JP2020504283A - Air conditioner base parts and air conditioners - Google Patents

Abstract

Provided is an air conditioner pedestal part and an air conditioner, the pedestal part including a pedestal (g330), and a motor (g220) installed on the pedestal (g330) and detachably connected to an impeller of an air conditioner air path part. The air path components can be totally disassembled from the pedestal (g330) without disassembling the motor (g220). When cleaning the air path parts, the air path parts need only be disassembled from the pedestal parts, and there is no need to disassemble the motor (g220) from the pedestal (g330). And avoid electric shock. [Selection diagram] Fig. 1

Description

  The present invention relates to the technical field of air conditioners, and more particularly, to an air conditioner base component and an air conditioner.

  Air conditioners, as one of the appliances commonly used in homes, meet the demand for different functions for air conditioners by continually optimizing their structure, and are constantly working in the field. The design of the basic part (pedestal or undercarriage structure) of the air conditioner has a great influence on the layout of the structure of the entire air conditioner.

  The structure of a traditional air conditioner is divided into three parts: a pedestal portion including a bottom case, a fan, and the like; a heat exchanger and a conduit; and an exterior portion including a plate, a panel, and the like. According to the design of the solution, it is disadvantageous to disassemble and assemble the air conditioner, and it is very inconvenient to detect after-sales repair after sale.

  For convenience of disassembly, an Akon indoor unit that can disassemble an air path component that is disassembled from back to front by a guide component together with an alighting platform is disclosed in a Chinese patent document with a publication number of CN205037533U. According to the method disclosed in Japanese Patent Application Laid-Open No. H11-157, as in a traditional air conditioner, when disassembling the air path parts, the motor parts must also be disassembled from the chassis, thereby disassembling and cleaning the air path parts. There is a safety problem such as electric shock or water entering the motor.To prevent electric shock or water from entering the motor, disassemble the air path components together with the motor and then disassemble the motor more easily. Operation is complicated.

  Therefore, the present invention provides an air conditioner that can solve the problem of electric shock and safety in which water enters the charging member because the motor must be disassembled when the air path components in the air conditioner are disassembled and cleaned in the existing technology. Its purpose is to provide pedestal parts.

  The following technical solution is used in the present invention.

  An air conditioner pedestal part including a pedestal and a motor installed on the pedestal and detachably connected to an air conditioner air path part impeller, wherein the air path part can be entirely disassembled from the pedestal without disassembling the motor. provide.

  Further, the motor is detachably installed at one end along the longitudinal direction of the pedestal, and the motor can be disassembled from one end of the pedestal.

  The motor may be mounted on the pedestal by a motor holder, and the motor holder may include a motor receiving seat fixedly mounted on the pedestal and supporting the motor.

  Further, the motor receiving seat may be formed integrally with the pedestal, or the motor receiving seat may be detachably connected to the pedestal.

  In addition, the detachable connection method of the motor receiving seat with the pedestal is a connection by a fastener or a detachable connection by a pluggable meshing connection structure or a connection by a guide rail connection method by mutual cooperation of guide rail cooperating members. Can be included.

  Further, when the motor receiving seat and the pedestal are connected by a guide rail connecting method by mutual cooperation of the guide rail cooperating members, the guide rail cooperating member on the pedestal is installed at one end of the pedestal, and the guide rail cooperating member is provided. Can correspond to the longitudinal direction of the pedestal.

  Further, the motor holder further includes a motor holding plate cooperating with the motor receiving seat, the motor holding plate being engaged and connected on the motor receiving seat to form a cavity for gripping the motor in the circumferential direction, and a base adjacent to the cavity. One end approaching the end of the pedestal member is a mounting end that allows the motor to fit into and out of the cavity in the axial direction, and one end away from the end of the pedestal member is further moved away from the end of the pedestal by the motor. Can be a limiting end.

  The motor holder may further include a motor end cover that is detachably fixedly attached to the attachment end to limit movement of the motor in a direction to exit the cavity.

  The pedestal can also be movably connected to the exhaust frame of the exhaust component of the air conditioner by the guide rail component such that the exhaust component exits the pedestal along the guide rail component.

  In addition, the guide rail parts include a slide rail seat vertically fixed on a pedestal in use, a slide frame slidably mounted in a slide groove of the slide rail sheet, and one end fixed on the slide frame. And a slide rail end rod fixedly connected to the exhaust frame at the other end thereof.

  In addition, a hook is formed on the slide rail end rod, and the hook can be inserted into a locking connection groove formed on the exhaust frame to be cooperatively connected.

  In addition, the air path component mounting chamber is installed on the pedestal, the air path component mounting chamber has a downward mounting port, and the air path component is attached to and detached from the air path component mounting chamber in a vertical manner through the mounting port. Can be.

  Further, a stopper structure for preventing the air path component from detaching from the mounting port can be installed in the air path component mounting chamber.

  In addition, the stopper structure is installed on the upper part corresponding to the bottom case mounting position of the air path component on the back plate of the pedestal, the stopper hook with the notch facing downward, and the bottom part corresponding to the lower edge of the bottom case of the air path part A stopper base serving to support the case.

  The mounting structure further includes an indicator structure installed on a side edge corresponding to the bottom case of the air path component on the pedestal, and serving to assist in assembling firmly in cooperation with the side edge of the bottom case. be able to.

  In addition, a slide structure may be provided between the pedestal and the air path component to guide the air path component to enter and exit the air path component mounting chamber.

  Also, the slide structure includes a slide bridge structure installed on the left and right sides of the pedestal and the air path component and cooperating in a plane, or the slide structure is movably installed on the pedestal and fixed to the air path component. The guide rail connection structure to be installed can be.

  The electronic device may further include an electric box installed on the pedestal and having a plurality of control elements installed thereon, and the electric box may be detachably connected to the pedestal.

  Also, the electric box and the motor are installed at the same or opposite ends in the longitudinal direction of the pedestal, and when located at the same end, the electric box and the motor are disassembled from the same end of the pedestal. be able to.

  Also, the electric box may be installed adjacent to the motor, and may be installed at one end of the electric box which approaches the pedestal with respect to the motor.

  Also, the electric box has two corner buckles at the bottom end inserted and placed on the pedestal, and is removably fixed on the pedestal by a fastener fixing method, or the electric box and the pedestal are connected to each other by a guide rail member. The guide rails are connected by the engaged guide rail connection method, and the extending direction of the guide rail cooperating member can coincide with the longitudinal direction of the pedestal.

  In addition, an avoidance boss that protrudes to one end away from the motor and that avoids the motor may be installed inside the electric box.

  In addition, the electronic control member may further include a concentrator fixedly installed on the base, one end connected to each load of the air conditioner, and the other end connected to a main board of the electric box.

  Also, the concentrator and the electric box can cooperate with each other by the limiting rib and the limiting hole.

  Also, the electric box and the motor are installed at opposite ends of the pedestal in the longitudinal direction, and the electric box can be disassembled from a corresponding end of the pedestal.

  In addition, the apparatus may further include a concentrator installed on the pedestal and located between the motor and the electric box.

  In addition, the air conditioner may further include a left drive box and a right drive box installed on the pedestal to drive a wind guide component and a flush component of the air conditioner.

  In addition, the wiring structure further includes a wiring structure installed on the pedestal, the wiring structure includes a wiring groove and a wiring buckle, the wiring groove is installed along a design route of a load line of the air conditioner, and the wiring buckle connects the load line. A buckle can be connected to the groove.

  Also, a wiring groove and a wiring buckle can be installed on the pedestal corresponding to the drive module wire and the environmentally-heat-covered wire.

  An air conditioner including the air conditioner base component described above is provided.

The technical solution of the present invention has the following advantages.
1. According to the air conditioner pedestal part provided by the present invention, as an important module in the modular type air conditioner, a motor is installed on the pedestal, and the motor is detachably connected to an impeller of an air path part of the air conditioner. The air path components can be disassembled entirely from the pedestal without disassembling the motor from the pedestal, so that when cleaning the air path components, the air path components can be disassembled entirely from the pedestal components. In addition, there is no need to disassemble the motor from the pedestal, it is possible to prevent water from entering the motor, and to avoid electric shock.
2. According to the air-conditioner pedestal part provided by the present invention, the motor can be detachably installed at one end along the longitudinal direction of the pedestal, and the motor can be disassembled from the end of the pedestal. It is not necessary to disassemble such members, and it is sufficient to disassemble the motor from the longitudinal end of the pedestal, and the disassembly of the motor becomes very convenient.
According to the air conditioner pedestal part provided by the present invention, the motor and the electronic control member are integrated on the pedestal, and the output shaft of the motor is directed to one end of the impeller, and the motor of the impeller shaft of the impeller is provided. Connected to the high-speed connection mechanism on one side end close to the, when the air path parts are disassembled as a whole from the pedestal, the impeller shaft of the air path parts can realize high-speed disassembly with the motor on the pedestal, In addition, when assembling the air path components on the pedestal component as a whole, high-speed connection with the motor on the pedestal can be realized, thereby improving the assembling efficiency of the modular Akon.
4. According to the air conditioner pedestal part provided by the present invention, other charging members (for example, electronic control members, drive boxes, etc.) other than the motor are also integrated on the pedestal, that is, all the charging members in the modular air conditioner are used. All components are integrated on the air conditioner pedestal part provided by the present invention, and the pedestal part is used as a basis for assembling other modules (air path parts, heat exchange parts, appearance parts), and other modules are disassembled and cleaned. In this case, there is no charge, and the problem that water enters the charging member and is damaged, and the problem of electric shock to humans can be avoided.
5. According to the air-conditioner pedestal part provided by the present invention, the motor pedestal and the pedestal are integrated and injection-molded integrally, so that the number of parts of the motor pedestal is reduced and the material cost is reduced.
6. According to the air conditioner pedestal part provided in the present invention, the guide rail structure is designed on the pedestal, and the exhaust part can slide along the guide rail in cooperation with the exhaust part of the air conditioner, so that the exhaust part can be disassembled and cleaned. It is convenient.
7. According to the air conditioner pedestal part provided by the present invention, the slide bridge structure and the buckle structure are designed on the pedestal, and the air path part can slide along the slide bridge in cooperation with the bottom case of the air path part, Disassembly and cleaning of exhaust parts are convenient.
8. According to the air conditioner pedestal part provided by the present invention, a special wiring structure is designed on the pedestal, the left drive box line is fixed by the buckle along the wiring groove, and the environmental heat-sensitive coated line is buckled along the wiring groove. Fixed by By designing the wiring structure on the pedestal, the level of modularization of the air conditioner is improved, and the wiring inside the air conditioner is further streamlined.

In order to more clearly explain the embodiments of the present invention or the technical solutions in the existing technology, drawings to be used in the description of the specific embodiments or the existing technology will be briefly described below. It goes without saying that it is a part of an embodiment of the invention and that a person skilled in the art can obtain other figures from the following figures without creativity.
FIG. 2 is an exploded view of an air conditioner pedestal part provided in one embodiment of the present invention. It is a figure showing cooperation of an exhaust part of one example of the present invention, and a pedestal. It is a figure showing cooperation of an airway part of one example of the present invention, and a pedestal. It is a figure showing an assembly of a wind path part and a pedestal of one example of the present invention. It is a figure showing wiring of a pedestal of one example of the present invention. It is a figure showing wiring of a pedestal of one example of the present invention. It is a figure which shows the case where the pedestal motor of one Example of this invention is on the left side, and the electric box is on the right side. It is a figure showing the case where both the pedestal motor and the electric box of one example of the present invention are on the left side. It is a figure showing other cooperation of an exhaust part of one example of the present invention, and a pedestal. It is a figure showing assembly of an electric box and a pedestal provided in one example of the present invention. It is a perspective view of the electric box in FIG. It is sectional drawing which shows cooperation of the slide structure and guide rail structure in FIG. It is sectional drawing of the electric box in FIG. It is a figure which shows the internal structure of the box of the electric box in FIG. FIG. 2 is a view showing an assembly of an electric box and an air conditioner provided in one embodiment of the present invention. It is a perspective view of the electric box in FIG. It is sectional drawing of the electric box in FIG. FIG. 17 is a diagram showing the internal structure of the box of the electric box in FIG. 16. FIG. 9 is a view illustrating an assembly of an electric box and an air conditioner provided in another embodiment of the present invention. It is a figure which shows the internal structure of the box of the electric box in FIG. FIG. 21 is a diagram showing a structure in which the concentrator structure in FIG. 20 faces the load side. FIG. 21 is a diagram showing a structure in which the concentrator structure in FIG. 20 faces the main board. It is a figure showing the structure of the motor control board provided by the present invention. It is a figure showing the structure of the pipe control board provided by the present invention. It is a figure showing the wiring structure of the tube control board provided by the present invention. It is a figure showing the wiring structure of the pedestal provided by the present invention. It is a figure which shows the structure of the other positional wiring structure of the pedestal provided by this invention. It is a figure which shows the frame structure of the air conditioner provided by this invention, the assembly of a plate, and a filter. It is a figure showing the slide rail structure of the frame structure of the air conditioner provided by the present invention. FIG. 2 is an exploded view of a plate and a filter having a frame structure of an air conditioner provided by the present invention. It is a figure showing the attachment structure of the air conditioner in one example of the present invention. FIG. 32 is a diagram illustrating a structure of a motor mounting structure in the mounting structure of the air conditioner illustrated in FIG. 31. FIG. 32 is a diagram showing a structure of another motor mounting structure in the air conditioner mounting structure shown in FIG. 31. FIG. 32 is a diagram illustrating a structure of a motor component in the mounting structure of the air conditioner illustrated in FIG. 31. It is a figure showing the structure of the motor part in the example of the present invention. FIG. 36 is a diagram showing an assembly structure of the motor component shown in FIG. 35. FIG. 36 is a diagram showing a structure of a motor and restriction parts in the motor parts shown in FIG. 35. FIG. 36 is a diagram illustrating a structure of a motor receiving seat and a pedestal in the motor component illustrated in FIG. 35. FIG. 36 is a diagram showing a structure of a motor bush in the motor component shown in FIG. 35. FIG. 36 is a diagram illustrating a structure of a motor bush in another direction in the motor component illustrated in FIG. 35. It is a figure showing the connection structure of the concentrator and the electric box of Example 1 of the concentrator structure provided by the present invention. FIG. 42 is a diagram illustrating a three-dimensional structure in which the concentrator and the electric box in FIG. 41 cooperate. FIG. 43 is a diagram illustrating an intermediate plate of the wire concentrator of FIG. 42. FIG. 43 is a diagram illustrating disassembly of the electric box in FIG. 42. FIG. 42 is a diagram illustrating cooperation between the concentrator, the electric box, and the pedestal in FIG. 41. FIG. 46 is a diagram showing a three-dimensional structure in which the concentrator of FIG. 45, the electric box, and the pedestal cooperate. FIG. 47 is a diagram showing a three-dimensional structure from another angle in which the concentrator of FIG. 46, the electric box, and the pedestal cooperate. It is a figure which shows the connection structure of the concentrator and the electric box of Example 2 of the concentrator structure provided by this invention. FIG. 49 is a diagram illustrating a three-dimensional structure of the electric box in FIG. 48. It is a figure which shows the three-dimensional structure of the mounting base of Example 3 of the concentrator structure provided by this invention. It is a front view which shows the structure of the concentrator of FIG. It is a side view which shows the structure of the wire concentrator of FIG. It is a figure which shows the connection structure of the concentrator and the electric box of Example 4 of the concentrator structure provided by this invention. It is a figure which shows the structure of Example 5 of the concentrator structure provided by this invention. FIG. 55 is a diagram illustrating a cooperative structure between the concentrator structure and the main board in FIG. 54. It is a figure showing the structure of Example 6 of the concentrator structure provided by the present invention. It is a figure showing the structure of the intermediate board of Example 1 of the concentrator provided by the present invention. FIG. 58 is a diagram showing connection between the concentrator of FIG. 57 and a main board of an electric box. It is a figure which shows Example 2 of the concentrator provided by this invention, and connection with the main board of an electric box. FIG. 60 is a diagram illustrating a strong current terminal and a weak current terminal of the main board in FIG. 59. It is a figure which shows Example 3 of the concentrator provided by this invention, and connection with the main board of an electric box. It is a figure which shows the three-dimensional structure of the mounting base of the Example of the concentrator concerning this invention. FIG. 63 is a side view of the mounting base of FIG. 62. FIG. 63 is a diagram showing a structure of an intermediate plate of the wire concentrator of FIG. 62. FIG. 63 is a diagram showing a cooperative structure of the line concentrator of FIG. 62, a pedestal, and an electric box. FIG. 66 is a diagram illustrating the structure of the concentrator of FIG. 65, the pedestal, and the electric box from another angle of cooperation.

