the sliding rail 2 and extends into the sliding rail 2, the outer side of the triggering portion 623 can contact with the guiding member 5, so that the triggering portion 623 can move toward the direction close to the connecting portion 621 under the pressing action of the guiding member 5, and at the same time, the connecting portion 621 is driven to press the contact 611 to trigger the contact sensor 6, and at this time, the control system controls the driving device to stop to realize the lowest descending position limit of the bracket 4.

Wherein, the connection portion 621, the buffer portion 622 and the trigger portion 623 are combined, so that the touch sensor 6 can contact with an object (such as the guide member 5) through the outer side of the trigger portion 623, at this time, the trigger portion 623 is pressed, the elastic trigger member 62 is displaced and deformed in a direction approaching to the contact 611, the contact 611 is pushed by the connection portion 621 to actuate the touch sensor 6, the elastic trigger member 62 can contact with the object (such as the guide member 5) through the outer side of the trigger portion 623, so that non-shearing contact (i.e. side pressing contact) is formed between the elastic trigger member 62 and the object, which is helpful for reducing rigid impact on the touch sensor 6, and in addition, because the second end of the buffer portion 622 is spaced from the first end thereof and the inner side of the trigger portion 623 is spaced from the connection portion 621, displacement buffer distances are formed between the second end of the buffer portion 622 and the first end thereof and between the inner side of the trigger portion 623 and the connection portion 621, the buffer structure can play a good buffer role, and can further reduce the rigid impact on the touch sensor 6, thereby effectively reducing the risk of impact damage to the touch sensor 6 and prolonging the service life of the touch sensor 6.

As a preferred embodiment, when the triggering portion 623 is pressed in place, the second end of the buffering portion 622 and the first end thereof are still spaced, or the inner side of the triggering portion 623 and the connecting portion 621 are still spaced, so that after the triggering portion 623 is pressed excessively, a displacement buffering margin can still be provided between the second end of the buffering portion 622 and the first end thereof or between the inner side of the triggering portion 623 and the connecting portion 621, so that the rigid impact on the touch sensor 6 is smaller, and the risk that the touch sensor 6 is damaged and damaged by the rigid impact is further reduced.

With continued reference to fig. 3, 6, 7, and 8, the triggering portion 623 projects from the buffer portion 622 in a direction away from the inner side thereof, the outer side of the triggering portion 623 is adapted to contact the guide member 5, and the outer side of the triggering portion 623 is opposite to the inner side thereof so as to be capable of extending into the slide rail 2 and being capable of being in pressing contact with the guide member 5 side.

With continued reference to fig. 3, 6, 7 and 8, the outer side of the triggering portion 623 is provided with a first triggering surface 6231 for contacting with an object, the first triggering surface 6231 protrudes relative to the buffering portion 622, the first triggering surface 6231 is preferably a plane, and in the present embodiment, when the guiding member 5 contacts with the first triggering surface 6231, the second end of the buffering portion 622 and the first end thereof or the inner side of the triggering portion 623 and the connecting portion 621 are still spaced apart.

With continued reference to fig. 3, 6, 7, and 8, a pair of second triggering surfaces 6232 is further disposed on the outer side of the triggering portion 623, the second triggering surfaces 6232 being inclined surfaces, wherein a second triggering surface 6232 engages the second end of the buffering portion 622 and the first end of the first triggering surface 6231; a first end of another second trigger surface 6232 is connected to a second end of the first trigger surface 6231, and the second end of the second trigger surface 6232 is inclined in a direction approaching the connecting portion 621. When the guide member 5 slides to the trigger portion 623, the guide member 5 first comes into contact with the second trigger surface 6232 to press the trigger portion 623, so that the trigger portion 623 is displaced and deformed in a direction approaching the touch sensor 6 until the connecting portion 621 is driven to trigger the contact 611, and since the second trigger surface 6232 is an inclined surface, the urging force applied to the contact 611 of the touch sensor 6 by the second trigger surface 6232 can be reduced, which can also contribute to further reducing the rigid impact on the touch sensor 6.

