JP2018518651A - Drive panel and drive mechanism - Google Patents

Abstract

The drive panel 413 includes a disk-shaped portion 4131 and a drive gear 4132. The disk-like portion 4131 includes first and second side surfaces opposite to each other, and a guide rail groove 4131a for guiding the movement of the panel push rod 52 is provided on the first side surface. The drive gear 4132 is fixedly connected to the second side surface of the disk-shaped portion 4131 and is provided coaxially with the disk-shaped portion 4131. The drive gear 4132 is connected to a main gear 411 for driving the drive panel 413 to rotate. The drive gear 4132 drives the first driven gear 414 to rotate. Since the drive board 413 can be driven so that two moving members move simultaneously, the power source is reduced, and the configuration of the apparatus including the drive board 413 is made more compact. A drive mechanism 100 including the drive panel 413 is further disclosed.

Description

  This application is filed with the Chinese National Intellectual Property Office on July 14, 2015 with the following numbers: .3, 201520509830.7, which claims the priority and interests of the patent application, the entire contents of which are incorporated herein by reference.

  The present invention relates to the field of air conditioning equipment, and more particularly to a drive panel and a drive mechanism.

  When the drive mechanism is driven so that a plurality of parts move, there is a possibility that the drive mechanism cannot operate normally due to interference between the plurality of parts.

  An object of the present invention is to solve at least one technical problem in the prior art. Therefore, the present invention provides a drive panel and a drive mechanism.

  A drive board according to an embodiment of the present invention includes a disk-like portion including first and second opposite side faces, and a guide rail groove for guiding the movement of a panel push rod on the first side face. A drive gear fixedly connected to the second side surface of the disk-shaped portion and provided coaxially with the disk-shaped portion, and the drive gear is a main drive for driving the drive plate to rotate. Connected to a gear, the drive gear drives the first driven gear to rotate.

  Since the drive board in the embodiment of the present invention can be driven so that two members move simultaneously, the power source is reduced and the configuration of the apparatus including the drive board is made more compact.

  In some embodiments, the guide rail groove communicates with an arc-shaped first guide rail groove provided coaxially with the disk-shaped portion, and one end of the first guide rail groove, and the disk-shaped portion. A second guide rail groove extending to the axial center of the second guide rail groove.

  In some embodiments, the second guide rail groove has a smooth curved shape, an arc shape, or an involute shape.

  In some embodiments, a depression angle between an end of an effective path of the panel push rod that moves when the second guide rail groove is driven and a center of the disk-shaped portion is 30 to 360 degrees.

  In some embodiments, a depression angle between both ends of an effective path of the panel push rod that is moved by driving the second guide rail groove and the center of the disk-shaped portion is 70 to 85 degrees, 36 degrees, or 77. Degree.

  In some embodiments, the drive gear is an incomplete gear, and the arc angle of the toothless portion of the incomplete gear is 30 to 300 degrees.

  In some embodiments, the arc angle is 32-40 degrees or 36 degrees.

  In some embodiments, both sides of the disk-shaped portion extend from the center to form a rotation shaft having a center hole, and the guide rail groove has a first side surface of the disk-shaped portion protruding outward. The first reinforcing rib is formed between the outer wall of the rotating shaft and the guide rail groove wall.

  In some embodiments, the drive gear is formed with a hollow abdomen, and the abdomen has a second reinforcing rib that connects the rotating shaft and the inner wall of the first driven gear.

  In some embodiments, a first through hole for positioning a mounting position of the drive panel is formed in the disk-shaped portion.

  A drive mechanism in an embodiment of the present invention includes a casing, a first motor, a first transmission unit, and a moving part, wherein the first motor is provided outside the casing, and the first motor The transmission unit is connected to the first motor, and the first transmission unit includes a main driving gear, an intermediate gear, a first driven gear, and the drive panel described above. Connected to the motor shaft of one motor, the intermediate gear meshes with the main drive gear, the moving part is connected to the first transmission unit, and the moving part includes a cover plate push rod and a panel push rod, The first driven gear is connected to the lid plate push rod, and the drive gear is engaged with the intermediate gear and the first driven gear, respectively, so that the lid plate push rod moves. Sea urchin to drive.

  Since the drive mechanism in the embodiment of the present invention can be driven by the first motor so that the lid plate push rod and the panel push rod move simultaneously, the configuration of the drive mechanism is made more compact, The volume and weight of the drive mechanism are reduced, and the manufacturing cost of the drive mechanism is reduced.

  In some embodiments, the lid plate push rod includes a first arcuate portion having an inner wall formed with a first arcuate rack that meshes with the first driven gear.

  In some embodiments, a first arcuate guide rail is formed in the first arcuate part, and the casing is formed with a first accommodating part that matches the shape of the first arcuate part. A first pin shaft is provided in the first housing portion, and the first arcuate guide rail and the first pin shaft cooperate with each other in the cover plate push rod. Guide the movement.

  In some embodiments, the lid plate push rod includes a first member provided with a first rotation shaft on one side, and the first rotation shaft is coupled to the guide rail groove to guide groove The panel push rod is driven to move when sliding in.