  In the description of the present invention, the orientation or the direction indicated by the terms such as "center", "up", "down", "left", "right", "vertical", "horizontal", "in", "out" The positional relationship is an orientation or a positional relationship based on the drawings, and is used only for briefly describing the present invention. Such a device or element always has a specific orientation, and is configured and operated in a specific orientation. It is not intended to imply or imply that this should be done, and thus does not limit the invention. Terms such as "first," "second," and "third" are used for description and do not indicate or imply comparative importance.

  In the description of the present invention, unless explicitly defined and limited, the terms “attach”, “tie”, and “connection” should be interpreted broadly, for example, to be fixedly connected. Can be detachably connected, or can be connected integrally. Also, if it can be mechanically connected, it can be electrically connected. If the connection can be made directly, the connection can be made indirectly via an intermediate medium. The interior of the two elements can also be connected. Those skilled in the art can understand the specific meaning of the above terms in the present invention depending on the specific situation.

  And, technical features in different embodiments of the present invention described below can be combined with each other as long as they do not conflict.

  As shown in FIGS. 1 to 66, in the present embodiment, there is provided a modular air conditioner including four modules of a pedestal part, a heat exchange part, an air path part, and an appearance part.

  Here, as shown in FIG. 1 to FIG. 9, the pedestal part is mounted on a support that can be hung, such as a wall in a room, and is also used as a base member of an overall assembly in a production line, and is mounted on the support. It includes a pedestal g330, a motor holder fixedly installed on the pedestal g330, a motor component, and an electronic control member.

  The motor holder is installed at a position near one end in the longitudinal direction of the pedestal g330, and extends the axis of the output shaft of the motor g220 to be supported in the longitudinal direction of the pedestal g330. In this embodiment, the motor holder includes a motor receiving seat d51, a motor pressing plate g250, and a motor end cover.

  Here, the motor receiving seat d51 and the pedestal g330 are integrally molded, for example, by injection molding. The motor holding plate g250 is engaged with the motor receiving seat d51 and fixed by a screw to limit the movement of the motor g220 in the motor component in the radial direction of the rotation axis, and to cooperate with the motor g220 in the motor component in the circumferential direction. A side near the end of the pedestal g330 to which the cavity approaches is a mounting end, the mounting end allowing the motor g220 to fit into and out of the cavity in the axial direction, One side of the end of g330 is a restricting end, which restricts further movement of the motor g220 fitted into the cavity to the end of the remote pedestal g330. The motor end cover g240 is fixedly mounted on the mounting end to limit the movement of the motor g220 mounted in the cavity in a direction to exit the cavity.

  In this embodiment, the electronic control member includes an electric box r172, and other control elements such as a main board and a transformer are placed in the electric box r172. The electric box r172 is inserted and placed on the pedestal g330 by the two corner buckles at the bottom end, and then is detachably fixed on the pedestal g330 in a manner of being fixed by screws. The main board is fixedly attached to the internal structure of the electric box r172, and the circuit board of the electric box r172 is fixed in the electric box r172 in parallel with the main board. The main board is attached to the electric box r172 in an axial state perpendicular to the output shaft of the motor g220. In order to prevent the electric box r172 from mechanically interfering with other members on the path going out of the pedestal g330 in the axial direction of the output shaft of the motor g220, the electric box r172 is moved in accordance with the cross-section on the path. Designed to have a contour of shape. At the same time, a boss is designed in the internal structure of the electric box r172, and the installation of the boss is to avoid external motor parts, and also to strengthen the structural strength of the electric box r172 itself. One side of the main board component is mounted in the electric box r172 so that the space between the plurality of bosses can be fully utilized when arranging the components of the main board, and the structure type of the electric box r172 is more advantageous in space. is there.

  The motor components further include a telescopic motor that drives the operation of the wind guide module in the appearance component, a wind guide motor, and a flushing motor, other than the motor g220 described above. In this embodiment, a pair of wind guide drive boxes are fixedly mounted on both sides in the longitudinal direction of the pedestal g330, and one wind guide drive box away from the motor holder is screw-mounted on the holder structure on that side of the pedestal g330. And the wind guide drive box on one side close to the motor holder is engaged with the motor holder by the buckle at the bottom end and fixed by the screw. A connecting rod component is slidably mounted on each wind guide drive box, and a head portion of the connecting rod component extends and contracts along an extension on one side of the wind guide drive box. The wind guide motor consists of a telescopic motor installed on the wind guide drive box, a wind guide motor installed on the head part of the connecting rod part on one side, and a flushing flow installed on the head part of the connecting rod part on the other side. And a motor. The connecting rod part is connected to the output shaft of the telescopic motor by a rack and pinion mechanism. The wind guide plate is driven by the output shaft of the wind guide motor, and the flush plate is driven by the output shaft of the flush motor. The leads connected to the wind guide motor and the flushing motor, respectively, pass through the connecting rod parts where they are located.

  In the connection of the indoor unit, the electric wires of the electric devices such as the display, the motor, the wifi box, and the cold plasma are fixedly arranged on the pedestal g330 through the wiring grooves fixed on the pedestal g330. The other end of each electric wire is connected to a concentrator, and is electrically connected to the electric box r172 via the concentrator so as to be pluggable. The concentrator is inserted and placed in the restriction hole on the pedestal g330 by the corner buckle at the bottom end, and then fixed on the pedestal g330 or the motor holding plate g250 by a screw. A pin joint is installed in the concentrator, a connecting pin is installed at a mounting position corresponding to the pin joint on the electric box r172, and a concentrating box is installed at a position corresponding to the connecting pin in the electric box r172. The tangential terminals corresponding to the electric appliance elements of each load are concentrated and installed in the junction box. Since the concentrator box corresponding to the concentrator is installed in the electric box r172, it is advantageous for the centralized wiring and packing of the component lines, whereby the electric box r172 member can be disassembled as an independent structure. The concentrator and the electric box r172 cooperate by the restriction rib and the restriction hole. Inside the electric box r172, the element corresponding to the high electric current and the element corresponding to the low electric current are partitioned and installed to reduce mutual interference between the electric products.

  The electric box r172 is a member that is frequently disassembled in the air conditioner as a control unit of the electric product of the air conditioner, and whether or not the air conditioner is properly attached is an important part for determining whether or not the air conditioner can be used normally. In this embodiment, when the mounting function protection of the electric box r172 is installed, when the electric box r172 and the concentrator are joined, the intermediate plate in the concentrator and the main board in the electric box r172 are not connected, and are correctly connected. If a situation does not occur, error reporting control and presentation of whether or not the electric box r172 and the concentrator have been successfully joined are realized by logic control.

  Regarding the logic control function, when the electric box r172 or the concentrator is not firmly attached and the trouble occurred in the machine in the air conditioner is at the control function end, it detects that it is not connected or not connected correctly, When a normal operation is detected, the repair work ends.

  By designing and developing the mounting protection function of the electric box r172, the electric box r172 is firmly mounted and the modular type design level of the air conditioner is improved.

  Then, wing-shaped rib plates are designed on both sides of the motor holding plate g250, one of which is a water-blocking rib plate, one is a tube-blocking rib plate, and the connecting line of the heat exchanger is the second line. It is arranged from the lateral groove between the two wing-shaped rib plates, restricts the connection pipe of the heat exchanger from colliding left and right, and the collision of the wind guide drive box shifts the position of the wind guide drive box, Avoid affecting the accuracy of expansion and contraction. At the same time, the water blocking rib plate serves to guide the condensed water on the heat exchanger to the bottom case and to guide the water.

  A screw mounting column is installed on each of the wing-shaped rib plates approaching both sides of the motor holding plate g250, and the motor holding plate g250 is used in cooperation with one tube holding plate, and the tube holding plate is screwed through the screw. Cooperating with the mounting column, fixed on the motor holding plate g250, and firmly fixing the connecting line of the heat exchanger in a lateral groove formed between the two wing-shaped rib plates on the motor holding plate g250; Fix the connection line of the heat exchanger in the vertical wall direction. The motor pressing plate g250 functions to arrange the tubes and restrict the tubes. The connection pipe of the heat exchanger is formed on the motor holding plate g250 to improve the utilization rate of the internal space of the air conditioner. At the same time, the load wiring groove is installed on the pipe holding plate, so that the wiring inside the air conditioner is more rational.

  When assembling, the motor holder and the screw hole on the motor holding plate g250 are aligned, and the motor holding plate g250 is fixed on the motor holder with a screw. The connection line of the heat exchanger is arranged in a lateral groove between the two wing-shaped rib plates of the motor holding plate g250. The wing-shaped rib plates serve to guide the condensed water on the heat exchanger to the drainage system on the bottom case, and also to limit the connection line of the heat exchanger. The wing-shaped rib plate simultaneously serves to limit the connection line of the heat exchanger and to prevent collision. That is, when carrying out a transportation or drop experiment, the connection pipeline of the heat exchanger swings right and left. When the wing-shaped rib plate restricts the left and right swinging, the connecting line of the heat exchanger collides with the wind guide drive box, causing a displacement, and the wind guide drive box drives the wind guide plate. To prevent the wind guide plate from vibrating or tilting due to the influence of the expansion / contraction accuracy of the wind guide plate. According to the motor holding plate g250 in the present embodiment, the connecting conduit is arranged from the upper part of the motor holding plate g250, and is used in cooperation with the tube holding plate g250, in the vertical wall direction of the connecting conduit of the heat exchanger. It can limit movement and optimize the use of space inside the air conditioner more fully.

  The reason why the screw mounting column is designed on the motor holding plate g250 is to fix firmly and to fix the tube holding plate to limit the movement of the connecting pipe of the heat exchanger in the vertical wall direction.

  The wiring groove and the wiring buckle are installed on the pedestal g330 in correspondence with the drive module line and the environmentally-heat-covered wire, and specifically, when mounting on a production line, first, pull out the environmentally-heat-covered wire from the concentrator, It is placed in the wiring groove shown in FIG. 1, and the environmentally heat-sensitive coated wire is engaged with the fifth buckle d55, the sixth buckle d56, and the seventh buckle d57. As shown in FIG. 5, the left drive box line d59 is pulled out of the concentrator and engaged with the wiring groove, and the first buckle d50, the second buckle d52, the third buckle d53, the fourth buckle d54, and the fourth buckle d54, respectively. The left drive box line is engaged with the fifth buckle d55, the sixth buckle d56, and the seventh buckle d57 to complete the wiring on the pedestal.

  In this embodiment, the pedestal is movably connected to the exhaust frame of the exhaust part d42 of the air conditioner via the guide rail part d52 so that the exhaust part d42 comes out of the pedestal along the guide rail part d52. Disassembly and cleaning of the exhaust part d42 are convenient.

  Specifically, the guide rail component d52 includes a slide rail sheet vertically fixed on a pedestal in use, a slide frame slidably mounted in a slide groove of the slide rail sheet, and one end fixed on the slide frame. And a slide rail end rod fixedly connected to the exhaust frame at the other end. As shown in FIGS. 2 and 9, a hook is formed on the slide rail end rod, and the hook is inserted into a locking connection groove formed on the exhaust frame to be cooperatively connected.

