CN205446601U - Mechanical type simulation experiment device that economizes on fuel - Google Patents

Abstract

The utility model relates to a mechanical type simulation experiment device that economizes on fuel, which comprises a frame, the direction wheelset, slide mechanism, slider link mechanism, slide link mechanism and gear drive, the frame is by the bottom plate, mounting panel I, mounting panel II is constituteed with mounting panel III, mounting panel I and mounting panel between II and mounting panel II and mounting panel all be equipped with slide mechanism between III, slider link mechanism wears to establish between the mounting panel through the pivot, and slider link mechanism's connecting rod I is connected with the slider of slide mechanism, slide link mechanism wears to establish between the mounting panel through the pivot, and slide link mechanism's connecting rod II is connected with the slide of slide mechanism, gear drive includes the driving gear, drive gear, driven gear and output wheel, the driving gear is through the outside of pivot setting at mounting panel III, the output wheel is through the pivot setting in I one side of mounting panel, the utility model relates to a brand -new mechanical structure can reach the effect of helping hand through the inertia that the counter weight slider formed, provides a new thinking for energy -conservation is fuel -efficient.

Description

A kind of mechanical type fuel-economizing analogue experiment installation

Technical field

This utility model relates to experimental provision technical field, is specifically related to a kind of mechanical type fuel-economizing analogue experiment installation.

Background technology

Owing to oil sources is gradually exhausted; energy crisis promotion day by day; therefore oil price is caused to climb up and up; the heavy mechanical equipment of high oil consumption not only sinks money; and the waste gas that fuel combustion not exclusively produces can increase the weight of greenhouse effect; it is more likely that the problem that future is more serious than energy crisis, it is necessary to a kind of new power assisting device need to be looked for, to reach energy-conservation fuel-efficient purpose.

Utility model content

The purpose of this utility model is the deficiency for solving above-mentioned technical problem, a kind of mechanical type fuel-economizing analogue experiment installation is provided, for a kind of brand-new frame for movement, the effect of power-assisted can be finally reached by the inertia that drive mechanism and weight slide block are formed, for energy-conservation a kind of new approaches of fuel-efficient offer.

This utility model is the deficiency solving above-mentioned technical problem, be the technical scheme is that a kind of mechanical type fuel-economizing analogue experiment installation, including frame, guide wheels, slideway mechanism, sliding-block linkage, slideway linkage and gear drive, described frame includes base plate, be vertically set on base plate two side plates and be arranged on the intermediate plate between two side plates, be arrangeding in parallel between side plate and intermediate plate, the inner side of two side plates and the both sides of intermediate plate are provided with the limiting stand with arc surface；

One group of slideway mechanism it is equipped with between said two side plate and intermediate plate, often group slideway mechanism is made up of two slide rails, two slide blocks and two fixed disks, two slide rails are parallel to each other and connect by two ends connecting plate is fixing, two slide blocks are fastened on two slide rail two ends respectively, two fixed disks are separately positioned on the limiting stand arc surface of side plate and intermediate plate, being fixed on fixed disk by intermediate portion respectively of said two slide rail；

It is equipped with sliding-block linkage between said two side plate and intermediate plate, sliding-block linkage is made up of I, two rolling bearings of U-shaped frame and two connecting rods I, two rolling bearing fixed covers are located on the cross bar of U-shaped frame I, connecting rod I two ends are connected with rolling bearing and slide block respectively, the two ends of U-shaped frame I connect rotating shaft, sliding-block linkage is located between side plate and intermediate plate by two ends rotating shaft, the rotating shaft of two adjacent sides of sliding-block linkage is coaxially connected, and two sliding-block linkages are symmetrical arranged；

Slideway linkage it is equipped with between said two side plate and intermediate plate, slideway linkage is made up of U-shaped frame II, rolling bearing and connecting rod II, rolling bearing fixed cover is located on the cross bar of U-shaped frame II, connecting rod II two ends are connected with rolling bearing and connecting plate respectively, the two ends of U-shaped frame II connect rotating shaft, slideway linkage is located between side plate and intermediate plate by two ends rotating shaft, and the rotating shaft of two adjacent sides of slideway linkage is coaxially connected, and two slideway linkages are symmetrical arranged；

Described gear drive includes driving gear, travelling gear, driven gear and output wheel, driving gear, travelling gear and driven gear engage the outside being arranged on a side plate successively, output wheel is arranged on the outside of another side plate, driving gear is set in the rotating shaft of slideway linkage, and driven gear and output wheel are all set in the rotating shaft of sliding-block linkage.

