CN208935295U - A kind of lever crankshaft drive link mechanism - Google Patents

Abstract

The lever crankshaft drive link mechanism that the utility model discloses a kind of structures is simple, mechanical efficiency is high, including crankshaft, the drive link being connect with the connecting rod neck with crankshaft, the drive link includes driving lever, drive rod and connecting rod rack, the upper end of the driving lever connects power source, lower end connects drive rod, the middle and lower part of the driving lever is connect with connecting rod rack, connecting rod rack is then set on the crankshaft bracket of crankshaft, driving lever is set to move reciprocatingly in vertical direction with connecting rod rack support, the lower end of the drive rod and the connecting rod neck of crankshaft connect.The utility model structure is simple, it runs smoothly, under the premise of not increasing the length between axis and connecting rod neck, power source can be realized within the time for doing a reciprocating stroke, crankshaft can at least do two circle rotation movements, the kinetic equation loss for reducing power source, makes the speed of rotation of connecting rod significant increase crankshaft in limited stroke range；Improve the mechanical efficiency of power source and crankshaft.

Description

A kind of lever crankshaft drive link mechanism

Technical field

The utility model belongs to Mechanical Driven equipment technical field, and in particular to a kind of structure is simple, mechanical efficiency is high Lever crankshaft connecting rod system.

Background technique

The power source and crankshaft center of traditional crankshaft-link rod kind of drive are nearly on straight line, power source One stroke of every operation, then synchronous driving crankshaft completes a circle rotation movement to connecting rod, to improve the speed of rotation of crankshaft, It is then the length taken increase between axis and connecting rod neck to realize, it is faster also to create crankshaft rotation speed, stroke The case where must just increasing；On the other hand, the stroke of traditional crankshaft-link rod transmission is synchronous reciprocating, i.e. power source A reciprocating stroke is done, crankshaft also does a circle rotation movement therewith, then, it is lost in power source in operational process Power it is too many, cause efficiency of energy utilization low, vast resources caused to waste, the maximum rotative speed of crankshaft is still limited System.

Therefore, developing a kind of new, the high transmission of crankshaft link mechanism of mechanical efficiency is the key that solve the problems, such as.

Utility model content

The lever crankshaft connecting rod system that the purpose of this utility model is to provide a kind of structures is simple, mechanical efficiency is high.

Purpose of the utility model is realized as follows: including crankshaft, and the drive link being connect with the connecting rod neck of crankshaft, The drive link includes driving lever, drive rod and connecting rod rack, and the upper end of the driving lever connects power source, and lower end connection is driven Lever, the middle and lower part of the driving lever and connecting rod rack, which are movably hinged, to be arranged, and connecting rod rack is then set to the crankshaft bracket of crankshaft On, so that driving lever is moved reciprocatingly in vertical direction with connecting rod rack support, the lower end of the drive rod and the company of crankshaft Bar neck is movably hinged setting, and drive rod drives crankshaft rotation.

The utility model structure is simple, runs smoothly, in the premise for not increasing the length between axis and connecting rod neck Under, power source can be realized within the time for doing a reciprocating stroke, crankshaft can at least do two circle rotation movements, Make the directly proportional increase of compression ratio, strength and the revolving speed of power source, greatly reduces the power that power source is lost in operational process, mention High-energy source utilization efficiency avoids a large amount of power resources from wasting, makes the rotation of connecting rod significant increase crankshaft in limited stroke range Rotational speed rate；Improve the mechanical efficiency of power source and crankshaft.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 be the utility model A-A to structural schematic diagram；

Fig. 3 is the use state of drive link with reference to figure one；

Fig. 4 is the use state of drive link with reference to figure two；

Fig. 5 is the use state of drive link with reference to figure three；

Figure label: 1 ~ crankshaft, 2 ~ crankshaft bracket, 3 ~ power source, 4 ~ driving lever, 5 ~ hinge hole, 6 ~ drive rod, 7 ~ connecting rod Bracket.

Specific embodiment

The utility model will be further described below with reference to the accompanying drawings, but is not subject in any way to the utility model Limitation is transformed or replaced based on any made by the utility model introduction, belongs to the protection scope of the utility model.

