CN201898048U

CN201898048U - Novel load switch energy storage mechanism

Info

Publication number: CN201898048U
Application number: CN2010202173483U
Authority: CN
Inventors: 陈强
Original assignee: DONGFANG ELECTRICAL APPLIANCES Co Ltd FUJIAN
Current assignee: DONGFANG ELECTRICAL APPLIANCES Co Ltd FUJIAN
Priority date: 2010-06-07
Filing date: 2010-06-07
Publication date: 2011-07-13
Anticipated expiration: 2020-06-07

Abstract

The utility model relates to a novel load switch energy storage mechanism which is characterized in that a manual energy storage device and a power-driven energy storage device are respectively arranged at the left side and the right side of a chassis of a load switch, and an operation panel faces to a cabinet door; the manual energy storage device and the power-driven energy storage device are connected with acting transmission parts in a vacuum arc extinguish chamber through cams; the manual energy storage device mainly consists of an energy storage operating handle, a manual energy storage shaft, a small bevel gear, a large bevel gear, a small gear shaft, a small gear, a large gear, a pawl, a ratchet wheel, a main shaft, a cam, a switching-on spring, an energy storage maintaining plate, a roller and a crank arm; and the power-driven energy storage device consists of a motor output shaft, a small gear shaft, a large gear, a pawl, a ratchet wheel, a main shaft, a cam, a switching-on spring, an energy storage maintaining plate, a roller and a crank arm. The novel load switch energy storage mechanism is simple in structure and simple and convenient to operate, and is ideal.

Description

A kind of novel on-load switch stored energy mechanism

Technical field

The utility model relates to a kind of electric equipment field, refers more particularly to a kind of novel on-load switch stored energy mechanism.

Background technology

At present common on-load switch stored energy mechanism generally comprise: energy storage retaining member, manually energy storage connecting lever, energy storage axle and the cam that is attached thereto etc., the shortcoming of this class stored energy mechanism is the operating mechanism complexity, and trouble, poor reliability are installed.

Summary of the invention

The purpose of this utility model is to overcome above-mentioned weak point of the prior art and a kind of novel on-load switch stored energy mechanism simple in structure, easy and simple to handle is provided.

The utility model is realized in the following way:

A kind of novel on-load switch stored energy mechanism is characterized in that: be respectively equipped with manual energy storing device and electric energy-stored device on the left side, the right of on-load switch underframe, its guidance panel is towards the cabinet door; Manual energy storing device and electric energy-stored device all link to each other by the running part of cam with the vacuum interrupter action;

Described manual energy storing device mainly is made up of stored energy operation handle, manual energy storage axle (31), bevel pinion (32), bevel gear wheel (33), pinion shaft (41) and pinion, gear wheel (42) and ratchet, ratchet (34), main shaft (35), cam (36), switching-in spring (37), energy storage holding plate (38), roller (39), connecting lever; Described electric energy-stored device mainly is made up of motor output shaft, pinion shaft (41), gear wheel (42) and ratchet, ratchet (34), main shaft (35), cam (36), switching-in spring (37), energy storage holding plate (38), roller (39), connecting lever; Bevel pinion (32) is fixed on the manual energy storage axle (31) and is fixed in horizontal direction in the lump, bevel gear wheel (33) is meshed with bevel pinion (32) on being fixed on pinion shaft (41), bevel pinion (32) is meshed with gear wheel (42) and ratchet on being fixed on main shaft (35), ratchet (34) is fixed on the main shaft (35), and roller (39) is fixed on the ratchet (34).

The two ends up and down of described switching-in spring (37) flexibly connect with main shaft (35) and connecting lever axle respectively.

The drive connection of described manual energy storing device is followed successively by stored energy operation handle, manual energy storage axle (31), bevel pinion (32), bevel gear wheel (33), pinion shaft (41) and pinion, gear wheel (42) and ratchet, ratchet (34), main shaft (35), cam (36), connecting lever.

The drive connection of described electric energy-stored device is followed successively by: motor output shaft directly drives pinion shaft (41) rotation, gear wheel (42) and ratchet, ratchet (34), main shaft (35), cam (36), connecting lever.

