CN102024585A

CN102024585A - Spring operation mechanism

Info

Publication number: CN102024585A
Application number: CN2010105795172A
Authority: CN
Inventors: 潘永成; 黄保富; 樊建荣
Original assignee: RISHENG GROUP CO Ltd
Current assignee: RISHENG GROUP CO Ltd
Priority date: 2010-11-30
Filing date: 2010-11-30
Publication date: 2011-04-20
Anticipated expiration: 2030-11-30
Also published as: CN102024585B

Abstract

The invention discloses a spring operation mechanism which is labor-saving, small in size and compact in structure. The spring operation mechanism comprises an installation frame as a rack, an energy storage spring, a returning spring, a moving contact spring, a cam and a parallel four-bar linkage, wherein the parallel four-bar linkage comprises a first rack rod, a second rack rod, a first connecting rod, a second connecting rod which can be used for forming a connecting-rod limit state with the first rack rod, a third connecting rod which can be used for forming a connecting-rod limit state with the second rack rod, and a support bracket; the lengths of the second connecting rod and the third connecting rod are equal, and the second connecting rod and the third connecting rod are arranged in parallel to each other; one end of the second connecting rod, one end of the first rack rod and one end of the first connecting rod are all hinged to a first point; and one end of the third connecting rod, one end of the second rack rod and one end of the first connecting rod are all hinged to a second point, and the other end of the second connecting rod and the other end of the third connecting rod are hinged with the support bracket.

Description

Spring operating mechanism

Technical field

The present invention relates to electrical equipment technical field, specifically is a kind of spring operating mechanism.

Background technology

Granted publication number discloses a kind of spring operating mechanism for the utility patent of CN201041775Y, it installs drive system between framework, drive system is by cam, roller and one-level four connecting rods are formed by connecting with pivot pin, the core of this design is, by optimization to each part dimension parameter designing, only adopt one-level four connecting rods to realize the function of spring operating mechanism, though described spring operating mechanism is simple in structure, but its structure is seen itself effort-saving mechanism is not arranged, the main energy-storaging spring that relies on, and cam, each power arm in one-level four connecting rods drives moving contact, that is to say, said structure is by increasing the elastic stiffness of energy-storaging spring, and lengthening cam, each power arm in one-level four connecting rods guarantees the designing requirement of switch, and the elastic stiffness of energy-storaging spring increases, and cam, the lengthening of each power arm in one-level four connecting rods, the active force that has determined to be used to drive the energy-storaging spring accumulation of energy requires bigger, and energy-storaging spring, cam, one-level four connecting rods, the size of other related components (such as the framework that frame is installed) all requires or makes the employed material of above-mentioned part to have higher requirement big.So above-mentioned spring operating mechanism size is bigger than normal, structure is not compact.

Summary of the invention

The technical problem to be solved in the present invention is, provide a kind of laborsaving, size is little, the spring operating mechanism of compact conformation.

Technical scheme of the present invention is, spring operating mechanism of the present invention, it comprises installation frame, energy-storaging spring, back-moving spring, moving contact spring, cam and parallel four connecting rods as frame, parallel four connecting rods comprise the first frame bar, second frame bar and the first connecting rod, roller is installed on the first connecting rod, this roller and cam offset or away from, it also comprise can be used for the first frame bar form connecting rod utmost point position state second connecting rod, can be used for forming third connecting rod, the bracing frame of connecting rod utmost point position state with the second frame bar; Second connecting rod and third connecting rod equal in length and be parallel to each other; One end of one end of second connecting rod, the first frame bar and an end of first connecting rod all are articulated on first, one end of one end of third connecting rod, the second frame bar, the other end of first connecting rod all are articulated on second, and the other end of second connecting rod and third connecting rod is all hinged with bracing frame; One end of back-moving spring and moving contact spring all offsets with bracing frame, and the other end and the installation frame of back-moving spring offset, and the other end and the moving contact of moving contact spring offset.