  In order to facilitate the disassembly of the air path components, an air path component mounting chamber is installed on the pedestal g330, and the air path component mounting chamber has a downward mounting opening. Can be disassembled from the road component mounting room. As shown in FIGS. 3 and 4, the air path components are assembled on the air path component mounting chamber of the pedestal by one mounting structure.

  The mounting structure is a stopper structure that is formed on the pedestal and limits the air path components in use in the vertical direction and the direction perpendicular to the pedestal, and a slide bridge that guides the air path components and slides them into the pedestal mounting position Structure d46 is included.

  As shown in FIG. 8, the stopper structures are formed on the back plate of the pedestal g330 on the left and right sides, respectively, to prevent the cavities from being detached from the mounting holes of the pedestal when disassembling the air passage parts. A stopper hook d44 corresponding to the direction, a first stopper base d47 and a second stopper base d48 molded left and right on the bottom edge of the bottom case of the bottom case corresponding to the air path components, and fixed to the upper part of the bottom case. After being installed and inserted along the open cavity, the fitting sheet is fitted into the stopper hook d44 to support the lower edge of the bottom case of the bottom case on the two stopper tables, and the left and right lower portions of the bottom case. A second fixing hole formed in the axial direction and perpendicular to the back plate of the pedestal g330, and a second fixing hole formed on the pedestal g330 when attaching the bottom case. To include a second screw hole corresponding, a second screw which is helically connected to the second screw hole through the second fixing hole, the.

  In this embodiment, the mounting structure further includes a pointing structure d45, which is installed at a side edge of the bottom case corresponding to the air path component on the pedestal and cooperates with the side edge of the bottom case. Aids assembling firmly. Specifically, the indicating structure d45 is a buckle structure, and the buckle structure serves to assist in assembling firmly, and when disassembled or attached, a "click" sound indicates that the bottom case has been firmly attached. A stopper base separated from the lower edge of the bottom case serves as a support function to disassemble the screw on the slide bridge and prevent the air path components from dropping later. As shown in FIG. 4, during disassembly, the airway components are lifted up slightly in the direction of the vertical wall, the airway components are disengaged from the two stopper pedestals, and the airway components are manually pulled along the slide bridge. Slide to complete disassembly.

  In the above embodiment, both the motor component and the electric box r172 are installed on the right side of the pedestal, and the electric box r172 is located outside the motor g220. When detecting, the electric box r172 is first disassembled from the right side of the pedestal. After disassembling the electric box r172, the motor parts are exposed, and then the motor parts are disassembled from the right side of the pedestal.

  As a variable embodiment, as shown in FIGS. 6, 7, and 8, the motor component and the electric box r172 can be installed on different side surfaces in the longitudinal direction of the pedestal. For example, the electric box r172 can be installed on the right side of the pedestal. And the motor parts are installed on the left side of the pedestal, so that the electric box r172 and the motor parts can be disassembled from the corresponding side of the pedestal, respectively. For example, the electric box r172 can be installed on the left side of the pedestal, and the motor component can be installed on the right side of the pedestal. For example, the electric box r172 and the motor component can be installed on the left side of the pedestal.

  The content described above is an overall description of the air conditioner pedestal part of the embodiment of the present invention. Hereinafter, each specific member in the pedestal part will be described in detail with reference to the drawings.

  First, a specific embodiment for disassembling a motor component from one side of a base will be described with reference to the drawings.

  As shown in FIGS. 35 to 38, the Akon motor component in the embodiment according to the present invention includes a motor seat g210 installed on a pedestal g330 on an air conditioner and a motor seat g210 mounted on the motor seat g210. A motor g220 having a high-speed disassembly connection structure for realizing high-speed disassembly of a motor shaft and a fan shaft in an air conditioner on a shaft, and a limiting part for limiting the motor g220, wherein the motor g220 includes It has an operating position that is connected to the fan shaft by the high-speed disassembly connection structure and is limited by the limiting part, and a high-speed disassembly position that is disassembled by the high-speed disassembly connection structure and released from the restriction by the limiting part. As a result, the motor g220 can operate normally and stably at the operating position, and when the motor g220 is repaired, the restriction of the limited parts in the motor parts is released, and the motor shaft and the fan in the air conditioner are removed by the high-speed disassembly connection structure. The disassembly with the shaft is realized at high speed, and thereafter, the motor g220 can be directly taken out of the air conditioner, and there is no need to rotate the screw to disassemble the motor shaft and the fan shaft inside the air conditioner, so that time and Save effort and reduce repair costs and time.

  As shown in FIGS. 39 and 40, specifically, the high-speed disassembly connection structure in the embodiment of the present invention includes a claw installed on the shaft of the motor, and correspondingly, on the fan shaft in the air conditioner. A locking groove cooperating with the pawl is formed, and at the operating position of the motor g220, the pawl on the motor g220 in the motor component extends into the locking groove, and rotates the fan shaft when the motor shaft rotates, so that the motor g220 In the high-speed disassembly position, when the motor g220 is unlocked and then the motor g220 is disassembled, the claw is extracted from the locking groove, and the motor g220 can be disassembled at high speed, which is convenient for subsequent repairs. It is. Here, the high-speed disassembly connection structure may include a locking groove installed on the motor shaft, and correspondingly, a claw cooperating with the locking groove may be installed on the fan shaft, whereby the motor shaft may also be installed. The purpose of high-speed disassembly and connection with the fan shaft can be realized.

  In the embodiment of the present invention, the claw installed on the motor shaft in the motor component is preferably a spiral claw g361, and the corresponding locking groove is preferably a spiral locking groove g370. In the operating position, the rotation of the motor shaft causes the spiral claw g361 and the spiral locking groove g370 to approach each other due to the action of the spiral surface, so that the problem that the motor shaft and the fan shaft separate during rotation is less likely to occur. The motor g220 at the position can operate stably.

  Specifically, the spiral claw g361 in the embodiment of the present invention is installed on the motor bush g311, the motor bush g311 is mounted on the motor shaft, and a motor bush mounting hole is opened on both the motor bush g311 and the motor shaft. The motor bush g311 and the motor shaft are detachably mounted by a screw passing through the motor bush mounting hole, and in a modified embodiment (not shown), the motor bush g311 and the motor shaft are integrally formed.

  It is preferable that the motor seat g210 and the pedestal g330 of the motor component in the embodiment of the present invention are integrally formed. More specifically, the motor seat g210 and the pedestal g330 are integrally formed by an injection molding method. Accordingly, in the process of manufacturing the air conditioner, there is no need to separately manufacture or mount the motor seat g210, thereby improving the manufacturing efficiency of the air conditioner product and improving the air conditioner due to a mounting defect between the motor seat g210 and the pedestal g330. Does not emit noise during use.

  Specifically, in the present embodiment, in order to realize a limiting component that stably operates the motor component in the operating position, the limiting component in the present embodiment cooperates with the motor receiving seat g210 to control the motor g220 of the motor g220. A motor pressing plate g250 for limiting movement of the motor g220 in the radial direction, and a motor end cover for limiting movement of the motor g220 to the side surface in the axial direction of the motor g220 in cooperation with the motor receiving seat g210. In this way, the restriction of the motor g220 in a plurality of directions is realized to guarantee the stability of the movement of the motor g220 in the operating position.

  Therefore, when performing repair and maintenance operations on the motor g220 in this embodiment, first, the side plate in the air conditioner and the motor end cover for limiting the side direction of the motor g220 are disassembled, and then the motor pressing plate g250 Is disassembled, and then the motor holding plate g250 is disassembled. Due to the spiral structure of the motor bush g311, the motor g220 realizes high-speed separation from the fan shaft at the high-speed disassembly position, and at this time, the motor g220 can be removed by manually pulling it.

  Next, a wiring structure in an air conditioner according to an embodiment of the present invention will be described in detail with reference to the drawings.

  FIG. 23 is a diagram showing the structure of the motor pressing plate. The motor pressing plate includes a pressing plate main body c1. The pressing plate main body c1 has a cooperative structure cooperating with the motor toward the motor side, and the motor pressing plate and the motor receiving seat cooperate to fix the motor. A first reinforcing wall c3 and a second reinforcing wall c4 are installed in parallel on a side of the holding plate body c1 away from the motor. The first reinforcing wall c3 and the second reinforcing wall c4 extend in the same direction and have a predetermined distance, and a region between them is a fixing groove c5. The connecting pipe of the heat exchanger is arranged at the top of the motor holding plate, and is arranged from the fixing groove c5 between the first reinforcing wall c3 and the second reinforcing wall c4.

  By arranging the connecting pipe from the top of the motor holding plate, the mounting position of components inside the air conditioner is optimized, and the space utilization inside the air conditioner is improved. By providing the fixing groove c5, the left and right collision of the connection pipe is effectively prevented, and the collision of the drive module and the displacement of the drive module to avoid affecting the expansion / contraction accuracy of the wind guide plate is avoided.

  The heat exchanger generates condensed water on its surface during operation. The first reinforcing wall c3 has a water blocking structure, and guides the condensed water on the heat exchanger to the water channel on the bottom case, so that the water easily flows and performs a water guide operation.

  The motor holding plate and the motor receiving seat are each integrally formed by an integration process, and can be formed by, for example, casting or injection molding.

  As described above, the first reinforcing wall c3 serves to guide the condensed water on the heat exchanger to the water channel on the bottom case, and also serves to limit the connection pipe. The second reinforcing wall c4 functions to restrict the connection pipe, and also functions to prevent collision. When carrying out a transportation or drop experiment, the connecting pipe of the heat exchanger swings right and left. The left and right swings are restricted by the second reinforcing wall c4.

  Compared to the motor holding plate in the existing technology, the motor holding plate of the present application has enhanced functions and diversified functions, and fully utilizes the internal space of the air conditioner to occupy the internal space of the air conditioner. To meet the demands of modular design of air conditioners.

  As a variable embodiment, the fixing grooves include a first fixing groove and a second fixing groove respectively installed corresponding to the connection pipes. That is, three parallel reinforcing walls are installed on one side of the holding plate body c1 away from the motor, and a fixing groove is provided between two adjacent reinforcing walls. The two fixing grooves respectively correspond to the connection pipes, and limit the left and right swing of the connection pipes. With such an installation, a good restriction effect can be realized.

  As a variable embodiment, the first reinforcing wall c3 and the second reinforcing wall c4 can be replaced with a simple projection structure, or can be replaced with an ordinary plate-like structure. The design standard must be such that the extension length of the projection structure or plate-like structure constituting the fixing groove c5 can limit the lateral swing of the connecting pipe. The reinforcing wall, the projection structure, and the plate-like structure that form the fixing groove c5 are collectively referred to as a first protrusion and a second protrusion that form the fixing groove c5.

  A pipe holding plate is installed in the holding plate body c1 corresponding to the top end buckle of the fixing groove c5. The pipe holding plate is fixedly installed on the holding plate main body c1 to limit the connection pipe in the vertical direction, and to prevent the connection pipe from falling off from the top end of the fixing groove c5. The holding plate body c1 and the tube holding plate cooperate with each other to firmly restrict the connection pipe into the fixing groove c5 of the motor holding plate. The motor holding plate and the tube holding plate serve to arrange and restrict the tubes.

  As can be seen from FIGS. 23 and 24, a first mounting hole c2 is provided in the holding plate body c1. A second mounting hole c8 is provided on the pipe holding plate corresponding to the first mounting hole c2. When the holding plate body c1 and the tube holding plate are mounted, the first mounting hole c2 and the second mounting hole c8 are opposed to each other, and the first screw connection body is formed in both. The first screw connector realizes the fixed cooperation between the tube holding plate and the holding plate body c1.

  A third mounting hole c6 is provided in the holding plate body c1 corresponding to the central frame structure of the air conditioner. The pressing plate main body c1 and the central frame structure are connected by a second screw connection body that forms a third mounting hole c6. By installing the motor holding plate in this way, the function of fixing the center frame structure is also achieved, the functions are further diversified, and the reliability of the entire device is further improved.

  In order to limit the vertical movement of the fixing groove c5 due to the connecting pipe, as a replaceable embodiment, the fixing groove c5 includes opposing first and second side surfaces, and the first and / or second side surfaces are provided. A limiting protrusion is provided corresponding to the top end position, and the extending direction of the limiting protrusion is perpendicular to the other side surface. The movement of the fixing groove c5 in the vertical direction by the connecting pipe is limited by installing the limiting protrusion.

  As a variable embodiment, an extension plate is provided at the top end of the fixing groove c5, which limits the vertical movement of the fixing groove c5 by the connecting pipe.

  The tube holding plate includes a tube holding plate main body c7, and the tube holding plate main body c7 has a plate-like structure, and a wiring structure is installed on one side away from the motor holding plate. The wiring structure includes a wiring groove and a wiring buckle. The wiring groove extends along the design route of the load line, and the wiring buckle limits the load line into the wiring groove. The load lines of the air conditioner include an environmental heat-sensitive coated line, a display line c152, a ground line c155, a wifi box line c151, and a cold plasma or mosquito net line c153, all of which are limited by the wiring structure. By installing the wiring structure, the load wiring can be further standardized and rationalized, and the convenience of repair detection after sale is improved.

  Referring to FIG. 24 and FIG. 25, in the present embodiment, the wiring structure on the tube holding plate body c7 includes a first wiring structure c12, a second wiring structure c10, a third wiring structure c11, and a fourth wiring structure. c9, a fifth wiring structure c13, and a sixth wiring structure c14. Here, the first wiring structure c12 includes a first side plate and a second side plate which are arranged in parallel at a predetermined distance. The first side plate and the second side plate are parallel to each other in the extending direction, and are both perpendicular to the tube holding plate main body c7. The first side plate has a continuous plate-like structure, and the second side plate includes a first sub-plate and a second sub-plate whose extending directions coincide with each other, and is provided between the first sub-plate and the second sub-plate. With an opening at a distance of A flapper extending toward the second side plate is provided at the top end of the first side plate. The flapper is installed corresponding to the opening position to facilitate the attachment and detachment of the load line. A load line is routed along an area between the first side plate and the second side plate and is limited by the flapper. The area between the first side plate and the second side plate is a wiring groove, and the flapper is a wiring buckle. The second side plate may also have a continuous plate-like structure.

