TW201535959A - Motor driving device - Google Patents

Motor driving device Download PDF

Info

Publication number
TW201535959A
TW201535959A TW103143374A TW103143374A TW201535959A TW 201535959 A TW201535959 A TW 201535959A TW 103143374 A TW103143374 A TW 103143374A TW 103143374 A TW103143374 A TW 103143374A TW 201535959 A TW201535959 A TW 201535959A
Authority
TW
Taiwan
Prior art keywords
motor drive
circuit board
drive unit
motor
power supply
Prior art date
Application number
TW103143374A
Other languages
Chinese (zh)
Other versions
TWI527361B (en
Inventor
Wataru Maruyama
Kenichi Hayashi
Original Assignee
Nidec Sankyo Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Nidec Sankyo Corp filed Critical Nidec Sankyo Corp
Publication of TW201535959A publication Critical patent/TW201535959A/en
Application granted granted Critical
Publication of TWI527361B publication Critical patent/TWI527361B/en

Links

Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02PCONTROL OR REGULATION OF ELECTRIC MOTORS, ELECTRIC GENERATORS OR DYNAMO-ELECTRIC CONVERTERS; CONTROLLING TRANSFORMERS, REACTORS OR CHOKE COILS
    • H02P5/00Arrangements specially adapted for regulating or controlling the speed or torque of two or more electric motors
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02BBOARDS, SUBSTATIONS OR SWITCHING ARRANGEMENTS FOR THE SUPPLY OR DISTRIBUTION OF ELECTRIC POWER
    • H02B1/00Frameworks, boards, panels, desks, casings; Details of substations or switching arrangements
    • H02B1/56Cooling; Ventilation

Landscapes

  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Inverter Devices (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Control Of Multiple Motors (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Cooling Or The Like Of Electrical Apparatus (AREA)

Abstract

The present invention provides a motor driving device. The motor driving device is composed of a plurality of motor driving units having different output capacity, and can suppress the voltage drop between a driving circuit board and a power supply circuit board, and reduce the noise effect on the driving circuit board. In this motor driving device 1, motor driving units 2A ~ 2F are configured in such a way that their output capacity becomes smaller as they are closer toward an X1 direction side. Further, in this motor driving device 1, among the motor driving units 2A ~ 2F the driving circuit board and power supply circuit board of any two adjacent motor driving units in an X direction are electrically connected in parallel, such that the wiring length between the driving circuit board and power supply circuit board of the motor driving units 2A ~ 2F that are arranged in an X2 direction side is formed shorter than the wiring length between the driving circuit board and power supply circuit board of the motor driving units 2A ~ 2F that are arranged in the X1 direction side.

Description

馬達驅動裝置 Motor drive

本發明係關於一種驅動複數個馬達之馬達驅動裝置。 The present invention relates to a motor drive device that drives a plurality of motors.

先前公知了一種多軸馬達驅動裝置,該多軸馬達驅動裝置藉由將具有相同功能之複數個馬達驅動單元連結而構成(例如,參照專利文獻1)。於專利文獻1所記載之馬達驅動裝置中,各馬達驅動單元具備控制基板與固定控制基板之殼體。複數個馬達驅動單元於固定於殼體之控制基板之厚度方向上鄰接配置。又,該馬達驅動裝置具有1個電源裝置,且由1個電源裝置向複數個馬達驅動單元供給電力。又,電源裝置於控制基板之厚度方向上與配置於最端側之馬達驅動單元鄰接配置。 There has been known a multi-axis motor driving device which is constructed by connecting a plurality of motor driving units having the same function (for example, refer to Patent Document 1). In the motor drive device described in Patent Document 1, each of the motor drive units includes a housing that controls the substrate and the fixed control substrate. A plurality of motor drive units are adjacently disposed in a thickness direction of a control substrate fixed to the housing. Further, the motor drive device has one power supply device, and one power supply device supplies electric power to a plurality of motor drive units. Further, the power supply device is disposed adjacent to the motor drive unit disposed on the extreme end side in the thickness direction of the control board.

