CN216054411U - Emergency switch assembly for treadmill and treadmill - Google Patents

Abstract

The utility model discloses an emergency switch assembly for a treadmill and the treadmill, comprising a shell, a pressure bearing assembly, a reset assembly and a conductive piece; the shell is internally provided with a containing part for installing the pressure-bearing assembly, the reset assembly and the conductive piece; the pressure-bearing assembly comprises a pressing piece and a first elastic piece; two ends of the first elastic piece respectively act on the shell and the pressing piece; the pressing piece limits the movement of the resetting component through a limiting structure; the reset component comprises a movable piece and a second elastic piece; the movable piece is vertically arranged relative to the pressing piece; the second elastic piece acts between the shell and the movable piece; the conductive piece is arranged on the movable piece and moves along with the movable piece so as to enable the conductive piece to be abutted against or separated from the PCB of the treadmill; the emergency switch assembly and the treadmill provided by the utility model can effectively solve the problem that the induction metal sheet is reset with a certain probability due to the inertia effect in the using process of the magnetic type emergency switch structure, so that the emergency stop cannot be realized.

Description

Emergency switch assembly for treadmill and treadmill

Technical Field

The utility model relates to the technical field of treadmills, in particular to an emergency switch assembly for a treadlemill and the treadlemill.

Background

The existing treadmill is basically provided with an emergency stop switch for emergency, the emergency switch is mainly used for emergency stop when a user is in danger of exercise, and the use mode of the emergency switch is mainly that after a push block is flapped, an original magnetic induction metal sheet is pushed away through the push block, so that the electric control system of the treadmill is disconnected, and the function of stopping the motor is further achieved. Although this method can achieve emergency action, it has certain disadvantages: (1) the induction metal sheet is arranged below the control console in a turnover mode, so that the induction metal sheet needs to be adsorbed by the magnetic attraction structure when resetting, normal work of the treadmill is realized, however, the induction metal sheet has probability of resetting again after the push block is flapped and when the induction metal sheet is turned downwards, the induction metal sheet swings to the adsorption range or area of the magnetic attraction piece along with the probability of inertia when turning downwards, and then is adsorbed again by the magnetic attraction piece at the other end of the switch, so that the emergency stop function fails, real circuit break stop cannot be realized, the stability is poor, and the safety needs to be improved; (2) the space occupation is large, and the assembly can be realized only by arranging a large open slot on the console;

in summary, the emergency switch for the existing treadmill needs to be further improved to meet the requirement of safety.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides an emergency switch assembly for a treadmill and the treadmill, which can effectively solve the problem that an induction metal sheet is reset with a certain probability due to the inertia effect in the using process of a magnetic type emergency switch structure, so that the emergency stop cannot be realized, and solve the potential safety hazard of the magnetic type emergency switch structure.

(II) technical scheme

In order to solve the technical problems, the utility model provides the following technical scheme:

an emergency switch component for a treadmill comprises a shell, a pressure-bearing component, a reset component and a conductive component;

the shell is internally provided with a containing part for installing the pressure-bearing assembly, the reset assembly and the conductive piece;

the pressure-bearing assembly comprises a pressing piece and a first elastic piece; two ends of the first elastic piece respectively act on the shell and the pressing piece; the pressing piece limits the movement of the resetting component through a limiting structure;

the reset component comprises a movable piece and a second elastic piece; the movable piece is vertically arranged relative to the pressing piece; the second elastic piece acts between the shell and the movable piece;

the conductive piece is arranged on the movable piece and moves along with the movable piece so as to enable the conductive piece to be abutted against or separated from the PCB of the treadmill;

the pressing piece moves towards the direction of the containing part under the action of loading force and compresses the first elastic piece to limit the unlocking of the limiting structure of the moving piece in a linkage manner, and the moving piece is driven to move along the direction perpendicular to the displacement of the pressing piece and move towards the direction far away from the PCB of the treadmill under the action of the second elastic piece, so that the conductive piece arranged on the pressing piece is separated from the PCB of the treadmill.