  The second wiring structure c10 includes a first side plate and a second side plate installed in parallel, and the first side plate and the second side plate are parallel to each other in the extending direction, and both are connected to the tube holding plate body c7. Vertical. A buckle protrusion extending toward the second side plate is provided on a side surface of the first side plate facing the second side plate, and the buckle protrusion is provided close to a top end of the first side plate. A load line is routed along an area between the first side plate and the second side plate and is limited by the buckle protrusion. That is, the region between the first side plate and the second side plate is a wiring groove, and the buckle protrusion is a wiring buckle.

  As described above, the buckle protrusion may be provided on both the first side plate and the second side plate. Both buckle protrusions can be opposed and can be offset.

  The third wiring structure c11, the fourth wiring structure c9, the fifth wiring structure c13, and the sixth wiring structure c14 are also the same, and all are l-type structures. One end of the 1-type structure is fixedly connected to the tube holding plate body c7, and forms a wiring groove for restricting the movement direction of the lead in cooperation with the tube holding plate body c7. At the other end of the l-shaped structure, a buckle protrusion extending toward the tube holding plate body c7 is provided, and the buckle protrusion is a wiring buckle. The pipe holding plate main body c7 has an l-shaped mounting structure.

  The wiring groove may have a concave structure opened on the tube holding plate body c7.

  A wiring structure is further installed on the pedestal g330, and also includes a wiring groove and a wiring buckle. As shown in FIG. 26, the pedestal g330 includes a seventh wiring structure and an eighth wiring structure, restricts the drive module line c156 and the environmentally-heat-covered wire 157, and the specific structure is the same as the wiring structure on the tube holding plate. Therefore, detailed description is omitted here.

  FIG. 27 is a diagram showing the structure of another positional wiring structure on the pedestal g330. The pedestal g330 includes a ninth wiring structure c17. The connection line c173, the signal line c174, and the power supply line c175 between the indoor unit and the outdoor unit are restricted. The ninth wiring structure c17 includes a wiring groove and a locking wire plate c172 installed in the wiring groove. Here, the locking wire plate c172 has a plate-like structure that extends by a predetermined length along the extending direction of the wiring groove. The extension length of the locking wire plate c172 is set according to actual demand, and the width of the plate-like structure is such as to cover the wiring groove. Locking plate grooves are provided on both sides of the wiring groove, and the locking wire plate c172 is locked by the locking plate groove, thereby realizing the fixation of the load line installed in the wiring groove. The locking wire plate c172 is a wiring buckle of the wiring groove.

  As a variable embodiment, a locking line buckle c171 for fixing the locking line plate c172 is provided at the top end of the wiring groove. The locking line buckle c171 is also used in cooperation with the locking line groove.

  In the case of installation on a production line, first, the environmentally heat-sensitive covered wire c154 is pulled out from the concentrator r104 and put into the eighth wiring structure of the pedestal g330. The drive module line c156 is pulled out from the concentrator r104 and locked in the seventh wiring structure. The power supply line c175, the connection line c173 between the indoor unit and the outdoor unit, and the signal line c174 are locked to the ninth wiring structure c17 to complete the wiring on the pedestal g330.

  When mounting on a production line, first, a cold plasma or driver wire is pulled out from the concentrator r104, and is sequentially locked to the first wiring structure c12 and the third wiring structure c11. The environmental heat-sensitive coated wire c154 and the ground wire c155 are pulled out from the concentrator r104, and are sequentially locked to the first wiring structure c12, the second wiring structure c10, and the fourth wiring structure c9. The display line c152 is pulled out from the concentrator r104, the display line is caught on the tube holding plate via the fifth wiring structure c13, and the display is placed on the plate. The wifi box is placed on the plate or the plate body by being locked on the tube holding plate via the wiring structure c14.

  In the present embodiment, the specific structure of the wiring structure differs according to the type of the load line, and it goes without saying that an appropriate wiring structure described in the present technical solution can be selected according to the actual situation. Also, the same wiring structure can be selected for different leads.

  By installing the wiring structure, the leads inside the air conditioner are wired according to the wiring structure designed in advance, and the wiring can be further standardized and streamlined. Possible interference is avoided, assembly and maintenance efficiencies are greatly improved, and operator safety is further enhanced. Then, the leads are dispersed and fixed by the wiring structure, and the wiring structure and the wiring buckle cooperate to further solidify the leads, thereby avoiding the problem that the leads and the case collide with each other and generate noise.

  Further, with reference to the drawings, a specific plan of the concentrator structure in the air conditioner pedestal part of the embodiment of the present invention will be described.

  As shown in FIGS. 41 to 43, the concentrator structure for connecting the plurality of loads and the electric box includes a plurality of load tangent terminals r41 and at least one middle indirect line terminal r42, and the plurality of load tangent terminals r41 are It is connected to each of a plurality of loads. The at least one middle indirect line terminal r42 is electrically connected to the corresponding load tangential terminal r41 and is detachably connected to at least one main board tangential terminal r1713 of the electric box r172, whereby a plurality of load tangents are provided. The terminal r41 is integrated on the concentrator structure, and the electric box r172 can be disassembled independently.

  Applying the concentrator structure of this embodiment, the load tangent terminals r41 connected to all loads are integrated on the concentrator r104, and the middle indirect wire terminal r42 on the concentrator r104 is connected to the main board tangential terminal r1713 of the electric box r172. It is detachably connected and can be disassembled as a single electric box. The modular type is much higher, realizing the integration and modularization of the air conditioner. This greatly reduces the amount of wire connection and wire arranging work during production and assembly, and further standardizes wiring, while it is convenient for repairers to disassemble the electric box and perform repair work. In the technology, there are many loads connected to the inside of the electric box, which can effectively solve a problem that is inconvenient for disassembling and repairing.

  In the present embodiment, the concentrator structure is a concentrator, and the concentrator includes an intermediate plate r1042, and a plurality of load tangent terminals r41 and at least one indirect line terminal r42 are formed on the intermediate plate r1042. The intermediate plate r1042 is a stack of tangential terminals, which can facilitate the fixing of the tangential terminals.

  In this embodiment, as shown in FIG. 41, the concentrator further includes at least one intermediate connection line r30 corresponding to at least one intermediate connection terminal r42, and both ends of the intermediate connection line r30 are respectively connected to the intermediate connection terminal r42 and the main connection terminal r42. It is inserted and connected to the board tangent terminal r1713. The tangent terminals of all the loads are all connected to the concentrator r104, the tangent terminal at one end of the intermediate connection line r30 is connected to the corresponding tangential terminal on the main board f2, and the tangent terminal at the other end of the connection line is the concentrator. Connected to the corresponding middle indirect line terminal of r104. The tangent terminal on the concentrator realizes the connection with the tangential terminal on the main board via the intermediate connection line, and with the flexible connection method by wire, securely connects and realizes the control of the load by the main board, When the line concentrator and the electric box collide with each other, the operation is slowly performed. At the time of repair detection, the side plate parts are disassembled. At this time, the electric box is exposed, and then the electric box is slightly pulled out to expose the intermediate connection line, and the tangent of the intermediate connection line inserted on the concentrator. When the terminals are pulled, it is not necessary to pull the tangential terminals of all the loads one by one. At this time, the entire electric box is pulled out from the side, and the amount of work at the time of repair detection is greatly reduced. When the number of connection lines is two, one is a high-voltage connection line and the other is a low-voltage connection line. When the number of connection lines is three, two of them are light connection lines and the other is a high connection line. Here, the number of connection lines may be one, and at this time, the high-current terminal and the low-current terminal may share one connection line, or the number of connection lines may be set more according to demand. , But is not limited to this.

  In this embodiment, as shown in FIG. 42, the concentrator structure further includes a mounting base r1041, the mounting base r1041 is fixed on a housing of the air conditioner, and an intermediate plate r1042 is mounted on the mounting base r1041. The mounting base r1041 simplifies the mounting and fixing of the intermediate plate, prevents the intermediate plate from being directly exposed from the inside of the air conditioner, guarantees safe operation of the intermediate plate, and at the same time removes the electric box when removing the electric box. Reduce the amount of work to arrange the load connection lines, convenient disassembly of the main board and the electric box, the intermediate plate can be easily attached to the electric box, and the total mounting of the intermediate plate and the electric box Reduce space. At the same time, the concentrator is fixed on the housing by the mounting base, which is easy to fix.

  In this embodiment, the mounting base r1041 has a groove structure, the intermediate plate r1042 is attached to the groove structure, and the size of the groove structure matches the size of the intermediate plate r1042. When the size of the mounting base matches the size of the intermediate plate, the space occupied by the concentrator inside the air conditioner can be reduced to the utmost.

  In the present embodiment, the mounting base r1041 includes an insertion portion that is inserted into and cooperates with the electric box r172. It is easy to disassemble and convenient for the repairman to operate.

  In the present embodiment, as shown in FIG. 42, the insertion portion is formed by two first jacks adjacent to a plurality of first jacks r66 arranged at an interval in the vertical direction from one side end of the mounting base r1041. and a plurality of first jacks r66 and a plurality of first insertion plates r67 respectively spaced apart along a vertical direction on the electric box r172. It cooperates with a second jack r1723 formed between the two second insertion plates r1722 and the two second insertion plates r1722 adjacent thereto. The mounting base and the electric box are fixed by the cooperation of the jack and the insert plate, and are formed by the structure of the mounting base itself, no additional members are required, the space occupied is small, the method is simple, and the connection is simple. Is certain.

  In the present embodiment, as shown in FIG. 42, the groove structure includes a loading substrate r69 and four rib plates r65 installed on the loading substrate r69, and the loading substrate r69 has a rectangular shape. r69 is placed vertically, four rib plates r65 are installed at the edge of the loading substrate r69, and a plurality of first jacks r66 are formed on one rib plate.

  In the present embodiment, as shown in FIG. 42, a fixed hook r68 is provided on the outer wall of the concentrator structure, and a load connection line is fixed between the fixed hook r68 and the outer wall of the concentrator. Is formed. Load connection lines are fixed in the fixed space, and wiring can be standardized. The fixing hook is fixed on the rib plate having the first jack. A wire passage is formed between the second insertion plate and the bottom wall of the first jack, and the load connection wire exits the wire passage and then passes through the fixed space. There are two fixed buckles, and the two fixed buckles are installed facing each other.

  In this embodiment, as shown in FIGS. 41, 45, and 46, a connection structure that is fixed to a pedestal g330 of an air conditioner is provided on a mounting base r1041. Thus, the installation of the concentrator is convenient and the assembling efficiency is improved. The connection structure includes at least one screw hole r1044 and a buckle r1043 molded on the mounting base r1041. The concentrator is inserted into the mounting hole on the housing by the buckle, and the screw passes through the screw hole and is screwed to the female screw hole on the screw column, making the connection more secure and maximizing space occupancy And improve assembly efficiency. And the concentrator can be fixed on the housing by two screws, or the concentrator can be fixed on the housing in an interference fit only by buckles.

  In this embodiment, the housing is a pedestal g330, a plate, a plate body, an electric box r172 or a motor holding plate, and the mounting position of the concentrator r104 is preferably set on the pedestal g330, and the concentrator is mounted on the plate body. , On a plate, at the bottom of an electric box, on a motor holding plate or in a fitted electric box.

  In this embodiment, the mounting base r1041 is injection-molded, so that the processing is simple and the manufacturing cost is reduced.

  In this embodiment, the plurality of loads include a display, a motor, a wifi box, an environmental thermal package, a tube temperature package, a cold plasma, a mosquito repellent, a drive box, an auxiliary electrical heating load, a humidity sensor, and a ground wire. Here, in an embodiment (not shown), the number of loads is at least one, and a load can be selected as needed.

  In this embodiment, as shown in FIG. 44, the electric box includes a box f1 and a box lid f4 detachably connected to the box f1, and a main board f2 is installed in the box f1. As shown in FIGS. 45 and 47, a mounting buckle r1727 is provided on the outer bottom wall of the electric box, and a mounting hole r1012 cooperating with the mounting buckle r1727 is provided on the base.

  FIGS. 48 and 49 show another concentrator structure as a variable embodiment. The concentrator structure of this embodiment differs from the concentrator structure of the above embodiment in the specific structure of the insertion portion. In this embodiment, the insertion part is a slot r64 cooperating with an insertion plate r1721 extending in a direction toward the concentrator of the electric box r172. The mounting base and the electric box are fixed in cooperation with the insertion plate through the slot, formed by the structure of the mounting base itself, there is no need to add a separate member, the space occupied is small, the system is simple, The connection is secure.

  In this variable embodiment, a plurality of line passage grooves are formed on the mounting base r1041 to allow passage of the load connection lines. By providing a plurality of wire passage grooves on the mounting base, it is possible to facilitate connection between a plurality of loads at different positions and a plurality of tangential terminals on the intermediate plate. The plurality of line passage grooves include a strong electric load line passage groove r61, a weak electric load line passage groove r62, and a display line passage groove r63 which are separately installed. The strong electric load line passage groove r61 is installed at one end of the mounting base r1041, the weak electric load line passage groove r62 is installed at one end of the installation base r1041, and the display line passage groove r63 is installed at the top end of the installation base r1041. You. By dividing the plurality of wire passage grooves into a strong electric load line passage groove, a weak electric load line passage groove, and a display line passage groove, it is possible to prevent the different load connection lines from being crossed and wound as much as possible.

  In this variable embodiment, the strong electric load line passage groove r61 and the weak electric load line passage groove r62 are respectively installed at the upper and lower ends of the mounting base r1041. Thereby, the strong current and the weak current are separated, and it is possible to reduce the possibility that the strong current load connection line and the weak current load connection line are crossed and wound, and standardize the wiring.

  In this variable embodiment, a pair of rib plates r65 are installed at one end of the mounting base r1041 in parallel at intervals in the direction of the electric box r172, and a space between the pair of rib plates r65 is provided. A slot r64 is formed. Simple structure, simple manufacturing and low cost.

