CN210129834U - Drive control integrated device, drive controller and air conditioner - Google Patents

Abstract

The utility model provides an integrated device of drive control, drive controller and air conditioner, wherein, the integrated device of drive control includes: the plate body is used for bearing the rectifying assembly, the power factor correction assembly, the first motor driving assembly and the second motor driving assembly; the first edge of the plate body is provided with an external pin, the external pin is connected to an external controller outwards, the external pin is connected to an input pin of the power factor correction assembly, an input pin of the first motor driving assembly and an input pin of the second motor driving assembly inwards, and at least one sampling assembly in the first motor driving assembly and/or the second motor driving assembly is arranged opposite to the first edge. Through the technical scheme of the utility model, make the integrated device of drive control highly integrated, and through reasonable circuit layout, be favorable to the homogeneity of the whole heat distribution of subassembly, make the integrated device of drive control have good thermal diffusivity.

Description

Drive control integrated device, drive controller and air conditioner

Technical Field

The utility model relates to a household electrical appliances control technical field particularly, relates to an integrated device of drive control, a drive controller and an air conditioner.

Background

At present, along with the development of industrial automation, a motor frequency conversion controller gradually infiltrates into all corners in production and life, a power switch device and a high-voltage driving circuit are integrated together by the existing intelligent power component, a fault detection circuit such as overvoltage, overcurrent and overheat is concealed in the power switch device, the integration level is low, and a connecting line interface and all functional components are arranged at different positions of a product, so that the installation is inconvenient, and the anti-interference coupling capacity is poor.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least solving one of the technical problems existing in the prior art or the related art.

In view of the above, an object of the present invention is to provide a driving control integrated device.

Another object of the utility model is to provide a drive controller correspondingly.

It is still another object of the present invention to provide an air conditioner.

In order to achieve at least one of the above objects, according to a first aspect of the present invention, a drive control integrated device is provided, including: the plate body is used for bearing the rectifying assembly, the power factor correction assembly, the first motor driving assembly and the second motor driving assembly; the first edge of the plate body is provided with an external pin, the external pin is connected to an external controller outwards, the external pin is connected to an input pin of the power factor correction assembly, an input pin of the first motor driving assembly and an input pin of the second motor driving assembly inwards, and at least one sampling assembly in the first motor driving assembly and/or the second motor driving assembly is arranged opposite to the first edge. According to the utility model provides a drive control integrated device, through bear rectification subassembly, power factor correction subassembly, first motor drive subassembly and second motor drive subassembly on the plate body for integrate a plurality of subassemblies that have different functions to a plate body on, improve the integrated level of plate body, in order to realize different functions, specifically, through the utility model provides a drive control integrated device can be with rectification, power factor correction and the drive control's of two motors function integration, so that reduce automatically controlled space, satisfy miniaturized design demand, wherein, will locate the external pin of plate body first edge and outwards connect in external control ware, inwards connect in power factor correction subassembly's input pin, first motor drive subassembly's input pin and second motor drive subassembly's input pin, in order to control power factor correction subassembly through external control ware, The operation of the first motor drive assembly and the second motor drive assembly; wherein, at least one sampling assembly in the first motor drive assembly or the second motor drive assembly is arranged opposite to the first edge or at least one sampling assembly in the first motor drive assembly and the second motor drive assembly is arranged opposite to the first edge, so that the sampling assemblies of the first motor drive assembly and the second motor drive assembly are uniformly distributed on the plate body relative to the first edge, and heat dissipation is facilitated.

The at least one sampling assembly in the first motor driving assembly or the second motor driving assembly is arranged opposite to the first edge, and it can be understood that the connection pin of the at least one sampling assembly in the first motor driving assembly is arranged on the first edge, or the connection pin of the at least one sampling assembly in the second motor driving assembly is arranged on the first edge.

It can be understood that, in order to facilitate the distribution of the pins of the board body and the external connection, the first edge is a long edge on the basis that the board body is rectangular.

Specifically, the rectifying component converts alternating current input to the drive control integrated device into direct current.

The power factor correction component greatly increases the conduction angle of the rectifier tube by utilizing a valley filling circuit behind the rectifier component, changes the input current from a peak pulse into a waveform close to a sine wave by filling valley points, improves the power factor to about 0.9, obviously reduces the total harmonic distortion and improves the electric energy utilization rate.

In the above technical solution, the input pin of the first motor driving component and/or the input pin of the second motor driving component are arranged opposite to the external pin.