  In some embodiments, a second rotating shaft is provided coaxially with the first rotating shaft on the other side of the first member, and the casing has the same movement locus as the first rotating shaft. The cover includes a cover provided with a third guide rail groove, and the second rotation shaft is mounted in the third guide rail groove.

  In some embodiments, the panel push rod further includes a second member fixedly connected to the first member, wherein the second member is provided with a second arc-shaped guide rail, The drive mechanism is mounted in the casing and includes an intermediate partition plate that partitions the casing into a left cavity and a right cavity, and the panel push rod is mounted in the right cavity, and a first guide is provided to the intermediate partition plate. A shaft is provided, and the first guide shaft and the second arcuate guide rail cooperate to limit the slide range of the panel push rod.

  In some embodiments, the second member is provided outside the second arcuate guide rail of the second member, concentrically with the second arcuate guide rail, and has a length that is the second circle. A third arcuate guide rail that is longer than the arcuate guide rail is further provided, a second guide shaft is further provided on the intermediate partition plate, and the second guide shaft and the third arcuate guide rail are provided. Cooperate to limit the movement of the panel push rod.

  In some embodiments, the drive mechanism is connected to a second motor provided outside the casing, a second transmission unit connected to the second motor, and the second transmission unit. A second air guide plate push rod, and the second motor drives the air guide plate push rod to move via the second transmission unit.

  In some embodiments, the second transmission unit includes a second driven gear connected to a motor shaft of the second motor, and the wind guide plate push rod is formed on an inner wall of the second driven gear. A second arcuate portion that is formed with a second arcuate rack that meshes with the gear; a fourth arcuate guide rail is formed on the second arcuate portion; A second accommodating portion to which the three pin shafts are attached, the second arc-shaped portion is attached to the second accommodating portion, and the third pin shaft and the fourth arc-shaped guide rail Cooperate with each other to guide the movement of the lid plate push rod.

  Additional features and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

The above-described and / or additional features and advantages of the present invention will become apparent and easily understood by describing the embodiments with reference to the following drawings.
It is a schematic perspective view of the drive mechanism of the embodiment of the present invention. It is a schematic exploded view of the drive mechanism of embodiment of this invention. It is a partial schematic perspective view of the drive mechanism of the embodiment of the present invention. It is a schematic block diagram of the transmission unit of the drive mechanism of embodiment of this invention. It is a schematic perspective view of the drive board of the drive mechanism of the embodiment of the present invention. It is a schematic perspective view seen from another angle of the drive board of the drive mechanism of embodiment of this invention. It is a schematic right side of the drive board of the drive mechanism of the embodiment of the present invention. It is a schematic left side of the drive board of the drive mechanism of the embodiment of the present invention. It is a schematic perspective view of the panel push rod of the drive mechanism of embodiment of this invention. It is a schematic perspective view of one state of the wall-hanging type air conditioner of the embodiment of the present invention. It is a schematic perspective view of another state of the wall-hanging type air conditioner according to the embodiment of the present invention.

  Hereinafter, embodiments of the present invention will be described in detail. Examples of said embodiments are shown in the drawings, where the same or similar reference always represents a corresponding or similar part or a part having a corresponding or similar function. The embodiments described below with reference to the drawings are exemplary and should only be used to interpret the present invention and should not be construed as limiting the present invention.

   In the description of the present invention, the terms “first” and “second” are used only to describe the purpose, and indicate or imply relative importance, or are indicated technical features. Do not understand to imply the number of implied. Thus, features limited to “first” and “second” explicitly or imply that one or more of the features are included. In the description of the present invention, “a plurality” means two or more unless there is a clear and specific limitation.

  In the description of the present invention, the meanings of the terms “attachment”, “connection to each other”, and “connection” should be broadly understood unless explicitly defined and limited. For example, a fixed connection, a detachable connection, or an integral connection is possible. Mechanical connection, electrical connection, or communication with each other is also possible. It is possible to connect directly, connect indirectly via an intermediate medium, communicate inside the two parts, or have a mutual working relationship between the two parts. . For those skilled in the art, the specific meaning of the above terms in the present invention can be understood by specific cases.

  In the following description, many different embodiments or examples are provided to implement different structures of the present invention. In order to simplify the description of the invention, specific example members and arrangements are described below. Of course, these are merely examples and are not intended to limit the present invention. In addition, the present invention can overlap numerals and / or alphabets referred to in different examples. Such overlap is for the sake of brevity and clarity and as such is not indicative of the relationship between the various embodiments and / or arrangements considered. The present invention also provides examples of various specific processes and materials, but those skilled in the art can envision application of other processes and / or the use of other materials.

  Hereinafter, embodiments of the present invention will be described in detail. Examples of said embodiments are shown in the drawings, where the same or similar reference always represents a corresponding or similar part or a part having a corresponding or similar function. The embodiments described below with reference to the drawings are exemplary and should only be used to interpret the present invention and should not be construed as limiting the present invention.