  In the variable embodiment, the groove structure includes a loading substrate r69 and five rib plates r65 installed on the loading substrate r69, and the loading substrate r69 has a rectangular shape, is placed vertically, and has four rib plates r69. r65 is installed at the edge of the loading substrate r69, another one rib plate is installed in parallel with two rib plates therein, and a slot is formed by two small rib plates among three parallel rib plates. To form Two of the five rib plates are short rib plates, the other three are long rib plates, the middle long rib plate is located close to one long rib plate, and the slot is a small length of two distances. Preferably, the rib plate is formed in a similar manner, and the line passage groove is formed on the outer long rib plate and the loading substrate in the two long rib plates having a small distance. A line passage recess is provided on the middle long rib plate.

  In this variable embodiment, a tangential hole r1724 is provided on the electric box for passing the intermediate connection line r30.

  As a variable embodiment, FIGS. 50 to 52 show another concentrating structure of the embodiment of the present invention. The concentrating structure of this embodiment is the same as that of the variable embodiment described above with the number of the line passing grooves and the line passing recesses. Different from concentrator. In the variable embodiment, there are three line passage grooves, one is a high electric load line passage groove, the other two are weak electric load line passage grooves, and the number of line passage recesses is three; One is a dent passing through the heavy load line, and the other two is a dent passing through the weak load line. In this variable embodiment, there are two wire passage grooves, one is a strong electric load line passage groove, the other is a weak electric load line passage groove, and the number of line passage recesses is two, one. Is a dent passing through the strong electric load line, and the other is a dent passing through the weak electric load line. The numbers of the line passage grooves and the line passage recesses are not limited to these, and can be specifically set according to the demand.

  As a variable embodiment, FIG. 53 shows another concentrator structure of the embodiment of the present invention. The concentrator structure of the variable embodiment differs from the concentrator of the present embodiment in the connection method between the concentrator and the electric box. I have. In this variable embodiment, the middle indirect line terminal r42 is inserted and connected to the main board tangential terminal r1713. A flexible connection line is not required for the main board and the intermediate board on the concentrator, and the middle indirect line terminal is directly inserted and connected to the main board tangent terminal in the electric box, realizing a hard connection between the concentrator and the electric box The connection is secure and the disassembly is convenient. By integrating all the load tangent terminals on the intermediate plate, various load connection lines are drawn out from the concentrator to connect various loads. At the time of repair, the side plate parts are first disassembled, and at this time, the electric box is exposed, and then the electric box may be pulled out for repair.

  As a variable embodiment, FIGS. 54 and 55 show a concentrator structure, which is different from the concentrator structure of the present embodiment in the connection system between the concentrator and the electric box. In the variable embodiment, the concentrator structure includes an injection molded body r50 and a plurality of load lines, the injection molded body r50 is fixed on a housing of an air conditioner, and a plurality of through holes r51 are formed on the injection molded body r50. . The plurality of load lines are installed one by one corresponding to the plurality of through holes r51, the first end of the load line is connected to the load, the second end of the load line has a middle indirect line terminal r42, and the plurality of through holes r51. The main board tangential terminal r1713 is fixed and inserted into the through hole r51, and is inserted and connected to the middle indirect line terminal r42. A plurality of square holes are designed in the injection molded body, various kinds of load tangential terminals are fixed by the square holes, and thus, all the load tangential terminals are integrated on the injection molded body and the corresponding on the main board The load tangent terminals are also concentrated in one area, and are inserted and connected one-to-one with the load tangent terminals on the injection molded body, so that the connection is secure and the disassembly is convenient. At the time of repair, the side plate parts are first disassembled, and at this time, the electric box is exposed, and then the electric box may be pulled out for repair.

  FIG. 56 shows a concentrator structure as a variable embodiment, which is different from the present embodiment in the connection system between the concentrator and the electric box. In the variable embodiment, the concentrator structure is a transition line r80, a first end of the transition line r80 has a middle indirect line terminal r42, and the middle indirect line terminal r42 is inserted and connected to the main board tangential terminal r1713, and the transition line r80 is provided. Is divided into a plurality of load lines, and the ends of the load lines are connected to the load. It has two tangential terminals at one end of the transition line and is directly connected to the electric box, the other end of the transition line is divided into a plurality of load lines and each is directly connected to the load, the connection is reliable, the disassembly It is convenient. The first end of the transition line has two tangent terminals, one is a strong tangent terminal and the other is a weak tangent terminal. Also, the first end of the transition line may have three tangent terminals, two of which may be weak tangent terminals and the other may be strong tangent terminals. Or, it may have one tangent terminal at the first end of the transition line, ie, the strong and weak tangent terminals may be integrated into one tangent terminal, or the tangent at the first end of the transition line The number of terminals is not limited to this, and can be set more according to demand. It is at least one quantity wave of the transition line, and the quantity of the transition line can be set according to the demand. First, the side plate parts are disassembled, and at this time, the electric box is exposed, and then the electric box may be pulled out for repair.

  The electric box r172 is connected to a plurality of loads via the concentrator structure, and the concentrator structure is the above-described concentrator structure. The load tangent terminals r41 connected to all the loads are integrated on the concentrator r104, and the middle indirect wire terminal r42 on the concentrator r104 is detachably connected to the main board tangential terminal r1713 of the electric box r172, whereby The single box can be disassembled independently, increasing the level of modularization, increasing the integration and modularization of air conditioners. This greatly reduces the work of inserting and connecting and organizing wires when producing and assembling, and the wiring can be further standardized. The technology effectively solves the problem of too many loads connected inside the electric box, which is inconvenient for disassembly and repair.

  Next, a method of arranging the tangential terminals of the concentrator structure in the pedestal part according to the embodiment of the present invention will be described in detail with reference to the drawings.

  As shown in FIGS. 62 and 65, the concentrator of the present embodiment includes a strong electric tangent terminal set and a weak electric tangent terminal set which are separately installed, the strong electric tangent terminal set includes a strong electric load, and a main board f2 of an electric box. , And the weak electric tangent terminal set is used for connection to the light electric load and the main board f2, thereby separating the strong electric current and the weak electric current.

  The concentrator includes a strong tangent terminal set and a weak tangent terminal set that are installed separately, so that the strong tangent terminal set and the weak tangent terminal set are independent of each other, enhancing electromagnetic interference resistance and optimizing emc. Can be

  The concentrator r104 includes an intermediate plate r1042, and a strong electric tangent terminal set and a weak electric tangent terminal set are integrated on an insertion surface of the intermediate plate r1042. Approach the part. The intermediate plate is a stack of tangential terminals, which facilitates fixing of the tangential terminals.

  The insertion surface is rectangular. The strong electric tangent terminal set is set at an included angle between the first side and the second side adjacent to each other in the rectangle, and the tangential terminal in the weak electric tangent terminal set is located at the edge of the first side of the rectangle and the third side opposite to the first side. The tangential terminals and the high-current tangential terminal sets that are distributed and located at the edge of the first side in the weak-electric tangent terminal set are sequentially arranged along the extending direction of the first side. When the arrangement of the strong and weak tangent terminal sets on the intermediate plate reaches an optimal state, the concentrator occupies a small space, optimizes the space arrangement, and optimizes the configuration volume of the entire concentrator. And more effective and rational in the space occupied by the entire device. At the same time, it is convenient for connecting all loads to the electric box and easy to insert. Also, the tangential terminals in the weak electric tangent terminal set may be distributed on the edges and the center of the fourth side and the second side opposite to the second side of the rectangle, and the second side in the weak electric tangent terminal set may be distributed. A tangent terminal and a high-voltage tangential terminal set located at the edge are sequentially arranged along the extending direction of the second side. As described above, when the strong current tangent terminal set is located at an included angle between the adjacent first and second sides, the tangent terminals in the weak electric tangent terminal set can be distributed at the edges of the four sides, The tangential terminals located on the first side and the second side in the tangential terminal set must be sequentially arranged with the high-voltage tangential terminal set along the extending direction of the first side and the second side, respectively.

  The high-voltage tangent terminal set includes a high-voltage load terminal r11 and a high-voltage intermediate terminal r12 having a pitch. The high-voltage load terminal r11 is used for connection to a high-voltage load, and the high-voltage intermediate terminal r12 is used for connection to the main board f2. The weak electric tangent terminal set includes a plurality of weak electric load terminals r21 and a weak electric intermediate terminal r22, has a pitch between the weak electric load terminals r21 and the weak electric intermediate terminal r22, and the weak electric load terminal r21 is used for connection with a weak electric load. , The weak current intermediate terminal r22 is used for connection to the main board f2.

  The concentrator r104 further includes a high-voltage connection line r31 and a low-voltage connection line r32. One connection terminal of the high-voltage connection line r31 is inserted and connected to the high-voltage intermediate terminal r12, and the other connection terminal of the high-voltage connection line r31 is connected to the main. It is connected to the high current terminal r1711 of the board f2, one connection terminal of the low current connection line r32 is inserted and connected to the low current intermediate terminal r22, and the other connection terminal of the low current connection line r32 is connected to the low current terminal r1712 of the main board f2. Is done. The strong current terminal r1711 and the weak current terminal r1712 of the main board f2 are separately installed. The high-voltage terminal and the low-voltage terminal on the main board of the electric box are separated, and the connection line connecting the electric box and the concentrator is also separated into the high-voltage connection line and the low-current connection line. It is inserted into the high current terminal and the low current terminal, and then connected to the middle terminal of the high current and the low current on the concentrator to realize the separation of the high current and the low current more effectively, strengthen the electromagnetic interference resistance ability, and optimize the emc .

  The heavy load terminal r11 is a motor terminal. The plurality of weak electric load terminals r21 include a display terminal, a wifi box terminal, an environmental thermal package terminal, a tube temperature package terminal, a cold plasma terminal, a mosquito catcher terminal, a drive box terminal, an auxiliary electric heating load terminal, At least one of the ground wire terminals is included.

  As a variable embodiment, FIGS. 59 and 60 show the structure of another concentrator according to the present invention, which differs from the above-described embodiment in the size of the distance between the high voltage intermediate terminal r12 and the low voltage intermediate terminal r22. I have. In the above-described embodiment, the distance between the high voltage intermediate terminal r12 and the low voltage intermediate terminal r22 is large. In this variable embodiment, the safety distance a between the strong current intermediate terminal r12 and the weak current intermediate terminal r22 is at least 3 mm, and the safety distance a between the strong current terminal r1711 and the weak current terminal r1712 is also at least 3 mm. . Thereby, more tangential terminals are installed on the intermediate plate, and the volume of the intermediate plate can be further reduced.

  In the variable embodiment, the concentrator further includes a connection line r33, one connection terminal of the connection line r33 is inserted and connected to the high-voltage intermediate terminal r12 and the low-voltage intermediate terminal r22, and the other connection terminal of the connection line r33 is connected to the main line. Used for connection to the board f2. That is, the intermediate plate and the main board are respectively connected to both ends of the connection line r33. When there is a sufficient safety distance between the strong and weak electric terminals, the strong and weak electric terminals can be formed to share one tangent terminal on the connection line, which can save the connection line and save some cost. . Here, the safety distance a refers to the shortest distance in the space between two lead members or between one conductive member and the surface that is easy to contact with the appliance, and the creepage distance b is between the two lead members or Refers to the shortest path measured along the surface of the insulating material between one conductive member and the accessible surface of the device.

  In the variable embodiment, the creepage distance b between the high voltage intermediate terminal r12 and the low voltage intermediate terminal r22 is at least 4 mm.

  As another variable embodiment, FIG. 61 shows the structure of a line concentrator, and the number of connection lines used for the intermediate plate and the main board is different from the structure of the line concentrator of the variable embodiment. In the above-described first embodiment, one connection terminal of the connection line r33 is inserted and connected to the high-voltage intermediate terminal r12 and the low-voltage intermediate terminal r22, and the other connection terminal of the connection line r33 is connected to the main board f2. In other words, the intermediate plate and the main board are connected by one connection line. On the other hand, in a variable embodiment, the intermediate board and the main board are connected by two connection lines. Specifically, the concentrator further includes a high-current connection line r31 and a low-power connection line r32, and one connection of the high-current connection line r31. The terminal is inserted and connected to the high voltage intermediate terminal r12, the other connection terminal of the high voltage connection line r31 is connected to the high voltage terminal r1711 of the main board f2, and one connection terminal of the low voltage connection line r32 is inserted and connected to the low voltage intermediate terminal r22. The other connection terminal of the weak electricity connection line r32 is connected to the weak electricity terminal r1712 of the main board f2.

  As a modification, the arrangement of the strong electric tangent terminal set and the weak electric tangent terminal set may be as follows. That is, the strong current tangent terminal set is disposed at the edge of one side of the rectangle, and the tangent terminals of the weak current tangent terminal set are distributed on at least one edge of the remaining three sides of the rectangle, or The strong tangent terminal set is placed on the edge of one side of the rectangle, and the tangent terminals of the weak tangent terminal set are placed on the edge and center of at least one of the remaining three sides of the rectangle. Distributed. The arrangement method of the strong electric tangent terminal set and the weak electric tangent terminal set is not limited to this, and may be any arrangement method that separates the strong electric weak terminal.

  Next, a method of mounting the concentrator in the pedestal part according to the embodiment of the present invention will be described in detail with reference to the drawings.

  As shown in FIGS. 57 and 60, the concentrator of the present embodiment has a plurality of tangent terminals connected one by one corresponding to a plurality of loads, and the concentrator has at least one mounting portion. Is fixed on the housing of the icon, the concentrator is detachably connected to the electric box r172, and a plurality of tangential terminals connected to a plurality of loads are integrated on the concentrator to disassemble the electric box r172 independently. It is convenient.

