CN101927928A - Brake device of elevator - Google Patents

Abstract

The invention provides a kind of brake surface of brake component that can make and carry out the brake device of elevator that face contacts with guide rail reliably.Wherein, have by the detent (17) of braking: brake component (17a) with the overhang bracket of arm (12) and moving actuation arm (14), it is provided with in pairs, by the friction force that produces when being pressed in lift car side rails (7), descend at lift car and to be moved upward when mobile, rise at lift car and to move downwards when mobile, and on two inclined-planes (17a1,17a2) that are formed with the side view that constitutes V-shape on the face of brake surface opposition side and be arranged between two inclined-planes and the parallel faces parallel with the bearing of trend of guide rail (17a3); Action parallel body (17c), it is by the overhang bracket of moving actuation arm, and be formed with parallel faces (17c1) with the parallel faces butt of brake component, when the guide rail direction moved, the parallel faces by brake component and action kept the butt state to prevent that inclination from appearring in brake component with the parallel faces of parallel body at brake component.

Description

Brake device of elevator

Technical field

The present invention relates to a kind of brake device of elevator, relate in particular to a kind of when rising or falling speed has surpassed specified value or when lifting body travels with no-console condition, the brake device of elevator that uses actuator that this lifting body is braked.

Background technology

In the brake equipment that known use actuator is braked lifting body, following brake equipment is for example arranged, it has actuator and brake component, this actuator has the action force that can overcome elastic force, and its power supply can disconnect under defined terms, when this brake component is disconnected at the power supply of this actuator, under the effect of elastic force with the guide rail moving contact, thereby lifting body slowed down and stop.In addition, also can exemplify out device that similar actuator will be had when having surpassed specified value or the brake equipment of when lifting body travels with no-console condition, lifting body being braked situation about using at rising or falling speed.

But, in above-mentioned brake equipment,, therefore elastic force need be set at more than the certain value owing to making brake component and guide rail carry out moving contact by elastic force and lifting body being stopped with this.On the other hand, when lifting body moves normally,, need make actuator have the action force that can overcome elastic force for the brake component that will be applied with the elastic force load all the time remains on open state.Therefore, existing needs to use high-capacity actuator, thereby causes the problem that device maximizes and establishment charges increases.In addition, have the power that can overcome elastic force, need between brake component and guide rail, guarantee enough gaps, thereby need further to increase the capacity of actuator in order to make actuator.

In order to address the above problem, a kind of brake equipment is for example disclosed in patent documentation 1, this brake equipment is provided with brake component and armature, this brake component is formed the chock shape, the friction force that produces when being pressed against on the guide rail, when lifting body is mobile downwards, the brake component of this chock shape is moved upward, when lifting body is moved upward, the brake component of this chock shape moves downwards, this armature is formed with two inclined-planes of the side view that constitutes V-shape, is used for brake component is clamped between itself and the guide rail.In addition, in this brake equipment, when the power supply of actuator is cut off, action that brake component moves towards the braking position direction is applied on the brake component with the guide rail moving contact with spring with pressing force and is configured to independent structures separately respectively with spring with the braking that obtains suitable braking force by pitman, the elastic force of action can be dwindled thus, and then the capacity (for example with reference to patent documentation 1) of actuator can be reduced with spring.

Patent documentation 1: TOHKEMY 2007-277013 communique (paragraph numbering 0029～0035, Fig. 5)

But, in above-mentioned prior art, brake component is bearing in structure on the pitman owing to adopted by a pin, so move in the process of guide rail at brake component, brake component can appear at the situation that hand of rotation moves.Thus, when inclination had appearred in brake component, brake component can not carry out face with guide rail and contact, thereby had the problem that can't stably obtain braking force.

Summary of the invention

The present invention makes in view of existing actual state in the above-mentioned prior art, the object of the present invention is to provide a kind of brake surface of brake component that can make to carry out the brake device of elevator that face contacts with guide rail reliably.

