CN204096997U - A kind of for building from low toward high haulage equipment - Google Patents

Abstract

The utility model discloses a kind of for building from low toward high haulage equipment, comprise carrying mechanism, driver train, non-return mechanism, kinetic energy transmission mechanism.Wherein, carrying mechanism comprises frame, four sprocket wheels, two minor axises, major axis, two secondary chains, some cross bars, frame comprises frame plate, two sprocket wheels in four sprocket wheels are symmetrical and be arranged on opposite to each other on frame plate by two minor axises, another two sprocket wheels are arranged on major axis symmetrically, major axis two ends are arranged on frame plate, minor axis is positioned at the top of frame, major axis is positioned at the bottom of frame, two sprocket wheels on major axis are connected with the sprocket wheel on two minor axises by two secondary chains, and the two ends of cross bar are separately fixed on chain.Building materials, in architectural process, only need hang on cross bar by certain device, can realize the carrying from lower to upper of building materials by workmen.Some cross bars of circulating motion carry building materials joinably, to improve handling efficiency.

Description

A kind of for building from low toward high haulage equipment

Technical field

The utility model relates to Architectural Equipment technical field, is specifically related to transport a kind of from low toward high haulage equipment of building materials.

Background technology

Generally known, build a house, no matter its height, all need building materials, as brick and tile, cement concrete.

Rise sheer from level ground in house, the house of especially many floors, and in architectural process, the job location of workmen is overhead more and more higher, how to obtain building materials and become a problem.

By traditional way, workmen is by building materials a dead lift to higher job location, and its concrete mode of transport can be shouldered, can choose, and so carries building materials, not only tiring, and efficiency is extremely low.

By existing way, for shorter house, workmen lifts by crane building materials, to improve the efficiency of construction by rope vertical; For higher house, as high buildings and large mansions, workmen then will employ large-scale lifting appliance, to carry building materials.

But workmen builds shorter house, as the little building of two to four floor heights, there is no need cost and employs large-scale lifting appliance to carry building materials.If by easy lifting appliance, as winch, lifting building materials, once can only lift by crane the building materials of a frame, a Xiang Huoyige unit, though its efficiency increases than traditional mode of transport, be also barely satisfactory.

Utility model content

The technical matters that the utility model solves: workmen builds shorter house, as the little building of two to four floor heights, if use easy lifting appliance lifting building materials of the prior art, efficiency is not high.

The utility model provides following technical scheme: a kind of for building from low toward high haulage equipment, comprise carrying mechanism, driver train, non-return mechanism, kinetic energy transmission mechanism, described kinetic energy transmission mechanism connects driver train and carrying mechanism, and described non-return mechanism restriction carrying mechanism is oppositely carried.Wherein, described carrying mechanism comprises frame, four sprocket wheels, two minor axises, a major axis, two secondary chains, some cross bars, described frame comprises two pieces of frame plates, described frame plate is perpendicular to horizontal surface, two sprocket wheels in described four sprocket wheels are symmetrical and be arranged on opposite to each other on frame plate by two minor axises, another two sprocket wheels in described four sprocket wheels are arranged on major axis symmetrically, described major axis two ends are arranged on frame plate, described minor axis is positioned at the top of frame, described major axis is positioned at the bottom of frame, two sprocket wheels on described major axis are connected with the sprocket wheel on two minor axises by two secondary chains, the two ends of described cross bar are separately fixed on chain.

By technique scheme, driver train produces kinetic energy, this kinetic energy passes to carrying mechanism by kinetic energy transmission mechanism, move the major axis action in mechanism, major axis drives the sprocket wheel action on it, sprocket wheel on major axis is by the sprocket wheel on chain drive minor axis, and the sprocket wheel circulating motion of two secondary chains on major axis and on sprocket wheel and minor axis, is arranged on some cross bars between two secondary chains along with chain circulating motion.So, building materials, in architectural process, only need hang on cross bar by certain device, can realize the carrying from lower to upper of building materials by workmen.Some cross bars of circulating motion carry building materials joinably, to improve handling efficiency.In addition, described cross bar connects two secondary chains, can ensure that two secondary chains stably move on sprocket wheel, prevent it from coming off from sprocket wheel.

The parts commonly used in prior art are combined by specific mode by the utility model, form an easy lifting appliance, be applicable to build shorter house, as the carrying from lower to upper of the building materials of the little building of two to four floor heights, continuous transport function of the present utility model improves the handling efficiency of building materials.