  According to the concentrator of the present embodiment, the tangential terminals connected to all loads are integrated on the concentrator r104, the concentrator r104 is fixed on the housing of the icon, and the concentrator r104 is detachable from the electric box r172. When connected, the electric box r172 can be disassembled independently as a single unit, the level of modularization is high, and integration and modularization of the air conditioner can be realized. This greatly reduces the amount of wire connection and wire arrangement work during production and assembly, and further standardizes the wiring, while being convenient for a repairer to disassemble the electric box r172 and perform repair work. In the existing technology, the load connected to the inside of the electric box r172 is large, and the problem that is inconvenient for disassembly and repair can be effectively solved. In addition, the concentrator r104 is mounted on the housing of the icon by at least one mounting portion, thereby facilitating mounting of the concentrator r104 and improving assembly efficiency.

  In this embodiment, as shown in FIG. 62, FIG. 63, FIG. 65 and FIG. 66, the number of mounting portions is two, and the two mounting portions are a buckle r1043 and a screw hole r1044, respectively. Is formed, and a screw column r1011 or a screw hole cooperating with the screw hole r1044 is provided on the housing. That is, the concentrator r104 is inserted into the mounting hole on the housing by the buckle r1043, and the screw passes through the screw hole r1044 and cooperates with the screw column r1011 or the screw hole, so that the connection is more firm and the space occupation is improved. Save the maximum rate and improve assembly efficiency. In addition, the concentrator r104 can be fixed on the housing by two screws. At this time, two screw columns or screw holes corresponding to the two screw holes are formed on the housing, respectively. Can be fixed on the housing in an interference fit only by the buckle r1043.

  In this embodiment, as shown in FIGS. 62 and 64, the concentrator has a mounting base r1041 and an intermediate plate r1042, and a tangential terminal is formed on the intermediate plate r1042, and a buckle r1043 and a screw are mounted on the mounting base r1041. A hole r1044 is formed. The intermediate plate r1042 facilitates fixing of tangential terminals, the mounting base r1041 facilitates mounting and fixing of the intermediate plate r1042, and the mounting base r1041 conveniently and easily fixes the concentrator r104 on the housing. is there.

  In this embodiment, as shown in FIG. 62, a protruding column which protrudes outward on the outer bottom wall of the mounting base r1041, and a buckle r1043 is formed by the protruding column. The structure of the protruding column is simple and convenient for manufacturing. When the concentrator is fixed on the housing in the form of a screw hole and a projecting column, the projecting column can be a restriction hole to realize an interference fit or clearance fit. When the concentrator is fixed on the housing only in the form of a projecting column, the projecting column realizes a tight fit with a restriction hole.

  In this embodiment, as shown in FIG. 63, a mounting ear r1045 is provided on the outer wall of the mounting base r1041, and the screw hole r1044 is formed on the mounting ear r1045. The mounting base r1041 has mounting ears r1045 extending outward on the outer wall thereof, and the screw holes r1044 are formed on the mounting ears r1045, which is convenient for operating the rod and can simplify the structure of the concentrator. . Preferably, the screw holes are cut holes, and the screw holes may be circular holes.

  In this embodiment, the housing is a pedestal g330, a plate, a plate body, an electric box r172, or a motor holding plate. The mounting position of the concentrator is preferably located on the pedestal g330, and the concentrator can be placed on the plate body, on the plate, on the bottom of the electric box, on the motor holding plate, or in the electric box. It can also be fitted.

  In the present embodiment, the plurality of loads include a display, a motor, a wifi box, an environmental thermal package, a tube temperature package, a cold plasma, a mosquito trap, a drive box, and the like.

  When connecting each load in the indoor unit, the wires of the electric appliance of the load such as the display, the motor, the wifi box, and the cold plasma are fixed on the pedestal g330 through the wiring groove fixed on the pedestal g330 and installed. I do. The other end of each wire is connected to a tangential terminal on the intermediate plate, and a tangential terminal connected to the main board of the electric box is also installed on the intermediate plate.

  In the present embodiment, the electric box r172 and the concentrator are connected in a manner that they are electrically connected so as to be pluggable. In case of repair, the side plate parts of the air conditioner can be disassembled first, and then the electric box can be pulled out, so that the electric box can be easily disassembled.

  As an extended embodiment of the present invention, as shown in FIGS. 29 to 30, the frame structure of the air conditioner includes a pedestal back plate d1 and two side mounting brackets d2.

  One side mounting bracket d2 is installed at one longitudinal end of the pedestal back plate d1, and the other side mounting bracket d2 is installed at the other longitudinal end of the pedestal back plate d1. The side mounting bracket d2 and the pedestal back plate d1 are cooperatively mounted in a pullable manner by a slide rail structure d3 extending along the vertical direction. As shown in FIG. 30, the slide rail structure d3 includes a guide rail d31 installed on the side mounting bracket d2 and a guide groove d32 installed on the back plate of the pedestal. It realizes the assembly without screws, the structure is simple, the disassembly is convenient, and the disassembly efficiency is further improved. The guide rail d31 is installed close to the side end of the pedestal back plate d1 along the side mounting bracket d2, and the guide groove d32 of the pedestal back plate d1 is located at a corresponding position between the pedestal back plate d1 and the side section of the side mounting bracket d2. Installed in The cross section of the guide rail d31 is convex, and the cross section of the guide groove d32 is the corresponding convex shape. As shown in FIG. 30, the convex guide rail d31 and the convex guide groove d32 cooperate. A pair of stopper surfaces d33 is formed to prevent the side mounting bracket d2 from separating in a direction perpendicular to the pedestal back plate d1.

  The side mounting bracket d2 is inserted into the pedestal back plate d1 from the top by the slide rail structure d3 and assembled, and the assembled two side mounting brackets d2 and the pedestal back plate d1 form the air conditioner plate d10 and the filter. A base frame for mounting d11 and the exhaust frame member is configured. Specifically, as shown in FIGS. 29 and 30, a front plate d10 is attached to one side of the base frame facing the user on the front side, and a filter d11 is detachably attached to the upper side of the base frame. A side plate d10 is detachably attached to the outside of the base frame in the axial direction, and an exhaust frame component is detachably attached to the bottom of the base frame. The side mounting member d2 is mounted on the pedestal back plate d1, the side mounting member d2 has a side plate d10 mounting portion, and the side plate d10 corresponding to the side plate d10 mounting portion is detachably connected by a buckle structure. In the present embodiment, when the side mounting bracket d2 is lightly pushed upward, the structures of the Akon plate d10, the filter d11, the exhaust frame member, and the like can be disassembled from the side mounting bracket d2, and each component can be cleaned. . After disassembling parts such as the plate d10 and the exhaust frame member from the mounting bracket, the heat exchanger member attached inside the base frame can be further exposed, which is convenient for disassembling and cleaning the heat exchanger member. Since the frame structure in which the pedestal back plate d1 and the two mounting brackets cooperate is used, the size of the pedestal back plate d1 in the width direction can be reduced, and the size of the components of the pedestal back plate d1 can be reduced. Similarly, the overall size of the mold can be reduced, reducing the cost of the mold. At the same time, by using the mounting bracket, the protruding structure on the part of the pedestal back plate d1 is reduced, and in swinging during transportation of the air conditioner, the protruding structure of the part of the pedestal back plate d1 collides with an adjacent product. Breakage of the air conditioner structure and expiration of the air conditioner can be avoided.

  At least one side mounting bracket d2 of the two side mounting brackets d2 is a frame including an upright plate d21 and a horizontal plate d22, and the horizontal plate d22 is installed on the top of the vertical plate d21 and extends along the horizontal direction. A filter d11 support surface that extends to the back of the plate d1 and supports the filter d11.

  As described above, in this embodiment, the side mounting bracket d2 and the pedestal back plate d1 are fixed by the buckle structure in order to ensure that the basic frame structure after assembly is firm.

  In the above embodiment, the installation positions of the guide rail d31 and the guide groove d32 can be exchanged, the guide groove d32 is installed at the side end of the side mounting bracket d2, and the side end of the side mounting bracket d2 of the pedestal back plate d1. The guide rail d31 can be installed at a corresponding position.

  In the above embodiment, the convex guide groove d32 and the convex guide rail d31 can be replaced with the cylindrical guide groove d32 and the cylindrical guide rail d31, or the rectangular guide groove d32 and the rectangular guide rail d31 can be replaced. At least one restricting projection is provided on the edge of the rectangular guide groove d32 that is away from the groove bottom to prevent the rectangular guide rail d31 from detaching from the rectangular guide groove d32 in cooperation with the rectangular guide rail d31. be able to. In the present invention, the shapes of the guide groove d32 and the guide rail d31 are not particularly limited.

  In the present invention, a method is used in which the side mounting bracket d2 and the pedestal back plate d1 are inserted and mounted from above to below by a guide rail d31. Since the mounting position of the akon is relatively high, the above embodiment is modified in such a manner that the side mounting bracket d2 is inserted into the pedestal back plate d1 from above or from below or from the front end or the length of the pedestal back plate d11. It can be replaced by an embodiment in which the insertion is from the outside in the axial direction. When the side mounting bracket d2 includes the horizontal plate d22, when the side mounting bracket d2 is inserted into the pedestal back plate d1 from below, the components inside the pedestal back plate d1 will be interfered with each other. Can not.

  As an extended embodiment of the present invention, as shown in FIG. 31 and FIG. 32, the present embodiment of the present invention A motor mounting structure is provided, including a motor component, the motor component including a motor seat g210 mounted on a pedestal g330, a motor g220 mounted on the motor seat g210, and a pedestal on the motor seat g210. A cooperating structure for pulling and cooperating with g330 is provided, and the motor receiving seat g210 is attached to the pedestal g330 in a pullable manner by the cooperating structure. As a result, the motor receiving seat g210 of the motor component in the motor mounting structure is attached so as to be able to be pulled from the pedestal g330, so that when repairing the motor component inside the air conditioner, the right side plate g282 is disassembled to be in the operating position. It is sufficient to disassemble the motor part by pulling it from the inside of the air conditioner, and there is no need to disassemble the motor part inside the air conditioner, thereby reducing the difficulty of repairing the motor part in the air conditioner and saving the repair cost.

  More specifically, the motor mounting structure according to the present embodiment is applied to an air conditioner capable of realizing high-speed disassembly of a motor shaft and a driven member. For example, the motor shaft and the fan shaft are formed by a spiral claw and a spiral locking groove. To achieve high-speed connection and disassembly. The motor shaft and the fan shaft in the motor parts can be separated when the motor stops operating without rotating the screw, whereby the motor receiving seat g210 and the pedestal g330 cooperate in a pullable manner in the form of a rail. When the motor g220 is repaired, the motor receiving seat g210 is slid along the slide rail g211. At this time, the motor g220 and the fan are reliably separated by the high-speed disassembly structure, and the motor g220 is repaired at a high speed with ease of assembly. Can achieve the purpose.

  Specifically, the cooperation structure in the embodiment of the present invention is the slide groove g231, and the slide rail g211 cooperating with the slide groove g231 is installed on the pedestal g330. It is preferable that the slide groove g231 is formed integrally with the motor seat g210, and the slide rail g211 is formed integrally with the pedestal g330. preferable. Here, the cooperating structure may be a slide rail (not shown), and a slide groove cooperating with the slide rail is provided on the pedestal, so that the motor component can be disassembled to be able to be pulled on the pedestal by the above method. it can.

  As shown in FIG. 33, it is preferable that the cross section of the slide rail g211 is l-shaped and the cross section of the slide groove g231 is an inverted l-type, whereby the slide rail g211 and the slide groove g231 are engaged with each other, and the restricting action is performed. Can be fulfilled.

  As shown in FIG. 32, the slide rail g211 and the slide groove g231 in the present embodiment extend along the longitudinal direction of the air conditioner, and more specifically, the slide rail g211 and the slide groove g231 according to the position and method of the motor g220. Can be determined.

  The motor mounting structure of the air conditioner according to the present embodiment further includes a lock mechanism for locking the motor g220 and the motor seat g210 in the operating position on the pedestal g330, so that the motor g220 in the operating state can be, for example, a fan. The position of the motor g220 in the process of rotating and operating can be assured to be stable, and the stability of the motor g220 during operation is improved.

  33 and 34, specifically, the lock mechanism in this embodiment includes a motor end cover, one end of which is fixedly connected to the motor component, and the other end of which is a pedestal g330. , And the motor end cover realizes the restriction on the motor components in the longitudinal direction (left-right direction in the figure) of the air conditioner. More specifically, a mounting hole is opened on the motor end cover, and a cooperating hole cooperating with the mounting hole is opened on the motor component, and the screw g270 passes through the mounting hole and the cooperating hole. Then, the motor end cover is connected to the motor component, an end cover buckle g241 is opened on the motor end cover, and a locking groove g233 cooperating with the end cover buckle g241 is provided on the pedestal g330.

  The lock mechanism in this embodiment further includes a motor holding plate g250 installed at one end of the motor component that is separated from the motor end cover, and the motor holding plate g250 cooperates with the motor g220 in the front-rear direction of the air conditioner for the motor component. That is, the normal direction of the base case of the air conditioner is restricted.

  Hereinafter, the repair and maintenance work of the air conditioner having the motor mounting structure according to the present embodiment will be described with reference to FIGS. 31 to 34. First, the right side plate g282 in the air conditioner is manually slid, and the electric power according to the present embodiment is reduced. The box r172 and the pedestal g330 are assembled in the form of a guide rail. First, the screw g270 for fixing the electric box r172 is disassembled, and then the electric box r172 is manually slid along the guide rail extending direction to be taken out. Then, the screw g270 of the motor end cover is disassembled to disassemble the motor end cover. At this time, when the motor g220 and the motor receiving seat g210 are manually pulled along the rail extending direction, the disassembling operation can be completed. . Through the above operation process, safe and reliable separation between the motor g220 and the fan can be realized, and the motor g220 can be pulled and exposed to achieve the purpose of repairing and maintaining the motor g220 at high speed. By performing the above process in reverse, the assembly after the repair is completed, and the simple assembly and the purpose of repairing the motor g220 at high speed can be realized.