Beneficial effect

Analogue experiment installation of the present utility model is a kind of brand-new frame for movement, the inertia formed by drive mechanism and weight slide block motion is finally reached the effect of power-assisted, input has only to input less power, bigger power can be exported, for a kind of new approaches of energy-conservation fuel-efficient offer of big machinery after power-assisted.

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model analogue experiment installation；

Fig. 2 is the structural representation of this utility model analogue experiment installation frame；

Fig. 3 is the structural representation of this utility model analogue experiment installation slideway mechanism；

Fig. 4 is the structural representation of this utility model analogue experiment installation sliding-block linkage；

Fig. 5 is the structural representation of this utility model analogue experiment installation slideway linkage；

Fig. 6 is the structural representation that this utility model analogue experiment installation sliding-block linkage is connected with slideway mechanism；

Fig. 7 is the structural representation that this utility model analogue experiment installation slideway linkage is connected with slideway mechanism；

Labelling in figure: 1, base plate, 2, side plate, 3, intermediate plate, 4, output wheel, 5, slide rail, 6, slide block, 7, fixed disk, 8, limiting stand, 9, travelling gear, 10, driven gear, 11, U-shaped frame I, 12, connecting rod I, 13, U-shaped frame II, 14, connecting rod II, 15, driving gear.

Detailed description of the invention

As Figure 1-3: a kind of mechanical type fuel-economizing analogue experiment installation, including frame, guide wheels, slideway mechanism, sliding-block linkage, slideway linkage and gear drive, described frame includes base plate 1, be vertically set on base plate 1 two side plates 2 and the intermediate plate 3 being arranged between two side plates 2, be arrangeding in parallel between side plate 2 and intermediate plate 3, the inner side of two side plates 2 and the both sides of intermediate plate 3 are provided with the limiting stand 8 with arc surface；One group of slideway mechanism it is equipped with between said two side plate 2 and intermediate plate 3, often group slideway mechanism is made up of 5, two slide blocks 6 of two slide rails and two fixed disks 7, two slide rails 5 are parallel to each other and connect by two ends connecting plate is fixing, two slide blocks 6 are fastened on two slide rail 5 two ends respectively, two fixed disks 7 are separately positioned on limiting stand 8 arc surface of side plate 2 and intermediate plate 3, being fixed on fixed disk 7 by intermediate portion respectively of said two slide rail 5.

As shown in Figure 4: between two side plates 2 and intermediate plate 3, be equipped with sliding-block linkage, sliding-block linkage is made up of I 11, two rolling bearings of U-shaped frame and two connecting rods I 12, two rolling bearing fixed covers are located on the cross bar of U-shaped frame I 11, connecting rod I 12 two ends are connected with rolling bearing and slide block 6 respectively, the two ends of U-shaped frame I 11 connect rotating shaft, as shown in Figure 6, sliding-block linkage is located between side plate 2 and intermediate plate 3 by two ends rotating shaft, the rotating shaft of two adjacent sides of sliding-block linkage is coaxially connected, and two sliding-block linkages are symmetrical arranged.

As shown in Figure 5: between two side plates 2 and intermediate plate 3, be equipped with slideway linkage, slideway linkage is made up of U-shaped frame II 13, rolling bearing and connecting rod II 14, rolling bearing fixed cover is located on the cross bar of U-shaped frame II 13, connecting rod II 14 two ends are connected with rolling bearing and connecting plate respectively, the two ends of U-shaped frame II 13 connect rotating shaft, as shown in Figure 7, slideway linkage is located between side plate 2 and intermediate plate 3 by two ends rotating shaft, the rotating shaft of two adjacent sides of slideway linkage is coaxially connected, and two slideway linkages are symmetrical arranged.

