CN201818446U - Linear reciprocating energy collecting device - Google Patents

Abstract

The utility model relates to a linear reciprocating energy collecting device which comprises guide rails, power transmission devices arranged on the guide rails, a loading platform which is in slip connection with the guide rails and an energy collecting device fixed on the bottom surface of the loading platform, wherein a foundation is arranged outside one side of the two guide rails, steps are built at the lateral side of the foundation, and a lower lifting lock is fixed at the inner side of the steps; a top plate is arranged between the upper ends of the two guide rails, and an upper lifting lock is arranged on the inner surface of the top plate; each guide rail is sheathed with one power transmission device, and the loading platform is connected with the power transmission devices; and the energy collecting device, an electric generator and an electric motor are fixed on the bottom surface of the loading platform and are linked with the power transmission devices. By using the utility model, potential energy generated in the going-downstairs process of people can be converted into electric energy and other available energy, thereby greatly reducing the problem of the shortage of urban energy. Because of simple structure and low manufacturing and production cost, the linear reciprocating energy collecting device can be also used domestically, thereby introducing a green energy concept to the city.

Description

Linear reciprocating type energy collecting device

One, technical field: the utility model relates to a kind of linear reciprocating type energy collecting device.

Two, background technique: people are to use elevator downstairs more in high-rise usually, and elevator is continued to use heavy-duty motor capstan winch suspention wirerope formula structure always, and its energy consumption is big, has potential safety hazard.Under eminence during to lower, the potential energy that weight produced of human body self can utilize fully, so far also not at the people downstairs the time, the device of the energy that collector's body weight is produced.

Three, summary of the invention: the purpose of this utility model is to provide a kind of human body self weight of utilizing to people, outwards the linear reciprocating type energy collecting device of outputting power.

The purpose of this utility model is achieved in that linear reciprocating type energy collecting device, comprise two upright guide rails, be installed in the actuating unit on the guide rail, the load carrying platform that is slidingly connected by power transmitting deice and guide rail, and be connected with power transmitting deice, be fixed on the energy collecting device of load carrying platform bottom surface.Two guide rails, one side is with ground outward, nonfloating rail on the ground, and the side place sets up step in addition, is fixed with lifting lock down at step inner side surface place.Be laid with the top board of level between two guide rails upper end, this top board is concordant with the ground of superstructure, is equiped with the lifting lock at the top board inner face.All be sheathed with power transmitting deice on every guide rail, the load carrying platform level is laid, and two jiaos of load carrying platform are connected with the power transmitting deice bottom, are connected with wire rope between two jiaos of sides and power transmitting deice top in addition.Be fixed with energy collecting device and generator, motor in the load carrying platform bottom surface, three and power transmitting deice interlock.

Owing to carry out technique scheme, the utility model can be converted into electric energy with the potential energy that the people is produced downstairs the time, and other utilizable energy sources, greatly reduces urban energy problem in short supply.According to actual conditions, this device can be widely used in flow of the people many airport, office building, hotel, market, automobile, railway station, because simple in structure, makes, cost of production is very low, can use equally in the family, and be that the city imports the green energy resource theory.

Four, description of drawings: the technical solution of the utility model is provided by following drawings and Examples:

Fig. 1 is linear reciprocating type energy collecting device side-looking structural representation;

Fig. 2 is linear reciprocating type energy collecting device master TV structure schematic representation;

Fig. 3 is linear reciprocating type energy collecting device backsight structural representation;

Fig. 4 is the protective frame structural representation;

Fig. 5 is the power transmitting deice structural representation;

Fig. 6 is the energy collecting device structural representation;

Fig. 7 is a lifting lock construction schematic representation.

Legend: 1, top board, 2, guide rail, 3, decide the axon cover, 4, synchronous transmission gear, 5, generator gear, 6, generator, 7, step, 8, following lifting lock, 9, ground, 10, guardrail, 11, energy collecting device, 12, shock reducing support leg, 13, load carrying platform, 14, outer protective frame, 15, sliding sleeve, 16, following protective net, 17, motor, 18, pressure transducer and hand switch, 19, the fixed protection net, 20, last protective net, 21, last lifting lock, 22, interior protective frame, 23, spring, 24, ball, 25, bearing, 26, the axle sleeve of turning, 27, clockwork spring, 28, spring gear, 29, shell, 30, transverse slat, 31, electromagnet, 32, flexible rod, 33, continuous motion stem, 34, dead bolt, 35, lock shaft, 36, spring.