Furthermore, the limiting structure comprises a limiting cross rod and a limiting groove; the limiting cross rod is positioned below the movable piece and is integrally formed or fixedly connected with the pressing piece; the limiting groove is formed in the lower surface of the movable piece; the limiting cross rod is limited in the limiting groove along with the pressing piece under the action of the first elastic piece, so that the conductive piece on the movable piece is abutted against the PCB of the treadmill; when the limiting cross rod moves along with the pressing piece and is separated from the limiting groove, the moving piece is moved towards the direction of the PCB far away from the running machine under the action of the second elastic piece.

Furthermore, the device also comprises a stroke limit structure which is used for limiting the displacement range of the movable piece; the stroke limiting structure comprises a limiting channel and a limiting block; the limiting channel is arranged on the moving part and is positioned between the limiting groove and the stressed end of the moving part; the limiting block is formed on the shell and is partially arranged in the limiting channel; and the movable piece displaces, and the movable piece is limited to be separated from the shell through the matching of the limiting channel and the limiting block.

Furthermore, the movable part comprises a stress part and a connecting part which are connected into a whole; the limiting channel is formed on the connecting part; the limiting block penetrates through the limiting channel and forms an assembling and connecting part, and the assembling and connecting part and the inner surface of the stress part are respectively propped against two ends of the second elastic part.

Furthermore, the connecting part is provided with at least two limiting channels and a second elastic part in parallel.

Furthermore, the pressing piece comprises a pressure bearing surface and at least two guide columns which are connected into a whole; the guide column is sleeved with the first elastic piece and is positioned between the shell and the pressure bearing surface; the limiting cross rod is spanned and connected with the two guide posts.

Further, the PCB board of the treadmill is attached to the outer surface of the housing, which is disposed opposite the conductive member.

A treadmill comprises a treadmill main body, a stand column and a control console; the treadmill also comprises an emergency switch component which is arranged on the console, and the pressing piece and the moving piece of the emergency switch component are respectively and correspondingly arranged on the upper surface of the console and one surface facing the treadmill body.

(III) advantageous effects

Compared with the prior art, the emergency switch component for the treadmill and the treadmill provided by the utility model have the following beneficial effects:

(1) the novel emergency switch component is simple in structure, reasonable in design and easy to realize, the contact or separation of the conductive piece and the contact pin on the PCB is realized through the cooperation of the pressure-bearing component and the reset component, and the reset is not easy to realize after the separation (the reset can be realized only through manual operation), namely, the PCB and the conductive piece cannot be contacted again without the action of other external forces, the situation of active reset cannot occur, and the problem that the magnetic attraction type induction metal is reset again due to the inertia effect is solved; the emergency switch component has better stability, and greatly improves the safety performance of emergency stop;

(2) the novel limiting structure is ingenious in design, and not only can play a limiting role, but also can reduce the volume of the whole structure at the same time by utilizing the matching of the limiting cross rod positioned below the moving part and the limiting groove;

(3) the novel emergency switch is also provided with a stroke limiting structure, the structure is compact, the design is ingenious, the installation and the limiting of the second elastic piece are combined together, the moving piece is effectively prevented from being separated from the shell, and more importantly, the volume of the whole emergency switch assembly is greatly reduced;

(4) the novel travel limiting structure is provided with at least two limiting channels and two second elastic pieces to control the travel limiting structure to move, so that the travel limiting structure is more balanced and stable on one hand, and the increase of the elastic force is more beneficial to unlocking of the limiting structure, the displacement of the moving piece is quicker, and the response is more sensitive on the other hand;

(5) the novel emergency switch component has the advantages that the PCB is directly arranged on the outer surface of the shell, so that the structure of the emergency switch component is more compact, uniform accessories can be manufactured, the accessories with different sizes can be manufactured according to the requirements of users, the accessories can be used in different products, and the structure cost is greatly reduced;

(6) emergency switch subassembly compare in magnetism and inhale formula emergency switch, need not to set up the cell body of large tracts of land on the control cabinet, only need set up two through-holes supply the pressing piece and the moving part partially expose can, simple to operate and change easily, damage the back directly change a new emergency switch subassembly replace can, the space that has the product occupies littleer, and higher aesthetic property.