  In the description of the present invention, the terms “first” and “second” are used only to describe the purpose, and indicate or imply relative importance, or are indicated technical features. Do not understand to imply the number of implied. Thus, features limited to “first” and “second” explicitly or imply that one or more of the features are included. In the description of the present invention, “a plurality” means two or more unless there is a clear and specific limitation.

  In the description of the present invention, the meanings of the terms “attachment”, “connection to each other”, and “connection” should be broadly understood unless explicitly defined and limited. For example, a fixed connection, a detachable connection, or an integral connection is possible. Mechanical connection, electrical connection, or communication with each other is also possible. It is possible to connect directly, connect indirectly via an intermediate medium, communicate inside the two parts, or have a mutual working relationship between the two parts. . For those skilled in the art, the specific meaning of the above terms in the present invention can be understood by specific cases.

  In the following description, many different embodiments or examples are provided to realize different structures of the present invention. In order to simplify the description of the invention, specific example members and arrangements are described below. Of course, these are merely examples and are not intended to limit the present invention. In addition, the present invention can overlap numerals and / or alphabets referred to in different examples. Such overlap is for the sake of brevity and clarity and as such is not indicative of the relationship between the various embodiments and / or arrangements considered. The present invention also provides examples of various specific processes and materials, but those skilled in the art can envision application of other processes and / or the use of other materials.

  1 and 2, the drive mechanism 100 according to the embodiment of the present invention includes a casing 10, an intermediate partition plate 20, a motor 30, a transmission unit 40, and a moving part 50. The transmission unit 40 and the intermediate partition plate 20 are mounted in the casing 10, and the motor 30 is mounted outside the casing 10. The transmission units 40 are connected to the motor 30 and the moving part 50, respectively, so as to transmit the energy of the motor 30 for driving the moving part 50 to move. The intermediate partition plate 20 is mounted in the casing 10 and connected to the transmission unit 40 to ensure the overall stability of the drive mechanism 100.

  The casing 10 includes a support plate 11 and a cover 12. The support plate 11 includes a bottom plate 111, a large arc portion 112, a small arc portion 113, and a connection plate 114. The large circular arc portion 112 is formed by extending the rear end of the bottom plate 111 upward and forward. The small arc portion 113 is formed by extending the front end of the bottom plate 111 forward and upward. The connection plate 114 is provided between the large arc portion 112 and the small arc portion 113 and is formed integrally with the bottom plate 111, the large arc portion 112, and the small arc portion 113. An arc-shaped first accommodating portion 1141 is formed on the side of the connecting plate 114 close to the large arc portion 112. The first pin shaft 115 is attached to the first housing portion 1141. A second pin shaft 116 is further attached to the connection plate 114, and the second pin shaft 116 is provided below the first pin shaft 115. The small arc portion 113 is provided with an arc-shaped second accommodation portion 1131, and the third pin shaft 117 is attached to the second accommodation portion 1131. In order to ensure that the support plate 11 and the cover 12 can be tightly coupled, the outer shape of the cover 12 is similar to the support plate 11. The support plate 11 and the cover 12 are connected by a snap engagement structure or a screw.

  Since the shape of the intermediate partition plate 20 matches the contour formed by the bottom plate 111 of the support plate 11, the large circular arc portion 112, and the connection plate 114, the intermediate partition plate 20 has the support plate 11 and the support plate 12. Ensure that it can be matched and mounted between. The intermediate partition plate 20 partitions the casing 10 into a left cavity and a right cavity. A second through hole 21 is formed in the intermediate partition plate 20. A first guide shaft 22 and a second guide shaft 23 are attached to the upper part of the intermediate partition plate 20.

  The motor 30 includes a first motor 31 and a second motor 32. The first motor 31 and the second motor 32 are attached to the cover 12. The first motor 31 and the second motor 32 may be servo motors or stepping motors.

  3 to 4, transmission unit 40 includes a first transmission unit 41 and a second transmission unit 42. The moving part 50 includes a lid plate push rod 51, a panel push rod 52, and a wind guide plate push rod 53. The cover plate push rod 51 and the panel push rod 52 are connected to the first motor 31 via the first transmission unit 41, and the air guide plate push rod 53 is connected to the second transmission unit 42 via the second transmission unit 42. Connected to the motor 32. That is, the first motor 31 is driven so that the cover plate push rod 51 and the panel push rod 52 are moved, and the second motor 32 is driven so that the air guide plate push rod 53 is moved.

  3 to 8, the first transmission unit 41 and the second transmission unit 42 are both attached to the support plate 11. The first transmission unit 41 includes a main driving gear 411, an intermediate gear 412, a drive panel 413, and a first driven gear 414. The main driving gear 411, the intermediate gear 412, the first driven gear 414, and the driving gear 4132 of the driving board 413 are located in the left cavity of the casing 10, and the disk-like portion 4131 of the driving board 413 is the right cavity of the casing 10. Located in.

