CN216008343U - Magnetic rotary power mechanism - Google Patents
Magnetic rotary power mechanism Download PDFInfo
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- CN216008343U CN216008343U CN202122394813.1U CN202122394813U CN216008343U CN 216008343 U CN216008343 U CN 216008343U CN 202122394813 U CN202122394813 U CN 202122394813U CN 216008343 U CN216008343 U CN 216008343U
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Abstract
The utility model belongs to the technical field of cavity glass technique and specifically relates to a magnetism rotation type power unit is related to, include: a rotor and a magnet; the rotor is a rotatable rotator structure; the end face of the first side of the rotor is provided with a plurality of permanent magnet bins; the center of the end surface of the second side of the rotor is provided with a connecting end used for being connected with a transmission mechanism; the magnets are assembled in the permanent magnet bins of the rotor. The utility model discloses magnetism rotation type power unit can be applied to built-in sunshade cavity glass, utilizes magnetic force to see through glass and realizes the rotation action, and then can accomplish the interior line of carrying unwrapping wire of cavity glass, actions such as blade upset. The utility model discloses simple structure, convenient operation, cavity glass are inside only mechanical structure, and the operation is stable, and the fault rate is low.
Description
Technical Field
The utility model belongs to the technical field of cavity glass technique and specifically relates to a magnetism rotation type power unit is related to.
Background
The built-in sunshade hollow glass has the characteristics of heat preservation and sound insulation of common hollow glass and convenient dimming of a shutter curtain, has the advantages of attractive appearance, elegance, convenient operation, cleanness, sanitation and space saving, and is widely applied at home and abroad. The common built-in sunshade hollow glass consists of inner glass, outer glass, a frame, a blind blade, a blade adjusting mechanism consisting of a blade lifting mechanism and a blade overturning mechanism and the like. At present, a blade adjusting mechanism with built-in sunshade hollow glass usually needs a complex driving device to realize blade turning and wire pulling actions. The driving device is generally arranged on one side or two sides of the hollow glass, and the operation is troublesome. Moreover, the hollow glass also needs to be additionally provided with the tracks on one side or two sides of the glass correspondingly, so that the daylighting area is reduced, and the hollow glass is not attractive.
The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information constitutes prior art already known to a person skilled in the art.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a magnetism rotation type power unit can use it in built-in sunshade cavity glass to solve the technical problem who exists among the prior art.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the utility model provides a magnetism rotation type power unit, it includes: a rotor and a magnet; the rotor is a rotatable rotator structure; the end face of the first side of the rotor is provided with a plurality of permanent magnet bins; the center of the end surface of the second side of the rotor is provided with a connecting end used for being connected with a transmission mechanism; the magnets are assembled in the permanent magnet bins of the rotor.
Preferably, the rotor includes: a rotor housing and a baffle; the rotor shell is in a hollow cylindrical shape; the end surface of the first side of the rotor shell is open, the baffle plate is arranged on the first side of the rotor shell and divides the rotor shell into a plurality of permanent magnet bins in equal parts; the end face of the second side of the rotor shell is closed, and a connecting end used for being connected with the transmission mechanism is arranged in the center of the end face of the second side of the rotor shell.
Preferably, the magnetic rotary power mechanism further comprises: a power input housing; the rotor is rotatably mounted in the power input housing; the magnet on the first side of the rotor is exposed out of the power input shell; the connecting end of the second side of the rotor is positioned in the power input shell and is connected with a transmission mechanism in the power input shell.
Preferably, the connection end of the second side of the rotor is connected to a transmission mechanism.
Preferably, the connection end of the second side of the rotor is connected to both transmission mechanisms.
Preferably, when the transmission mechanism is a gear transmission mechanism, the connecting end of the rotor housing is a gear matched with the gear transmission mechanism.
Preferably, when the transmission mechanism is a belt transmission mechanism, the connecting end of the rotor housing is a belt pulley adapted to the belt transmission mechanism.
