CN112769309A - High-speed simple reciprocating motor - Google Patents

Abstract

The application discloses high-speed simple and convenient reciprocating motor, including the shell group with along the shell group transverse direction set up the main shaft on the shell group, locate the inside left side of shell group and by the left coil assembly that the main shaft left end runs through, locate the inside right side of shell group and by the right coil assembly that the main shaft right-hand member runs through, locate the middle magnet that is located left coil assembly and right coil assembly on the main shaft middle part. This application is through after leading to the alternating current for left coil assembly and right coil assembly, can cause left coil assembly right side and right coil assembly left side then to produce the same magnetism, and when the alternating current half cycle transform takes place, left coil assembly right side and right coil assembly left side then produce another same magnetism, be used for reciprocating drive middle magnet drive main shaft for this reason and do left and right reciprocating motion, so that solve high-speed reciprocating motion mechanism's user demand, and still effectively reduce the motor and use the energy consumption, reduce the fault rate, reduction in production cost, still can make things convenient for the equipment production greatly and improve the practicality of in-service use simultaneously.

Description

High-speed simple reciprocating motor

Technical Field

The application relates to the technical field of motors, in particular to a high-speed simple reciprocating motor.

Background

At present, current reciprocating motor output mechanism, what the overwhelming majority adopted is that there is brush or brushless motor and cooperation eccentric wheel of circular rotation motion, a set of reciprocating motion mechanism of relative complicacy such as bent axle and connecting rod satisfies actual reciprocating motion operating mode demand, however, the reciprocating motor mechanism that adopts not only can make the output frequency of whole mechanism descend and increase the energy consumption, and still can improve the fault rate, and still can increase the manufacturing cost of complete equipment, still inconvenient equipment production how can't improve the suitability of in-service use simultaneously, for this, technical personnel in the art need to find out the reciprocating motor that a both can high-speed output and can portably assemble and satisfy the in-service use demand urgently.

Disclosure of Invention

The present reciprocating motor mechanism that this application will solve to above-mentioned present reciprocating motor mechanism that can not only make the output frequency of whole mechanism descend and increase the energy consumption, and still can improve the fault rate to and still can increase the manufacturing cost of complete equipment, the technical problem who how can't improve the practicality of in-service use of inconvenient equipment production still simultaneously provides a high-speed simple and convenient reciprocating motor.

In order to solve the technical problem, the method is realized by the following technical scheme:

a high speed simple reciprocating motor comprising a housing assembly and a spindle disposed on said housing assembly along a transverse direction of said housing assembly, said high speed simple reciprocating motor further comprising:

the left coil group is arranged on the left side in the shell group and is penetrated by the left end of the main shaft;

the right coil group is arranged on the right side in the shell group and is penetrated by the right end of the main shaft;

the middle magnet is arranged on the middle part of the main shaft and located between the left coil group and the right coil group, and when the left coil group and the right coil group are electrified, the middle magnet is driven by the left coil group and the right coil group to drive the main shaft to reciprocate along the transverse direction of the shell group.

The high-speed simple reciprocating motor as described above, further comprising:

the left elastic block is sleeved on the main shaft, is positioned on the left side of the middle magnet, is used for buffering the middle magnet to impact the left coil group, and is used for reacting with the middle magnet to drive the main shaft to move rightwards;

and the right elastic block is sleeved on the main shaft, is positioned on the right side of the middle magnet, is used for buffering the impact of the middle magnet on the right coil group, and is used for reacting to drive the main shaft to move leftwards by the middle magnet.

The high-speed simple reciprocating motor as described above, the left coil assembly comprising:

the left connecting ring body is arranged on the left side inside the shell group;

a left coil disposed on the left connection ring body along a circumferential direction of the left connection ring body;

the left elastic block is arranged on the inner side of the left connecting ring body, is used for being matched with the left elastic block to buffer the moving impact of the middle magnet, and is used for reacting the middle magnet to drive the spindle to move rightwards;

and the left connecting sleeve is arranged on the inner side of the left two elastic blocks and is used for being in sliding connection with the main shaft.