In the technical scheme, the input pin of the first motor driving component or the input pin of the second motor driving component is arranged opposite to the external pin, or the input pin of the first motor driving component and the input pin of the second motor driving component are arranged opposite to the external pin, so that the connection of the external pin and the input pins of the first motor driving component and the second motor driving component is more compact, the line connection distance on the plate body is shortened, and the resistance when current flows through the connecting line between the external pin and the first motor driving component or between the external pin and the second motor driving component is reduced, thereby being beneficial to reducing the heat productivity in the circuit. In the above technical scheme, along the direction of first edge, the both sides of plate body are located respectively to rectification subassembly and second motor drive assembly, and first motor drive assembly is adjacent with second motor drive assembly.

In the technical scheme, the rectifier assembly and the second motor driving assembly are arranged at two sides of the plate body to facilitate the heat dissipation of the rectifier assembly and the second motor driving assembly, particularly, as the operating power of the rectifier assembly and the second motor driving assembly is larger and the heat productivity in the operating process is larger, the rectifier assembly and the second motor driving assembly are arranged at two sides of the plate body to enable the heat generating areas formed when the rectifier assembly and the second motor driving assembly operate to be dispersed to two sides of the plate body, thereby reducing the mutual influence between high heat generating areas, enabling the heat generating components to be uniformly distributed and facilitating the heat dissipation, wherein the first motor driving assembly and the second motor driving assembly are adjacently arranged to facilitate the circuit arrangement on the plate body, on one hand, the heat dissipation of the first motor driving assembly and the second motor driving assembly is improved, and on the other hand, the anti-interference capability of the drive control integrated device is improved, specifically, because the operating power of the driver chip of first motor drive subassembly and second motor drive subassembly is great, and the circuit is arranged complicacy, calorific capacity is big during the operation, between each circuit, mutual interference between each components and parts is great, through setting up first motor drive subassembly and second motor drive subassembly are adjacent, in order to integrate the wiring to first motor drive subassembly and second motor drive subassembly, on the one hand, the distribution of the components and parts around the driver chip of the first motor drive subassembly of minimizing and the driver chip of second motor drive subassembly, in order to do benefit to driver chip's heat dissipation, on the other hand, can acquire great plate body space in order to optimize the wiring, reduce the interference.

In the above technical solution, the connection pin for connecting with the external pin through the wire in the driving chip of one of the first motor driving component and the second motor driving component is disposed at a side close to the other.

In the technical scheme, a connecting pin used for being connected with an external pin through an electric wire in a driving chip of one of a first motor driving component and a second motor driving component is arranged at one side close to the other, so that the first motor driving component and the second motor driving component are connected in a circuit, the first motor driving component and the second motor driving component can receive an instruction signal input by an external controller and drive a first motor and a second motor to operate according to the instruction according to the input instruction signal, the connecting pin of the first motor driving component and the connecting pin of the second motor driving component are arranged between the driving chip of the first motor driving component and the driving chip of the second motor driving component, and the driving chip of the first motor driving component and the driving chip of the second motor driving component are separated by the connecting pin and the electric wire, the length of the wire between the external pin and the connecting pin is reduced, the electric energy loss on the wire is reduced, and the heat dissipation on the wire is also reduced.

In the above technical solution, the first motor driving assembly specifically includes: go up three-phase sampling subassembly, lower three-phase sampling subassembly and locate the driver chip who is close to second motor drive subassembly one side, wherein, at least one sampling subassembly in last three-phase sampling subassembly and at least one sampling subassembly in the lower three-phase sampling subassembly are close to the first edge setting of plate body.

In the technical scheme, an upper three-phase sampling assembly is arranged on one side of a first motor driving assembly close to the upper part of a plate body, a lower three-phase sampling component is arranged at one side close to the lower part of the plate body, and the driving chip is arranged at one side close to the second motor driving component, a three-phase bridge inverter circuit is formed by a lower three-phase sampling component, an upper three-phase sampling component and a driving chip, wherein at least one sampling assembly in the upper three-phase sampling assembly and at least one sampling assembly in the lower three-phase sampling assembly are arranged close to the first edge of the plate body, so as to be beneficial to heat dissipation, specifically, the sampling resistors in the upper three-phase sampling assembly and the lower three-phase sampling assembly generate heat when in operation, the sampling assemblies are arranged close to the first edge of the plate body, thereby the components and parts of the heating part are dispersed to the edge position of the plate body, so that the heating source is dispersed and distributed, and the heat dissipation of the plate body is facilitated.