  The main gear 411 is connected to the motor shaft of the first motor 31 through a center hole, and the intermediate gear 412 is meshed with the main gear 411. The drive board 413 includes a disk-shaped part 4131 and a drive gear 4132. The drive gear 4132 is provided coaxially with the disk-shaped portion 4131. The disk-shaped part 4131 includes a first side surface and a second side surface which are opposite to each other. A guide rail groove 4131 a for guiding the movement of the panel push rod 52 is formed on the first side surface of the disk-shaped portion 4131. The drive gear 4132 is fixedly connected to the second side surface of the disk-shaped portion 4131. The drive gear 4132 is meshed with the intermediate gear 412 and the first driven gear 414, respectively.

  The guide rail groove 4131a of the drive panel 413 includes a first guide rail groove 4131b and a second guide rail groove 4131c. Each of the first guide rail groove 4131b and the second guide rail groove 4131c has a smooth curved shape, an arc shape, or an involute shape. The first guide rail groove 4131b is provided coaxially with the disk-shaped portion 4131. The second guide rail groove 4131c communicates with one end of the first guide rail groove 4131b and extends to the axial center of the disk-like portion 4131. The circular centers of the first guide rail groove 4131b and the second guide rail groove 4131c are provided eccentrically. The included angle between both ends of the effective path of the panel push rod 52 that moves when the second guide rail groove 4131c is driven and the center of the disk-like portion 4131 is 60 to 300 degrees. Preferably, the depression angle between both ends of the effective path of the panel push rod 52 that moves when the second guide rail groove 4131c is driven and the center of the disk-like portion 4131 is 70 to 85 degrees, 36 degrees, or 77 degrees.

  The drive gear 4132 is an incomplete gear. The arc angle of the toothless portion 4132a of the drive gear 4132 is 30 to 300 degrees. Preferably, the arc angle of the toothless portion 4132a of the drive gear 4132 is 32 to 40 degrees or 36 degrees. That is, the drive gear 4132 can be driven so that the first driven gear 414 rotates only when the toothed portion 4132b is meshed with the first driven gear 414, whereby the cover plate push rod can be driven. Move so that 51 moves. When the toothless portion 4132a of the drive gear 4132 rotates in a section meshing with the first driven gear 414, the first driven gear 414 comes to rest. In this case, the first driven gear 414 is connected to the first driven gear 414. The lid plate push rod 51 is also in a stationary state.

  Both sides of the disk-like portion 4131 are extended outward from the center to form a central shaft 4133 having a central hole. The drive panel 413 is attached to the second pin shaft 116 of the support plate 11 through the center hole of the center shaft 4133. The guide rail groove 4131a is defined by a guide rail groove wall formed by projecting the first side surface of the disk-shaped portion 4131 to the outside. A first reinforcing rib 4134 is formed between the outer wall of the central shaft 4133 and the guide rail groove wall. A hollow abdomen is formed in the drive gear 4132, and the abdomen has a second reinforcing rib that connects the rotating shaft and the inner wall of the drive gear 4132.

  A first through hole 4136 for determining the initial position of the drive board 413 when the drive board 413 is attached is formed in the drive board 413. When the drive panel 413 is attached, the first through hole 4136 is coaxially aligned with the second through hole 21 of the intermediate partition plate 20, which is the initial position of the drive panel 413.

  The lid plate push rod 51 includes a first arcuate portion 511. The shape of the first arcuate portion 511 matches the first accommodating portion 1141 of the support plate 11. A first arc-shaped rack 5111 that meshes with the first driven gear 414 is formed on the inner wall of the first arc-shaped portion 511. The first driven gear 414 is engaged with the first arcuate rack 5111 and is driven so that the cover plate push rod 51 moves. By doing in this way, the drive board 413 can be driven so that the cover board push rod 51 and the panel push rod 52 may move simultaneously. A first arc-shaped guide rail 5112 is formed on the first arc-shaped portion 511. The arcuate portion of the cover plate push rod 51 is mounted in the first accommodating portion 1141 of the support portion 11, and the first pin shaft 115 and the first arcuate guide rail 5112 cooperate with each other, It is guided that the cover plate push rod 51 moves along a certain locus.

  With reference to FIGS. 1 and 9, the panel push rod 52 is provided in the light cavity of the casing 10. The panel push rod 52 includes a first member 521 and a second member 522. A first rotating shaft 5221 is provided on one side of the first member 521. The first rotating shaft 5221 is coupled to the guide rail groove 4131a, and the panel push rod 52 moves when sliding in the guide rail groove 4131a. To drive. The second member 522 is fixedly connected to the first member 521, and a second arc-shaped guide rail 5221 is provided. The first guide shaft 22 of the intermediate partition plate 20 and the second arcuate guide rail 5221 cooperate to limit the slide range of the panel push rod 52. A second rotation shaft 5212 that is coaxial with the first rotation shaft 5221 is provided on the other side of the first member 521. A third guide rail groove 121 is provided in the movement locus of the second rotation shaft 5212 of the cover plate 12, and the second rotation shaft 5212 is attached in the third guide rail groove 121. By doing in this way, the receiving force in the process in which the 1st member 521 moves becomes uniform, and the panel push rod 52 can operate | move more stably. A third arc-shaped guide rail 5222 is further provided outside the second arc-shaped guide rail 5221 of the second member 522, and the third arc-shaped guide rail 5222 is a second arc-shaped guide rail. It is attached concentrically with 5221 and is longer than the second arcuate guide rail 5221. The second guide shaft 23 of the intermediate partition plate 20 and the third arcuate guide rail 5222 cooperate to further limit the motion trajectory of the panel push rod 52.