With continued reference to fig. 7 and 8, as a preferred embodiment, the buffering portion 622 includes a first side plate portion 6221, a joining portion 6222, and a second side plate portion 6223, which are connected in sequence, the first side plate portion 6221 is connected to the second end of the connecting portion 621, the second side plate portion 6223 is connected to the first end of the triggering portion 623, and the first side plate portion 6221 and the second side plate portion 6223 are opposite to each other, so that a displacement buffering space is provided, a good buffering effect is achieved, and reduction of rigid impact is achieved.

Specifically, the engagement portion 6222 has an arc-shaped structure or a straight plate-like structure, but in the present embodiment, the engagement portion 6222 preferably has an arc-shaped structure, that is, the buffer portion 622 has a U-shaped structure, so as to reduce stress concentration.

With continuing reference to fig. 3, 6, 7 and 8, the elastic trigger 62 further includes a limiting portion 624, the limiting portion 624 is disposed at the second end of the trigger 623, as shown in fig. 3 or 6, when the elastic trigger is mounted, the limiting portion 624 can abut against the outer wall of the side portion of the slide rail 2, so as to limit the trigger 623 and reliably extend into the slide rail 2.

Specifically, the touch sensor 6 may be a travel switch, a two-dimensional matrix position sensor, or the like.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. A touch sensor, comprising:

a body provided with a contact; and

the elastic trigger piece comprises a connecting part, a buffering part and a triggering part, wherein the first end of the connecting part is connected with the main body, the second end of the connecting part extends towards the direction close to the contact, the first end of the buffering part is connected with the second end of the connecting part, the second end of the buffering part bends towards the direction close to the first end of the connecting part and extends, the second end of the buffering part is separated from the first end of the buffering part, the first end of the triggering part is connected with the second end of the buffering part, the second end of the triggering part extends towards the direction close to the first end of the connecting part, the inner side of the triggering part is separated from the connecting part, and the triggering part is used for contacting with an object;

when the triggering portion is squeezed, the triggering portion moves towards a direction close to the connecting portion and drives the connecting portion to be in contact with the contact.

2. A touch sensor according to claim 1, wherein the second end of the bumper portion remains spaced from the first end of the bumper portion or the inner side of the trigger portion remains spaced from the connecting portion when the trigger portion is pressed into place.

3. A touch sensor according to claim 1, wherein the trigger portion projects relative to the bumper portion in a direction away from the inner side thereof, the outer side of the trigger portion being adapted to contact an object, the outer side of the trigger portion being opposite the inner side thereof.

4. A touch sensor according to claim 3, wherein the outer side of the trigger portion is provided with a first trigger surface for contacting an object, the first trigger surface projecting relative to the bumper portion.

5. The touch sensor of claim 4, wherein the trigger portion further comprises a pair of second trigger surfaces, the second trigger surfaces being sloped, wherein a second trigger surface engages the second end of the bumper portion and the first end of the first trigger surface; and the first end of the other second trigger surface is connected with the second end of the first trigger surface, and the second end of the second trigger surface inclines towards the direction close to the connecting part.

6. The touch sensor of claim 1, wherein the buffer portion comprises a first side plate portion, a connecting portion, and a second side plate portion connected in series, the first side plate portion being connected to the second end of the connecting portion, the second side plate portion being connected to the first end of the trigger portion, the first side plate portion being opposite to the second side plate portion.

7. The touch sensor of claim 1, wherein the resilient trigger further comprises: the limiting part is arranged at the second end of the triggering part.

8. A touch sensor as in claim 1, wherein said resilient trigger member is made of metal or plastic.

9. A travel switch comprising a touch sensor according to any of claims 1-8.

10. A clothes drying machine, characterized by comprising:

a host;

the pair of slide rails are respectively arranged at two opposite ends of the host;

a bracket;

the pair of scissor type lifting driving mechanisms are in transmission connection with a driving device in the host and are respectively arranged between the end part of the bracket and a slide rail, the first end of each scissor type lifting driving mechanism is in sliding fit with the slide rail through a guide part, and the second end of each scissor type lifting driving mechanism is connected with the end part of the bracket; and

a touch sensor as claimed in any one of claims 1 to 8, wherein said body is connected to said host computer and is located between the end of said host computer and said track, said trigger portion extends into said track, and the outer side of said trigger portion is capable of contacting said guide member to trigger said touch sensor.

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