Further illustrate as of the present utility model, described driver train comprises two pieces of supporting plates, be arranged on sprocket wheel between supporting plate, be arranged on sprocket shaft two ends and be positioned at pedal outside supporting plate, be arranged on the seat on supporting plate top.Wherein, described sprocket wheel is connected with kinetic energy transmission mechanism, and so, the kinetic energy of driver train is passed to kinetic energy transmission mechanism by sprocket wheel, and kinetic energy is passed to carrying mechanism by kinetic energy transmission mechanism again.Click here the composition of driver train, workmen is sitting on seat, foot pedal, rotating sprocket, namely can be carrying mechanism and provides kinetic energy, has saved the cost of the usual motor of driver train, thrifty and practical.

Further illustrate as of the present utility model, described kinetic energy transmission mechanism comprises coaxial hinge wheel and minor sprocket, is arranged on the sprocket wheel of major axis one end, described hinge wheel is connected by chain with the sprocket wheel in driver train, described minor sprocket is connected by chain with the sprocket wheel of major axis one end, and the sprocket wheel external diameter in described driver train is less than the external diameter of hinge wheel.Kinetic energy is passed to hinge wheel by the sprocket wheel in driver train, and kinetic energy is passed to the sprocket wheel on major axis by coaxial minor sprocket again, this chain wheel drive major axis action, and then drives whole carrying mechanism work.Herein, the sprocket wheel external diameter in driver train is less than the external diameter of hinge wheel, and so, the less power of workmen's applying can drive moves mechanism.

Further illustrate as of the present utility model, described non-return mechanism comprises ratchet, detent, position-limited lever, support plate, described ratchet is arranged on the other end of major axis, described detent is arranged on support plate by axle, described axle is set with torque spring, one end of described torque spring connects detent, and the other end of described torque spring connects support plate, and described detent side is provided with position-limited lever.The effect of non-return mechanism is only to allow carrying mechanism one-way movement, falls after rise downwards hurt sb.'s feelings to prevent the building materials on carrying mechanism.Wherein, the effect of torque spring is detent is constantly resetted in ratchet rotary course.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described further:

Fig. 1 is that the utility model is a kind of for building from the low structural representation toward high haulage equipment;

Fig. 2 be in Fig. 1 right look described for building from the low structural representation toward high haulage equipment gained;

Fig. 3 in Fig. 1 from for building from the low structural representation toward high haulage equipment gained described in right back top view;

Fig. 4 in Fig. 1 from for building from the low structural representation toward high haulage equipment gained described in left back top view;

Fig. 5 is A place enlarged drawing in Fig. 4.

Nomenclature in figure:

10-carrying mechanism; 100-frame; 101-frame plate; 102-frame plate; 111-sprocket wheel; 112-sprocket wheel; 113-sprocket wheel; 114-sprocket wheel; 121-minor axis; 122-minor axis; 130-major axis; 141-chain; 142-chain; 150-cross bar;

20-driver train; 200-supporting plate; 210-sprocket wheel; 220-pedal; 230-seat;

30-non-return mechanism; 310-ratchet; 320-detent; 330-position-limited lever; 340-support plate; 350-torque spring;

40-kinetic energy transmission mechanism; 410-hinge wheel; 420-minor sprocket; 430-sprocket wheel.

Detailed description of the invention

As shown in Figure 1 and Figure 2, a kind of for building from low toward high haulage equipment, comprise carrying mechanism 10, driver train 20, non-return mechanism 30, kinetic energy transmission mechanism 40, described kinetic energy transmission mechanism 40 connects driver train 10 and carrying mechanism 20, and described non-return mechanism 30 limits carrying mechanism 10 and oppositely carries.

As shown in Figure 3, described carrying mechanism 10 comprises frame 100, sprocket wheel 111, sprocket wheel 112, sprocket wheel 113, sprocket wheel 114, minor axis 121, minor axis 122, major axis 130, chain 141, chain 142, some cross bars 150.Described frame 100 comprises frame plate 101, frame plate 102, described frame plate 101 and frame plate 102 perpendicular to horizontal surface, described sprocket wheel 111 and sprocket wheel 112 by minor axis 121 and minor axis 122 symmetrical and be arranged on opposite to each other on frame plate 101 and frame plate 102.Described sprocket wheel 113, sprocket wheel 114 are arranged on major axis 130 symmetrically, and described major axis 130 two ends are arranged on frame plate 101 and frame plate 102.Described minor axis 121 and minor axis 122 are positioned at the top of frame 100, and described major axis 130 is positioned at the bottom of frame 100.Sprocket wheel 113 on described major axis 130 is connected with the sprocket wheel 111 on minor axis 121 by chain 141, and the sprocket wheel 114 on described major axis 130 is connected with the sprocket wheel 112 on minor axis 122 by chain 142.The two ends of described cross bar 150 are separately fixed on chain 141 and chain 142.

As shown in Figure 3, described driver train 20 comprises two pieces of supporting plates 200, is arranged on sprocket wheel 210 between supporting plate 200, is arranged on sprocket wheel 210 axle two ends and is positioned at pedal 220 outside supporting plate 200, is arranged on the seat 230 on supporting plate 200 top.