  Thus, when the panel push rod 52 moves, the second arcuate guide rail 5221 first slides to the first stop position. In this case, the second arc-shaped guide rail 5221 stops sliding due to the position-limiting action of the first guide shaft 22, but the third arc-shaped guide rail 5222 is stopped at the second stop position. The panel push rod 52 also stops moving. Of course, since the first motor 31 is a servo motor or a stepping motor, the first motor 31 can be controlled to start or stop at any time, and the panel push rod 52 is moved anywhere in the movement locus. The movement can be stopped.

  When the first motor 31 rotates forward, the drive plate 413 is moved by the main driving gear 411 and the intermediate gear 412 so that the first rotating shaft 5221 is moved in the first guide rail groove 4131b. And the panel push rod 52 is moved so as to move from the first position to the second position. The first driven gear 414 and the drive gear 4132 are in an intermeshing engagement state, and the first driven gear 414 is In this case, the lid plate push rod 51 is also stationary because it is stationary. When the first rotating shaft 5221 moves to the second guide rail groove 4131c, the panel push rod 52 moves to the second position, and the second guide rail groove 4131c and the disk-shaped portion 4131 are concentric. In this case, the panel push rod 52 stops moving, but is driven so that the first driven gear 414 rotates only when the toothed portion 4132b of the drive gear 4132 meshes with the first driven gear 414. The first driven gear 414 is engaged with the first arcuate rack 5111 and moves so that the cover plate push rod 51 moves from the third position to the fourth position.

  When the first motor 31 is reversed, the toothed portion 4132b of the drive gear 4132 is engaged with the first driven gear 41 to drive the first driven gear 414 so that the first driven gear 414 The cover plate push rod 51 is engaged with the first arc-shaped rack 5111 to move from the fourth position to the third position. At this time, the first rotating shaft 5221 is moved to the second guide rail groove 4131c. The panel push rod 52 is in a stationary state as it moves toward the first guide rail groove 4131b. When the drive gear 4132 is not meshed with the first driven gear 414, the cover plate push rod 51 stops moving. At this time, the panel push rod 52 is positioned at the third position, and the second rotating shaft 5212 moves to the first guide rail to push the panel push rod 52 so as to move from the second position to the first position. To do. After the panel push rod 52 moves to the first position, the first motor stops rotating.

  The second transmission unit 42 includes a second driven gear 421 attached to the support plate 11 and connected to the motor shaft of the second motor 32. The air guide plate push rod 53 includes a second arc-shaped portion 531, and a second arc-shaped rack that meshes with the second driven gear 421 is formed on the inner wall of the second arc-shaped portion 531. By doing so, the second driven gear 421 is engaged with the second arc-shaped rack 5311 and driven so that the air guide plate push rod 53 moves. A fourth arc-shaped guide rail 5312 is formed on the second arc-shaped portion 531. The second arcuate part 531 is attached to the second accommodating part 1131 of the support plate 11, and the third pin shaft 117 and the fourth arcuate guide rail 5312 cooperate with each other, so that the wind guide plate push rod Guide 53 movements. That is, the second motor 32 is driven so that the second driven gear 412 rotates, and the second driven gear 421 is engaged with the second arc-shaped rack 5311 so that the air guide plate push rod 53 moves. To drive.

  With reference to FIGS. 10 to 11, drive mechanism 100 can be applied to wall-mounted air conditioner 200, and drive mechanism 100 is attached to both ends of wall-mounted air conditioner 200. Wall-mounted air conditioner 200 includes rear plate 201, panel 202, and rear plate 203. The cover plate push rod 51 is connected to the rear plate 201, the panel push rod 52 is connected to the panel 202, and the air guide plate push rod 53 is connected to the air guide plate 203. When the cover plate push rod 51 and the panel push rod 52 move, the rear cover plate 201 and the panel 202 are moved so as to move, respectively, so that the rear cover plate 201 and the panel 202 are turned on or off. When the air guide plate push rod 53 protrudes out of the casing 10 or returns into the casing 10, the air guide plate 203 is pushed to be turned on or off, and the second motor 32 causes the air guide plate 203 to be turned on. The size of the exhaust port at the time of rotation can be controlled.

  The drive board 413 in the embodiment of the present invention includes a disk-shaped part 4131 and a drive gear 4132. The disk-shaped part 4131 includes first and second side surfaces opposite to each other, and a guide rail groove 4131a for guiding the movement of the panel push rod 52 is provided on the first side surface. The drive gear 4132 is fixedly connected to the second side surface of the disk-shaped portion 4131 and is provided coaxially with the disk-shaped portion 4131. The driving gear 4132 is connected to a main driving gear 411 for driving the rotation of the driving panel 413. The drive gear 4132 drives the first driven gear 414 to rotate.