To achieve these goals, brake device of elevator involved in the present invention is used for the lifting body that is carried out lifting by rail guidance is carried out emergency braking, it has: the braking arm, described braking is provided with in mutual opposed mode in pairs with arm, and to be configured to the axle be that fulcrum is rotated; The braking spring, it is arranged on described braking with between the arm; Moving actuation arm, described moving actuation arm is provided with in pairs in mutual opposed mode, and to be arranged to can be that fulcrum is rotated with the axle; Action spring and actuator, they are arranged between the described moving actuation arm; Detent, described detent is by described braking each overhang bracket with arm and described moving actuation arm, described brake device of elevator is characterised in that, described detent has brake component, action is used clinohedral with parallel body with braking, described brake component is provided with in pairs, and by the friction force that produces when being pressed on the described guide rail, descend at described lifting body and to be moved upward when mobile, rise at described lifting body and to move downwards when mobile, and, being formed with side view on the face of the opposition side of brake surface constitutes two inclined-planes of V-shape and is arranged between described two inclined-planes and the parallel faces parallel with the bearing of trend of described guide rail, the described action overhang bracket of parallel body by described moving actuation arm, and be formed with the parallel faces that the described parallel faces with described brake component connects, described braking by the overhang bracket of described braking with arm, and is formed with respectively two inclined-planes with each inclined-plane almost parallel of described brake component with clinohedral.

In having the brake device of elevator of the present invention of said structure, when normal operation, under the state that the parallel faces of brake component and action connect with the parallel faces of parallel body, brake component is maintained on the position that separates with guide rail.When the power supply of actuator was disconnected, with under the elastic force effect of spring, action was moved to the guide rail direction with parallel body in action, and brake component is pressed against on the guide rail when keeping its parallel faces and action with the butt state between the parallel faces of parallel body.After this, descend when mobile at lifting body, brake component is moved upward along the parallel faces of action with parallel body earlier under the effect of friction force, be moved upward along the inclined-plane of braking then with clinohedral, rise when mobile at lifting body, brake component moves downwards along the parallel faces of action with parallel body earlier under the effect of friction force, moves downwards along the inclined-plane of braking with clinohedral then.After this, under the effect of braking with the elastic force of spring, brake component is pressed against on the guide rail with appropriate pressing force with clinohedral by braking, thereby obtains braking force.So, because by on the face of the opposition side of the brake surface of brake component, forming parallel faces, and under the state that this parallel faces and action connect with the parallel faces of parallel body, brake component is moved to the guide rail direction, so brake component can run-off the straight when mobile above-mentioned, can make the brake surface of brake component carry out face with guide rail reliably thus and contact.

The invention effect

According to the present invention, can make the brake surface of brake component carry out face reliably and contact with guide rail, thus, each position is moved, thereby can obtain stable braking force.

Description of drawings

Fig. 1 is the elevator structure figure that the position is set that schematically represents brake equipment of the present invention.

Fig. 2 is a main portion birds-eye view of schematically representing an embodiment of brake device of elevator involved in the present invention.

Fig. 3 is a main portion front view of schematically representing the brake equipment of present embodiment.

Fig. 4 is the main portion front view of the state when representing schematically that brake component contacts with guide rail.

Fig. 5 is the main portion birds-eye view of the state when representing schematically that brake component contacts with guide rail.

Fig. 6 represents that schematically unusual brake component when mobile of descending is pressed against on the guide rail and is moved upward the main portion front view of state midway.

Fig. 7 represents that schematically unusual brake component when mobile of descending is pressed against on the guide rail and moves to the main portion front view of the state of top.

Fig. 8 is the main portion birds-eye view that schematically is illustrated in unusual state when brake component is pressed against on the guide rail when mobile.

Fig. 9 is that brake component is pressed against on the guide rail and moves the main portion front view of state midway downwards when representing schematically that abnormal ascending moves.

Figure 10 is that brake component is pressed against on the guide rail and moves to the main portion front view of the state of below when representing schematically that abnormal ascending moves.

Nomenclature

1 Machine Room

2 rope sheaves

3 hoist cables

4 lift cars

5 counterbalanceds weight

6 hoist trunks

7 lift car side rails

8 counterbalanced weight side rails

10 brake equipments

11

12 braking arms

13 braking springs

14 moving actuation arm

15 action springs

16 actuators

17 detent

The 17a brake component

17a1,17a2 inclined-plane

The 17a3 parallel faces

The 17b axle

17c action parallel body

The 17c1 parallel faces

The 17d axle

17e braking clinohedral

17e1,17e2 inclined-plane

The specific embodiment

Followingly describe with reference to the embodiment of accompanying drawing to brake device of elevator of the present invention.