After adopting said structure, the present invention compared with prior art has the following advantages: because it also comprise can be used for the first frame bar form connecting rod utmost point position state second connecting rod, can be used for forming third connecting rod, the bracing frame of connecting rod utmost point position state with the second frame bar; Second connecting rod and third connecting rod equal in length and be parallel to each other; One end of one end of second connecting rod, the first frame bar and an end of first connecting rod all are articulated on first, one end of one end of third connecting rod, the second frame bar, the other end of first connecting rod all are articulated on second, and the other end of second connecting rod and third connecting rod is all hinged with bracing frame; One end of back-moving spring and moving contact spring all offsets with bracing frame, the other end and the installation frame of back-moving spring offset, the other end and the moving contact of moving contact spring offset, like this, utilize the characteristics of connecting rod utmost point position, promptly near utmost point position, because the speed of driven member approaches zero, so can obtain very big reinforcement effect, second connecting rod that driven member just is meant and third connecting rod, with second connecting rod and the corresponding driving link of third connecting rod be the first frame bar and the second frame bar, so the present invention during near utmost point position state, can enough less power drive second connecting rod and third connecting rod motion at second connecting rod and third connecting rod, simultaneously second connecting rod and third connecting rod put on the power of bracing frame but can be very big, be enough to satisfy the designing requirement of switch, this has determined that directly the rigidity of energy-storaging spring can be less, and size is corresponding to be reduced; From above-mentioned analysis as seen, the present invention mainly be can with the energy-storaging spring size Control better, add optimum organization to other each parts, that the present invention just has is laborsaving, size is little, the advantage of compact conformation.

As improvement, installation frame is provided with and is used to limit first through hole of the first bearing pin range of movement and second through hole of the second bearing pin range of movement, the position-limiting action of first through hole, second through hole can be adjusted second connecting rod and third connecting rod range of movement, guarantee second connecting rod and third connecting rod approaching as far as possible or arrival utmost point position when motion, and can not cross utmost point position, thereby guarantee the kinetic stability of second connecting rod and third connecting rod, more help the raising of performance of the present invention.

As further improvement, it also comprises the 3rd cradling piece, one end of the 3rd cradling piece and the other end of second connecting rod are articulated in same point on bracing frame, the other end and the installation frame of the 3rd cradling piece are hinged, like this, can make the motion stabilization of bracing frame, more help the raising of enforcement of the present invention and performance.

As further improvement, it also comprises the 4th cradling piece and the 5th cradling piece, and the 4th cradling piece and the first frame bar are symmetrically distributed about first connecting rod, and the 5th cradling piece and the second frame bar are symmetrically distributed about first connecting rod; The 4th cradling piece, the 5th cradling piece, the first frame bar, second this equal in length of frame bar and be parallel to each other; One end of the 4th cradling piece is articulated on first, and the other end of the 4th cradling piece is articulated on the installation frame; One end of the 5th cradling piece is articulated on second, and the other end of the 5th cradling piece is articulated on the installation frame, is symmetrical arranged based on above-mentioned, can make the entire mechanism motion more reliable and more stable.

Description of drawings

Fig. 1 is the three-dimensional view of spring operating mechanism of the present invention.

Fig. 2 is the front view of spring operating mechanism of the present invention.

Fig. 3 is the vertical view of spring operating mechanism of the present invention.

Fig. 4 is the A-A cutaway view of spring operating mechanism of the present invention.

Fig. 5 is the schematic diagram of mechanism of spring operating mechanism of the present invention.

Shown in the figure, 1, installation frame, 2, energy-storaging spring, 3, back-moving spring, 4, moving contact spring, 5, cam, 6, the first frame bar, 7, the second frame bar, 8, first connecting rod, 9, roller, 10, second connecting rod, 11, third connecting rod, 12, bracing frame, 13, first point, 14, second point, 15, the moving contact connecting rod, 16, first through hole, 17, second through hole, the 18, the 3rd cradling piece, the 19, the 5th cradling piece.

Embodiment

The invention will be further described below in conjunction with accompanying drawing.