Preferably, when the transmission mechanism is a combined gear and belt transmission mechanism, the connecting end of the rotor housing is a gear or a belt pulley adapted to the combined gear and belt transmission mechanism.
Preferably, when the transmission mechanism is a shaft transmission structure, the connection end of the rotor housing is a shaft sleeve or a shaft hole matched with the shaft transmission structure.
Adopt above-mentioned technical scheme, the utility model discloses following beneficial effect has:
the utility model discloses magnetism rotation type power unit can be applied to built-in sunshade cavity glass, utilizes magnetic force to see through glass and realizes the rotation action, and then can accomplish the interior line of carrying unwrapping wire of cavity glass, actions such as blade upset. The utility model discloses simple structure, convenient operation, cavity glass are inside only mechanical structure, and the operation is stable, and the fault rate is low.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is a front view of a magnetic rotary power mechanism according to an embodiment of the present invention;
fig. 2 is a perspective view of a magnetic rotary power mechanism according to an embodiment of the present invention;
fig. 3 is a schematic view illustrating a usage status of the magnetic rotary power mechanism according to an embodiment of the present invention;
fig. 4 is a schematic structural diagram of a power input portion provided in an embodiment of the present invention;
fig. 5 is a schematic structural diagram of a power output part provided by an embodiment of the present invention.
Icon: 101-a rotor; 102-a magnet; 103-hollow glass.
Detailed Description
The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.
Example one
Referring to fig. 1 to 5, the present embodiment provides a magnetic rotary power mechanism, which includes: a rotor 101 and a magnet 102; the rotor 101 has a rotatable rotor structure; the end face of the first side of the rotor 101 is provided with a plurality of permanent magnet bins; the center of the end surface of the second side of the rotor 101 is provided with a connecting end used for being connected with a transmission mechanism; the magnets 102 are fitted in permanent magnet pockets of the rotor 101.
Preferably, the rotor 101 includes: a rotor housing and a baffle; the rotor shell is in a hollow cylindrical shape; the end surface of the first side of the rotor shell is open, the baffle plate is arranged on the first side of the rotor shell and divides the rotor shell into a plurality of permanent magnet bins in equal parts; the end face of the second side of the rotor shell is closed, and a connecting end used for being connected with the transmission mechanism is arranged in the center of the end face of the second side of the rotor shell.
Preferably, the magnetic rotary power mechanism further comprises: a power input housing; the rotor 101 is rotatably mounted in the power input housing; the magnet 102 on the first side of the rotor 101 is exposed to the power input housing; the connection end of the second side of the rotor 101 is located inside the power input housing and is connected to the transmission mechanism in the power input housing.
Preferably, the connection end of the second side of the rotor 101 is connected to a transmission mechanism.
Preferably, the connection end of the second side of the rotor 101 is connected to both transmission mechanisms.
Preferably, when the transmission mechanism is a gear transmission mechanism, the connecting end of the rotor housing is a gear matched with the gear transmission mechanism.
In this embodiment, preferably, the gear transmission mechanism includes: a plurality of meshed gears; all or part of the gears are arranged in parallel with the hollow glass. Of course, the number of gears and the transmission ratio can be varied and can be flexibly adjusted by those skilled in the art according to the actual situation.
The following is exemplified in one of the specific forms:
the plurality of meshed gears includes: a reduction gear, an intermediate gear, a spool gear set and a direction change gear set; the large gear of the reduction gear is meshed with the gear on the second side of the rotor; the pinion of the reduction gear is meshed with the intermediate gear; the intermediate gear is meshed with a gear of the spool gear set; the spools of the spool gear set are connected with the hollow glass blade cords to realize the cord lifting action; the gear of the spool gear set is meshed with the gear of the direction conversion gear set; the direction conversion gear set is connected with the blade turnover mechanism of the hollow glass through the connecting shaft, and the direction conversion gear set drives the connecting shaft to rotate by changing the rotating direction, so that the blade turnover mechanism is driven to turn over, and the light entering amount is adjusted.