[先前技術文獻] [Previous Technical Literature] [專利文獻] [Patent Literature]

[專利文獻1]日本專利特開平8-168293號公報 [Patent Document 1] Japanese Patent Laid-Open No. Hei 8-168293

存在由輸出容量不同之複數個馬達驅動單元構成之馬達驅動裝置作為多軸馬達驅動裝置。又,於專利文獻1所記載之馬達驅動裝置中,會於電源裝置與馬達驅動單元之控制基板之間產生與電源裝置與控制基板之間之配線之電阻及與流經配線之電流之大小成比例之電壓下降,但為了確保由馬達驅動單元驅動並控制之馬達之性能,而較佳為該電壓下降較小。進而,於專利文獻1所記載之馬達驅動裝置中, 會自安裝於控制基板之開關元件之電子零件或電源裝置與控制基板之間之配線產生雜訊,但為了確保由馬達驅動單元驅動並控制之馬達之性能而較佳為控制基板不易受雜訊影響。 There is a motor drive device composed of a plurality of motor drive units having different output capacities as a multi-axis motor drive device. Further, in the motor drive device described in Patent Document 1, the resistance between the power supply device and the control substrate of the motor drive unit and the current flowing through the wiring between the power supply device and the control substrate are generated. The voltage of the ratio drops, but in order to ensure the performance of the motor driven and controlled by the motor drive unit, it is preferable that the voltage drop is small. Further, in the motor drive device described in Patent Document 1, The wiring between the electronic component or the power supply device mounted on the control element of the control substrate and the control substrate generates noise, but in order to ensure the performance of the motor driven and controlled by the motor drive unit, it is preferable that the control substrate is less susceptible to noise. influences.

因此,本發明之課題在於提供一種由輸出容量不同之複數個馬達驅動單元構成之馬達驅動裝置,該馬達驅動裝置能夠抑制安裝有馬達之驅動電路及控制電路之驅動電路基板與安裝有電源電路之電源電路基板之間之電壓下降,且能夠減小驅動電路基板所受之雜訊之影響。 Accordingly, an object of the present invention is to provide a motor drive device including a plurality of motor drive units having different output capacities, and the motor drive device can suppress a drive circuit board on which a drive circuit and a control circuit of a motor are mounted and a power supply circuit mounted thereon. The voltage between the power supply circuit boards is lowered, and the influence of the noise received by the drive circuit substrate can be reduced.

為了解決上述課題,本發明之馬達驅動裝置之特徵在於具備複數個用於對特定台數之馬達進行驅動並控制之馬達驅動單元,馬達驅動單元具備:驅動電路基板,其安裝有馬達之驅動電路及控制電路;及框架,其固定驅動電路基板;複數個馬達驅動單元沿固定於框架之驅動電路基板之厚度方向排列,若將驅動電路基板厚度方向之一方設為第1方向,將驅動電路基板厚度方向之另一方設為第2方向,則最靠第1方向側配置之馬達驅動單元為主馬達驅動單元,該主馬達驅動單元具備安裝有用於對複數個馬達驅動單元之驅動電路基板供給電力之電源電路之電源電路基板,除主馬達驅動單元之外之其餘之馬達驅動單元為副馬達驅動單元,該副馬達驅動單元具備由主馬達驅動單元之電源電路基板供給電力之驅動電路基板,複數個馬達驅動單元以馬達驅動單元之輸出容量隨著自主馬達驅動單元向最靠第2方向側配置之副馬達驅動單元變小之方式沿驅動電路基板之厚度方向排列,複數個馬達驅動單元之驅動電路基板與電源電路基板以於驅動電路基板之厚度方向上彼此鄰接配置之2個馬達驅動單元中之配置於第1方向側之馬達驅動單元之驅動電路基板與電源電路基板之間之配線長度較於驅動電路基板之厚度方向上彼此鄰接配置之2個馬達驅動單元中之配置於 第2方向側之馬達驅動單元之驅動電路基板與電源電路基板之間之配線長度短之方式並聯電性連接。 In order to solve the above problems, a motor driving device according to the present invention includes a plurality of motor driving units for driving and controlling a specific number of motors, and the motor driving unit includes a driving circuit substrate on which a driving circuit of the motor is mounted And a control circuit; and a frame, the fixed drive circuit substrate; the plurality of motor drive units are arranged along a thickness direction of the drive circuit substrate fixed to the frame, and if one of the thickness directions of the drive circuit substrate is set to the first direction, the drive circuit substrate is driven When the other of the thickness directions is the second direction, the motor drive unit disposed closest to the first direction side is a main motor drive unit that is provided with electric power for driving the drive circuit board of the plurality of motor drive units. The power circuit board of the power supply circuit, the motor drive unit other than the main motor drive unit is a sub motor drive unit, and the sub motor drive unit includes a drive circuit substrate for supplying power from the power circuit substrate of the main motor drive unit, Motor drive unit with motor drive unit output The amount of the auxiliary motor drive unit is arranged in the thickness direction of the drive circuit substrate in such a manner that the sub motor drive unit disposed on the second most direction side becomes smaller, and the drive circuit substrate and the power supply circuit substrate of the plurality of motor drive units are used for the drive circuit. Among the two motor drive units disposed adjacent to each other in the thickness direction of the substrate, the wiring length between the drive circuit board and the power supply circuit board of the motor drive unit disposed on the first direction side is adjacent to each other in the thickness direction of the drive circuit board. Configured in the two motor drive units The wiring length between the drive circuit board and the power supply circuit board of the motor drive unit on the second direction side is electrically connected in parallel.