In the above technical scheme, the upper three-phase sampling assembly specifically comprises three first sampling assemblies, and at least two first sampling assemblies are arranged in a non-wiring area of the plate body.

In this technical scheme, locate a non-wiring region of plate body through three at least two first sampling subassembly of first sampling subassembly in to reduce the wiring setting to the first sampling subassembly of locating in the non-wiring region of plate body, simplify the wiring flow, in order to do benefit to the production of drive control integrated device.

In the above technical solution, the lower three-phase sampling assembly specifically includes three second sampling assemblies, and at least two of the second sampling assemblies are disposed in a non-wiring region of the plate body.

In this technical scheme, locate a non-wiring region of plate body through making two at least second sampling assembly of three second sampling assembly in the lower three-phase sampling assembly to reduce the wiring setting to the second sampling assembly of locating in the non-wiring region of plate body, simplify the wiring flow, in order to do benefit to the production of drive control integrated device.

In the above technical solution, the second motor driving assembly specifically includes: the bus power supply module is arranged on the edge of one side of the plate body of the assembly plate body, which is far away from the first motor driving assembly along the length direction of the plate body; the driving chip of the second motor driving component is arranged on one side of the second motor driving component far away from the first motor driving component, and at least one of the third sampling components is arranged below the driving chip of the second motor driving component, wherein one side of each third sampling component, which is close to the driving chip of the second motor driving component, is provided with a pin connected with the driving chip through an electric wire.

In this technical scheme, through be equipped with the generating line power supply module in the integrated device of drive control, make a plurality of components on the integrated device of drive control can parallel connection on the generating line power supply module to supply power for a plurality of components and parts through the generating line power supply module, wherein, locate the one side that first motor drive subassembly was kept away from to the length direction of subassembly plate body edge plate body with the generating line power supply module, make the generating line power supply module set up the edge in the length direction's of plate body the outside, in order to do benefit to the heat dissipation of generating line power supply module. The drive chip that the second motor drive subassembly was located to a plurality of third sampling subassemblies keeps away from one side of first motor drive subassembly, in order to reduce the density of the components and parts between the drive chip of first motor drive subassembly and the drive chip of second motor drive subassembly, in order to do benefit to drive chip's heat dissipation, the below of the drive chip of second motor drive subassembly is located to at least one in a plurality of third sampling subassemblies, and one side that every third sampling subassembly is close to the drive chip of second motor drive subassembly is equipped with the pin that passes through the electric wire with drive chip and links to each other, the length of third sampling subassembly and drive chip interconnecting link on the reduction drive control integrated device, it is compacter succinct to make the line of walking, in order to reduce electromagnetic interference.

In the above technical scheme, the number of the third sampling assemblies is three, the three third sampling assemblies are arranged below the driving chip of the second motor driving assembly, two of the three third sampling assemblies are connected with the pin on one side of the driving chip of the second motor driving assembly, which is far away from the first motor driving assembly, and the other pin is connected with the pin below the driving chip of the second motor driving assembly.

In the technical scheme, three third sampling assemblies are arranged below a driving chip of the second motor driving assembly, two of the three third sampling assemblies are connected with a pin on one side, away from the first motor driving assembly, of the driving chip of the second motor driving assembly, the other pin is connected with a pin below the driving chip of the second motor driving assembly, wiring on a plate body is more reasonable in arrangement, the length of an electric wire between the third sampling assembly and the second motor driving assembly is reduced as much as possible, interference coupling in a circuit is reduced, a three-phase bridge type inverter circuit is formed by the three third sampling assemblies and the driving chip of the second motor driving assembly, control over a motor is facilitated, and control over the motor for controlling operation of a fan is achieved particularly.

In the technical scheme, the external pins are arranged on a first long edge and a second long edge which are respectively positioned above and below in the plate body, the partial external pins on the first long edge are respectively connected with the connecting pins which are close to one side of the second motor driving component in the driving chip of the first motor driving component, the connecting pins which are far away from the second motor driving in the driving chip of the first motor driving component and the connecting pins above the driving chip of the first motor driving component are connected through electric wires, and the partial external pins on the second long edge are connected with the connecting pins below the driving chip of the first motor driving component through electric wires.