In sum, the utility model is simple in structure, easy and simple to handle is a kind of desirable novel stored energy mechanism.

Description of drawings

Fig. 1 the utility model Facad structure schematic diagram;

Fig. 2 the utility model side structure schematic diagram;

Embodiment

Now in conjunction with the accompanying drawings, the utility model embodiment is described in detail in detail:

As shown in Figure 1 and Figure 2, the utility model is a kind of novel on-load switch stored energy mechanism, it is characterized in that: be respectively equipped with manual energy storing device and electric energy-stored device on the left side, the right of on-load switch underframe, its guidance panel is towards the cabinet door; Manual energy storing device and electric energy-stored device all link to each other by the running part of cam with the vacuum interrupter action;

The energy storage principle of manual energy storing device: handle is inserted before the reduction box in the square hole, rocking-turn 25 circles clockwise, ratchet has entered cam (36) breach, driving storage wheel shaft (31) rotates, continue firmly rocking-turn handle 25 circles, switching-in spring (37) energy storage finishes, and unloads handgrip.

The energy storage principle of electric energy-stored device: connect motor power, axle sleeve is by the big worm gear drives in the decelerator, when ratchet enters breach on the cam, drive the energy storage axle and rotate, switching-in spring (37) is pinned the small rod transmission one little bent plate on the crank after being pulled to peak by energy storage holding plate (38), depress sensitive switch, motor power is cut off, and " energy storage indication " shows that whole energy storage time is 15 seconds.

After connecting lever rotated the dead point, switching-in spring was stretched, and was in the energy storage position, and energy storage holding plate (38) withstands the roller (39) on the ratchet, realized that energy storage keeps.Forward that ratchet will be backed down by the pin on the mechanism case when driving ratchet concave point position to if be rotated further ratchet on that gear wheel of stored energy operation handle (42), gear wheel (42) will be realized dallying.

Claims

1. novel on-load switch stored energy mechanism, it is characterized in that: be respectively equipped with manual energy storing device and electric energy-stored device on the left side, the right of on-load switch underframe, its guidance panel is towards the cabinet door; Manual energy storing device and electric energy-stored device all link to each other by the running part of cam with the vacuum interrupter action.

2. a kind of novel on-load switch stored energy mechanism according to claim 1, it is characterized in that: described manual energy storing device, mainly form by stored energy operation handle, manual energy storage axle (31), bevel pinion (32), bevel gear wheel (33), pinion shaft (41) and pinion, gear wheel (42) and ratchet, ratchet (34), main shaft (35), cam (36), switching-in spring (37), energy storage holding plate (38), roller (39), connecting lever; Described electric energy-stored device mainly is made up of motor output shaft, pinion shaft (41), gear wheel (42) and ratchet, ratchet (34), main shaft (35), cam (36), switching-in spring (37), energy storage holding plate (38), roller (39), connecting lever; Bevel pinion (32) is fixed on the manual energy storage axle (31) and is fixed in horizontal direction in the lump, bevel gear wheel (33) is meshed with bevel pinion (32) on being fixed on pinion shaft (41), bevel pinion (32) be fixed on main shaft (35) on gear wheel (42) on ratchet be meshed, ratchet (34) is fixed on the main shaft (35), and roller (39) is fixed on the ratchet (34).

3. a kind of novel on-load switch stored energy mechanism according to claim 2 is characterized in that: the two ends up and down of described switching-in spring (37) flexibly connect with main shaft (35) and connecting lever axle respectively.

4. a kind of novel on-load switch stored energy mechanism according to claim 2 is characterized in that: the drive connection of described manual energy storing device is followed successively by stored energy operation handle, manual energy storage axle (31), bevel pinion (32), bevel gear wheel (33), pinion shaft (41) and pinion, gear wheel (42) and ratchet, ratchet (34), main shaft (35), cam (36), connecting lever.

5. a kind of novel on-load switch stored energy mechanism according to claim 2, it is characterized in that: the drive connection of described electric energy-stored device is followed successively by: motor output shaft directly drives pinion shaft (41) rotation, gear wheel (42) and ratchet, ratchet (34), main shaft (35), cam (36), connecting lever.