  Since the drive panel 413 in the embodiment of the present invention can be driven so that two parts move at the same time, the power source is reduced and the configuration of the apparatus including the drive panel 413 is made more compact.

  In the present embodiment, the guide rail groove 4131a includes a first guide rail groove 4131b and a second guide rail groove 4131c. The first guide rail groove 4131b is provided coaxially with the disk-like portion 4131 and has an arc shape. The second guide rail groove 4131c communicates with one end of the first guide rail groove 4131b and extends to the axial center of the disk-like portion 4131.

  By doing so, when the panel push rod 52 moves in the second guide rail groove 4131c, the drive panel 413 corresponds to a cam, and when the panel push rod 52 moves in the guide rail groove 4131a, different motions are obtained. Try to have a form.

  In the present embodiment, the second guide rail groove 4131c has a smooth curved shape, an arc shape, or an involute shape.

  By doing in this way, the panel push rod 52 can move smoothly in the 2nd guide rail groove | channel 4131c.

  In the present embodiment, the depression angle between both ends of the effective path of the panel push rod 52 that moves when the second guide rail groove 4131c is driven and the center of the disk-like portion 4131 is 30 to 360 degrees.

  By doing in this way, the movement time range in the 2nd guide rail groove | channel 4131c of the panel push rod 52 can be determined.

  In the present embodiment, the depression angle between both ends of the effective path of the panel push rod 52 that moves when the second guide rail groove 4131c is driven and the center of the disk-shaped portion 4131 is 70 to 85 degrees, 36 degrees, or 77 degrees. is there.

  By doing in this way, the movement time range in the 2nd guide rail groove | channel 4131c of the panel push rod 52 can be determined.

  In this embodiment, the drive gear 4132 is an incomplete gear, and the arc angle of the toothless portion of the incomplete gear is 30 to 300 degrees.

  By doing so, the first driven gear 414 rotates intermittently, the time range in which the first driven gear 414 moves intermittently is determined, and the panel push rod 52 and the first driven gear 414 Determine the movement context.

  In the present embodiment, the arc angle of the toothless portion of the incomplete gear is 32 to 40 degrees or 36 degrees.

  In this way, the intermittent motion time of the first driven gear 414 can be further determined.

  In the present embodiment, both sides of the disk-shaped portion 413 extend from the center to the outside to form a rotation shaft having a center hole, and the guide rail groove 4131a has the first side surface of the disk-shaped portion 4131 protruding outward. A first reinforcing rib 4134 is formed between the outer wall of the rotating shaft and the guide rail groove wall.

  By doing so, the rigidity of the guide rail groove 4131a can be strengthened and the deformation of the guide rail groove 4131a can be prevented.

  In the present embodiment, both sides of the disk-shaped portion 4131 extend from the center to the outside to form a rotation shaft having a center hole, a hollow abdomen is formed in the first driven gear 414, and the abdomen includes a rotation shaft. And a second reinforcing rib 4135 connecting the inner wall of the first driven gear 414.

  In this way, deformation of the drive gear 4132 is prevented.

  In the present embodiment, a positioning hole is formed in the disk-shaped portion 4131.

  In this way, the initial position when the drive panel 413 is attached is determined.

  The drive mechanism 100 in the embodiment of the present invention includes a casing 10, a first motor 31, a first transmission unit 41, and a moving part 50. The first motor 31 is provided outside the casing 10. The first transmission unit 41 is connected to the first motor 31. The first transmission unit 41 includes a main drive gear 411, an intermediate gear 412, the drive panel 413 of the above embodiment, and a first driven gear 414. The main driving gear 411 is connected to the motor shaft of the first motor 31. The intermediate gear 412 is meshed with the main driving gear 411. The moving part 50 is connected to the first transmission unit 41. The moving part 50 includes a cover plate push rod 51 and a panel push rod 52. The first driven gear 414 is connected to the saddle plate push rod 51. The drive gears 4132 are engaged with the intermediate gear 412 and the first driven gear 414, respectively, so as to drive the saddle plate push rod 51.

  The drive mechanism 100 according to the embodiment of the present invention can be driven by the first motor 31 so that the cover plate push rod 51 and the panel push rod 52 move at the same time. The volume and weight of the drive mechanism 100 are reduced, and the manufacturing cost of the drive mechanism 100 is reduced.

  In the present embodiment, the cover plate push rod 51 includes a first arcuate portion 511, and a first arcuate rack that meshes with the first driven gear on the inner wall of the first arcuate portion 511. It is formed.

  By doing in this way, driving so that the cover board push rod 51 may move by the method of meshing of gears has higher transmission efficiency.