In the technical scheme, the external pins are arranged on the first long edge and the second long edge of the plate body, so that the elements on the plate body realize the input and output of electric signals through the connection with the external pins, wherein, part of the external pins on the first long edge are respectively connected with the connecting pins on one side of the driving chip of the first motor driving component close to the second motor driving component, the connecting pins in the driving chip of the first motor driving component far away from the second motor driving and the connecting pins above the driving chip of the first motor driving component through wires, part of the external pins on the second long edge are connected with the connecting pins below the driving chip of the first motor driving component through wires, on one hand, the driving chip of the first motor driving component is connected with the external pins around the driving chip of the first motor driving component through a plurality of external pins on the first long edge and the second long edge, to receive and output various electric signals, thereby realizing the drive control of the first motor; on the other hand, the arrangement of the wires on the board body is more reasonable, the length of the wires between the external pins and the connecting pins is reduced as much as possible, and therefore interference coupling in the circuit is reduced.

In the above technical scheme, the partial external pins on the first long side are respectively connected with the connecting pins near one side of the first motor driving component in the driving chip of the second motor driving component and the connecting pins above the driving chip of the second motor driving component through electric wires, and the partial external pins on the second long side are respectively connected with the connecting pins far away from one side of the first motor driving component in the driving chip of the second motor driving component and the connecting pins below the driving chip of the second motor driving component through electric wires.

In the technical scheme, part of the external pins on the first long edge are respectively connected with the connecting pins on one side of the driving chip of the second motor driving component close to the first motor driving component and the connecting pins above the driving chip of the second motor driving component through wires, and part of the external pins on the second long edge are respectively connected with the connecting pins on one side of the driving chip of the second motor driving component far away from the first motor driving component and the connecting pins below the driving chip of the second motor driving component through wires, on one hand, the driving chip of the second motor driving component is connected with the external pins through wires by the connection of the external pins of the first long edge and the second long edge with the connection pins around the driving chip of the second motor driving component, so that various electric signals are received and output, and the driving control of the second motor is realized; on the other hand, the arrangement of wiring on the board body is more reasonable, the length of the wire between the external pin and the connecting pin is reduced as much as possible, and the interference coupling in the circuit is reduced.

In the above technical solution, the electric wire includes one or more combinations of a buried wire and a bonding wire.

In the technical scheme, the connection between the connection pins of the driving chips in the first motor driving component and the second motor driving component and the external pins is realized through one or more combinations of the embedded lines and the bonding wires, specifically, the connection between the connection pins of the driving chips of the first motor driving component and the second motor driving component and the external pins is realized through one or more embedded lines, or the connection between the connection pins of the driving chips of the first motor driving component and the second motor driving component and the external pins is realized through one or more bonding wires, or the connection between the connection pins of the driving chips of the first motor driving component and the second motor driving component and the external pins is realized through the combination of a plurality of embedded lines and a plurality of bonding wires, so as to facilitate the welding of the plate body.

According to the utility model discloses a second aspect technical scheme provides a drive controller, including any one of the technical scheme of above-mentioned first aspect the integrated device of drive control, so have the technical effect of any one of the technical scheme of above-mentioned first aspect, no longer describe here.

The utility model discloses a third aspect technical scheme provides an air conditioner, including the drive controller among the second aspect technical scheme, connect in off-premises station subassembly and indoor set subassembly, wherein, the compressor operation in the off-premises station subassembly can be controlled to the drive controller, and/or the fan motor operation in the indoor set can be controlled to the drive controller.

Alternatively, the driving controller may be provided in the casing of the outdoor unit, may be provided in the casing of the indoor unit, and may be provided even separately outside the outdoor unit and the indoor unit.

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

Drawings

Fig. 1 shows a schematic structural diagram of a drive control integrated device according to an embodiment of the present invention;

fig. 2 shows a schematic structural diagram of a drive control integrated device according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 2 is:

the plate body 1, 11 first edges, 111 first long edge, 112 second long edge, 12 external pin, 13 input pin, 2 rectifier unit, 3 power factor correction subassembly, 4 first motor drive subassemblies, three-phase sampling subassembly on 41, 411 first sampling subassembly, three-phase sampling subassembly under 42, 421 second sampling subassembly, 43 generating line power supply module, 5 second motor drive subassemblies, 51 third sampling subassembly, 6 driver chip, 61 connection pin.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings, which are illustrated in the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

Some embodiments according to the invention are described below with reference to fig. 1 to 2.

As shown in fig. 1 and 2, a drive control integrated device, a drive controller, and an air conditioner according to an embodiment of the present invention are provided.