Spring operating mechanism of the present invention, it comprises the installation frame 1 as frame, energy-storaging spring 2, back-moving spring 3, moving contact spring 4, cam 5 and parallel four connecting rods, parallel four connecting rods comprise the first frame bar 6, the second frame bar 7 and first connecting rod 8, roller 9 is installed on the first connecting rod 8, this roller 9 offset with cam 5 or away from, it also comprises the second connecting rod 10 that can be used for forming with the first frame bar 6 connecting rod utmost point position state, can be used for forming the third connecting rod 11 of connecting rod utmost point position state with the second frame bar 7, bracing frame 12 by second connecting rod 10 and third connecting rod 11 drivings; Second connecting rod 10 and third connecting rod 11 equal in length and be parallel to each other; One end of one end of second connecting rod 10, the first frame bar 6 and an end of first connecting rod 8 all are articulated on 1: 13, one end of one end of third connecting rod 11, the second frame bar 7, the other end of first connecting rod 8 all are articulated on 1: 14, and the other end of second connecting rod 10 and third connecting rod 11 is all hinged with bracing frame 12; One end of back-moving spring 3 and moving contact spring 4 all offsets with bracing frame 12, the other end of back-moving spring 3 and installation frame 1 offset, the other end and the moving contact of moving contact spring 4 offset, and in this example, the other end of moving contact spring 4 offsets with the moving contact connecting rod 15 that is used to be connected moving contact.Said structure is shown in Fig. 1 or 2 or 3 or 4 or 5.

Described 1: 13 is first bearing pin, and 1: 14 is second bearing pin.

Installation frame 1 is provided with and is used to limit first through hole 16 of the first bearing pin range of movement and second through hole 17 of the second bearing pin range of movement, and in this example, first through hole 16 and second through hole 17 are two.

It comprises that also an end of the 3rd cradling piece 18, the three cradling pieces 18 and the other end of second connecting rod 10 are articulated in same point on bracing frame 12, and the other end of the 3rd cradling piece 18 and installation frame 1 are hinged.

It comprises that also the 4th cradling piece and the 5th cradling piece 19, the four cradling pieces and the first frame bar 6 are symmetrically distributed about first connecting rod 8, and the 5th cradling piece 19 and the second frame bar 7 are symmetrically distributed about first connecting rod 8; The 4th cradling piece, the 5th cradling piece 19, the first frame bar 6, the second frame bar, 7 these equal in length and be parallel to each other; One end of the 4th cradling piece is articulated on 1: 13, and the other end of the 4th cradling piece is articulated on the installation frame 1; One end of the 5th cradling piece 19 is articulated on 1: 14, and the other end of the 5th cradling piece 19 is articulated on the installation frame 1.Because the 4th cradling piece is blocked, so do not mark in the drawings.

Described back-moving spring 3 is two, lays respectively at the two ends of the length direction of bracing frame 12.

Described moving contact spring 4 is three, and three moving contact springs 4 evenly distribute between two back-moving springs 3 and along the length direction of bracing frame 12.

As shown in Figure 5, at this moment, cam 5 is just driven by energy-storaging spring 2, cam 5 heads on roller 9 and drives first connecting rod 8 to left movement simultaneously, first connecting rod 8 drives 1: 13 and 1: 14 to left movement, 1: 13 and 1: 14 drives the first frame bar 6 and second connecting rod 10, the second frame bar 7 and third connecting rod 11 swings, do not draw third connecting rod 11 among Fig. 5, the first frame bar 6 and second connecting rod 10 are swung simultaneously and are made both move closer to utmost point position, the second frame bar 7 and third connecting rod 11 are with the motion of the first frame bar 6 and second connecting rod 10, described connecting rod utmost point position state refers to driving link (the first frame bar 6 or the second frame bar 7) and driven member (second connecting rod 10 or third connecting rod 11) conllinear state, and described conllinear state refers to that driving link and driven member are mutually heavy on moving contact connecting rod 15 directions of motion or be positioned at simultaneously on moving contact connecting rod 15 directions of motion but heavy mutually.

