CN204096833U - One is energy-conservation leads boots - Google Patents

Abstract

The utility model discloses and a kind of energy-conservationly lead boots, comprise boots body, two cylinders, expansion link and guide rod, described boots body inside is the cavity be communicated with, also storage battery is provided with in cavity, two madial walls of boots body have cylinder slotted eye, what two cylinders were relative is arranged in two roller trough, an expansion link is respectively provided with at the two ends of each cylinder, the two ends of the cylinder axle of cylinder are each passed through one end of two expansion links, the other end of two expansion links is fixed on the inwall in outside in boots body cavity, a microgenerator is respectively provided with at the two ends of each axle, microgenerator and cylinder coaxial, guide rod is fixed on the inwall inside boots body cavity, the other end is fixedly connected with the shell of microgenerator, the both sides of the external wall of boots are also provided with illuminating LED lamp, microgenerator is connected with storage battery by wire, storage battery is connected with LED by wire, the utility model provides energy to throw light on to the LED led outside boots while boots and rail friction are led in reduction, efficient energy-saving.

Description

One is energy-conservation leads boots

Technical field

The utility model belongs to elevator energy-saving technical field, particularly relates to a kind of energy-conservationly to lead boots.

Background technology

Along with the development of science and technology and increasing of population, daily life can be more and more higher to energy demand, therefore how saving the energy becomes in order to a social concern globalized, in the use procedure of high buildings and large mansions elevator, every day all can consume a large amount of electric energy, except the lifting for elevator, elevator intraoral illumination also can consume a lot of energy, therefore how to save and uses energy to become the major issue now needing solution.

Utility model content

in order to solve existing the problems referred to above, the utility model provides a kind of and energy-conservationly leads boots, can energy be provided to throw light on to the LED led outside boots while boots and rail friction are led in reduction, efficient energy-saving.

Technical problem to be solved in the utility model is achieved through the following technical solutions:

One is energy-conservation leads boots, comprise boots body, two cylinders, expansion link and guide rod, described boots body inside is the cavity be communicated with, also storage battery is provided with in cavity, two madial walls of boots body have cylinder slotted eye, what two cylinders were relative is arranged in two roller trough, cylinder major part is in boots body, fraction is external at boots, an expansion link is respectively provided with at the two ends of each cylinder, the two ends of the cylinder axle of cylinder are each passed through one end of two expansion links, the other end of two expansion links is fixed on the inwall in outside in boots body cavity, a microgenerator is respectively provided with at the two ends of each axle, microgenerator and cylinder coaxial, guide rod is fixed on the inwall inside boots body cavity, the other end is fixedly connected with the shell of microgenerator, the both sides of the external wall of boots are also provided with illuminating LED lamp, microgenerator is connected with storage battery by wire, storage battery is connected with LED by wire.

Preferably, described expansion link comprises lever and fixed pole, one end of fixed pole is fixed on the inwall in outside in boots body cavity, the other end extend into the inside of lever, the lateral wall that fixed pole extend into one end of lever is fixed with Kato, the madial wall of lever is fixed with jacking, between jacking and Kato, is provided with spring, one end of spring is connected with Kato, and the other end is connected with jacking.

Preferably, described guide rod comprises outer bar and interior bar, one end of outer bar is fixed on the shell of microgenerator, the other end is enclosed within Inner bar, the other end of Inner bar is fixed on the inwall inside boots body cavity, the lateral wall of Inner bar prolongs Inner bar and be axially arranged with raised line, the madial wall of outer bar is provided with groove corresponding with it.

Preferably, described expansion link and guide rod are stainless steel.

Preferably, the lateral wall of described cylinder is provided with rubber layer.

Preferably, described LED is yellow.

The beneficial effect that the utility model reaches is: become friction of rolling by the contact of cylinder and guide rail by with former rail and the cliding friction of leading between boots, reduce the consumption of energy, be electric energy by the transformation of energy of a part of friction of rolling simultaneously, for leading boots battery charge, the collection of energy that originally can slattern is got up and to power to the illuminating lamp of leading on boots, reduce the waste of energy.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the utility model lateral plan;

Fig. 3 is the structural representation of the new type expansion link of this practicality;

Fig. 4 is the section drawing of outer bar of the present utility model;

Fig. 5 is the section drawing of interior bar of the present utility model;

Fig. 6 is the section drawing that the outer bar of the utility model is enclosed within interior bar.

Detailed description of the invention

In order to further describe technical characterstic of the present utility model and effect, below in conjunction with the drawings and specific embodiments, the utility model is described further.