Example 1

As shown in fig. 1 and 2, according to an embodiment of the present invention, there is defined:

a rectifying component 2, a power factor correction component 3, a first motor driving component 4 and a second motor driving component 5 are carried on the plate body 1, so that the components are highly integrated, the power density is improved, to realize different functions, in particular to a drive control integrated device provided by the utility model, the functions of rectification, power factor correction and drive control of the two motors can be integrated so as to reduce the electric control space and meet the design requirement of miniaturization, wherein, an external pin 12 arranged on the first edge 11 of the board body 1 is connected to an external controller outwards and connected to an input pin 13 of the power factor correction component 3, an input pin 13 of the first motor driving component 4 and an input pin 13 of the second motor driving component 5 inwards, to control the operation of the power factor correction assembly 3, the first motor drive assembly 4 and the second motor drive assembly 5 by an external controller; wherein, at least one sampling assembly of first motor drive assembly 4 or second motor drive assembly 5 sets up with first edge 11 relatively, perhaps at least one sampling assembly of first motor drive assembly 4 and second motor drive assembly 5 sets up with first edge 11 relatively to do benefit to the evenly distributed of sampling assembly on plate body 1, improve the thermal diffusivity of plate body 1. Wherein, for the convenience of the pin distribution of the plate body 1 and the external connection, when the plate body 1 is rectangular, the first edge is a long edge.

It should be noted that the rectifier module 2 converts the ac power input to the drive control integrated device into dc power, and the power factor correction module 3 improves the power utilization.

Example 2

As shown in fig. 2, on the basis of embodiment 1, further defined are:

the input pin 13 of the first motor driving component 4 or the input pin 13 of the second motor driving component 5 is arranged opposite to the external pin 12, or the input pin 13 of the first motor driving component 4 and the input pin 13 of the second motor driving component 5 are arranged opposite to the external pin 12, so that the wiring is more compact.

Example 3

As shown in fig. 1, on the basis of embodiment 1, further defined are:

rectifier unit 2 locates one side of plate body 1, the opposite side of plate body 1 is located to second motor drive unit 5, power factor correction unit 3 and first motor drive unit 4 locate between rectifier unit 2 and second motor drive unit 5, and power factor correction unit 3 is adjacent with rectifier unit 2, first motor drive unit 4 is adjacent with second motor drive unit 5, make heating element spare evenly distributed, in order to do benefit to the heat dissipation, make things convenient for the drive chip 6 of first motor drive unit 4 and the drive chip 6's of second motor drive unit 5 circuit to arrange simultaneously, realize the optimal design of wiring, improve interference immunity.

Example 4

As shown in fig. 2, on the basis of embodiment 1, further defined are:

a connecting pin 61 used for being connected with an external pin 12 in a driving chip 6 of one of the first motor driving component 4 and the second motor driving component 5 through an electric wire is arranged at one side close to the other one, so that the first motor driving component 4 and the second motor driving component 5 are connected in a circuit, the first motor driving component 4 and the second motor driving component 5 receive an instruction signal input by an external controller, and drive the first motor and the second motor to operate according to the instruction according to the input signal, and the connecting pin 61 used for connecting the driving chip 6 of the first motor driving component 4 with the external pin 12 and the connecting pin 61 used for connecting the driving chip 6 of the second motor driving component 5 with the external pin 12 are arranged between the driving chip 6 of the first motor driving component 4 and the driving chip 6 of the second motor driving component 5, so that the driving chip 6 of the first motor driving component 4 and the driving chip 6 of the second motor driving component 5 are separated by the connecting pin 61 and the electric wire The proper distance is maintained to facilitate heat dissipation of the driver chip 6 of the first motor drive assembly 4 and the driver chip 6 of the second motor drive assembly 5.

Example 5

As shown in fig. 2, on the basis of embodiment 1, further defined are:

in first motor drive assembly 4, one side that is close to plate body 1 top is equipped with three-phase sampling subassembly 41, one side that is close to plate body 1 below is equipped with down three-phase sampling subassembly 42, and locate one side that is close to second motor drive assembly 5 with driver chip 6, with through three-phase sampling subassembly 42 down, go up three-phase sampling subassembly 41 and driver chip 6 and constitute three-phase bridge inverter circuit, wherein, at least one sampling subassembly in last three-phase sampling subassembly 41 and at least one sampling subassembly in the lower three-phase sampling subassembly 42 are close to the first edge 11 setting of plate body 1, in order to do benefit to the heat dissipation.