As shown in Figure 1, gear drive includes driving gear 15, travelling gear 9, driven gear 10 and output wheel 4, driving gear 15, travelling gear 9 and driven gear 10 engage the outside being arranged on a side plate 2 successively, output wheel 4 is arranged on the outside of another side plate 2, driving gear 15 is set in the rotating shaft of slideway linkage, and driven gear 10 and output wheel 4 are all set in the rotating shaft of sliding-block linkage.

Driving gear one end connects power source, driving gear is made to rotate when power source drives, driving gear band sliding way linkage rotates, slideway linkage is rotated by connecting rod II band sliding way, driving gear drives driven gear to rotate by meshed transmission gear, driven gear drives again sliding-block linkage to rotate, sliding-block linkage is moved by connecting rod I band movable slider, if only driving driving gear to rotate half-turn at input, transmission and slide block slip inertia on slide rail through drive mechanism, the output complete whole circle of round can be driven, play power-assisted effect, this utility model is an experimental provision, concrete application and development needs to combine actual does further developmental research, fuel-economizing for heavy mechanical equipment provides new thinking.

Claims (1)

1. a mechanical type fuel-economizing analogue experiment installation, it is characterized in that: include frame, guide wheels, slideway mechanism, sliding-block linkage, slideway linkage and gear drive, described frame includes base plate (1), be vertically set on base plate (1) two side plates (2) and the intermediate plate (3) being arranged between two side plates (2), be arrangeding in parallel between side plate (2) and intermediate plate (3), the inner side of two side plates (2) and the both sides of intermediate plate (3) are provided with the limiting stand (8) with arc surface；One group of slideway mechanism it is equipped with between said two side plate (2) and intermediate plate (3), often group slideway mechanism is made up of two slide rails (5), two slide blocks (6) and two fixed disks (7), two slide rails (5) are parallel to each other and connect by two ends connecting plate is fixing, two slide blocks (6) are fastened on two slide rail (5) two ends respectively, two fixed disks (7) are separately positioned on limiting stand (8) arc surface of side plate (2) and intermediate plate (3), being fixed on fixed disk (7) by intermediate portion respectively of said two slide rail (5)；One group of sliding-block linkage it is equipped with between said two side plate (2) and intermediate plate (3), often group sliding-block linkage is by U-shaped frame I (11), two rolling bearings and two connecting rod I (12) compositions, two rolling bearing fixed covers are located on the cross bar of U-shaped frame I (11), connecting rod I (12) two ends are connected with rolling bearing and slide block (6) respectively, the two ends of U-shaped frame I (11) connect rotating shaft, sliding-block linkage is located between side plate (2) and intermediate plate (3) by two ends rotating shaft, the rotating shaft of two adjacent sides of sliding-block linkage is coaxially connected, and two sliding-block linkages are symmetrical arranged；One group of slideway linkage it is equipped with between said two side plate (2) and intermediate plate (3), often group slideway linkage is by U-shaped frame II (13), rolling bearing and connecting rod II (14) composition, rolling bearing fixed cover is located on the cross bar of U-shaped frame II (13), connecting rod II (14) two ends are connected with rolling bearing and connecting plate respectively, the two ends of U-shaped frame II (13) connect rotating shaft, slideway linkage is located between side plate (2) and intermediate plate (3) by two ends rotating shaft, the rotating shaft of two adjacent sides of slideway linkage is coaxially connected, and two slideway linkages are symmetrical arranged；Described gear drive includes driving gear (15), travelling gear (9), driven gear (10) and output wheel (4), driving gear (15), travelling gear (9) and driven gear (10) engage the outside being arranged on a side plate (2) successively, output wheel (4) is arranged on the outside of another side plate (2), driving gear (15) is set in the rotating shaft of slideway linkage, and driven gear (10) and output wheel (4) are all set in the rotating shaft of sliding-block linkage.