於本發明之馬達驅動裝置中,複數個馬達驅動單元以馬達驅動單元之輸出容量隨著自具有電源電路基板且最靠第1方向側配置之主馬達驅動單元朝向最靠第2方向側配置之副馬達驅動單元變小之方式沿驅動電路基板之厚度方向排列。又,於本發明中,複數個馬達驅動單元之驅動電路基板與電源電路基板以於驅動電路基板之厚度方向上彼此鄰接配置之2個馬達驅動單元中之配置於第1方向側之馬達驅動單元之驅動電路基板與電源電路基板之間之配線長度形成得較於驅動電路基板之厚度方向上彼此鄰接配置之2個馬達驅動單元中之配置於第2方向側之馬達驅動單元之驅動電路基板與電源電路基板之間之配線長度短之方式並聯電性連接。因此,於本發明中,隨著距離電源電路基板之配線距離變長,就越能夠有效減小流經電源電路基板與驅動電路基板之間之配線之電流。即,於本發明中,能夠減小配線之流經較大電流之部分之電阻,且能夠減小配線之流經較大電阻之部分之電流。因此,於本發明中,能夠抑制電源電路基板與驅動電路基板之間之電壓下降。 In the motor drive device of the present invention, the output capacity of the motor drive unit is set to be closest to the second direction side from the main motor drive unit having the power supply circuit board and disposed on the most first side. The manner in which the sub motor drive units become smaller is arranged in the thickness direction of the drive circuit substrate. Further, in the present invention, the drive circuit board and the power supply circuit board of the plurality of motor drive units are disposed on the first direction side of the two motor drive units disposed adjacent to each other in the thickness direction of the drive circuit board. The wiring length between the driving circuit board and the power supply circuit board is formed on the driving circuit board of the motor driving unit disposed on the second direction side among the two motor driving units disposed adjacent to each other in the thickness direction of the driving circuit board. The wiring length between the power circuit boards is short and electrically connected in parallel. Therefore, in the present invention, as the wiring distance from the power supply circuit substrate becomes longer, the current flowing through the wiring between the power supply circuit substrate and the drive circuit substrate can be effectively reduced. That is, in the present invention, it is possible to reduce the electric resistance of a portion of the wiring through which a large current flows, and it is possible to reduce the current of a portion of the wiring that flows through a large electric resistance. Therefore, in the present invention, it is possible to suppress a voltage drop between the power supply circuit board and the drive circuit board.