Drawings

Fig. 1 is a schematic perspective view of an emergency switch assembly according to the present invention;

FIG. 2 is a schematic perspective exploded view of the emergency switch assembly of the present invention;

FIG. 3 is a cross-sectional view of the emergency switch assembly of the present invention;

fig. 4 is a schematic structural view illustrating the emergency switch assembly of the present invention installed on the treadmill.

Description of the drawings: the treadmill comprises a shell 1, a pressure bearing assembly 2, a pressing piece 21, a pressure bearing surface 210, a guide post 211, a first elastic piece 22, a reset assembly 3, a movable piece 31, a stress part 311, a connecting part 312, a second elastic piece 32, a conductive piece 4, a limiting structure 5, a limiting cross rod 51, a limiting groove 52, a stroke limiting structure 6, a limiting channel 61, a limiting block 62, an assembling and connecting part 620, a PCB 7, a control console 8, a treadmill body 9, an opening 10 and an accommodating part 11;

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the claims, the specification and the drawings of the present invention, unless otherwise specifically limited, the terms "first" or "second", etc. are used for distinguishing between different objects and not for describing a particular order.

In the claims, the specification and the drawings of the present invention, unless otherwise expressly limited, all directional or positional relationships indicated by the terms "vertical," "upper," or "lower" are based on the directional or positional relationships shown in the drawings and are for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element being referred to must have a particular orientation or be constructed and operated in a particular direction, and therefore should not be construed as limiting the scope of the present invention.

In the claims, the specification and the drawings of the present invention, unless otherwise specifically limited, the term "fixedly connected" should be understood in a broad sense, i.e., any connection that does not have a relative rotational relationship or a relative displacement between the two, i.e., including non-detachably fixed connection, integration and fixed connection by other devices or elements.

In the claims, the specification and the drawings of the present invention, the terms "including", "having" and their variants, if used, are intended to be inclusive and not limiting.

As shown in fig. 1-3, an emergency switch assembly for a treadmill, which is used to press on the treadmill and allow a user to accidentally happen on the body (treadmill) of the treadmill to power off the motor of the treadmill to stop running;

the emergency switch comprises a shell 1, a pressure-bearing component 2, a reset component 3 and a conductive component 4;

a housing 1, in which a containing part 11 is provided for the pressure-bearing assembly 2, the reset assembly 3 and the conductive piece 4;

the pressure-bearing assembly 2 comprises a pressing piece 21 and a first elastic piece 22;

two ends of the first elastic piece 22 respectively act on the shell 1 and the pressing piece 21; it should be noted that, the first elastic member 22 of the present invention is a spring;

the pressing member 21 of the present invention comprises a pressure-bearing surface 210 and at least two guiding pillars 211 connected as a whole, wherein the guiding pillars 211 are provided for the first elastic member 22 to be sleeved and located between the housing 1 and the pressure-bearing surface 210;

the reset component 3 comprises a movable piece 31 and a second elastic piece 32;

the movable element 31 is vertically arranged relative to the pressing element 21, and the second elastic element 32 acts between the housing 1 and the movable element 31; the second elastic element 32 may be supported by one end of the movable element 31, or may be supported by an intermediate position or other positions, as long as the movable element 31 is driven to move;

the device also comprises a stroke limit structure 6 for limiting the displacement range of the movable piece 31; the stroke limiting structure 6 comprises a limiting channel 61 and a limiting block 62; the limiting channel 61 is opened on the movable element 31 and is located between the limiting groove 52 and a stressed end (here, the stressed end is a stressed portion 311) of the movable element 31; the limiting block 62 is formed on the shell 1 and is partially arranged in the limiting channel 61; the movable piece 31 displaces, and the movable piece 31 is limited to be separated from the shell 1 through the matching of the limiting channel 61 and the limiting block 62; it should be noted that, the movable element 31 of the present invention includes a force-receiving portion 311 and a connecting portion 312 which are connected together; the limiting channel 61 is formed on the connecting part 312; the limiting block 62 penetrates through the limiting channel 61 to form an attachment part 620, and the attachment part 620 and the inner surface of the force receiving part 311 are respectively abutted by the second elastic element 32; the connecting portion 312 is provided with at least two limiting channels 61 and a second elastic element 32 in parallel, so as to improve the stability and balance of the movable element 31 during movement; the second elastic element 32 of the present invention is a spring;