As shown in Figure 3, described kinetic energy transmission mechanism 40 comprises coaxial hinge wheel 410 and minor sprocket 420, is arranged on the sprocket wheel 430 of major axis 130 one end, described hinge wheel 410 is connected by chain with the sprocket wheel 210 in driver train 20, described minor sprocket 420 is connected by chain with the sprocket wheel 430 of major axis 130 one end, and sprocket wheel 210 external diameter in described driver train 20 is less than the external diameter of hinge wheel 410.

As shown in Figure 4, Figure 5, described non-return mechanism 30 comprises ratchet 310, detent 320, position-limited lever 330, support plate 340, described ratchet 310 is arranged on the other end of major axis 130, described detent 320 is arranged on support plate 340 by axle, described axle is set with torque spring 350, one end of described torque spring 350 connects detent 320, and the other end of described torque spring 350 connects support plate 340, and position-limited lever 330 is established in described detent 320 side.

In practical operation, workmen sits idly on seat 230, foot pedal 220, rotating sprocket 210, sprocket wheel 210 is by chain drive hinge wheel 410, and minor sprocket 420 rotates simultaneously, and minor sprocket 420 is by chain drive sprocket wheel 430, sprocket wheel 430 drives major axis 130 to rotate, and major axis 130 is with movable sprocket 113 and sprocket wheel 114 and ratchet 310 to rotate.Sprocket wheel 113 is by chain 141 drive sprocket 111, and sprocket wheel 114 is by chain 142 drive sprocket 112, and circulating motion made by chain 141 and chain 142, and chain 141 and chain 142 drive cross bar 150 to make circulating motion.So, building materials, in architectural process, only need hang on cross bar 150 by certain device, can realize the carrying from lower to upper of building materials by workmen.

Above content is only better embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.

Claims (4)

1. one kind for building from low toward high haulage equipment, comprise carrying mechanism (10), driver train (20), non-return mechanism (30), kinetic energy transmission mechanism (40), described kinetic energy transmission mechanism (40) connects driver train (10) and carrying mechanism (20), described non-return mechanism (30) restriction carrying mechanism (10) is oppositely carried, and it is characterized in that: described carrying mechanism (10) comprises frame (100), four sprocket wheels (111; 112; 113; 114), two minor axises (121; 122), major axis (130), two secondary chains (141; 142), some cross bars (150), described frame (100) comprises two pieces of frame plates (101; 102), described frame plate (101; 102) perpendicular to horizontal surface, described four sprocket wheels (111; 112; 113; 114) two sprocket wheels (111 in; 112) by two minor axises (121; 122) symmetrical and be arranged on frame plate (101 opposite to each other; 102) on, described four sprocket wheels (111; 112; 113; 114) another two sprocket wheels (113 in; 114) be arranged on major axis (130) symmetrically, described major axis (130) two ends are arranged on frame plate (101; 102) on, described minor axis (121; 122) be positioned at the top of frame (100), described major axis (130) is positioned at the bottom of frame (100), two sprocket wheels (113 on described major axis (130); 114) by two secondary chains (141; 142) with two minor axises (121; 122) sprocket wheel (111 on; 112) connect, the two ends of described cross bar (150) are separately fixed at chain (141; 142) on.

2. as claimed in claim 1 a kind of for building from low toward high haulage equipment, it is characterized in that: described driver train (20) comprises two pieces of supporting plates (200), be arranged on sprocket wheel (210) between supporting plate (200), be arranged on sprocket wheel (210) axle two ends and be positioned at the pedal (220) in supporting plate (200) outside, be arranged on the seat (230) on supporting plate (200) top.

3. as claimed in claim 2 a kind of for building from low toward high haulage equipment, it is characterized in that: described kinetic energy transmission mechanism (40) comprises coaxial hinge wheel (410) and minor sprocket (420), be arranged on the sprocket wheel (430) of major axis (130) one end, described hinge wheel (410) is connected by chain with the sprocket wheel (210) in driver train (20), described minor sprocket (420) is connected by chain with the sprocket wheel (430) of major axis (130) one end, sprocket wheel (210) external diameter in described driver train (20) is less than the external diameter of hinge wheel (410).

4. as claimed in claim 3 a kind of for building from low toward high haulage equipment, it is characterized in that: described non-return mechanism (30) comprises ratchet (310), detent (320), position-limited lever (330), support plate (340), described ratchet (310) is arranged on the other end of major axis (130), described detent (320) is arranged on support plate (340) by axle, described axle is set with torque spring (350), one end of described torque spring (350) connects detent (320), the other end of described torque spring (350) connects support plate (340), position-limited lever (330) is established in described detent (320) side.