  In the present embodiment, a first arc-shaped guide rail 5111 is formed on the first arc-shaped portion 511. The casing 10 includes a support plate 11, a first accommodating portion 1441 that matches the shape of the first arc-shaped portion 511 is formed on the support plate 11, and the first pin shaft 115 is attached to the first accommodating portion 1441. It is done. The first arcuate guide rail 5111 and the first pin shaft 115 cooperate to guide the movement of the cover plate push rod 51.

  In this way, the motion trajectory of the cover plate push rod 51 is determined.

  In the present embodiment, the panel push rod 52 includes a first member 521, and a first rotating shaft 5211 is provided on one side of the first member 521. The first rotating shaft 5211 has a guide rail groove 4131a. The panel push rod 52 is driven to move when sliding in the guide rail groove 4131a.

  By doing in this way, when the drive board 413 rotates, it can drive so that the panel push rod 52 may move.

  In the present embodiment, a second rotating shaft 5212 is provided on the other side of the first member 521 so as to be coaxial with the first rotating shaft 5211. The casing 10 includes a cover 12, and the cover 12 is provided with a third guide rail groove 121 having the same movement locus as the first rotation shaft 5211, and the second rotation shaft 5212 is in the third guide rail groove 121. To be attached.

  By doing in this way, the receiving force in the process in which the 1st member 521 moves becomes further uniform, and the panel push rod 52 operates stably.

  In the present embodiment, the panel push rod 52 further includes a second member 522 fixedly connected to the first member 521. A second arc-shaped guide rail 5221 is provided on the second member 522. The drive mechanism 100 includes an intermediate partition plate 20 that is mounted in the casing 10 and partitions the casing 10 into a left cavity and a right cavity. The panel push rod 52 is mounted in the light cavity, the first guide shaft 22 is provided on the intermediate partition plate 20, and the first guide shaft 22 and the second arc-shaped guide rail 5221 cooperate to form a panel. The sliding range of the push rod 52 is limited.

  By doing so, the motion trajectory of the panel push rod 52 is limited.

  In the present embodiment, a third arc-shaped guide rail 5222 is further provided outside the second arc-shaped guide rail 5221 of the second member 522, and the third arc-shaped guide rail 5222 is the second arc-shaped guide rail 5222. It is provided concentrically with the arcuate guide rail 5221 and is longer than the second arcuate guide rail 5221. A second guide shaft 23 is further provided on the intermediate partition plate 20, and the second guide shaft 23 and the third arcuate guide rail 5222 cooperate to limit the movement of the panel push rod 52.

  By doing in this way, the movement locus | trajectory of the panel push rod 52 is further limited.

  In the present embodiment, the drive mechanism 100 further includes a second motor 32, a second transmission unit 42, and an air guide plate push rod 53. The second motor 32 is provided outside the casing 10. The second transmission unit 42 is connected to the second motor 32. The wind guide plate is connected to the second transmission unit 42. The second motor 32 is driven via the second transmission unit 42 so that the wind guide plate push rod 53 moves.

  By doing so, the drive mechanism 100 individually controls the movement of the air guide plate push rod 53 by the second motor 32, and the air guide plate push rod 53, the cover plate push rod 51, and the panel push rod. The movement with 52 is realized separately.

  In the present embodiment, the second transmission unit 42 includes a second driven gear 421, and the second driven gear 421 is connected to the motor shaft of the second motor 32. The air guide plate push rod 53 includes a second arc-shaped portion 531, and a second arc-shaped rack 5311 that meshes with the second driven gear 421 is formed on the inner wall of the second arc-shaped portion 531. A fourth arc-shaped guide rail 5312 is formed on the second arc-shaped portion 531. A second accommodating portion 1131 is provided on the support plate 11, and a third pin shaft 177 is attached to the second accommodating portion 1131. The second arcuate portion 531 is attached to the second accommodating portion 1131, and the movement of the panel push rod 52 is guided by the cooperation of the third pin shaft 177 and the fourth arcuate guide rail 5312. .

  By doing so, the movement trajectory of the air guide plate push rod 53 is limited, and the second motor 32 is driven so that the air guide plate push rod 53 protrudes from the casing 10 or returns into the casing 10. Can do.

  In describing the present invention, terms such as “one embodiment”, “some embodiments”, “exemplary embodiments”, “examples”, “specific examples”, or “some examples” The description with reference to means that the specific features, configurations, materials, or features described by combining the embodiments or examples are included in at least one embodiment or example of the present invention. In this specification, exemplary explanations for the above terms do not necessarily indicate the same embodiments or examples. Also, the specific features, configurations, materials, or characteristics described may be combined appropriately in any one or more embodiments or examples.

  While embodiments of the invention have been shown and described, those skilled in the art can make various changes, modifications, replacements and variations to these embodiments without departing from the principles and spirit of the invention. The scope of the present invention is limited by the claims and their equivalents.