As above high-speed simple and convenient reciprocating motor, the week side outside of connecting ring body is offered and is used for holding the dress setting the left side of left side solenoid holds the dress annular to and be equipped with a left through hole in its inside, the inside left side of left through hole is equipped with two left elastic blocks, and its inside right side is equipped with and is used for stepping down a left elastic block stretches into its inside left space of stepping down.

In the high-speed simple reciprocating motor, the right coil group and the left coil group are arranged in bilateral symmetry.

The high-speed simple reciprocating motor further comprises a middle coil group arranged on the outer side in the shell group, a left spacing space is arranged between the middle coil group and the left coil group, and a right spacing space is arranged between the middle coil group and the right coil group.

In the high-speed simple reciprocating motor, a transverse spacing space is arranged between the middle coil group and the middle magnet.

The high-speed simple reciprocating motor comprises a shell assembly and a shell, wherein the shell assembly comprises an upper shell and a lower shell matched with the upper shell, and a containing cavity for containing the left coil assembly, the middle magnet, the middle coil assembly and the right coil assembly is arranged between the upper shell and the lower shell.

According to the high-speed simple reciprocating motor, the left end of the main shaft extends out of the left side of the shell group, and the right end of the main shaft extends out of the right side of the shell group.

Compared with the prior art, the application has the following advantages:

1. this application high-speed simple and convenient reciprocating motor is through giving left coil assembly with right coil assembly leads to behind the alternating current, can cause left coil assembly right side with right coil assembly left side then produces the same magnetism, and when the alternating current half cycle transform takes place, left coil assembly right side with right coil assembly left side then produces another same magnetism, is used for reciprocating drive for this the middle magnet drives reciprocating motion about the main shaft is done to the messenger solves high-speed reciprocating motion mechanism's user demand, and still can effectively reduce the motor and use energy consumption, reduce the fault rate, reduction in production cost, still can make things convenient for the equipment production greatly simultaneously and improve the practicality of in-service use.

2. The high-speed simple reciprocating motor is simple in structure and convenient to assemble, assembling production efficiency can be greatly improved, and production cost is reduced.

Drawings

Fig. 1 is a schematic cross-sectional view of a high speed simple reciprocating motor according to the present application.

Fig. 2 is an exploded view of the housing assembly in the high speed simple reciprocating motor of the present application.

Fig. 3 is a perspective view of the left coil assembly in the high speed simple reciprocating motor of the present application.

Fig. 4 is an exploded view of the left coil assembly in the high speed simple reciprocating motor of the present application.

Fig. 5 is a perspective view of the right coil assembly in the high speed simple reciprocating motor of the present application.

Detailed Description

The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments.

As shown in fig. 1 to 5, the high-speed simple reciprocating motor comprises a shell assembly 1 and a spindle 2 arranged on the shell assembly 1 along the transverse direction of the shell assembly 1, and further comprises a left coil assembly 3, a right coil assembly 5 and a middle magnet 4.

Further, the left coil assembly 3 is arranged on the left side inside the shell assembly 1 and is penetrated by the left end of the spindle 2; the right coil group 5 is arranged on the right side in the shell group 1 and is penetrated through by the right end of the spindle 2; the middle magnet 4 is arranged on the middle part of the main shaft 2 and is positioned between the left coil group 3 and the right coil group 5, and when the left coil group 3 and the right coil group 5 are electrified, the middle magnet 4 is driven by the left coil group 3 and the right coil group 5 to drive the main shaft 2 to reciprocate along the transverse direction of the shell group 1.

This application high-speed simple and convenient reciprocating motor is through giving left coil assembly 3 with after the 5 switch-on alternating currents of right coil assembly, can cause left coil assembly 3 right side with right coil assembly 5 left sides then produce the same magnetism, and when the alternating current half cycle transform takes place, left coil assembly 3 right side with right coil assembly 5 left sides then produce another same magnetism, is used for reciprocating drive for this middle magnet 4 drives reciprocating motion about main shaft 2 is to make the user demand who solves high-speed reciprocating motion mechanism, and still can effectively reduce the motor and use energy consumption, reduce the fault rate, reduction in production cost, still can make things convenient for the equipment production greatly simultaneously and improve the suitability of in-service use simultaneously.

