CN203639655U - Beating-up energy-storage power assisting device - Google Patents

Abstract

The utility model relates to a beating-up energy-storage power assisting device. The beating-up energy-storage power assisting device comprises a beating-up shaft, reel legs and a front upper beam base plate. The reel legs are fixed to the two ends of the beating-up shaft. A fixed block is arranged between the beating-up shaft and the front upper beam base plate. The two sides of the fixed block are provided with a left-handed torsional spring and a right-handed torsional spring respectively, and the left-handed torsional spring and the right-handed torsional spring are arranged on the beating-up shaft. One end of the left-handed torsional spring and one end of the right-handed torsional spring are fixed to the fixed block respectively. The other end of the left-handed torsional spring and the other end of the right-handed torsional spring are fixed to fixed rings between the two reel legs on the beating-up shaft. The beating-up energy-storage power assisting device is simple in structure, reasonable in design, convenient to use, capable of storing energy when a beating-up assembly swings backwards, reducing the backward inertia force of the beating-up assembly when the beating-up assembly is located at the rear limiting position and the swing direction of the beating-up assembly changes, and also capable of releasing the energy and increasing forward swing torque of the beating-up assembly when the beating-up assembly swings forwards.

Description

The one energy-storage booster that beats up

[technical field]

The utility model relates to the one energy-storage booster that beats up, and belongs to loom linkage technical field.

[background technology]

Jet water spray all uses linkage to beat up, and the feature that linkage beats up is that processing and fabricating is simple, and cost is low, but is faced with the problem of beating-up force not as conjugate cam structure.

The loom that uses linkage to beat up, by rotatablely moving through transmissions such as bent axle, connecting rod, fork, rocking bar, rockers of input, changes the oscillating motion of the assembly that beats up into.The above-mentioned assembly that beats up is mainly made up of tightening weft axis, reed pin, slay and reed, and the assembly that beats up swings to front extreme position and cloth cover bumping to loom front, then swing to backward rear extreme position, and the assembly that beats up swings work and so forth.When the assembly that beats up swings forward and the shock of cloth cover overcome and fallen the inertia force that the assembly that beats up swings forward as load; While swing backward, beat up assembly without any load, cannot increase the torsion of swing forward.

[utility model content]

The purpose of this utility model is: the one energy-storage booster that beats up is provided, and storage power in the time that the assembly that beats up swings backward, and beat up and when assembly swaying direction changes, reduce the assembly inertia backward that beats up at rear extreme position; When the assembly that beats up swings forward, energy storage device releases energy, and increases the torsion of swing forward.

For achieving the above object, the technical solution adopted in the utility model is:

The one described in the utility model energy-storage booster that beats up, comprise tightening weft axis, reed pin and front upper beam base plate, reed pin is fixed on the two ends of tightening weft axis, between tightening weft axis and front upper beam base plate, be provided with fixed block, the both sides of fixed block are respectively equipped with left-handed torsion spring and dextrorotation torsion spring on tightening weft axis, one end of left-handed torsion spring and dextrorotation torsion spring is separately fixed on fixed block, and the other end of left-handed torsion spring and dextrorotation torsion spring is separately fixed on tightening weft axis on the retainer ring between two reed pin.

Adopt after said structure, the utility model beneficial effect is: the utility model is simple in structure, reasonable in design, easy to use, storage power when being installed on the assembly that beats up and swinging backward by this, and beat up and when assembly swaying direction changes, reduce the assembly inertia force backward that beats up at rear extreme position; When the assembly that beats up swings forward, release energy, increase the torsion of the assembly swing forward of beating up.

[brief description of the drawings]

Accompanying drawing described herein is to be used to provide further understanding of the present utility model, forms the application's a part, but does not form to improper restriction of the present utility model, in the accompanying drawings:

Fig. 1 is the utility model structural representation;

Fig. 2 is the utility model side view.

In figure:

1. reed pin; 2. retainer ring; 3. dextrorotation torsion spring; 4. fixed block; 5. left-handed torsion spring; 6. tightening weft axis; 7. front upper beam base plate.

[detailed description of the invention]

Describe the utility model in detail below in conjunction with accompanying drawing and specific embodiment, illustrative examples wherein and explanation are only used for explaining the utility model, but not as to restriction of the present utility model.

As shown in Figure 1, 2, the one energy-storage booster that beats up, comprise tightening weft axis 6, reed pin 1 and front upper beam base plate 7, reed pin 1 is fixed on the two ends of tightening weft axis 6, between tightening weft axis 6 and front upper beam base plate 7, be provided with fixed block 4, the both sides of fixed block 4 are respectively equipped with left-handed torsion spring 5 and dextrorotation torsion spring 3 on tightening weft axis 6, and one end of left-handed torsion spring 5 and dextrorotation torsion spring 3 is separately fixed on fixed block 4, and the other end of left-handed torsion spring 5 and dextrorotation torsion spring 3 is separately fixed on tightening weft axis 6 on the retainer ring 2 between two reed pin 1.When tightening weft axis 6 swings (in Fig. 2 clockwise) dextrorotation torsion spring 3 and left-handed torsion spring 5 is deformed and stores energy on torsion spring by twisting backward, dextrorotation torsion spring 3 and left-handed torsion spring 5 apply the power of (in Fig. 2 counterclockwise) forward to tightening weft axis 6 all the time.In the time that tightening weft axis swings forward, dextrorotation torsion spring 3 and left-handed torsion spring 5 recover distortion, release energy, and increase the power that tightening weft axis 6 swings forward.

Torque spring in embodiment, can change compression spring, tension spring, hydraulic spring grease cup and air spring into, changes state storage power in the time being subject to external force, discharges all form of springs of strength recovery original form after external force disappears.

The above is only preferred embodiments of the present utility model, and the equivalence of doing according to structure, feature and principle described in the utility model patent claim therefore all changes or modifies, and is included in the utility model patent claim.

Claims (1)

1. the energy-storage booster that beats up, comprise tightening weft axis, reed pin and front upper beam base plate, reed pin is fixed on the two ends of tightening weft axis, it is characterized in that: between tightening weft axis and front upper beam base plate, be provided with fixed block, the both sides of fixed block are respectively equipped with left-handed torsion spring and dextrorotation torsion spring on tightening weft axis, one end of left-handed torsion spring and dextrorotation torsion spring is separately fixed on fixed block, and the other end of left-handed torsion spring and dextrorotation torsion spring is separately fixed on tightening weft axis on the retainer ring between two reed pin.

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