  As a variable embodiment, the locking mechanism is molded integrally with the pedestal, specifically, the locking mechanism can be a resilient end lid buckle molded integrally with the pedestal, correspondingly on the motor component. A locking groove cooperating with the elastic end cover buckle is provided on the motor end, and the locking groove can be specifically installed on the motor receiving seat. The lid buckle and the locking groove cooperate to lock the motor component on the pedestal to ensure operational stability in the operating position by the motor.

  A specific technical solution for disassembling the electric box of the air conditioner according to the embodiment of the present invention from one side of the pedestal will be described with reference to the drawings.

  As an extended embodiment of the present invention, FIG. 10 is a diagram showing the assembly of the electric box and the pedestal provided in the first embodiment of the present invention. FIG. 11 is a perspective view of the electric box shown in FIG. FIG. 12 is a cross-sectional view showing cooperation between the slide structure and the guide rail structure shown in FIG. FIG. 13 is a sectional view of the electric box shown in FIG. FIG. 14 is a diagram showing the internal structure of the box of the electric box shown in FIG.

  As shown in FIGS. 10 to 14, the electric box for an air conditioner provided in the present embodiment is an electric box for an indoor unit of a modular type Akon, including a box body f1, and a base g330 of the air conditioner on the box body f1. A slide structure f14 that cooperates with the slide is provided, the box body f1 is pulled or pushed from the pedestal g330 by the slide structure f14, and the slide structure f14 is provided on one side of the box body f1 toward the pedestal g330. Two sliders installed in parallel with each other, the sliders being in the shape of a character, and a guide rail structure f61 installed on a pedestal g330. The guide rail structure f61 is provided with two slides installed corresponding to the two sliders. Including the groove, the bottom of the hand-shaped slider is inserted into the slide groove, and the opening of the slide groove corresponds to the vertical part of the hand-shaped slider, The opening of the slide groove limits the bottom of the Engineering shaped slider, the slider is prevented from leaving from the slide grooves. Disassembly is fast and simple, and it is possible to prevent small parts such as screws from being repeatedly disassembled and attached to lose them, simplify installation and repair of the electric box, and be advantageous in improving repair efficiency.

  A fixing structure which cooperates firmly with the pedestal g330 is further installed on the box f1. The fixing structure is formed on the box f1 and includes one screw hole. A hole is installed, and when the box f1 is pushed into the designated position of the pedestal g330, the two screw holes overlap, and if a screw is inserted into the hole, the position of the box f1 can be fixed, and during long-term use or transportation, The box is prevented from loosening, and it is safer and more secure. When mounting, the slider is inserted from one end of the slide groove, the electric box is pushed onto the pedestal g330 along the slide groove, and the screw is tightened to fix the position of the electric box. When disassembling, first loosen the screw and then pull out the electric box along the slide groove.

  The box f1 is attached to one end in the longitudinal direction of the pedestal g330. The mounting chamber of the box f1 has an opening f12. The opening f12 faces the outside of the air conditioner along the longitudinal direction of the pedestal g330. When it is installed in an air conditioner, the plate at one end in the longitudinal direction cooperates with the air conditioner that can be disassembled independently. Easy and convenient. The bottom surface f11 of the box body f1 is installed so as to face the opening f12, the bottom surface f11 is installed perpendicular to the longitudinal direction of the pedestal g330, and the main board f2 is taken into the mounting chamber via the opening f12, and A plurality of components f21 are installed on the side, and the component f21 of the main board f2 is installed with one side facing the bottom surface f11, that is, the main board f2 is installed facing the load side of the air conditioner, and the main board f2 is installed. The length of the connecting cable of the load connected to the cable is shortened, and the wiring becomes clearer and cleaner. The circuit board f3 is installed on one side of the bottom surface f11 of the box body f1 toward the mounting chamber, and the circuit board f3 is also installed perpendicularly to the longitudinal direction of the pedestal g330. It makes full use of sufficient space in the width direction, shortens the overall length of the body of the air conditioner, has a beautiful appearance, is light in weight, and is advantageous for installation and transportation.

  An avoidance recess f13 recessed into the inside of the box f1 is installed to avoid the motor part f5 of the air conditioner, a part of the motor part f5 enters the avoidance recess f13, and the avoidance recess f13 further strengthens the structure of the electric box itself. And the arrangement of the electric appliance elements on the main board f2 is sufficiently compact and rational of the structure of the electric box, making full use of the gap between the avoidance recess f13 and the boss formed inside the mounting chamber. Can be strengthened.

  A box lid f4 is detachably connected to the opening f12 of the mounting chamber, which is convenient for protection of the component f21 inside the electric box, has fire resistance and dust resistance, and is safer.

  In order to prevent the electric box from mechanically interfering with other members on a path taken out of the pedestal g330 along the axial direction of the output shaft of the motor, an electric The box is designed with a stepped profile.

  As a variable embodiment, the slide structure of the electric box is one slide groove formed on one side of the box toward the pedestal, and the guide rail structure of the pedestal is a slide groove installed at a position corresponding to the slide groove. And a slider that cooperates with the slide.

  As a variable embodiment, the sliding structure of the electric box is two rows of opposed wheels installed on the box body, and the guide rail structure of the pedestal is a slide installed corresponding to two rows of wheels. It is a groove, and the wheel reciprocates along the slide groove to realize disassembly and installation of the electric box.

  As a variable embodiment, the guide rail structure of the pedestal is installed along the height direction of the pedestal, and is adapted to an air conditioner that can be opened only by the top plate or the bottom plate at one end in the height direction of the pedestal, and is separately provided on the top plate or the bottom plate. Can be opened, or when a part of the top plate or the bottom plate is opened alone, the electric box can be taken out alone in the altitude direction of the air conditioner for detection and repair.

  As a variable embodiment, the guide rail structure of the pedestal is installed along the width direction of the pedestal so that the air conditioner can be opened independently in cooperation with the pedestal front plate or some front plates, and the front plate can be opened. When opened alone, the electrical box can be taken out, especially in front of the air conditioner, for detection and repair.

  In a variable embodiment, the fixing structure on the box includes a buckle installed on the box, and a locking groove cooperating with the buckle is installed on the pedestal.

  In a variable embodiment, the circuit board is installed on a side wall connected to the bottom of the box, and the circuit board is installed perpendicular to the longitudinal direction of the pedestal.

  As a variable embodiment, an avoidance recess is provided in the box to indent it to avoid other components of the air conditioner installed adjacent to the box.

  FIG. 15 is a diagram showing an assembly of an electric box and an air conditioner provided in Embodiment 1 of the present invention as an extended embodiment of the present invention. FIG. 16 is a perspective view of the electric box shown in FIG. FIG. 17 is a sectional view of the electric box shown in FIG. FIG. 18 is a diagram showing the internal structure of the box of the electric box shown in FIG.

  As shown in FIGS. 15 to 18, the electric box for an air conditioner provided in the present embodiment is an electric box for an indoor unit of a modular type Akon, which is installed at one end along a longitudinal direction of a frame f6 in the air conditioner, and has a mounting room. , The opening f12 of the mounting chamber is installed facing the bottom surface f11 of the box body f1, the bottom surface f11 is installed perpendicular to the longitudinal direction of the frame f6 of the air conditioner, and the opening f12 is installed in the frame of the air conditioner. f6 toward the outside along the longitudinal direction, and by installing in this way, cooperates with the air conditioner which can be disassembled independently with the plate at one end in the longitudinal direction, and disassembles only the plate at the end of the air conditioner. If this is the case, the inside of the electric box can be directly observed from the opening f12 of the mounting chamber, which is simple and convenient. Both the main board f2 and the circuit board f3 are installed in the mounting room, a plurality of components f21 are installed on the main board f2, and the main board f2 is connected to a power line or a signal line via the circuit board f3, One side of the component f21 of the main board f2 is installed toward the bottom surface f11 of the box body f1, that is, the main board f2 is installed facing the load side of the air conditioner, and a load connection cable connected to the main board f2 is installed. Reduces length and makes wiring clearer and cleaner. Further, the main board f2 is parallel to the bottom surface f11 of the box body f1, and is similarly advantageous for shortening the length of the body f6 of the air conditioner. The circuit board f3 includes a board f31, an input terminal provided on the board f31, and And an output end, the board f31 is installed on the bottom surface f11 of the box body f1, the board f31 is also installed perpendicular to the longitudinal direction of the frame f6 of the air conditioner, and the circuit board f3 is installed in the installation room of the electric box. In addition, the fireproof and dustproof cover can be separately omitted for the circuit board f3, and the board f31 of the circuit board f3 is installed perpendicular to the longitudinal direction of the body f6 of the air conditioner, so that the width of the body f6 of the air conditioner can be reduced. Full use of sufficient mounting space in the direction, reducing the occupied space in the longitudinal direction of the frame f6, advantageous for shortening the length of the air conditioner frame f6, beautiful appearance, light weight, mounting and transportation In favor of That.

  The surface of the main board f2 is smaller than the opening f12 of the mounting chamber of the electric box, and the circuit board f3 is displaced from the main board f2 so that the circuit board f3 can be exposed from the opening f12 of the mounting chamber.

  As shown in FIG. 18, an avoidance recess f13 that is recessed inward is installed in the box body f1 to avoid the motor component f5 of the air conditioner, a part of the motor component f5 enters the avoidance recess f13, and the avoidance recess f13 further increases. The strength of the structure of the electric box itself can be strengthened, and the arrangement of the electric product elements on the main board f2 makes full use of the clearance between the avoidance dent and the boss formed inside the mounting chamber, and the structure of the electric box is improved. Compactness and rationality can be enhanced.

  A box lid f4 is detachably connected to the opening f12 of the mounting chamber, which is convenient for protection of the component f21 inside the electric box, has fire resistance and dust resistance, and is safer.

  As shown in FIGS. 15 and 16, in order to avoid mechanical interference between the electric box and other members on the path taken out of the base along the axial direction of the output shaft of the motor, Depending on the upper penetration section, the electric box is designed with a step-like contour.

  According to the air conditioner having the electric box, the occupied space along the longitudinal direction of the frame f6 such as the circuit board f3 and the main board f2 is reduced, which is advantageous for shortening the length of the frame f6 of the air conditioner, and is light and has an appearance. Beautiful as well as advantageous for transportation, disassembly and installation.

  In a variable embodiment, the circuit board is installed on a side wall connected to the bottom of the box, and the circuit board is installed perpendicular to the longitudinal direction of the body of the air conditioner.

  As a variable embodiment, an avoidance recess is provided in the box to indent it to avoid other components of the air conditioner installed adjacent to the box.

  In a variable embodiment, one side of the component of the main board is installed facing the opening of the mounting room of the electric box.

  FIG. 19 is a view showing an assembly of an electric box and an air conditioner provided in Embodiment 1 of the present invention as an extended embodiment of the present invention. FIG. 20 is a diagram showing the internal structure of the box of the electric box shown in FIG. FIG. 21 is a diagram showing a structure of one side of the concentrator structure shown in FIG. 20 facing a load. FIG. 22 is a diagram showing a structure on one side facing the main board of the concentrating structure shown in FIG.

  As shown in FIGS. 19 to 22, the concentrating structure for the electric box of the air conditioner provided in this embodiment is a concentrating structure of the electric box of the indoor unit of the modular type Akon, and the concentrating structure is a plate-like injection molded body. In addition, each of the insertion through holes f71 including a plurality of insertion through holes f71 installed on the structural body f7 corresponds to one tangential terminal of the main board f2 in the electric box, and each of the insertion through holes f71 A resilient clamp structure f72 is provided, the resilient clamp structure f72 includes at least two opposing resilient locking pins installed on one side of the insertion through hole f71 away from the main board f2, and a tangent to the load. The terminal can be elastically clamped or detached, so that it is possible to prevent the tangential terminal of the load from being detached during transportation or long-term use, thereby causing a failure of the icon.

  In this embodiment, an electric box for an air conditioner is further provided, a box body f1 having a mounting chamber, a box lid f4 detachably connected to an opening of the mounting chamber, and a main board f2 mounted in the mounting chamber. A plurality of components f21 and tangential terminals are installed on the main board f2, and one mounting opening is formed on one side corresponding to the load in the air conditioner in the box body f1, and the main board f2 has One side of the tangential terminal is installed facing the mounting port, the shape of the mounting port corresponds to the shape of the concentrator structure, and the concentrator structure is attached to the mounting port by the fixing structure f73, and the insertion hole f71 of the concentrator structure corresponds. It is installed close to the tangential terminal of the main board f2, and by such an installation, the operator guides the user to connect the tangential terminal of the load to the tangential terminal of the main board f2, and the operator sets the electric box. Without releasing, the tangential terminal of the load passes through the insertion through hole f71 and is inserted into the tangential terminal of the main board f2, so that the alignment is convenient and the insertion can be performed at a high speed. When the tangential terminal of the load is directly pulled from the insertion hole f71, the load and the main board f2 can be disassembled, the operation is simple, and the disassembly efficiency of the electric box is improved. And the concentrator structure is installed on one side corresponding to the load of the box body f1, which is advantageous for shortening the length of the connection line between the load and the main board f2. The material can be prevented from being wound and wasting material, thereby increasing the space for exclusive use.

  The fixing structure f73 includes an elastic buckle installed in the concentrator structure, and a locking groove installed in the mounting opening of the electric box to form an elastic buckle connection with the concentrator structure. It further includes a fastener connected to the body f1, wherein the fastener is a screw or a stud. The circuit board f3 is further installed in the installation room of the electric box, and the circuit board f3 is installed perpendicularly to the longitudinal direction of the frame f6 of the air conditioner, which is advantageous in shortening the length of the entire indoor unit, and is transported and disassembled. And it is advantageous for mounting.

  In this embodiment, an air conditioner is further provided, including a plurality of load electric appliance elements f51 and the electric box, wherein tangential terminals of the load electric appliance elements f51 are a motor terminal, a display terminal, a wifi box terminal, and a drive. Including box terminal, tube temperature package terminal, environmental heat sensitive package terminal, auxiliary electric heating terminal, humidity sensor terminal, ground wire terminal, freezing terminal, mosquito catcher terminal, human body detection module terminal, function Abundant, the disassembly efficiency of the electric box is high, the repair efficiency of the air conditioner is high, and the product experience is good.