Furthermore, the high-speed simple reciprocating motor further comprises a left elastic block 6 and a right elastic block 7.

The left elastic block 6 is sleeved on the main shaft 2, is positioned on the left side of the middle magnet 4, is used for buffering the middle magnet 4 from impacting the left coil group 3, and is used for reacting the middle magnet 4 to drive the main shaft 2 to move rightwards; the right elastic block 7 is sleeved on the main shaft 2 and located on the right side of the middle magnet 4 and used for buffering the middle magnet 4 to impact the right coil assembly 5 and reacting the middle magnet 4 to drive the main shaft 2 to move leftwards. Adopt supporting the use a left side elastic block 6 with a right side elastic block 7, its advantage lies in can realizing the buffering middle magnet 4 is right the striking of left side coil assembly 3, or right coil assembly 5's striking to the messenger reaches vibration/noise reduction effect, and still can play the counteraction and promote middle magnet 4 is to reverse motion to be favorable to reducing the energy consumption and improving the rate of motion.

Furthermore, the left coil group 3 includes a left connection ring 31, a left coil package 32, a left elastic block 33, and a left connection sleeve 34.

The left connecting ring body 31 is arranged on the left side inside the shell group 1; the left coil 32 is arranged on the left connecting ring body 31 along the circumferential direction of the left connecting ring body 31; the left two elastic blocks 33 are arranged on the inner side of the left connecting ring body 31 and are used for being matched with the left one elastic block 6 to buffer the moving impact of the middle magnet 4 and reacting the middle magnet 4 to drive the main shaft 2 to move rightwards; the left connecting sleeve 34 is arranged on the inner side of the left two elastic blocks 33 and is used for being in sliding connection with the main shaft 2.

Further, the ring body 31 week side outside is offered and is used for holding the dress setting the dress annular 311 is held to the left side of left side solenoid 32 to and be equipped with a left through hole 312 in its inside, the inside left side of left through hole 312 is equipped with two left elastic blocks 33, and its inside right side is equipped with and is used for stepping down a left elastic block 6 stretches into its inside left space 3120 of stepping down. Its advantages are high buffering effect, noise reducing effect and reaction effect.

Further, the right coil assembly 5 and the left coil assembly 3 are arranged in bilateral symmetry. The purpose is to meet the actual use requirement.

Furthermore, the high-speed simple reciprocating motor further comprises a middle coil group 8 arranged at the outer side inside the shell group 1, a left spacing space is arranged between the middle coil group 8 and the left coil group 3, and a right spacing space is arranged between the middle coil group 8 and the right coil group 5, which has the advantages that a buffer moving space enough for the middle magnet 4 is reserved, and when the middle coil group 8 is connected with electricity, the middle coil group can generate magnetic poles with the same magnetic pole distribution as the middle magnet 4, so that the left and right magnetic pole magnetism of the middle magnet 4 can be greatly increased, for example, when the right magnetic pole of the middle magnet 4 and the right magnetic pole of the middle coil group 8 are both N poles, and the left magnetic pole of the right coil group 5 is also N pole, the magnetic gathering effect of the N pole can be achieved, and on the same principle, the magnetic gathering effect of the S pole can be achieved, so that the driving force for driving the middle magnet 4 can be further improved, further, the frequency of the left and right reciprocating motion of the main shaft 2 driven by the middle magnet 4 can be further improved, and higher use requirements can be met.

Furthermore, a transverse spacing space is arranged between the middle coil group 8 and the middle magnet 4. The purpose is to meet the actual use requirement.

Furthermore, the shell assembly 1 includes an upper shell 101 and a lower shell 102 adapted to the upper shell 101, and a containing cavity 1000 for containing the left coil assembly 3, the middle magnet 4, the middle coil assembly 8 and the right coil assembly 5 is disposed between the upper shell 101 and the lower shell 102. The purpose is to meet the actual use requirement.