Example 6

As shown in fig. 2, on the basis of embodiment 5, further defined are:

at least two first sampling assemblies 411 of the three first sampling assemblies 411 are arranged in a non-wiring area of the plate body 1, so that the wiring arrangement of the first sampling assemblies 411 arranged in the non-wiring area of the plate body 1 is reduced, and the wiring flow is simplified, thereby being beneficial to the production of a drive control integrated device.

Example 7

As shown in fig. 2, on the basis of embodiment 5, further defined are:

at least two second sampling assemblies 421 of the three second sampling assemblies 421 are arranged in a non-wiring region of the plate body 1, so that the wiring arrangement of the second sampling assemblies 421 arranged in the non-wiring region of the plate body 1 is reduced, and the wiring flow is simplified, thereby being beneficial to the production of a drive control integrated device.

Example 8

As shown in fig. 2, on the basis of embodiment 1, further defined are:

be equipped with bus power supply module 43 in the integrated device of drive control, a plurality of components and parts that make the integrated device of drive control be can parallel connection on bus power supply module 43, in order to supply power for a plurality of components and parts through bus power supply module 43, wherein, locate bus power supply module 43 at the edge of one side that the drive chip 6 of second motor drive subassembly 5 kept away from first motor drive subassembly 4 along the length direction of plate body 1, make bus power supply module 43 set up the outside at the length direction of plate body 1, in order to do benefit to bus power supply module 43's heat dissipation. The third sampling assemblies 51 are arranged on one side, far away from the first motor driving assembly 4, of the driving chip 6 of the second motor driving assembly 5, so that the density of elements between the driving chip 6 of the first motor driving assembly 4 and the driving chip 6 of the second motor driving assembly 5 is reduced, heat dissipation of the driving chip 6 is facilitated, at least one of the third sampling assemblies 51 is arranged below the driving chip 6 of the second motor driving assembly 5, and a pin connected with the driving chip 6 through an electric wire is arranged on one side, close to the driving chip 6 of the second motor driving assembly 5, of each third sampling assembly 51, the length of a connecting circuit of the third sampling assemblies 51 and the driving chip 6 on the drive control integrated device is reduced, wiring is more compact and simpler, and electromagnetic interference is reduced.

Example 9

As shown in fig. 2, on the basis of embodiment 8, further defined are:

three third sampling assemblies 51 are arranged below the driving chip 6 of the second motor driving assembly 5, two of the three third sampling assemblies 51 are connected with a pin on one side, away from the first motor driving assembly 4, of the driving chip 6 of the second motor driving assembly 5, the other third sampling assembly 51 is connected with a pin below the driving chip 6 of the second motor driving assembly 5, and a three-phase bridge type inverter circuit is formed by the three third sampling assemblies 51 and the driving chip 6 of the second motor driving assembly 5.

Example 10

As shown in fig. 2, on the basis of embodiment 1, further defined are:

the external pins 12 are arranged on the first long edge 111 and the second long edge 112 of the board body 1, so that the components on the board body 1 can realize the input and output of electric signals through the connection with the external pins 12, wherein, part of the external pins 12 on the first long edge 111 are respectively connected with the connection pins 61 on one side of the driving chip 6 of the first motor driving component 4 close to the second motor driving component 5, the connection pins 61 in the driving chip 6 of the first motor driving component 4 far away from the second motor driving and the connection pins 61 above the driving chip 6 of the first motor driving component 4 through wires, part of the external pins 12 on the second long edge 112 are connected with the connection pins 61 below the driving chip 6 of the first motor driving component 4 through wires, on one hand, the connection with the connection pins 61 around the driving chip 6 of the first motor driving component 4 through a plurality of the external pins 12 on the first long edge 111 and the second long edge 112, the driving chip 6 of the first motor driving component 4 is connected with the external pin 12 through an electric wire so as to receive and output various electric signals and realize the driving control of the first motor; on the other hand, the routing on the board body 1 is more reasonable, and the length of the wire between the external pin 12 and the connection pin 61 is reduced as much as possible, so as to reduce the interference coupling in the circuit.

Example 11

As shown in fig. 2, on the basis of embodiment 10, further defined are:

on one hand, the connection of the plurality of external pins 12 of the first long side 111 and the second long side 112 with the connection pins 61 around the driving chip 6 of the second motor driving component 5 is realized by the connection of the plurality of external pins 12 of the first long side 111 and the second long side 112 with the connection pins 61 around the driving chip 6 of the second motor driving component 5 through the wires, so as to receive and output a plurality of electric signals, realizing the drive control of the second motor; on the other hand, the arrangement of the wiring on the board body 1 is more reasonable, and the length of the wire between the external pin 12 and the connection pin 61 is reduced as much as possible, so as to reduce the interference coupling in the circuit.