Five, embodiment:

The utility model is not subjected to following embodiment's restriction, can determine concrete mode of execution according to the technical solution of the utility model and actual conditions.

Embodiment: as Figure 1-3, linear reciprocating type energy collecting device comprises two upright guide rails 2, be installed in the actuating unit on the guide rail 2, the load carrying platform 13 that is slidingly connected by power transmitting deice and guide rail 2, and be connected with power transmitting deice, be fixed on the energy collecting device 11 of load carrying platform 13 bottom surfaces.Two guide rails 2 are cylindrical body, offer helical orbit on its surface, uprightly are fixed on ground.Two guide rails, 2 one sides are with ground 9 outward, and nonfloating rail 10 on the ground 9, and the side place sets up step 7 in addition, and step 7 both sides are made as the slope, and Convenient wheelchair and freight transportation are fixed with lifting lock 8 down at step 7 inner side surface places.Be laid with the top board 1 of level between two guide rails, 2 upper ends, this top board 1 is concordant with the ground of superstructure, is equiped with lifting lock 21 at top board 1 inner face.

As shown in Figure 7, upper and lower lifting lock 21,8 except that dead bolt 34 towards difference, all the other structures are identical, it is made up of transverse slat 30, electromagnet 31 and dead bolt 34, transverse slat 30 is fixed on top board 1 or step 7 inner side surface places, and transverse slat 30 middle parts are equiped with electromagnet 31, and transverse slat 30 both sides are fixed with lock shaft 35, lock shaft 35 outer ends are with dead bolt 34, are with spring 36 on the lock shaft 35 that dead bolt 34 and transverse slat are 30.Flexible rod 32 ends at electromagnet 31 are installed with continuous motion stem 33, and continuous motion stem 33 two ends are connected with dead bolt 34 outer walls of both sides respectively.Dead bolt 34 front portions offer angle, and dead bolt 34 angles of last lifting lock 21 are downward, and dead bolt 34 angles of following lifting lock 8 upwards.

As shown in Figure 5, on every guide rail 2, all be sheathed with power transmitting deice, power transmitting deice by the axle sleeve 26 of turning of socket, decide axon cover 3 and form.The axle sleeve 26 of turning is placed in outside the guide rail 2, and according to the track on the guide rail 2, the spaced apart aperture that is provided with studs with ball 24 in the hole at the axle sleeve 26 inwall places that turn.Be fixed with hollow synchronous transmission gear 4 in axle sleeve 26 lower ends of turning, it also is wrapped in outside the guide rail 2.On axle sleeve 26 outer walls of turning, be equiped with bearing 25, decide axon cover 3 and be connected with the axle sleeve 26 of turning by bearing 25.

As Figure 1-3, load carrying platform 13 levels are laid, and its orthographic projection at horizontal plane is positioned at ground 9, and two jiaos of load carrying platform 13 are connected with the power transmitting deice bottom, are connected with wire rope between two jiaos of sides and power transmitting deice top in addition.Load carrying platform 13 is positioned at and offers the lockholes corresponding with upper and lower lifting lock 21,8 on the end face of 2 on guide rail.On three limits, load carrying platform 13 upper-end surfaces, remove the outlet port, be equiped with guardrail, guard rail position setting pressure sensor and hand switch 18.Two jiaos of places, the outside, load carrying platform 13 bottom surfaces are equiped with shock reducing support leg 12.Also be fixed with energy collecting device 11 and generator 6, motor 17 in load carrying platform 13 bottom surfaces, three and power transmitting deice interlock.

As shown in Figure 6, energy collecting device 11 is by shell 29, is installed in the clockwork spring 27 in the shell 29, and spring gear 28 is formed.Shell 29 bottom center are provided with one, and axle top is equiped with disc spring gear 28, is wound with clockwork spring 27 at spring gear 28 and shell 29 bottom surface disks, and clockwork spring 27 1 ends are fixed on the axle, and end is fixed on shell 29 inwalls in addition.On shell 29 sidewalls, be fixed with generator 6 and motor 17, the generator gear 5 of generator 6 and the driving gear of motor 17 respectively with synchronous transmission gear 4 engagement of two power transmitting deices, also with spring gear 28 engagements.