the pressing piece 21 limits the movement of the resetting component 3 through the limiting structure 5; the limiting structure 5 comprises a limiting cross rod 51 and a limiting groove 52; the limiting cross rod 51 is positioned below the movable piece 31 and is integrally formed or fixedly connected with the pressing piece 21; the limiting groove 52 is formed in the lower surface of the movable piece 31; the limit cross bar 51 is limited in the limit groove 52 by the first elastic element 22 along with the pressing element 21, so that the conductive element 4 on the movable element 31 is abutted against the PCB board 7 of the treadmill; when the limiting cross bar 51 moves downwards along with the pressing piece 21 and is separated from the limiting groove 52, the movable piece 31 is displaced towards the direction away from the PCB 7 of the treadmill under the action of the second elastic piece 32; the limiting cross rod 51 is spanned and connected with the two guide posts 211;

the conductive piece 4 is arranged on the movable piece 31 and moves along with the movable piece 31, so that the conductive piece 4 is abutted against or separated from the PCB 7 of the treadmill; the PCB board 7 of the treadmill is attached to the outer surface of the housing 1, which is disposed opposite the conductive member 4.

The pressing member 21 is biased by a loading force to move toward the accommodating portion 11 of the housing 1, and compresses the first elastic member 22 to unlock the limiting structure 5 for limiting the movement of the moving member 31, and the second elastic member 32 drives the moving member 31 to move in a direction perpendicular to the movement of the pressing member 21 and move in a direction away from the PCB board 7 of the treadmill, so that the conductive member 4 mounted thereon is separated from the PCB board 7 of the treadmill.

In the specific implementation mode, as shown in fig. 1 to 4, the novel treadmill with the emergency switch is exemplified, which mainly comprises the following components: the treadmill comprises a treadmill body 9, a stand column, a console 8, a shell 1, a pressing piece 21, a first elastic piece 22, a movable piece 31, a second elastic piece 32, a conductive piece 4 and a PCB 7;

during actual assembly and use: (1) the shell 1 is arranged in a split manner and is divided into an upper shell and a lower shell which are combined to form an accommodating part 11 and an opening 10 for the pressing piece 21 and the movable piece 31 to penetrate through; (2) the pressing member 21 includes a pressure-bearing surface 210, two guide posts 211 and a limiting cross bar 51, the two guide posts 211 are respectively sleeved with a first elastic member 22 (spring), and the pressure-bearing surface 210 is a cover body and exposed out of the outer surface of the upper shell 1 under the action of the first elastic member 22 for the user to apply force to flap; the limiting cross rod 51 is spanned on the two guide posts 211; wherein, the first elastic element 22 and the limiting cross bar 51 are firstly arranged in the lower shell 1 and are assembled with the movable element 31 subsequently; (3) a conductive member 4 fixed to an end of the movable member 31; it should be noted that, in the present invention, the conductive piece 4 is taken as an example of a metal conductive piece, two contact pins are arranged on the PCB, and the conductive piece 4 is in contact with the two contact pins to realize the power-on of the PCB, so as to transmit the normal work instruction message, as long as the contact with the PCB 7 can be realized for the conduction; (4) the movable element 31 is vertically arranged relative to the pressing element 21, and comprises a force receiving portion 311 and a connecting portion 312, the connecting portion 312 is provided with a limiting channel 61, the force receiving portion 311 is partially exposed outside the housing 1, the connecting portion 312 passes through a position between the limiting cross rod 51 and the pressure bearing surface 210, and the attaching portion 620 formed on the housing 1 passes through the limiting channel 61; (5) one end of the second elastic element 32 is abutted against or fixed to the attaching part 620, and the other end is abutted against the stressed part 311; (6) connecting the PCB 7 to the housing 1 through a screw thread and deviating from the position of the force-bearing part 311 of the movable piece 31; (7) finally, the upper shell 1 and the lower shell 1 are fixed through a threaded connection structure to complete the assembly of the emergency switch; (8) the assembled emergency switch component is arranged on a control console 8 of the treadmill, and the pressing piece 21 and the movable piece 31 are respectively correspondingly arranged on the upper surface of the control console 8 and one surface facing the treadmill main body 9;

