CN203386648U - A hand-operated energy storage mechanism - Google Patents

Abstract

The utility model provides a hand-operated energy storage mechanism. A transmission shaft (2) is installed on a mechanism support (1) of the hand-operated energy storage mechanism. A first gear (3) is installed on the transmission shaft (2). Installing plates (4) which are arranged in a vertical mode are installed inside the mechanism support (1). An energy storage shaft (6) sleeves on the installing plates (4) through a connecting block (5). A second gear (7) is installed on the energy storage shaft (6). A chain (8) is installed between the first gear (3) and the second gear (7) in a sleeved mode. An energy storage spring (10) is installed between the energy storage shaft (6) and a mechanism upper end portion (9) of the mechanism support (1). The energy storage shaft (6) is in fixed connection with the chain (8). According to the novel hand-operated energy storage structure of the utility model, the whole energy storage mechanism is simple in structure; the energy storage process is convenient; the number of components is reduced; the transmission is stable and reliable; the assembling is convenient; and the working efficiency is raised.

Description

A kind of Manual stored energy organization

Technical field

The utility model belongs to the indoor high-voltage vacuum circuit breaker technical field, more particularly, relates to a kind of Manual stored energy organization for vacuum circuit-breaker.

Background technology

The high-pressure vacuum breaker spring Manual stored energy organization of available technology adopting mainly contains: 1 adopts turbine and worm, chain gear transmission; 2, gear chain gear transmission.But, adopt above Manual stored energy organization that complex structure is arranged, the defect that parts are many, efficiency of assembling is low simultaneously, the thermal energy storage process complexity.

The utility model content

Technical problem to be solved in the utility model is: for the deficiencies in the prior art, provide a kind of minimizing stored energy mechanism parts, improve the Manual stored energy organization of energy storage efficiency and stored energy mechanism functional reliability.

Solve above-described technical problem, the technical scheme that the utility model is taked is:

The utility model is a kind of Manual stored energy organization, comprise mechanism rack, power transmission shaft is installed on mechanism rack, the gear I is installed on described power transmission shaft, vertically arranged mounting panel is installed in mechanism rack, the energy storage axle is sleeved on mounting rod by contiguous block, the gear II is installed on described energy storage axle, be set with chain between gear I and gear II, between the mechanism upper end of energy storage axle and mechanism rack, energy-stored spring is installed, between described energy storage axle and chain, be fixedly connected with, like this, when the gear I by gear III and chain power transmission during to the energy storage axle, the chain rotation can drive moving down of energy storage axle, thereby drive the stretching energy storage of energy-stored spring.

Preferably, described power transmission shaft and energy storage axle are horizontal arrangement, power transmission shaft is connected by a plurality of unilateral bearings with mechanism rack, power transmission shaft one end end arranges moving block that can rotating drive shaft, ratchet is installed on power transmission shaft, the ratchet lower position arranges ratchet, and ratchet is installed on ratchet, and ratchet is connected with mechanism rack by installation shaft.

Preferably, also be provided with the gear III on described mechanism rack, gear III one end and the engagement of gear I, be set with chain between the gear III other end and gear II, mounting panel comprises the mounting panel I, the mounting panel II, the mounting panel III, power transmission shaft is arranged on mounting panel I and mounting panel II, and a contiguous block is installed respectively on the mounting panel I of power transmission shaft top position and mounting panel II, and the energy storage axle is arranged between two contiguous blocks.

Preferably, installing connecting rods between the mounting panel II of energy storage axle top and mounting panel III, supporting seat is installed in the contiguous block side, and energy-stored spring is arranged between supporting seat and connecting rod.

Preferably, mount pin and torsion spring on described moving block, described mounting panel I, the mounting panel II, the mounting panel III all is set to vertically arranged structure, the mounting panel I, the mounting panel II, the lower end of mounting panel III is connected bottom mechanism, the mounting panel I, the mounting panel II, the upper end of mounting panel III is connected with the mechanism upper end.