Aforementioned pressure sensor and hand switch 18, the electromagnet 31 of upper and lower lifting lock 21,8, motor 17 is connected with the total control circuit of PLC respectively, connects storage battery behind the total control circuit of PLC, provides continual direct current by storage battery to it.Generator 6 is connected with PWM rectifier, the automatic send receive module of WiFi, incorporates public electric wire net into.

When load carrying platform 13 is in the position, upper strata, last lifting lock 21 is fixed load carrying platform 13 lockings, after in case the people sets foot on load carrying platform 13, pressure transducer is obtained weight data, by the total control circuit contrast of PLC, if weight reaches predefined value, 21 releases are locked in last lifting, also can press the hand switch release, load carrying platform 13 descends.When descending, the axle sleeve 26 of turning descends along the rotation of the track on the guide rail 2 by ball 24, drives synchronous transmission gear 4, thereby drives generator 6, and electric power outwards is provided.Generator gear 5 drives spring gear 28 simultaneously, and clockwork spring 27 tightens up.If rely on people's weight can't be reduced to lower floor's outlet, then PLC master control circuit start motor 17, drive spring gear 28, generator gear 5 and synchronous transmission gear 4 successively, and load carrying platform 13 can be reduced to lower floor.In the decline process, descend along guide rail 2 rotations by the axle sleeve 26 of turning, the resistance of generator 6, and the Hui Li of clockwork spring 27 can ensure that load carrying platform 13 can sharply not drop.When load carrying platform 13 during near ground, shock reducing support leg 12 plays the effect of buffering gravity, ensures that load carrying platform 13 steadily lands.After landing, following lifting lock 8 is fixed load carrying platform 13 lockings, and the passenger can leave.After load carrying platform 13 was in zero load, 8 releases were locked in following lifting, utilized the Hui Li of clockwork spring 27 and assisting of motor 17, can be back to the upper strata, waited for operation next time.In uphill process, still can outwards provide electric power by generator 6.

As shown in Figure 4, for ensureing passenger's safety, be laid with inside and outside protective frame 22,14 on 2 on two guide rails, the upper and lower place of protective frame 14 all is equiped with slidably upper and lower protective net 20,16 outside, the middle part fixedly is equiped with fixed protection net 19 on interior protective frame 22, and interior protective frame 22 foots are left a blank.Upper and lower protective net 20,16 two ends are equiped with sliding sleeve 15, and sliding sleeve 15 is placed on the dual-side of outer protective frame 14, the sliding sleeve 15 of following protective net 16 both sides and outside protective frame 14 bottom between be provided with spring 23.Need overlap 3 upper and lower sides in the axon of deciding of aforementioned actuating unit simultaneously, near outer protective frame 14 places installing sliding sleeve, this sliding sleeve also is placed on the dual-side of outer protective frame 14, and last protective net 20 is positioned at the top of deciding axon cover 3.

Leave the upper strata at load carrying platform 13, when also being in the decline process, last protective net 20 falls naturally, and until the place, upper edge that contacts at interior protective frame 22, seal the gateway, upper strata this moment.Following protective net 16 is under the pushing of spring 23, with lower floor's outlet sealing.When load carrying platform 13 rises to the gateway, upper strata, decide upside sliding sleeve on the axon cover 3 and will go up protective net 20 and upwards push, expose the gateway, upper strata.When load carrying platform 13 drops to the lower floor gateway, the downside sliding sleeve of deciding on the axon cover 3 will descend protective net 16 to depress, and expose the lower floor gateway.By the automatic protection of upper and lower protective net 20,16, can prevent that the people who waits for is strayed into the gateway, ensures safety like this.19 on fixed protection net has ensured the passenger safety on the load carrying platform 13 in the lifting process.

Above technical characteristics has constituted most preferred embodiment of the present utility model, and it has stronger adaptability and best implementation result, can increase and decrease inessential technical characteristics according to actual needs, satisfies the needs of different situations.

