CN200990555Y

CN200990555Y - Piston type motor

Info

Publication number: CN200990555Y
Application number: CN 200620109594
Authority: CN
Inventors: 孙蘅荪
Original assignee: Individual
Current assignee: Individual
Priority date: 2006-08-29
Filing date: 2006-08-29
Publication date: 2007-12-12
Anticipated expiration: 2016-08-29

Abstract

The utility model discloses a piston electromotor, which belongs to an electromotor; the utility model aims at providing an electromotor which can rotate as well as make reciprocating linear motion. The technic proposal of the utility model comprises a solenoid coil, a magnetic piston, a connecting pole and a flywheel. The flywheel (6) is arranged on the frame by the main axis (7), a piston pole (4) which is connected with a magnetic piston (2) into a whole is connected with the flywheel (6) by a connecting pole (5); a contact breaker device (9) is electrically connected with a solenoid coil (1) and a control device respectively; the control device is composed of a dial (12) which is fixed at the main axis (7), a signature control switch which is arranged at the dial (12) and a signature source which is positioned at the dial side. The utility model is simple in structure and convenient to use, and can realize the reciprocating motion and the rotating movement at the same time with the low electric power consumption, therefore the utility model can be widely used for the automobile, the machine, the control and the appliance, etc.

Description

Piston motor

Technical field: the utility model relates to a kind of motor, relates in particular to a kind of motor that does reciprocating linear motion.

Background technology: well-known, prime mover of present most of equipment mostly is internal combustion engine or motor.Internal combustion engine will consume a large amount of fuel oils, and has defectives such as noise is big, seriously polluted; And conventional motors also need to change by mechanical device for some occasion that need do reciprocating linear motion, and the low speed handling of conventional motors is also poor owing to can only rotate.

Summary of the invention: at the above-mentioned defective that exists in the prior art, the utility model aims to provide a kind of piston motor that can rotate and can realize linear reciprocating motion.

To achieve these goals, the utility model by the following technical solutions: it comprises solenoid, magnetic piston, connecting rod and flywheel; Flywheel is installed on the frame by main shaft, is connected with flywheel by connecting rod with the piston rod that magnetic piston is connected as a single entity; The power on/off device is electrically connected with solenoid, control device by lead respectively; Described control device is made of the signal source that is fixed on rotating disk on the main shaft, is arranged on the signal control switch on this rotating disk and is positioned at the rotating disk side.

Described signal control switch is a loophole, and described signal source is made of light source that lays respectively at the rotating disk both sides and photo resistance; Described signal control switch is a loophole, and described signal source is made of infrared generator that lays respectively at the rotating disk both sides and infrared receiver; Described signal control switch is a magnetic patch, and described signal source is near switch; Magnetic piston is a permanent magnet; Magnetic piston is an electromagnet.

Compared with the prior art, the utility model is owing to utilized electromagnetic induction principle and the magnet same sex is repelled each other, there is a natural attraction between the sexes physics principle, linear reciprocating motion and rotatablely moving of conventional motors main shaft with internal combustion engine organically combines simultaneously, makes the utility model just can realize linear reciprocating motion simultaneously and rotatablely move under not by the situation of other mechanical switching device; In addition, owing to adopted the mode of interruptedly supplying power, so saves energy.

Description of drawings:

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

Fig. 2 is the A-A cutaway view among Fig. 1;

Fig. 3 is the control device cutaway view of another embodiment of the utility model.

Among the figure: solenoid 1 magnetic piston 2 supportings 3 piston rods 4 connecting rods 5 flywheels 6 main shafts 7 supports 8 power on/off devices 9 loopholes 10 photo resistance 11 rotating disks 12 light sources 13 magnetic patch 14 are near switch 15

Embodiment: the utility model is described in further detail below in conjunction with accompanying drawing and specific embodiment:

Shown in Fig. 1～3: solenoid 1, power on/off device 9 are installed on the frame, and the magnetic piston 2 that stretches in the solenoid 1 is connected as a single entity with piston rod 4, and piston rod 4 is connected with flywheel 6 by connecting rod 5, and flywheel 6 is installed on the frame by main shaft 7.Power on/off device 9 is electrically connected with solenoid 1, control device by lead respectively.Described control device is by being arranged on loophole 10 on the rotating disk 12, being installed on the frame and laying respectively at rotating disk 12 both sides and position and loophole 10 corresponding light sources 13 and photo resistance 11 constitute by support 8; Wherein, light source 13 and photo resistance 11 constitute the signal source of control device, and loophole 10 is the signal control switch.Certainly, described signal source also can be made of infrared generator and infrared receiver; Described signal control switch can also be a magnetic patch 14, and accordingly, the signal source is near switch 15.Rock for fear of piston 2 generations, piston rod 4 can be installed in the supporting 3.Magnetic piston 2 can be permanent magnet or electromagnet.

Operation principle: when energized, because this moment, loophole 10 may be in the optional position, photo resistance 11 can not receive the signal that light source 13 sends, the power on/off device 9 this moments can't be to solenoid 1 power supply, magnetic piston 2 remains static, and need stir flywheel 6 and rotating disk 12 rotations when therefore starting earlier.When loophole 10 forwards position between light source 13 and the photo resistance 11 to, photo resistance 11 receives the signal that light source 13 sends and triggers power on/off device 9 to solenoid 1 power supply, solenoid 1 produces magnetic field and drives magnetic piston 2 motions, so magnetic piston 2 is rotated further by piston rod 4, connecting rod 5 drive flywheels 6 and rotating disk 12; The position photo resistance 11 later on that turns between light source 13 and the photo resistance 11 when loophole 10 can not receive the signal that light source 13 sends again, power on/off device 9 stops to solenoid 1 power supply, magnetic field in the solenoid 1 disappears, flywheel 6 and rotating disk 12 are rotated further under the effect of inertia force, so move in circles.

The utility model is because what adopt is the piston cylinder operator identical with the internal combustion engine motion mode, therefore can adopt the mode of many parallel connections to constitute multicylinder engine and be used for automobile, and not need existing vehicle structure is done much changes.

Claims

1. a piston motor comprises solenoid, magnetic piston, connecting rod and flywheel; It is characterized in that: flywheel (6) is installed on the frame by main shaft (7), is connected with flywheel (6) by connecting rod (5) with the piston rod (4) that magnetic piston (2) is connected as a single entity; Power on/off device (9) is electrically connected with solenoid (1), control device by lead respectively; Described control device is by being fixed on the rotating disk (12) on the main shaft (7), the signal source formation that is arranged on the signal control switch on this rotating disk and is positioned at rotating disk (12) side.

2. piston motor according to claim 1 is characterized in that: described signal control switch is loophole (10), and described signal source is made of light source (13) that lays respectively at rotating disk (12) both sides and photo resistance (11).

3. piston motor according to claim 1 is characterized in that: described signal control switch is loophole (10), and described signal source is made of infrared generator that lays respectively at rotating disk (12) both sides and infrared receiver.

4. piston motor according to claim 1 is characterized in that: described signal control switch is magnetic patch (14), and described signal source is near switch (15).

5. according to any described piston motor in the claim 1～4, it is characterized in that: magnetic piston (2) is permanent magnet.

6. according to any described piston motor in the claim 1～4, it is characterized in that: magnetic piston (2) is electromagnet.