  As a variable embodiment, some of the plurality of insertion holes on the concentrator structure correspond to one tangential terminal on the main board, and some of the insertion holes have a plurality of insertion holes on the main board. Corresponds to tangential terminal.

  As a variable embodiment, the resilient clamp structure includes resilient insulating ports located in each insertion hole, and opens or closes the resilient insulating ports to realize opening or closing of the tangential terminal of the load.

  As a variable embodiment, a plurality of mounting ports are molded on the box, a plurality of loads inside the indoor unit of the air conditioner are distributed in a plurality of mounting areas, and a plurality of tangential terminals of the main board are provided. Distributed in the control area, each control area corresponds to one mounting port, one concentrator structure is mounted on each mounting port, the mounting area and the control area correspond one by one, that is, one mounting area The load terminals are concentratedly inserted on the corresponding concentrator structure, electrically connected to the corresponding control area, and the wiring is clear, which is advantageous for packing and line arrangement.

  As a variable embodiment, the fixing structure includes a locking groove installed in the concentrator structure, and an elastic buckle installed in the mounting opening of the electric box to form an elastic buckle connection with the concentrator structure.

  As a variable embodiment, the concentrator structure is fixed to the mounting opening of the box of the electric box via a screw.

  In a variable embodiment, the concentrator is located on any one side of the box of the electric box.

  As a variable embodiment, the concentrator structure is formed integrally with the box of the electric box, which is convenient for production, simplifies the disassembly process and saves disassembly time.

  As a variable embodiment, the tangential terminals of the load appliance element are motor terminal, display terminal, wifi box terminal, drive box terminal, tube temperature package terminal, environmental heat sensitive package terminal, and auxiliary electric heating terminal. And one or more of a humidity sensor terminal, a ground wire terminal, a refrigeration terminal, a mosquito catcher terminal, and a human body detection module terminal. Can also include other functional module terminals in the air conditioner

  According to an embodiment of the present invention, there is further provided an air conditioner including the air conditioner base part.

  The above examples are provided for clarity of explanation, and do not limit the embodiments. Those skilled in the art can make other changes or changes based on the above description. Not all embodiments can be illustrated here, and all need not be illustrated. All obvious changes or modifications resulting therefrom fall within the protection scope of the present invention.

  d1: pedestal back plate, d2: side mounting bracket, d21: standing plate, d22: horizontal plate, d3: slide rail structure, d31: guide rail, d32: guide groove, d33: stopper surface, d10: plate, d11: filtration Container, d41: Guide rail parts, d42: Exhaust parts, d43: Drive box, d44: Stopper hook, d45: Instruction structure, d46: Slide bridge, d47: First stopper table, d48: Second stopper table, d49: Wind Road parts, d50: first buckle, d52: second buckle, d53: third buckle, d54: fourth buckle, d55: fifth buckle, d56: sixth buckle, d57: seventh buckle, d58: environmental heat-sensitive coating Line, d59: drive box line, f1: box body, f11: bottom surface, f12: opening, f13: avoiding dent, f1 ... Slide structure, f2 ... Main board, f21 ... Component, f3 ... Circuit board, f31 ... Board, f4 ... Box lid, 5 ... Motor parts, f6 ... Framework, f61 ... Guide rail structure, f7 ... Structure main body, f71 ... Insert Through hole, f72: elastic clamp structure, f73: fixed structure, g210: motor receiving seat, g211: slide rail, g220: motor, g231: slide groove, g233: locking groove, g330: pedestal, g240: motor end cover G241: end cover buckle, g250: motor holding plate, g270: screw, g282: right side plate, g311: motor bush, g361: spiral claw, g370: spiral locking groove, c1: holding plate body, c2: first Mounting hole, c3: first reinforcing wall, c4: second reinforcing wall, c5: fixing groove, c6: third mounting hole, c7: pipe holding plate , C8: second mounting hole, c9: fourth wiring structure, c10: second wiring structure, c11: third wiring structure, c12: first wiring structure, c13: fifth wiring structure, c14: sixth wiring structure, c151: wifi box wire, c152: display wire, c153: cold plasma or mosquito wire, c154: environmentally heat-insulated wire, c155: ground wire, c156: drive module wire, c17: ninth wiring structure, c171: locking wire Buckle, c172: locking wire plate, c173: connection line between indoor unit and outdoor unit, c174: signal line, c175: power supply line, r11: high-voltage load terminal, r12: high-voltage intermediate terminal, r21: low-voltage load terminal, r22 ... Weak electricity middle terminal, r30 ... middle connection wire, r31 ... strong connection wire, r32 ... weak electricity connection line, r33 ... connection wire, r41 ... load tangential terminal, r42 ... middle indirect wire terminal, r50 ... Injection molded body, r51: through hole, r61: strong electric load line passage groove, r62: weak electric load line passage groove, r63: display line passage groove, r64: slot, r65: rib plate, r66: first jack, r67: first 1 insertion plate, r68: fixed hook, r69: mounting board, r80: transition line, r1011: screw column, r1012: mounting hole, r104: concentrator, r1041: mounting base, r1042: intermediate plate, r1043: buckle, r1044 ... Screw hole, r1045: mounting ear, r1711: strong electric terminal, r1712: weak electric terminal, r1713: main board tangential terminal, r172: electric box, r1721: insertion plate, r1722: second insertion plate, r1723: second jack, r1724 ... Tangential hole, r1727 ... Mounting buckle.

The motor holder is installed at a position near one end in the longitudinal direction of the pedestal g330, and extends the axis of the output shaft of the motor g220 to be supported in the longitudinal direction of the pedestal g330. In the present embodiment, the motor holder includes a motor receiving seat g210 , a motor pressing plate g250, and a motor end cover.

Here, the motor receiving seat g210 and the pedestal g330 are integrally molded, for example, by injection molding. A motor holding plate g250 is engaged on the motor seat g210 and fixed by a screw to limit the movement of the motor g220 in the motor component in the radial direction of the rotation axis, and to cooperate with the motor g220 in the motor component in the circumferential direction. A side near the end of the pedestal g330 to which the cavity approaches is a mounting end, the mounting end allowing the motor g220 to fit into and out of the cavity in the axial direction, One side of the end of g330 is a restricting end, which restricts further movement of the motor g220 fitted into the cavity to the end of the remote pedestal g330. The motor end cover g240 is fixedly mounted on the mounting end to limit the movement of the motor g220 mounted in the cavity in a direction to exit the cavity.

Claims (30)

Pedestal (g330),
A motor (g220) installed on the pedestal (g330) and detachably connected to an impeller of an air conditioner air path component;
The air conditioner pedestal part, wherein the air path part can be entirely disassembled from the pedestal (g330) without disassembling the motor (g220).   The motor (g220) is detachably installed at one end along the longitudinal direction of the pedestal (g330), and the motor (g220) can be disassembled from one end of the pedestal (g330). Air conditioner pedestal parts.   The motor (g220) is mounted on the pedestal (g330) by a motor holder, and the motor holder is fixedly mounted on the pedestal (g330) to provide a motor receiving seat (d51) for supporting the motor (g220). The air conditioner pedestal part according to claim 2, comprising:   The motor seat (d51) is formed integrally with the pedestal (g330), or the motor seat (d51) is detachably connected to the pedestal (g330). Air conditioner pedestal parts described in.   The detachable connection method of the motor receiving seat (d51) with the pedestal (g330) may be a connection by a fastener, a detachable connection by a pluggable meshing connection structure, or a guide by mutual cooperation of guide rail cooperating members. The air conditioner pedestal part according to claim 4, comprising a connection of a rail connection method.   When the motor receiving seat (d51) and the pedestal (g330) are connected by a guide rail connection method by mutual cooperation of the guide rail cooperating members, the guide rail cooperating member of the pedestal (g330) is connected to the pedestal (g330). The air conditioner pedestal part according to claim 5, wherein the guide rail cooperating member is installed at the one end of the pedestal (g330), and an extending direction of the guide rail cooperating member coincides with a longitudinal direction of the pedestal (g330).   The motor holder further includes a motor holding plate (g250) cooperating with the motor receiving seat (d51), and the motor holding plate (g250) is engaged with and connected to the motor receiving seat (d51) in the circumferential direction. Forming a cavity for gripping the motor (g220) with one end approaching the end of the pedestal (g330) adjacent to the cavity, so that the motor (g220) fits into and out of the cavity in the axial direction. An allowed mounting end, wherein one end of the pedestal (g330) member away from the end is a restricted end that limits further movement of the motor (g220) away from the end of the pedestal (g330). The air conditioner base part according to any one of claims 3 to 6, characterized in that:   The motor holder further includes a motor end cover (g240) detachably fixedly attached to the attachment end to limit movement of the motor (g220) in a direction to exit the cavity. The air conditioner base part according to claim 7, characterized in that:   The pedestal (g330) is provided with an exhaust frame of the air conditioner exhaust part (d42) by the guide rail part (d41) such that the exhaust part (d42) is out of the pedestal (g330) along the guide rail part (d41). The air conditioner base part according to any one of claims 1 to 8, wherein the base part is movably connected to the base.   The guide rail component (d41) includes a slide rail sheet vertically fixed on the pedestal (g330) in use, a slide frame slidably mounted in a slide groove of the slide rail sheet, and one end. 10. The air conditioner pedestal part according to claim 9, further comprising: a slide rail end rod fixedly mounted on the slide frame and having the other end fixedly connected to the exhaust frame.   The air conditioner according to claim 10, wherein a hook is formed on the slide rail end rod, and the hook is inserted into a locking connection groove formed on the exhaust frame to be cooperatively connected. Pedestal parts.   An air path component mounting chamber is installed on the pedestal (g330), the air path component mounting chamber has a downward mounting port, and the air path component is mounted in a vertical manner through the mounting port. The air conditioner pedestal part according to any one of claims 1 to 11, wherein the air conditioner pedestal part is attached to and detached from a room.   The air conditioner pedestal part according to claim 12, wherein a stopper structure for preventing the air path part from detaching from the mounting opening is installed in the air path part mounting chamber.   A stopper hook (d44) installed on an upper portion of the back plate of the pedestal (g330) corresponding to a bottom case mounting position of the air path component and having a notch facing downward; and a bottom portion of the air path component. The air conditioner pedestal part according to claim 13, further comprising: a stopper base corresponding to a lower edge of the case and serving to support the bottom case.   The mounting structure is installed on the pedestal (g330) at a side edge corresponding to the bottom case of the air path component, and cooperates with the side edge of the bottom case to assist in assembling firmly. The air conditioner pedestal part according to claim 13 or 14, further comprising an indicating structure (d45).   16. A slide structure is provided between the pedestal (g330) and the air path component, for guiding the air path component to enter and exit the air path component mounting chamber. An air conditioner pedestal part according to any one of the preceding claims. The slide structure includes a slide bridge structure (d46) installed on the left and right sides of the pedestal (g330) and the air path component and cooperating in a plane, or
17. The air conditioner pedestal part according to claim 16, wherein the slide structure is a guide rail connection structure movably installed on the pedestal (g330) and fixedly installed with the air path part. An electrical box (r172) installed on the pedestal (g330) and having a plurality of control elements installed thereon,
The air conditioner pedestal part according to any one of claims 1 to 17, wherein the electric box (r172) is detachably connected to the pedestal (g330).   The electric box (r172) and the motor (g220) are installed at the same or opposite ends in the longitudinal direction of the pedestal (g330), and when the electric box (r172) is located at the same end, The air conditioner pedestal part according to claim 18, wherein the motor (g220) and the motor (g220) can be disassembled from the same end of the pedestal (g330).   The electric box (r172) is installed adjacent to the motor (g220), and is installed at an end of one end of the motor (g220) that approaches the pedestal (g330). Item 20. An air conditioner pedestal part according to item 19.   The electric box (r172) has two corner buckles at the bottom end inserted and placed on the pedestal (g330), and is detachably fixed on the pedestal (g330) by a fastener fixing method, or The box (r172) and the pedestal (g330) are connected by a guide rail connection method in which guide rail members are engaged with each other, and the extending direction of the guide rail cooperating member coincides with the longitudinal direction of the pedestal (g330). The air-conditioner pedestal part according to any one of claims 18 to 20, wherein:   22. The air conditioner pedestal according to claim 21, wherein an avoidance boss is installed inside the electric box (r172) to protrude to one end away from the motor (g220) to avoid the motor (g220). parts.   The electronic control member may further include a line concentrator fixed and installed on the pedestal (g330), one end connected to each load of the air conditioner, and the other end connected to a main board of the electric box (r172). The air conditioner pedestal part according to any one of claims 19 to 23, comprising:   The air conditioner pedestal part according to claim 24, wherein the concentrator and the electric box (r172) cooperate with each other by a restriction rib and a restriction hole.   The electric box (r172) and the motor (g220) are installed at opposite ends of the pedestal (g330) in the longitudinal direction, and the electric box (r172) is disassembled from a corresponding end of the pedestal (g330). The air conditioner pedestal part according to claim 19, wherein the base part can be made.   26. The apparatus of claim 19, further comprising a concentrator installed on the pedestal (g330) and located between the motor (g220) and the electric box (r172). Air conditioning pedestal parts as described.   27. The vehicle of claim 1, further comprising a left drive box and a right drive box installed on the pedestal (g330) to drive a wind guide component and a flush component of the air conditioner. Air conditioner pedestal parts described in.   The wiring structure further includes a wiring structure installed on the pedestal (g330), the wiring structure includes a wiring groove and a wiring buckle, and the wiring groove is installed along a design line of a load line of the air conditioner, and the wiring buckle is provided. The air conditioner pedestal part according to any one of claims 1 to 27, wherein the buckle connects the load wire to the wiring groove.   18. The air conditioner pedestal part according to claim 17, wherein the wiring groove and the wiring buckle are installed on the pedestal (g330) in correspondence with the drive module wire and the environmentally-sensitive coated wire.   An air conditioner comprising the air conditioner base part according to any one of claims 1 to 26.