Adopt the technical solution of the utility model, can obtain following beneficial effect:

Manual stored energy organization of the present utility model, reduce the stored energy mechanism parts, improves energy storage efficiency and stored energy mechanism functional reliability.Structure of the present utility model, by the external force moving block, successively by gear I, gear III, chain, the gear II realizes that power transmission is to the energy storage axle, drives the purpose that the energy storage axle rotates, then drives the stretching of energy-stored spring by the energy storage axle, thereby realize the purpose of manual energy storage, manual energy storage structure of the present utility model, abandoned turbine and worm and click transmission, and whole stored energy mechanism is simple in structure, thermal energy storage process is convenient, parts reduce, stable drive is reliable, easy to assembly, increase work efficiency.

The accompanying drawing explanation

Below to each accompanying drawing of this specification, expressed content and the mark in figure are made brief description:

The structural representation that Fig. 1 is Manual stored energy organization described in the utility model;

The partial structurtes schematic diagram that Fig. 2 is Manual stored energy organization described in the utility model;

In accompanying drawing, be labeled as: 1, mechanism rack; 2, power transmission shaft; 3, gear I; 4, mounting panel; 5, contiguous block; 6, energy storage axle; 7, gear II; 8, chain; 9, mechanism upper end; 10, energy-stored spring; 11, unilateral bearing; 12, moving block; 13, ratchet; 14, ratchet; 15, installation shaft; 16, gear III; 17, mounting panel I; 18, mounting panel II; 19, mounting panel III; 20, connecting rod; 21, supporting seat; 22, pin; 23, torsion spring; 24, mechanism bottom.

Embodiment

Below contrast accompanying drawing, by the description to embodiment, embodiment of the present utility model is described in further detail as the effect of the mutual alignment between the shape of each related member, structure, each several part and annexation, each several part and operation principle etc.:

As accompanying drawing 1, shown in accompanying drawing 2, the utility model is a kind of Manual stored energy organization, comprise mechanism rack 1, power transmission shaft 2 is installed on mechanism rack 1, gear I 3 is installed on described power transmission shaft 2, the vertically arranged mounting panel 4 of the interior installation of mechanism rack 1, energy storage axle 6 is sleeved on mounting panel 4 by contiguous block 5, gear II 7 is installed on energy storage axle 6, suit chain 8 between gear I 3 and gear II 7, between the mechanism upper end 9 of energy storage axle 4 and mechanism rack 1, installation energy-stored spring 10, be fixedly connected with between energy storage axle 6 and chain 8.

Preferably, described power transmission shaft 2 and energy storage axle 6 are horizontal arrangement, power transmission shaft 2 is connected by a plurality of unilateral bearings 11 with mechanism rack 1, power transmission shaft 2 one end ends arrange moving block 12 that can rotating drive shaft 2, ratchet 13 is installed on power transmission shaft 2, ratchet 13 lower positions arrange ratchet 14, and ratchet 14 is installed on ratchet 13, and ratchet 13 is connected with mechanism rack 1 by installation shaft 15.

Preferably, also be provided with gear III 16 on described mechanism rack 1, gear III 16 1 ends and 3 engagements of gear I, suit chain 8 between gear III 16 other ends and gear II 7, mounting panel 4 comprises mounting panel I 17, mounting panel II 18, mounting panel III 19, power transmission shaft 2 is arranged on mounting panel I 17 and mounting panel II 18, and a contiguous block 5 is installed respectively on the mounting panel I 17 of power transmission shaft 2 top positions and mounting panel II 18, and energy storage axle 6 is arranged between two contiguous blocks 5.

Preferably, installing connecting rods 20 between the mounting panel II 18 of energy storage axle 6 tops and mounting panel III 19, supporting seat 21 is installed in contiguous block 5 sides, and energy-stored spring 10 is arranged between supporting seat 21 and connecting rod 20.

Preferably, mount pin 22 and torsion spring 23 on described moving block 12, described mounting panel I 17, mounting panel II 18, mounting panel III 19 all is set to vertically arranged structure, mounting panel I 17, mounting panel II 18, the lower end of mounting panel III 19 and mechanism bottom 24 is connected, mounting panel I 17, mounting panel II 18, the upper end of mounting panel III 19 is connected with mechanism upper end 9.