As shown in Figure 1, in elevator, winch is arranged in the Machine Room 1, and hoist cable 3 is wound on the rope sheave 2 of this winch, and lift car 4 is connected with the two ends of hoist cable 3 respectively with counterbalanced weight 5.In hoist trunk 6, lift car 4 is by 7 channeling conducts of lift car side rails, and counterbalanced weight 5 is by 8 channeling conducts of counterbalanced weight side rails, and rope sheave 2 rotations by making winch make lift car 4 and counterbalanced weight 5 carry out lifting in hoist trunk 6.The brake equipment 10 of present embodiment is by the not shown top that is bolted to lift car 4.

As shown in Figures 2 and 3, the brake equipment 10 of present embodiment has: braking is with arm 12, and this braking is provided with in mutual opposed mode in pairs with arm 12, and to be configured to axle 11 be that fulcrum is rotated; Be arranged on the braking spring 13 between the described braking usefulness arm 12; Moving actuation arm 14, this moving actuation arm 14 is provided with in mutual opposed mode in pairs in the inboard of braking with arm 12, and to be configured to axle 11 be that fulcrum is rotated; Action spring 15 and actuator 16, they are arranged between the described moving actuation arm 14; Detent 17, this detent 17 is by braking each overhang bracket with arm 12 and moving actuation arm 14.

Detent 17 has: brake component 17a, this brake component 17a is provided with in pairs, the friction force that produces when being pressed against lift car 4 side rails 7, descend when mobile at lift car 4, brake component is moved upward, rise when mobile at lift car 4, brake component moves downwards, in this brake component, on the face of the opposition side of brake surface, be formed with two inclined-plane 17a1,17a2 of the side view that constitutes V-shape and be arranged between above-mentioned two inclined-plane 17a1, the 17a2 and the parallel faces 17a3 parallel with the bearing of trend of lift car side rails 7; Parallel body 17c use in action, and this action can be that fulcrum is rotated with parallel body with axle 17b by the overhang bracket one-tenth that moves actuation arm 14, and is formed with the parallel faces 17c1 with the parallel faces 17a3 butt of brake component 17a; And braking clinohedral 17e, this braking can be that fulcrum is rotated with clinohedral 17e with axle 17d by the overhang bracket one-tenth of braking with arm 12, has the cross sectional shape that roughly is コ word shape, side is provided with brake component 17a and action parallel body 17c within it, and, be formed with respectively each inclined-plane 17a1, two inclined-plane 17e1, the 17e2 of 17a2 almost parallel that the side view with brake component 17a is in the shape of the letter V respectively with the open sides end of the コ word shape of clinohedral 17e in braking.

In the present embodiment, when normal operation, actuator 16 energisings, as shown in Figures 2 and 3, this actuator 16 overcomes the elastic force that moves with spring 15 and brake component 17a is remained on the state that separates with lift car side rails 7.At this moment, as shown in Figure 3, the parallel faces 17a3 of brake component 17a and the parallel faces 17c1 that moves with parallel body 17c are in the state that connects, and, the upper surface of brake component 17a and the part of lower surface are the inwall of the braking of コ word shape with clinohedral 17e against cross sectional shape, thereby are maintained on the position of regulation.At this moment, for example after the unusual decline that not shown speed detector detects lift car 4 is moved, from this speed detector to brake equipment 10 output electric signal, the electric current that brake equipment 10 cuts off flow toward actuator 16.By cutting off the power supply of this actuator 16, as shown in Figure 4 and Figure 5, by being arranged on the action of moving between the actuation arm 14 elastic force of spring 15, moving actuation arm 14 is that fulcrum is rotated with axle 11, action by the overhang bracket of this moving actuation arm 14 is moved towards lift car side rails 7 directions with parallel body 17c, and brake component 17a is pressed against on the lift car side rails 7 when keeping its parallel faces 17a3 and moving with the butt state between the parallel faces 17c1 of parallel body 17c.After this, when lift car 4 descends, under the state that is pressed against on the lift car side rails 7, brake component 17a is under the effect of friction force, be moved upward along the parallel faces 17c1 of action at first as shown in Figure 6, move towards the top along the inclined-plane 17e2 of braking as shown in Figure 7 then with clinohedral 17e with parallel body 17c.So, by brake component 17a is embedded between lift car side rails 7 and the inclined-plane 17e2 of braking with clinohedral 17e, as shown in Figure 8, braking is that fulcrum is rotated with arm 12 with axle 11, simultaneously, brake component 17a is by being arranged on braking with the spring force of the braking between the arm 12 with spring 13, by with appropriate pressing force by being pressed on the lift car side rails 7, thereby lift car 4 is braked.