Preferably, when the transmission mechanism is a belt transmission mechanism, the connecting end of the rotor housing is a belt pulley adapted to the belt transmission mechanism.
Preferably, when the transmission mechanism is a combined gear and belt transmission mechanism, the connecting end of the rotor housing is a gear or a belt pulley adapted to the combined gear and belt transmission mechanism.
Preferably, when the transmission mechanism is a shaft transmission structure, the connection end of the rotor housing is a shaft sleeve or a shaft hole matched with the shaft transmission structure.
To sum up, the utility model discloses magnetism rotation type power unit can be applied to built-in sunshade cavity glass, utilizes magnetic force to see through glass and realizes the rotation action, and then can accomplish the interior wire lifting unwrapping wire of cavity glass, actions such as blade upset. The utility model discloses simple structure, convenient operation, cavity glass are inside only mechanical structure, and the operation is stable, and the fault rate is low.
Example two
The second embodiment provides a power input part with a built-in sunshade hollow glass, and a magnetic rotary power mechanism is adopted. The embodiment is another technical solution on the basis of the first embodiment, the technical features disclosed in the first embodiment are also applicable to the embodiment, and the technical features disclosed in the first embodiment are not described repeatedly.
Specifically, the power input portion includes: the power input shell, the first magnetic rotary power mechanism and the transmission mechanism are arranged in the shell; the first magnetic rotary power mechanism comprises: a rotor 101 and a magnet 102; the rotor 101 is rotatably mounted in the power input housing; the magnets 102 are assembled in permanent magnet bins of the rotor 101; the magnet 102 on the first side of the rotor 101 is exposed to the power input housing; the connection end of the second side of the rotor 101 is located inside the power input housing and is connected to the transmission mechanism in the power input housing.
Preferably, the connection end of the second side of the rotor 101 is a gear. Correspondingly, the gear mechanism is likewise a gear mechanism. In addition, the gear of the rotor 101 may be simultaneously connected to one gear transmission mechanism, or may be simultaneously engaged with two gear transmission mechanisms.
Each gear transmission mechanism comprises: a reduction gear, an intermediate gear, a spool gear set and a direction change gear set; the large gear of the reduction gear is meshed with the gear on the second side of the rotor; the pinion of the reduction gear is meshed with the intermediate gear; the intermediate gear is meshed with a gear of the spool gear set; the spools of the spool gear set are connected with the hollow glass blade cords to realize the cord lifting action; the gear of the spool gear set is meshed with the gear of the direction conversion gear set; the direction conversion gear set is connected with the blade turnover mechanism of the hollow glass through the connecting shaft, and the direction conversion gear set drives the connecting shaft to rotate by changing the rotating direction, so that the blade turnover mechanism is driven to turn over, and the light entering amount is adjusted.
EXAMPLE III
The third embodiment provides a power output part with a built-in sunshade hollow glass, and a magnetic rotary power mechanism is adopted. The embodiment is another technical solution on the basis of the first embodiment, the technical features disclosed in the first embodiment are also applicable to the embodiment, and the technical features disclosed in the first embodiment are not described repeatedly.
Preferably, the power output portion includes: the second magnetic rotary power mechanism, the telescopic mechanism and the driving mechanism; the second magnetic rotary power mechanism comprises: a rotor 101 and a magnet 102; the magnets 102 are assembled in permanent magnet bins of the rotor 101; the end face of the first side of the rotor 101 is provided with a plurality of permanent magnet bins; the center of the end surface of the second side of the rotor 101 is provided with a connecting end for connecting with a driving mechanism; the driving mechanism is connected with the telescopic mechanism.
The magnet 102 of the first magnetic rotary power mechanism and the magnet 102 of the second magnetic rotary power mechanism interact with each other through glass, so that the rotation of the rotor 101 of the first magnetic rotary power mechanism is realized.
In this embodiment, the telescopic mechanism includes: any one of an electric telescopic rod, a pneumatic telescopic rod or a manual telescopic rod. Telescopic link design is adopted to telescopic machanism, and it is more convenient when the user uses, no matter high low window can both touch the hand and reach.