In Manual stored energy organization of the present utility model, unilateral bearing 11 determines that power transmission shaft 2 can only rotate to a direction, pin 22, torsion spring 23 makes moving block 12 return fast when manual energy storage (by external force, shaking moving block 12), can constantly complete manual energy-storage operating like this.Recoil of spring mechanism comprises ratchet 14 and ratchet 13, in manual energy storage process (being also spring 14 drawing process), the pulling force of energy-stored spring 10 causes the resilience of spring 10, and the recoil of spring of preventing structure has been arranged, and just can effectively prevent the elastic force resilience in thermal energy storage process.During Manual stored energy organization work of the present utility model, the vacuum circuit-breaker manual energy storage, make moving block 12 drive power transmission shaft 2 by external force and rotate, thereby make power transmission shaft, gear I 3 on 2 is rotated, by gear I 3 and the gear III 16 on mechanism rack 1, mesh, driven gear III 16 is rotated, and coordinates by chain 8, gear II 7, realize the transmission of power, energy storage axle 6 is rotated, thereby pull energy-stored spring 14, realize the operation of manual energy storage.

Manual stored energy organization described in the utility model, by the external force moving block, successively by gear I, gear III, chain, the gear II realizes that power transmission is to the energy storage axle, drive the purpose that the energy storage axle rotates, drive again the stretching of energy-stored spring by the energy storage axle, thereby realize the purpose of manual energy storage, manual energy storage structure of the present utility model, abandoned turbine and worm and click transmission, and whole stored energy mechanism is simple in structure, thermal energy storage process is convenient, parts reduce, stable drive is reliable, easy to assembly, increase work efficiency.

The above has carried out exemplary description to the utility model by reference to the accompanying drawings; obviously the concrete realization of the utility model is not subject to the restrictions described above; as long as the various improvement that adopted method design of the present utility model and technical scheme to carry out; or without improving, design of the present utility model and technical scheme are directly applied to other occasions, all in protection range of the present utility model.

Claims (5)

1. a Manual stored energy organization, comprise mechanism rack (1), the upper power transmission shaft (2) of installing of mechanism rack (1), it is characterized in that: the upper gear I (3) of installing of described power transmission shaft (2), vertically arranged mounting panel (4) is installed in mechanism rack (1), energy storage axle (6) is sleeved on mounting panel (4) by contiguous block (5), the upper gear II (7) of installing of described energy storage axle (6), be set with chain (8) between gear I (3) and gear II (7), between the mechanism upper end (9) of described energy storage axle (6) and mechanism rack (1), energy-stored spring (10) is installed, between described energy storage axle (6) and chain (8), be fixedly connected with.

2. Manual stored energy organization according to claim 1, it is characterized in that: described power transmission shaft (2) and energy storage axle (6) are horizontal arrangement, power transmission shaft (2) is connected by a plurality of unilateral bearings (11) with mechanism rack (1), power transmission shaft (2) one end ends arrange moving block (12) that can rotating drive shaft (2), the upper ratchet (13) of installing of power transmission shaft (2), ratchet (13) lower position arranges ratchet (14), it is upper that ratchet (14) is installed on ratchet (13), and ratchet (13) is connected with mechanism rack (1) by installation shaft (15).

3. Manual stored energy organization according to claim 1 and 2, it is characterized in that: also be provided with gear III (16) on described mechanism rack (1), gear III (16) one ends and gear I (3) engagement, be set with chain (8) between gear III (16) other end and gear II (7), mounting panel (4) comprises mounting panel I (17), mounting panel II (18), mounting panel III (19), power transmission shaft (2) is arranged on mounting panel I (17) and mounting panel II (18), on the mounting panel I (17) of power transmission shaft (2) top position and mounting panel II (18), a contiguous block (5) is installed respectively, energy storage axle (6) is arranged between two contiguous blocks (5).

4. Manual stored energy organization according to claim 3, it is characterized in that: installing connecting rods (20) between the mounting panel II (18) of energy storage axle (6) top and mounting panel III (19), supporting seat (21) is installed in contiguous block (5) side, and energy-stored spring (10) is arranged between supporting seat (21) and connecting rod (20).

5. Manual stored energy organization according to claim 4, it is characterized in that: the upper mount pin (22) of described moving block (12) and torsion spring (23), described mounting panel I (17), mounting panel II (18), mounting panel III (19) all is set to vertically arranged structure, mounting panel I (17), mounting panel II (18), the lower end of mounting panel III (19) is connected with mechanism bottom (24), mounting panel I (17), mounting panel II (18), the upper end of mounting panel III (19) is connected with mechanism upper end (9).

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