On the other hand, when not shown speed detector detected the abnormal ascending of lift car 4, this speed detector was to brake equipment 10 output electric signal, and brake equipment 10 disconnects the electric current of flow toward actuator 16.By disconnecting the power supply of this actuator 16, as shown in Figure 4 and Figure 5, by being arranged on the action of moving between the actuation arm 14 elastic force of spring 15, moving actuation arm 14 is that fulcrum is rotated with axle 11, action by the overhang bracket of this moving actuation arm 14 is moved towards lift car side rails 7 directions with parallel body 17c, and brake component 17a is pressed against on the lift car side rails 7 when keeping its parallel faces 17a3 and moving with the state that connects between the parallel faces 17c1 of parallel body 17c.After this, when lift car 4 rises, under the state that is pressed against on the lift car side rails 7, brake component 17a is under the effect of friction force, move downwards along the parallel faces 17c1 of action at first as shown in Figure 9, move downwards along the inclined-plane 17e1 of braking as shown in figure 10 then with clinohedral 17e with parallel body 17c.So, by brake component 17a is embedded between lift car side rails 7 and the inclined-plane 17e1 of braking with clinohedral 17e, as shown in Figure 8, braking is that fulcrum is rotated with arm 12 with axle 11, simultaneously, brake component 17a is by being arranged on braking with the spring force of the braking between the arm 12 with spring 13, with appropriate pressing force by being pressed on the lift car side rails 7, thereby lift car 4 is braked.

According to present embodiment, by on the face of the opposition side of the brake surface of brake component 17a, forming parallel faces 17a3, and under the state that this parallel faces 17a3 and action connect with the parallel faces 17c1 of parallel body 17c, brake component 17a is moved to the direction of lift car side rails 7, so brake component 17a can run-off the straight when mobile above-mentioned, contact thereby can make the brake surface of brake component 17a carry out face with lift car side rails 7 reliably.Thus, each position is moved, thereby can obtain stable braking force.

Claims (1)

1. brake device of elevator, it is used for the lifting body that is carried out lifting by rail guidance is carried out emergency braking, and it has:

Arm is used in braking, and described braking is provided with in mutual opposed mode in pairs with arm, and to be configured to the axle be that fulcrum is rotated;

The braking spring, it is arranged on described braking with between the arm;

Moving actuation arm, described moving actuation arm is provided with in pairs in mutual opposed mode, and to be arranged to can be that fulcrum is rotated with the axle;

Action spring and actuator, they are arranged between the described moving actuation arm;

Detent, described detent be by described braking each overhang bracket with arm and described moving actuation arm,

Described brake device of elevator is characterised in that,

Described detent has brake component, action parallel body and braking clinohedral,

Described brake component is provided with in pairs, and by the friction force that produces when being pressed on the described guide rail, descend at described lifting body and to be moved upward when mobile, rise at described lifting body and to move downwards when mobile, and, being formed with side view on the face of the opposition side of brake surface constitutes two inclined-planes of V-shape and is arranged between described two inclined-planes and the parallel faces parallel with the bearing of trend of described guide rail

Described action is with the overhang bracket of parallel body by described moving actuation arm, and is formed with the parallel faces that the described parallel faces with described brake component connects,

Described braking by the overhang bracket of described braking with arm, and is formed with respectively two inclined-planes with each inclined-plane almost parallel of described brake component with clinohedral.

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