又,由於於輸出容量較大之馬達驅動單元之驅動電路基板中,消耗電流變大,因此該驅動電路基板產生較大之雜訊,但該驅動電路基板不易受雜訊影響。另一方面,由於於輸出容量較小之馬達驅動單元之驅動電路基板中,消耗電流變小,因此該驅動電路基板所產生之雜訊變得較小,但該驅動電路基板容易受雜訊之影響。又,於電源電路基板與驅動電路基板之間之配線中,隨著流經配線之電流增大,電線所產生之雜訊亦變大。於本發明中,由於複數個馬達驅動電源以馬達驅動單元之輸出容量隨著自最靠第1方向側配置之主馬達驅動單元向最靠第2方向側配置之副馬達驅動單元變小之方式沿驅動電路基板 之厚度方向排列,因此能夠於產生較大雜訊之馬達驅動單元之驅動電路基板附近配置不易受雜訊影響之驅動電路基板,而於所產生之雜訊變得較小之馬達驅動單元之驅動電路基板之附近配置容易受雜訊影響之驅動電路基板。又,於本發明中,由於隨著距離電源電路基板之配線距離變長,就越能夠有效減小流經電源電路基板與驅動電路基板之間之配線之電流,因此流經不易受雜訊影響之驅動電路基板附近之配線之電流變大,而流經容易受雜訊影響之驅動電路基板附近之配線之電流變小,並且容易受雜訊影響之驅動電路基板附近之配線所產生之雜訊變小。因此,於本發明中,能夠減小驅動電路基板所受之雜訊之影響。 Further, since the current consumption increases in the drive circuit board of the motor drive unit having a large output capacity, the drive circuit board generates a large amount of noise, but the drive circuit board is less susceptible to noise. On the other hand, in the drive circuit substrate of the motor drive unit having a small output capacity, the current consumption is reduced, so that the noise generated by the drive circuit substrate becomes small, but the drive circuit substrate is susceptible to noise. influences. Further, in the wiring between the power supply circuit board and the drive circuit board, as the current flowing through the wiring increases, the noise generated by the electric wire also becomes large. In the present invention, the output capacity of the motor drive unit becomes smaller as the sub motor drive unit disposed closest to the second direction side from the main motor drive unit disposed closest to the first direction side Along the drive circuit substrate Since the thickness is aligned, it is possible to arrange a drive circuit board which is less susceptible to noise in the vicinity of the drive circuit board of the motor drive unit which generates a large amount of noise, and drive the motor drive unit which generates less noise. A drive circuit board that is susceptible to noise is disposed in the vicinity of the circuit board. Further, in the present invention, since the wiring distance from the power supply circuit substrate becomes longer as the wiring distance from the power supply circuit substrate becomes longer, the current flowing through the wiring between the power supply circuit substrate and the drive circuit substrate can be effectively reduced, so that the flow is less susceptible to noise. The current of the wiring in the vicinity of the drive circuit substrate becomes large, and the current flowing through the wiring near the drive circuit substrate which is susceptible to noise is reduced, and the noise generated by the wiring near the drive circuit substrate which is susceptible to noise is easily generated. Become smaller. Therefore, in the present invention, the influence of the noise received by the drive circuit substrate can be reduced.

又,於本發明中,由於隨著距離電源電路基板之配線變長,就越能夠有效地減小流經電源電路基板與驅動電路基板之間之配線之電流,因此能夠將馬達驅動裝置之配線隨著朝向第2方向側而設置得細一些。 Further, in the present invention, as the wiring from the power supply circuit board becomes longer, the current flowing through the wiring between the power supply circuit board and the drive circuit board can be effectively reduced, so that the wiring of the motor drive device can be made. It is set to be thinner toward the second direction side.

進而,於本發明中,由於複數個馬達驅動單元以馬達驅動單元之輸出容量隨著自最靠第1方向側配置之主馬達驅動單元向最靠第2方向側配置之副馬達驅動單元變小之方式沿驅動電路基板之厚度方向排列,因此各馬達驅動單元中之發熱量隨著自主馬達驅動單元向最靠第2方向側配置之副馬達驅動單元變小。因此,於本發明中,能夠集中冷卻發熱量較大之馬達驅動單元,並且能夠根據需要來冷卻發熱量較小之馬達驅動單元。 Further, in the present invention, the output capacity of the motor drive unit becomes smaller as the sub motor drive unit disposed on the most second direction side from the main motor drive unit disposed closest to the first direction side. Since the heat is radiated in the thickness direction of the drive circuit board, the amount of heat generated in each of the motor drive units decreases toward the second motor drive unit in the second direction. Therefore, in the present invention, it is possible to collectively cool the motor drive unit having a large amount of heat generation, and it is possible to cool the motor drive unit having a small amount of heat generation as needed.

於本發明中,較佳為於驅動電路基板中安裝有2個能夠連接供電用電纜之供電用連接器端子,於副馬達驅動單元中,2個供電用連接器端子中之一個為用於向驅動電路基板輸入電力之輸入用連接器端子,2個供電用連接器端子中之另一個為用於自驅動電路基板輸出電力之輸出用連接器端子。若如此構成,則能夠容易地將主馬達驅動單 元之驅動電路基板與副馬達驅動單元之驅動電路基板電性連接,或將其等斷開。又,能夠容易地將副馬達驅動單元彼此之驅動電路基板電性連接,或將其等斷開。 In the present invention, it is preferable that two power supply connector terminals capable of connecting power supply cables are mounted on the drive circuit board, and one of the two power supply connector terminals is used for the sub motor drive unit. The driver circuit board inputs the input connector terminal for electric power, and the other of the two power supply connector terminals is an output connector terminal for outputting electric power from the drive circuit board. According to this configuration, the main motor can be easily driven The drive circuit board of the element is electrically connected to the drive circuit substrate of the sub motor drive unit, or is disconnected. Moreover, the drive circuit boards of the sub-motor drive units can be easily electrically connected or disconnected.