Furthermore, the left end of the spindle 2 extends out of the left side of the shell assembly 1, and the right end of the spindle extends out of the right side of the shell assembly 1. The purpose is to meet the actual use requirement.

As described above, the embodiments of the present application have been described in detail, but the present application is not limited to the above embodiments. Even if various changes are made in the present application, the protection scope of the present application is still included.

Claims (9)

1. A high speed simple reciprocating motor comprising a housing assembly (1) and a main shaft (2) arranged on said housing assembly (1) along a transverse direction of said housing assembly (1), characterized in that said high speed simple reciprocating motor further comprises:

the left coil group (3) is arranged on the left side inside the shell group (1) and is penetrated by the left end of the main shaft (2);

the right coil group (5) is arranged on the right side in the shell group (1) and is penetrated by the right end of the main shaft (2);

the middle magnet (4) is arranged on the middle of the main shaft (2) and located between the left coil assembly (3) and the right coil assembly (5), and when the left coil assembly (3) and the right coil assembly (5) are electrified, the middle magnet (4) is driven by the left coil assembly (3) and the right coil assembly (5) to drive the main shaft (2) to move in a reciprocating mode along the transverse direction of the shell assembly (1).

2. The high speed reciprocating motor of claim 1, wherein: the high-speed simple reciprocating motor further comprises:

the left elastic block (6) is sleeved on the main shaft (2), is positioned on the left side of the middle magnet (4), is used for buffering the middle magnet (4) from impacting the left coil group (3), and is used for counteracting the middle magnet (4) to drive the main shaft (2) to move rightwards;

and the right elastic block (7) is sleeved on the main shaft (2), is positioned on the right side of the middle magnet (4), is used for buffering the middle magnet (4) to impact the right coil assembly (5), and is used for reacting to drive the middle magnet (4) to drive the main shaft (2) to move leftwards.

3. The high speed reciprocating motor of claim 2, wherein: the left coil group (3) includes:

the left connecting ring body (31) is arranged on the left side inside the shell group (1);

a left coil (32) which is arranged on the left connecting ring body (31) along the circumferential direction of the left connecting ring body (31);

the left elastic block (33) is arranged on the inner side of the left connecting ring body (31) and is used for being matched with the left elastic block (6) to buffer the moving impact of the middle magnet (4) and reacting the middle magnet (4) to drive the spindle (2) to move rightwards;

and the left connecting sleeve (34) is arranged on the inner side of the left two elastic blocks (33) and is used for being in sliding connection with the main shaft (2).

4. A high speed reciprocating motor as claimed in claim 3, wherein: connect ring body (31) week side outside to offer and be used for holding the dress and set dress annular (311) is held to the left side of left side solenoid (32) to and be equipped with a left side through hole (312) in its inside, the inside left side of left side through hole (312) is equipped with two elastic blocks in the left side (33), and its inside right side is equipped with and is used for stepping down a left side elastic block (6) stretches into its inside left side space of stepping down (3120).

5. The high speed reciprocating motor of claim 4, wherein: the right coil group (5) and the left coil group (3) are arranged in a bilateral symmetry mode.

6. The high speed reciprocating motor of claim 1, wherein: the high-speed simple reciprocating motor further comprises a middle coil group (8) arranged on the outer side inside the shell group (1), a left spacing space is arranged between the middle coil group (8) and the left coil group (3), and a right spacing space is arranged between the middle coil group (8) and the right coil group (5).

7. The high speed reciprocating motor of claim 6, wherein: and a transverse spacing space is arranged between the middle coil group (8) and the middle magnet (4).

8. The high speed reciprocating motor of claim 6, wherein: the shell assembly (1) comprises an upper shell (101) and a lower shell (102) matched with the upper shell (101), and a containing cavity (1000) used for containing the left coil assembly (3), the middle magnet (4), the middle coil assembly (8) and the right coil assembly (5) is arranged between the upper shell (101) and the lower shell (102).

9. The high speed reciprocating motor of claim 1, wherein: the left end of the main shaft (2) extends out of the left side of the shell group (1), and the right end of the main shaft extends out of the right side of the shell group (1).

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