Example 12

As shown in fig. 1 and fig. 2, on the basis of embodiment 3, further defined are:

one or more of the combination of the pre-buried wire and the bonding wire realize the connection between the connection pin 61 of the driving chip 6 in the first motor driving component 4 and the second motor driving component 5 and the external pin 12.

Optionally, one or more embedded wires are used for connecting the connecting leads of the driving chips 6 of the first motor driving component 4 and the second motor driving component 5 with the pin external pins 12.

Optionally, one or more bonding wires are used to connect the connection pins 61 of the driving chips 6 of the first motor driving assembly 4 and the second motor driving assembly 5 with the external connection pins 12.

Optionally, a combination of a plurality of buried lines and a plurality of bonding wires enables connection of the connection pins 61 of the driving chips 6 of the first motor driving component 4 and the second motor driving component 5 with the external connection pins 12.

Example 13

In another embodiment of the present invention, a drive controller is provided, which defines:

the integrated device includes the driving control device according to any of the embodiments, so that the technical effects of any of the embodiments are achieved, and are not described herein again.

Example 14

The utility model discloses a still another embodiment provides an air conditioner, including the drive controller of another embodiment, connect in off-premises station subassembly and indoor set subassembly, wherein, the compressor operation in the off-premises station subassembly can be controlled to the drive controller, or the fan motor operation in the drive controller can control the indoor set, perhaps the drive controller can control the fan motor in the indoor set and the compressor operation in the off-premises station subassembly to realize the refrigeration or the heating of air conditioner.

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

Example 15

As shown in fig. 1 and 2, according to a specific embodiment of the present invention, there is provided a drive control integrated device, including a rectifier portion (i.e., a rectifier component), a PFC portion (i.e., a power factor correction component), a compressor drive portion (i.e., a first motor drive component), and a fan drive portion (i.e., a second motor drive component), wherein the rectifier portion is disposed at one side of the drive control integrated device, the PFC portion is disposed adjacent to the rectifier portion, the compressor drive portion is disposed at one side of the PFC portion away from the rectifier portion, and the fan drive portion is disposed at the other side of the drive control integrated device and adjacent to the compressor drive portion, wherein the rectifier portion includes a rectifier bridge and a bridge stack sampling resistor, so as to convert ac power input to the drive control integrated device into dc power through the rectifier bridge, the PFC portion greatly increases a conduction angle of a rectifier tube by using a valley fill circuit behind the rectifier, by filling valley points, input current is changed into a waveform close to a sine wave from spike pulses, the Power factor is improved to about 0.9, total harmonic distortion is obviously reduced, and the Power utilization rate is improved.

Further, a plurality of external pins 12 are arranged on the first long side 111 and the second long side 112 of the driving control integrated device, the external pins 12 are connected to an external controller, and the external pins are connected to the input pin 13 of the PFC part, the input pin 13 of the compressor driving part, and the input pin 13 of the fan driving part, so as to control the operation of the compressor and the fan through the external controller.

Further, the external pin 12 on the upper sides of the two motor driving assemblies leads to the part connected with the two motor driving assemblies, and the driving ICs in the two motor driving assemblies are respectively arranged on one side close to the other motor driving assembly, so that the electric wire of the external pin 12 is connected to the right pin of the left driving IC (compressor motor driving assembly) and the left pin of the right driving IC (fan motor driving assembly), thereby shortening the electric wire distance, reducing the EMC interference and improving the reliability of signal transmission.

Furthermore, two three phases in the fan motor drive control integrated device are arranged on the right side and the lower side of the drive IC, the pins are also connected with the right side pins and the lower side pins of the drive IC, and the rest pins of the drive IC are connected with the upper side pins of the whole component, so that the device in the fan motor drive control integrated device is distributed dispersedly, and the heat dissipation is more uniform.

Optionally, the wire is a pre-buried wire or an external bonding wire.

Further, the external dimension of the drive control integrated device is 81mm in length and 29mm in width.

According to the utility model provides a drive control integrated device can be in the same place rectifier bridge, bridge rectifier sampling resistor, PFC, compressor drive IPM, fan drive IPM, compressor three-phase sampling resistor, fan drive IPM three-phase sampling resistor collection, makes the high integration of drive control integrated device degree, and through the overall arrangement of reasonable circuit, the homogeneity that improves the whole heat distribution of subassembly is favorable to the heat dissipation of each subassembly.