Claims (9)

1. linear reciprocating type energy collecting device, it is characterized in that: comprise two upright guide rails, be installed in the actuating unit on the guide rail, the load carrying platform that is slidingly connected by power transmitting deice and guide rail, and be connected with power transmitting deice, be fixed on the energy collecting device of load carrying platform bottom surface, two guide rails, one side is with ground outward, nonfloating rail on the ground, the side place sets up step in addition, be fixed with lifting lock down at step inner side surface place, be laid with the top board of level between two guide rails upper end, this top board is concordant with the ground of superstructure, is equiped with the lifting lock at the top board inner face, on every guide rail, all be sheathed with power transmitting deice, the load carrying platform level is laid, and two jiaos of load carrying platform are connected with the power transmitting deice bottom, are connected with wire rope between two jiaos of sides and power transmitting deice top in addition, be fixed with energy collecting device and generator in the load carrying platform bottom surface, motor, three and power transmitting deice interlock.

2. linear reciprocating type energy collecting device as claimed in claim 1 is characterized in that: two guide rails are cylindrical body, offer helical orbit on its surface, uprightly are fixed on ground.

3. linear reciprocating type energy collecting device as claimed in claim 1, it is characterized in that: load carrying platform is positioned at and offers on the end face between guide rail and lockhole that upper and lower lifting lock is corresponding, on three limits, load carrying platform upper-end surface, remove the outlet port, be equiped with guardrail, guard rail position setting pressure sensor and hand switch, two jiaos of places, the outside, load carrying platform bottom surface are equiped with shock reducing support leg.

4. linear reciprocating type energy collecting device as claimed in claim 1, it is characterized in that: upper and lower lifting lock, except that dead bolt towards difference, all the other structures are identical, it is made up of transverse slat, electromagnet and dead bolt, transverse slat is fixed on top board or step inner side surface place, the transverse slat middle part is equiped with electromagnet, the transverse slat both sides are fixed with lock shaft, the lock shaft outer end is with dead bolt, be with spring on the lock shaft between dead bolt and transverse slat, flexible rod end at electromagnet is installed with continuous motion stem, and the continuous motion stem two ends are connected with the dead bolt outer wall of both sides respectively, and the dead bolt front portion offers angle.

5. linear reciprocating type energy collecting device as claimed in claim 4 is characterized in that: the dead bolt angle of going up the lifting lock is downward, and the dead bolt angle of following lifting lock upwards.

6. linear reciprocating type energy collecting device as claimed in claim 1, it is characterized in that: between two guide rails, be laid with inside and outside protective frame, the upper and lower place of protective frame all is equiped with slidably upper and lower protective net outside, the middle part fixedly is equiped with the fixed protection net on interior protective frame, interior protective frame foot is left a blank, upper and lower protective net two ends are equiped with sliding sleeve, and sliding sleeve is placed on the dual-side of outer protective frame, the sliding sleeve of following protective net both sides and outside protective frame bottom between be provided with spring.

7. linear reciprocating type energy collecting device as claimed in claim 1, it is characterized in that: power transmitting deice by the axle sleeve of turning of socket, decide the axon cover and form, the axle sleeve of turning is placed in outside the guide rail, according to the track on the guide rail, the spaced apart aperture that is provided with studs with ball in the hole at the sleeve lining place that turns, the axle sleeve lower end is fixed with hollow synchronous transmission gear turning, it also is wrapped in outside the guide rail, is equiped with bearing on the axle sleeve outer wall of turning, and decides the axon cover and is connected with the axle sleeve of turning by bearing.

8. linear reciprocating type energy collecting device as claimed in claim 7, it is characterized in that: actuating unit decide that axon puts, downside, near outer protective frame place installing sliding sleeve, this sliding sleeve also is placed on the dual-side of outer protective frame, and last protective net is positioned at the top of deciding the axon cover.

9. linear reciprocating type energy collecting device as claimed in claim 1, it is characterized in that: energy collecting device is by shell, installing clockwork spring in the enclosure, and spring gear is formed, shell bottom center is provided with one, axle top is equiped with the disc spring gear, be wound with clockwork spring at spring gear and shell bottom surface disk, clockwork spring one end is fixed on the axle, end is fixed on the outer casing inner wall in addition, on side wall of outer shell, be fixed with generator and motor, the generator gear of generator and the driving gear of motor respectively with the engagement of the synchronous transmission gear of two power transmitting deices, also mesh with spring gear.

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