the working principle in actual use is as follows:

in the moving process of a user, if the user needs to stop, the user presses or beats the pressing piece 21 of the emergency switch assembly, the pressure bearing surface 210 of the pressing piece 21 is acted by a loading force to move downwards towards the accommodating part 11 of the housing 1, and compresses the first spring (namely the first elastic piece 22), so that the limiting cross rod 51 on the guide post 211 moves downwards along with the pressing piece 21 and is separated from the limiting groove 52 arranged on the moving piece 31, and the moving piece 31 is unlocked due to the separation of the limiting cross rod 51; meanwhile, the movable member 31 drives the movable member 31 to move in a direction perpendicular to the displacement direction of the pressing member 21 (one end of the second elastic member 32 abuts against the attaching portion 620, and the other end of the second elastic member abuts against the force receiving portion 311 to displace outward) under the action of the second spring (i.e., the second elastic member 32), and the movable member moves in a direction away from the PCB board 7 of the treadmill, so that the conductive member 4 mounted on the movable member 31 is separated from the PCB board 7 of the treadmill, and the power is cut off after the conductive member 4 is separated from the PCB board 7, and then the motor is powered off and stops working; it should be noted that, the movable member 31 is matched with the limit block 62 through the limit channel 61 to limit the movement range of the movable member 31, so as to prevent the movable member 31 from completely disengaging from the housing 1; in the above manner, the second elastic piece 32 is not easy to reset again, so that the power failure is ensured under the emergency condition;

when the user needs to reset again, the user presses the movable member 31 of the emergency switch component, the movable member 31 is acted by the loading force to displace towards the direction of the accommodating part 11 of the shell 1, and the second spring 32 is compressed to drive the movable member 31 to displace along the direction of the PCB 7 close to the treadmill; until the position of the position-limiting groove 52 on the connecting part 312 is aligned with the position-limiting cross bar 51, and under the action of the first spring 22 (the first spring 22 acts on the pressing member 21 to move upwards), the position-limiting cross bar 51 moves upwards along with the pressing member 21 and is limited in the position-limiting groove 52, and the conductive member 4 arranged on the movable member 31 is abutted against the PCB board 7 of the treadmill to conduct the circuit, so that the motor can be electrified to work;

the mode is repeated in a circulating way, so that the sudden stop short circuit and the reset power supply are realized.

The novel emergency switch component is simple in structure, reasonable in design and easy to realize, the collision and separation of the conductive piece and the PCB are realized through the cooperation of the pressure-bearing component and the reset component, and the reset is not easy to realize after the separation (the reset can be realized only through manual operation), namely, the PCB and the conductive piece cannot collide again without the action of other external forces, the situation of active reset cannot occur, and the problem of the reset of magnetic attraction type induction metal due to the inertia effect is solved; the emergency switch component has better stability, and greatly improves the safety performance of emergency stop; the novel limiting structure is ingenious in design, and not only can play a limiting role, but also can reduce the volume of the whole structure at the same time by utilizing the matching of the limiting cross rod positioned below the moving part and the limiting groove; the novel emergency switch is also provided with a stroke limiting structure, the structure is compact, the design is ingenious, the installation and the limiting of the second elastic piece are combined together, the moving piece is effectively prevented from being separated from the shell, and more importantly, the volume of the whole emergency switch assembly is greatly reduced; the novel travel limiting structure is provided with at least two limiting channels and two second elastic pieces to control the travel limiting structure to move, so that the travel limiting structure is more balanced and stable on one hand, and the increase of the elastic force is more beneficial to unlocking of the limiting structure, the displacement of the moving piece is quicker, and the response is more sensitive on the other hand; the novel emergency switch component has the advantages that the PCB is directly arranged on the outer surface of the shell, so that the structure of the emergency switch component is more compact, uniform accessories can be manufactured, the accessories with different sizes can be manufactured according to the requirements of users, the accessories can be used in different products, and the structure cost is greatly reduced; emergency switch subassembly compare in magnetism and inhale formula emergency switch, need not to set up the cell body of large tracts of land on the control cabinet, only need set up two through-holes supply the pressing piece and the moving part partially expose can, simple to operate and change easily, damage the back directly change a new emergency switch subassembly replace can, the space that has the product occupies littleer, and higher aesthetic property.