Claims (19)

A disc-shaped portion including a first side surface and a second side surface opposite to the first side surface, wherein the first side surface is provided with a guide rail groove for guiding the movement of the panel push rod;
A driving gear fixedly connected to the second side surface of the disk-shaped portion and provided coaxially with the disk-shaped portion;
The drive gear is connected to a main drive gear for driving the drive plate to rotate, and the drive gear is driven to rotate the first driven gear. The guide rail groove is
An arc-shaped first guide rail groove provided coaxially with the disk-shaped portion;
2. The drive board according to claim 1, further comprising: a second guide rail groove that communicates with one end of the first guide rail groove and extends to an axial center of the disk-shaped portion.   The drive board according to claim 2, wherein the second guide rail groove has a smooth curved shape, an arc shape, or an involute shape.   4. The depression angle between an end of an effective path of the panel push rod that moves when the second guide rail groove is driven and the center of the disk-shaped portion is 30 to 360 degrees. 5. The drive board described.   The drive board according to claim 4, wherein the depression angle is 70 to 85 degrees, 36 degrees, or 77 degrees.   The drive board according to claim 5, wherein the drive gear is an incomplete gear, and an arc angle of a dentless portion of the incomplete gear is 30 to 300 degrees.   The drive board according to claim 6, wherein the arc angle is 32 to 40 degrees or 36 degrees.   Both sides of the disk-shaped part extend outward from the center to form a rotating shaft having a center hole, and the guide rail groove is formed by projecting the first side surface of the disk-shaped part outward. 2. The drive board according to claim 1, wherein the drive board is defined by a wall, and a first reinforcing rib is formed between an outer wall of the rotating shaft and the guide rail groove wall.   Both sides of the disk-shaped portion extend outward from the center to form a rotating shaft having a center hole, the first driven gear has a hollow belly portion, and the belly portion has the rotating shaft and the drive gear. The drive board according to claim 1, further comprising a second reinforcing rib that connects the inner wall of the first reinforcing rib.   2. The drive board according to claim 1, wherein a first through hole for positioning an attachment position of the drive board is formed in the disk-shaped portion. A casing,
A first motor provided outside the casing;
A first transmission unit connected to the first motor, a main driving gear connected to a motor shaft of the first motor, an intermediate gear meshed with the main driving gear, and the first to tenth embodiments. A first transmission unit including the drive panel according to any one of the above and a first driven gear;
A moving part connected to the first transmission unit,
The moving parts include a cover plate push rod and a panel push rod, the first driven gear is connected to the cover plate push rod, and the drive gear is engaged with the intermediate gear and the first driven gear, respectively. And the lid plate push rod is driven to move.   12. The lid plate push rod according to claim 11, further comprising a first arcuate portion having an inner wall formed with a first arcuate rack that meshes with the first driven gear. Drive mechanism.   A first arcuate guide rail is formed on the first arcuate part, and the casing includes a support plate on which a first accommodating part matching the shape of the first arcuate part is formed; A first pin shaft is attached to the first housing portion, and the first arcuate guide rail and the first pin shaft cooperate to guide the movement of the cover plate push rod. The drive mechanism according to claim 12, wherein   The panel push rod includes a first member provided with a first rotating shaft on one side, and the first rotating shaft is coupled to the guide rail groove and slides in the guide rail groove. The drive mechanism according to claim 11, wherein the panel push rod is driven to move.   A second rotating shaft is provided coaxially with the first rotating shaft on the other side of the first member, and the casing is a third guide rail having the same movement locus as the first rotating shaft. The drive mechanism according to claim 14, further comprising a cover provided with a groove, wherein the second rotating shaft is mounted in the third guide rail groove.   The panel push rod further includes a second member fixedly connected to the first member, and the second member is provided with a second arc-shaped guide rail, and the drive mechanism is disposed in the casing. And an intermediate partition plate that divides the casing into a left cavity and a right cavity, the panel push rod is attached to the right cavity, the first partition shaft is provided on the intermediate partition plate, and the first 15. The drive mechanism according to claim 14, wherein the guide shaft and the second arcuate guide rail cooperate to limit the sliding range of the panel push rod.   A third arc-shaped guide rail is further provided outside the second arc-shaped guide rail of the second member, and the third arc-shaped guide rail is the second arc-shaped guide rail. A second guide shaft is further provided on the intermediate partition plate, the second guide shaft and the third circle are provided concentrically with the rail and are longer than the second arcuate guide rail. The drive mechanism according to claim 16, wherein an arcuate guide rail cooperates to limit movement of the panel push rod. The drive mechanism is
A second motor provided outside the casing;
A second transmission unit connected to the second motor;
An air guide plate push rod connected to the second transmission unit;
The drive mechanism according to claim 11, wherein the second motor is driven so that the air guide plate push rod moves through the second transmission unit.   The second transmission unit includes a second driven gear connected to a motor shaft of the second motor, and the air guide plate push rod is engaged with the second driven gear on an inner wall. A second arc-shaped portion is formed, a fourth arc-shaped guide rail is formed in the second arc-shaped portion, and the casing is provided with a second accommodating portion. Including a support plate, a third pin shaft is attached to the second housing portion, a second arcuate portion is attached to the second housing portion, and the third pin shaft and the fourth housing portion The drive mechanism according to claim 18, wherein the movement of the panel push rod is guided by cooperation with an arcuate guide rail.