In the present embodiment, preferably, the driving manner of the driving mechanism includes: any one of electric, pneumatic, hydraulic or manual drive.
Preferably, the drive mechanism is a motor. Correspondingly, the driving mechanism further comprises: a battery compartment and a battery; the battery is responsible for providing energy to the motor. The battery compartment is used for placing batteries. The motor rotates to drive the rotor 101 to rotate, and the magnetic force acts on the rotor 101 of the power input part through the glass, so that the power input part is driven to rotate. The working principle is as follows: the power output part enables the motor to rotate through electric energy, then the magnet magnetically penetrates through the glass to act on the magnet inside the hollow glass, so that the gear of the power input part is driven to rotate, and finally the spool is driven to realize the actions of pulling and paying off the cord. And the power direction is converted by the direction conversion gear group so as to realize the rotation of the shaft, thereby carrying out direction adjustment on the shading blades and finally realizing the function of adjusting the daylighting amount.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.
Claims (9)
1. A magnetic rotary power mechanism, comprising: a rotor and a magnet;
the rotor is a rotatable rotator structure;
the end face of the first side of the rotor is provided with a plurality of permanent magnet bins; the center of the end surface of the second side of the rotor is provided with a connecting end used for being connected with a transmission mechanism;
the magnets are assembled in the permanent magnet bins of the rotor.
2. The magnetic rotary power mechanism of claim 1, wherein the rotor comprises: a rotor housing and a baffle;
the rotor shell is in a hollow cylindrical shape;
the end surface of the first side of the rotor shell is open, the baffle plate is arranged on the first side of the rotor shell and divides the rotor shell into a plurality of permanent magnet bins in equal parts;
the end face of the second side of the rotor shell is closed, and a connecting end used for being connected with the transmission mechanism is arranged in the center of the end face of the second side of the rotor shell.
3. The magnetic rotary power mechanism of claim 2, further comprising: a power input housing;
the rotor is rotatably mounted in the power input housing;
the magnet on the first side of the rotor is exposed out of the power input shell;
the connecting end of the second side of the rotor is positioned in the power input shell and is connected with a transmission mechanism in the power input shell.
4. The magnetic rotary power mechanism of claim 2, wherein the connection end of the second side of the rotor is connected to a transmission mechanism.
5. The magnetic rotary power mechanism of claim 2, wherein the connection end of the second side of the rotor is connected to both of the two transmission mechanisms.
6. The magnetic rotary power mechanism of claim 1,
when the transmission mechanism is a gear transmission mechanism, the connecting end of the rotor shell is a gear matched with the gear transmission mechanism.
7. The magnetic rotary power mechanism of claim 1,
when the transmission mechanism is a belt transmission mechanism, the connecting end of the rotor shell is a belt pulley matched with the belt transmission mechanism.
8. The magnetic rotary power mechanism of claim 1,
when the transmission mechanism is a gear-belt combined transmission mechanism, the connecting end of the rotor shell is a gear or a belt pulley which is matched with the gear-belt combined transmission mechanism.
9. The magnetic rotary power mechanism of claim 1,
when the transmission mechanism is a shaft transmission structure, the connecting end of the rotor shell is a shaft sleeve or a shaft hole matched with the shaft transmission structure.
Priority Applications (1)
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CN202122394813.1U CN216008343U (en) | 2021-09-30 | 2021-09-30 | Magnetic rotary power mechanism |
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CN202122394813.1U CN216008343U (en) | 2021-09-30 | 2021-09-30 | Magnetic rotary power mechanism |
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CN216008343U true CN216008343U (en) | 2022-03-11 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113719232A (en) * | 2021-09-30 | 2021-11-30 | 文安县朔翰塑料制品有限公司 | Magnetic rotary power mechanism |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113719232A (en) * | 2021-09-30 | 2021-11-30 | 文安县朔翰塑料制品有限公司 | Magnetic rotary power mechanism |
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