The lever crankshaft drive link mechanism as shown in attached drawing 1 ~ 5, including crankshaft 1, and connect with the connecting rod neck of crankshaft 1 The drive link connect, the drive link include driving lever 4, drive rod 6 and connecting rod rack 7, the upper end connection of the driving lever 4 Power source 3, lower end connect drive rod 6, and the middle and lower part of the driving lever 4 and connecting rod rack 7, which are movably hinged, to be arranged, connecting rod rack 7 It is then set on the crankshaft bracket 2 of crankshaft 1, driving lever 4 is made to move reciprocatingly in vertical direction with the support of connecting rod rack 7, The lower end of the drive rod 6 and the connecting rod neck of crankshaft 1 are movably hinged and are arranged, and drive rod 6 drives crankshaft 1 to rotate.

Distance of the hinge hole 5 apart from 4 bottom end of driving lever is not more than the length of drive rod 6, and is not less than drive rod 6 Half times length.

The length ratio of the driving lever 4 and drive rod 6 is not less than 2:1.

The driving lever 4 is 0 ~ 160 degree in the reciprocating motion range of vertical direction.

The hinge hole 5 with the dynamic cooperation of connecting rod rack 7 is provided on the driving lever 4.

The hinge hole 5 and driving lever 4, which is integrally formed, to be arranged.

The driving lever 4 and power source 3, which is movably hinged, to be arranged.

The driving lever 4 and drive rod 6, which is movably hinged, to be arranged.

Utility model works principle and the course of work: power source 3 drives driving lever 4 to do the reciprocating motion in vertical direction In the process, when 4 stress of driving lever is first that support rotates down in vertical direction with connecting rod rack 7, driving lever 4 turns downwards Drive rod 6 is pushed to rotate a circle during dynamic, and drive rod 6 is then with 1 synchronous rotary of dynamic crankshaft one week；When downward movement travel When moving reset in end, it is rotated up in vertical direction with connecting rod rack 7 for support after 4 stress of driving lever, driving lever 4 exists Drive rod 6 is pushed to rotate a circle during being rotated up, and drive rod 6 is then with 1 synchronous rotary of dynamic crankshaft one week；Make power source 3 Within the time that operation finishes a stroke, driving lever 4 has done two circular motion with dynamic crankshaft 1, greatly improves power source 3 Drive efficiency and quality.

Claims (8)

1. a kind of lever crankshaft drive link mechanism, including crankshaft (1), and the driving connecting with the connecting rod neck of crankshaft (1) connect Bar, it is characterised in that: the drive link includes driving lever (4), drive rod (6) and connecting rod rack (7), the driving lever (4) Upper end connect power source (3), lower end connects drive rod (6), the middle and lower part of the driving lever (4) and connecting rod rack (7) activity Hinged setting, connecting rod rack (7) are then set on the crankshaft bracket (2) of crankshaft (1), make the driving lever (4) be with connecting rod rack (7) Support moves reciprocatingly in vertical direction, and the lower end of the drive rod (6) and the connecting rod neck of crankshaft (1) are movably hinged and are arranged, Drive rod (6) drives crankshaft (1) rotation.

2. lever crankshaft drive link mechanism according to claim 1, it is characterised in that: the hinge hole (5) away from It is not more than the length of drive rod (6) with a distance from driving lever (4) bottom end, and is not less than the half times length of drive rod (6).

3. lever crankshaft drive link mechanism according to claim 1, it is characterised in that: the driving lever (4) with The length ratio of drive rod (6) is not less than 2:1.

4. lever crankshaft drive link mechanism according to claim 1, it is characterised in that: the driving lever (4) exists The reciprocating motion range of vertical direction is 0 ~ 160 degree.

5. lever crankshaft drive link mechanism according to claim 1, it is characterised in that: on the driving lever (4) It is provided with the hinge hole (5) with connecting rod rack (7) dynamic cooperation.

6. lever crankshaft drive link mechanism according to claim 1, it is characterised in that: the driving lever (4) with Power source (3) is movably hinged setting.

7. lever crankshaft drive link mechanism according to claim 1, it is characterised in that: the driving lever (4) with Drive rod (6) is movably hinged setting.

8. lever crankshaft drive link mechanism according to claim 1, it is characterised in that: the hinge hole (5) with Driving lever (4) is integrally formed setting.