In the present application, the terms "first", "second", "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless expressly limited otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, it should be understood that the terms "upper", "lower", "left", "right", "front", "back", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or unit indicated must have a specific direction, be constructed and operated in a specific orientation, and therefore, should not be construed as limiting the present invention.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (14)

1. A drive control integrated device, comprising:

the plate body is used for bearing the rectifying assembly, the power factor correction assembly, the first motor driving assembly and the second motor driving assembly;

the first edge of the plate body is provided with an external pin which is connected with an external controller outwards and connected with the input pin of the power factor correction component, the input pin of the first motor driving component and the input pin of the second motor driving component inwards,

wherein at least one sampling assembly of the first motor drive assembly and/or the second motor drive assembly is disposed opposite the first edge.

2. The drive control integrated device according to claim 1, wherein the input pin of the first motor drive component and/or the input pin of the second motor drive component is disposed opposite to the external pin.

3. The drive control integrated device according to claim 1, wherein the rectifying component and the second motor driving component are respectively disposed on two sides of the board body in a direction along the first edge, and the first motor driving component is adjacent to the second motor driving component.

4. The drive control integrated device according to claim 3,

and a connecting pin used for being connected with the external pin through an electric wire in the driving chip of one of the first motor driving component and the second motor driving component is arranged on one side close to the other one.

5. The drive control integrated device according to claim 3, wherein the first motor drive component specifically comprises:

an upper three-phase sampling component, a lower three-phase sampling component and a driving chip arranged at one side close to the second motor driving component,

wherein at least one of the upper three-phase sampling assembly and at least one of the lower three-phase sampling assembly are disposed near a first edge of the plate body.

6. The driving control integrated device according to claim 5, wherein the upper three-phase sampling assembly specifically includes three first sampling assemblies, and at least two of the first sampling assemblies are disposed in a non-wiring region of the board body.

7. The driving control integrated device according to claim 5, wherein the lower three-phase sampling assembly specifically includes three second sampling assemblies, and at least two of the second sampling assemblies are disposed in a non-wiring region of the board body.

8. The drive control integrated device according to claim 1, wherein the second motor drive component specifically comprises:

the bus power supply module is arranged on the edge of one side of the plate body, which is far away from the first motor driving assembly along the length direction of the plate body;

at least one of the third sampling assemblies is arranged on one side, far away from the first motor driving assembly, of the driving chip of the second motor driving assembly, and at least one of the third sampling assemblies is arranged below the driving chip of the second motor driving assembly,

and one side of each third sampling assembly, which is close to the driving chip of the second motor driving assembly, is provided with a pin connected with the driving chip through an electric wire.

9. The drive control integrated device according to claim 8, wherein the number of the third sampling assemblies is three, three of the third sampling assemblies are disposed below the driving chip of the second motor driving assembly, two of the three third sampling assemblies are connected to a pin on a side of the driving chip of the second motor driving assembly away from the first motor driving assembly, and the other is connected to a pin below the driving chip of the second motor driving assembly.

10. The drive control integrated device according to claim 1, wherein the external pins are disposed on a first long side and a second long side of the board body, which are respectively located above and below the board body, a part of the external pins on the first long side are respectively connected to the connection pins on one side of the first motor driving component close to the second motor driving component, the connection pins on the driving chip of the first motor driving component far away from the second motor drive and the connection pins above the driving chip of the first motor driving component through wires, and a part of the external pins on the second long side are connected to the connection pins below the driving chip of the first motor driving component through wires.

11. The drive control integrated device according to claim 10, wherein the external connection pin on the first long side is connected to the connection pin on the side of the second motor drive chip close to the first motor drive component and the connection pin above the second motor drive component through wires, and the external connection pin on the second long side is connected to the connection pin on the side of the second motor drive component far from the first motor drive component and the connection pin below the second motor drive component through wires.

12. The drive control integrated device of claim 4, wherein the electrical line comprises one or more combinations of a pre-buried line and a bond wire.

13. A drive controller, comprising: the drive control integrated device of any one of claims 1 to 12.

14. An air conditioner, comprising:

the drive controller of claim 13 connected to an outdoor unit assembly and an indoor unit assembly,

the driving controller can control the operation of a compressor in the outdoor unit assembly, and/or the driving controller can control the operation of a fan motor in the indoor unit.

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