The description of the above specification and examples is intended to be illustrative of the scope of the present invention and is not intended to be limiting. Modifications, equivalents and other improvements which may occur to those skilled in the art and which may be made to the embodiments of the utility model or portions thereof through a reasonable analysis, inference or limited experimentation, in light of the common general knowledge, the common general knowledge in the art and/or the prior art, are intended to be within the scope of the utility model.

Claims (8)

1. The utility model provides an emergency switch subassembly for treadmill which characterized in that: the device comprises a shell, a pressure-bearing assembly, a reset assembly and a conductive piece;

the shell is internally provided with a containing part for installing the pressure-bearing assembly, the reset assembly and the conductive piece;

the pressure-bearing assembly comprises a pressing piece and a first elastic piece; two ends of the first elastic piece respectively act on the shell and the pressing piece; the pressing piece limits the movement of the resetting component through a limiting structure;

the reset component comprises a movable piece and a second elastic piece; the movable piece is vertically arranged relative to the pressing piece; the second elastic piece acts between the shell and the movable piece;

the conductive piece is arranged on the movable piece and moves along with the movable piece so as to enable the conductive piece to be abutted against or separated from the PCB of the treadmill;

the pressing piece moves towards the direction of the containing part under the action of loading force and compresses the first elastic piece to limit the unlocking of the limiting structure of the moving piece in a linkage manner, and the moving piece is driven to move along the direction perpendicular to the displacement of the pressing piece and move towards the direction far away from the PCB of the treadmill under the action of the second elastic piece, so that the conductive piece arranged on the pressing piece is separated from the PCB of the treadmill.

2. The emergency switch assembly for a treadmill of claim 1, wherein: the limiting structure comprises a limiting cross rod and a limiting groove; the limiting cross rod is positioned below the movable piece and is integrally formed or fixedly connected with the pressing piece; the limiting groove is formed in the lower surface of the movable piece; the limiting cross rod is limited in the limiting groove along with the pressing piece under the action of the first elastic piece, so that the conductive piece on the movable piece is abutted against the PCB of the treadmill; when the limiting cross rod moves along with the pressing piece and is separated from the limiting groove, the moving piece is moved towards the direction of the PCB far away from the running machine under the action of the second elastic piece.

3. The emergency switch assembly for a treadmill of claim 2, wherein: the travel limiting structure is used for limiting the displacement range of the movable piece; the stroke limiting structure comprises a limiting channel and a limiting block; the limiting channel is arranged on the moving part and is positioned between the limiting groove and the stressed end of the moving part; the limiting block is formed on the shell and is partially arranged in the limiting channel; and the movable piece displaces, and the movable piece is limited to be separated from the shell through the matching of the limiting channel and the limiting block.

4. The emergency switch assembly for a treadmill of claim 3, wherein: the movable piece comprises a stress part and a connecting part which are connected into a whole; the limiting channel is formed on the connecting part; the limiting block penetrates through the limiting channel and forms an assembling and connecting part, and the assembling and connecting part and the inner surface of the stress part are respectively propped against two ends of the second elastic part.

5. The emergency switch assembly for a treadmill of claim 4, wherein: the connecting part is provided with at least two limiting channels and a second elastic piece in parallel.

6. The emergency switch assembly for a treadmill of claim 2, wherein: the pressing piece comprises a pressure bearing surface and at least two guide columns which are connected into a whole; the guide column is sleeved with the first elastic piece and is positioned between the shell and the pressure bearing surface; the limiting cross rod is spanned and connected with the two guide posts.

7. The emergency switch assembly for a treadmill of claim 2, wherein: the PCB board of the treadmill is attached to the outer surface of the housing, which is disposed opposite the conductive member.

8. A treadmill comprises a treadmill main body, a stand column and a control console; the method is characterized in that: the treadmill further comprises an emergency switch assembly according to any one of claims 1 to 7, wherein the emergency switch assembly is mounted on the console, and the pressing member and the moving member of the emergency switch assembly are respectively and correspondingly disposed on the upper surface of the console and the surface facing the treadmill body.

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