With reference to Fig. 1-Fig. 6, one is energy-conservation leads boots, comprise boots body 1, two cylinders 2, expansion link 3 and guide rod 4, described boots body 1 inside is the cavity be communicated with, storage battery 5 is also provided with in cavity, two madial walls of boots body 1 have cylinder slotted eye 6, what two cylinders 2 were relative is arranged in two roller trough 6, cylinder 6 major part is in boots body, fraction is external at boots, an expansion link 3 is respectively provided with at the two ends of each cylinder 6, the two ends of the cylinder axle 21 of cylinder 2 are each passed through one end of two expansion links 3, the other end of two expansion links 3 is fixed on the inwall in outside in boots body 1 cavity, a microgenerator 7 is respectively provided with at the two ends of each axle 21, microgenerator 7 is coaxial with cylinder 2, guide rod 4 one end is fixed on the inwall inside boots body 1 cavity, the other end is fixedly connected with the shell of microgenerator 7, the both sides of the external wall of boots are also provided with LED 8, microgenerator 7 is connected with storage battery 5 by wire, storage battery 5 is connected with LED 8 by wire.

Further, described expansion link 3 comprises lever 31 and fixed pole 32, one end of fixed pole 32 is fixed on the inwall in outside in boots body 1 cavity, the other end extend into the inside of lever 31, the lateral wall that fixed pole 32 extend into one end of lever 31 is fixed with Kato 33, the madial wall of lever 31 is fixed with jacking 34, between jacking 34 and Kato 33, is provided with spring 35, one end of spring 35 is connected with Kato 33, and the other end is connected with jacking 34.

Further, described guide rod 4 comprises outer bar 41 and interior bar 42, one end of outer bar 41 is fixed on the shell of microgenerator 7, the other end is enclosed within Inner bar 42, the other end of Inner bar 42 is fixed on the inwall inside boots body 1 cavity, the lateral wall of Inner bar 42 prolongs Inner bar 42 and be axially arranged with raised line 43, the madial wall of outer bar 41 is provided with groove 44 corresponding with it.

Further, described expansion link 3 is stainless steel with guide rod 4.

In order to reduce vibrations when elevator runs, the lateral wall of described cylinder 2 is provided with rubber layer.

Further, described LED 8 is yellow.

In time leading boots work, the barrel of two cylinders 2 is against on guide rail under the effect of expansion link 3, along with the up-and-down movement cylinder 2 of elevator is driven rotation, meanwhile, cylinder axle 21 rotates and makes, and guide rod 4 limits the direction of microgenerator 7, make it can not rotate along with the rotation of cylinder axle 21, the rotation of simultaneous cylinder axle 21, microgenerator 7 produces electric energy accumulators 5 and charges, and storage battery 5 gives LED 8 powered lighting again.

Above-described embodiment does not limit the utility model in any form, and all technical schemes taking the form of equivalent replacement or equivalent transformation to obtain, all drop within protection domain of the present utility model.

Claims (6)

1. energy-conservationly lead boots for one kind, it is characterized in that: comprise boots body (1), two cylinders (2), expansion link (3) and guide rod (4), described boots body (1) inside is the cavity be communicated with, storage battery (5) is also provided with in cavity, two madial walls of boots body (1) have cylinder slotted eye (6), what two cylinders (2) were relative is arranged in two roller trough (6), cylinder (6) major part is in boots body, fraction is external at boots, an expansion link (3) is respectively provided with at the two ends of each cylinder (6), the two ends of the cylinder axle (21) of cylinder (2) are each passed through one end of two expansion links (3), the other end of two expansion links (3) is fixed on the inwall in outside in boots body (1) cavity, a microgenerator (7) is respectively provided with at the two ends of each axle (21), microgenerator (7) is coaxial with cylinder (2), guide rod (4) one end is fixed on the inwall inside boots body (1) cavity, the other end is fixedly connected with the shell of microgenerator (7), the both sides of the external wall of boots are also provided with LED (8), microgenerator (7) is connected with storage battery (5) by wire, storage battery (5) is connected with LED (8) by wire.

2. one according to claim 1 is energy-conservation leads boots, it is characterized in that: described expansion link (3) comprises lever (31) and fixed pole (32), one end of fixed pole (32) is fixed on the inwall in outside in boots body (1) cavity, the other end extend into the inside of lever (31), the lateral wall that fixed pole (32) extend into one end of lever (31) is fixed with Kato (33), the madial wall of lever (31) is fixed with jacking (34), spring (35) is provided with between jacking (34) and Kato (33), one end of spring (35) is connected with Kato (33), the other end is connected with jacking (34).

3. one according to claim 1 is energy-conservation leads boots, it is characterized in that: described guide rod (4) comprises outer bar (41) and interior bar (42), one end of outer bar (41) is fixed on the shell of microgenerator (7), the other end is enclosed within Inner bar (42), the other end of Inner bar (42) is fixed on the inwall inside boots body (1) cavity, the lateral wall of Inner bar (42) prolongs Inner bar (42) and be axially arranged with raised line (43), the madial wall of outer bar (41) is provided with groove (44) corresponding with it.

4. one according to claim 1 is energy-conservation leads boots, it is characterized in that: described expansion link (3) and guide rod (4) are stainless steel.

5. one according to claim 1 is energy-conservation leads boots, it is characterized in that: the lateral wall of described cylinder (2) is provided with rubber layer.

6. one according to claim 1 is energy-conservation leads boots, it is characterized in that: described LED (8) is for yellow.