As Fig. 5, in this example, hinged two pin joints, the first frame bar 6 and the second frame bar 7 of the other end of second connecting rod 10 and third connecting rod 11 and bracing frame 12 and installation frame 1 two hinged pin joints all are positioned at a side of 1: 13 and 1: 14, this side group direction in Fig. 5 is meant 1: 13 and 1: 14 below, in this case, described conllinear state refers to that driving link is heavy mutually on moving contact connecting rod 15 directions of motion with driven member, based on direction among Fig. 5, moving contact connecting rod 15 directions of motion are vertical direction; 1: 13 and 1: 14 also can be between two hinged pin joints of hinged two pin joints of the other end of second connecting rod 10 and third connecting rod 11 and bracing frame 12 and the first frame bar 6 and the second frame bar 7 and installation frame 1, in this case, described conllinear state refers to that driving link and driven member are positioned on moving contact connecting rod 15 directions of motion but is heavy mutually, promptly is positioned at vertical direction simultaneously but heavy mutually.

Because the swing effect of the 3rd cradling piece 18, bracing frame 12 has the displacement of horizontal direction, but when working owing to the present invention, the amplitude of fluctuation of the 3rd cradling piece 18 is little, and bracing frame 12 is not restrained in the horizontal direction, so it is also very little that bracing frame 12 has the displacement of horizontal direction, the motion of bracing frame 12 vertical directions is not exerted an influence.The present invention can not need the 3rd cradling piece 18, but in order to make long-term work of the present invention reliable and stable, can be when the 3rd cradling piece 18 be set, and for bracing frame 12 is provided with the guide rail of moving contact connecting rod 15 directions of motion, the guide rail of this routine middle finger vertical direction.

Be used to drive the same prior art of Drive Structure of energy-storaging spring 2 accumulation of energys and release, do not add and give unnecessary details.

Claims

1. spring operating mechanism, it comprises installation frame, energy-storaging spring, back-moving spring, moving contact spring, cam and parallel four connecting rods as frame, parallel four connecting rods comprise the first frame bar, second frame bar and the first connecting rod, roller is installed on the first connecting rod, this roller and cam offset or away from, it is characterized in that, it also comprise can be used for the first frame bar form connecting rod utmost point position state second connecting rod, can be used for forming third connecting rod, the bracing frame of connecting rod utmost point position state with the second frame bar; Second connecting rod and third connecting rod equal in length and be parallel to each other; One end of one end of second connecting rod, the first frame bar and an end of first connecting rod all are articulated on first, one end of one end of third connecting rod, the second frame bar, the other end of first connecting rod all are articulated on second, and the other end of second connecting rod and third connecting rod is all hinged with bracing frame; One end of back-moving spring and moving contact spring all offsets with bracing frame, and the other end and the installation frame of back-moving spring offset, and the other end and the moving contact of moving contact spring offset.

2. a kind of spring operating mechanism according to claim 1 is characterized in that, described first is first bearing pin, and second is second bearing pin.

3. a kind of spring operating mechanism according to claim 2 is characterized in that, installation frame is provided with and is used to limit first through hole of the first bearing pin range of movement and second through hole of the second bearing pin range of movement.

4. a kind of spring operating mechanism according to claim 1 is characterized in that it also comprises the 3rd cradling piece, and an end of the 3rd cradling piece and the other end of second connecting rod are articulated in same point on bracing frame, and the other end and the installation frame of the 3rd cradling piece are hinged.

5. a kind of spring operating mechanism according to claim 1, it is characterized in that, it also comprises the 4th cradling piece and the 5th cradling piece, and the 4th cradling piece and the first frame bar are symmetrically distributed about first connecting rod, and the 5th cradling piece and the second frame bar are symmetrically distributed about first connecting rod; The 4th cradling piece, the 5th cradling piece, the first frame bar, second this equal in length of frame bar and be parallel to each other; One end of the 4th cradling piece is articulated on first, and the other end of the 4th cradling piece is articulated on the installation frame; One end of the 5th cradling piece is articulated on second, and the other end of the 5th cradling piece is articulated on the installation frame.

6. a kind of spring operating mechanism according to claim 1 is characterized in that described back-moving spring is two, lays respectively at the two ends of the length direction of bracing frame.

7. a kind of spring operating mechanism according to claim 6 is characterized in that, described moving contact spring is three, and three moving contact springs evenly distribute between two back-moving springs and along the length direction of bracing frame.