又,於該情形時,較佳為馬達驅動裝置具備至少2個以上之副馬達驅動單元,於主馬達驅動單元中,2個供電用連接器端子中之至少一個為用於自驅動電路基板輸出電力之主輸出用連接器端子,主輸出用連接器端子與靠主馬達驅動單元之第2方向側鄰接配置之副馬達驅動單元之輸入用連接器端子之間經由供電用電纜連接,於驅動電路基板之厚度方向上彼此鄰接配置之2個副馬達驅動單元中之配置於第1方向側之副馬達驅動單元之輸出用連接端子與於驅動電路基板之厚度方向上彼此鄰接配置之2個副馬達驅動單元中之配置於第2方向側之副馬達驅動單元之輸入用連接器端子經由供電用電纜連接。若如此構成,則能夠縮短供電用電纜之長度。因此,能夠整齊有序地拉繞供電用電纜。 Further, in this case, it is preferable that the motor driving device includes at least two or more sub motor driving units, and in the main motor driving unit, at least one of the two power supply connector terminals is for output from the self-driving circuit substrate. The main output connector terminal for electric power is connected to the input connector terminal of the sub motor drive unit disposed adjacent to the second direction side of the main motor drive unit via a power supply cable to the drive circuit. Among the two sub-motor drive units that are disposed adjacent to each other in the thickness direction of the substrate, the output connection terminals of the sub-motor drive unit disposed on the first direction side and the two sub-motors disposed adjacent to each other in the thickness direction of the drive circuit board The input connector terminals of the sub motor drive unit disposed on the second direction side of the drive unit are connected via a power supply cable. According to this configuration, the length of the power supply cable can be shortened. Therefore, the power supply cable can be pulled neatly and orderly.

於本發明中,較佳為馬達驅動裝置具備與副馬達驅動單元構成為相同之複數個第2副馬達驅動單元,複數個第2副馬達驅動單元沿驅動電路基板之厚度方向排列,並且複數個第2副馬達驅動單元於與驅動電路基板之厚度方向正交之上下方向上與沿驅動電路基板之厚度方向排列之複數個馬達驅動單元重疊配置,最靠第1方向側配置之第2副馬達驅動單元之輸出容量為主馬達驅動單元之輸出容量以下,複數個第2副馬達驅動單元以第2副馬達驅動單元之輸出容量隨著自最靠第1方向側配置之第2副馬達驅動單元向最靠第2方向側配置之第2副馬達驅動單元變小之方式沿驅動電路基板之厚度方向排列,複數個第2副馬達驅動單元之驅動電路基板與電源電路基板以於驅動電路基板之厚度方向上彼此鄰接配置之2個第2副馬達驅動單元中之配置於第1方向側之第2副馬達驅動單元之驅動電路基板與電源電路基板之間之配線 長度較於驅動電路基板之厚度方向上彼此鄰接配置之2個第2副馬達驅動單元中之配置於第2方向側之第2副馬達驅動單元之驅動電路基板與電源電路基板之間之配線長度短之方式並聯電性連接。 In the present invention, it is preferable that the motor drive device includes a plurality of second sub-motor drive units that are identical to the sub-motor drive unit, and the plurality of second sub-motor drive units are arranged in the thickness direction of the drive circuit board, and a plurality of The second sub-motor drive unit is disposed so as to overlap the plurality of motor drive units arranged in the thickness direction of the drive circuit board in a direction perpendicular to the thickness direction of the drive circuit board, and the second sub-motor disposed on the first direction side The output capacity of the drive unit is equal to or less than the output capacity of the main motor drive unit, and the second sub-motor drive unit has the output capacity of the second sub-motor drive unit along with the second sub-motor drive unit disposed from the most first direction side. The second sub-motor driving unit disposed on the second most direction side is arranged to be smaller in the thickness direction of the driving circuit board, and the driving circuit board and the power supply circuit board of the plurality of second sub-motor driving units are used for driving the circuit board. Among the two second sub-motor drive units disposed adjacent to each other in the thickness direction, the second sub-motor drive unit disposed on the first direction side Wiring between the driving circuit substrate and the power supply circuit substrate Wiring length between the drive circuit board and the power supply circuit board of the second sub-motor drive unit disposed on the second direction side of the two second sub-motor drive units disposed adjacent to each other in the thickness direction of the drive circuit board Short circuit connection in parallel.

若如此構成,則與複數個馬達驅動單元及複數個第2副馬達驅動單元沿驅動電路基板之厚度方向排列之情況相比,能夠縮小馬達驅動裝置之設置面積。又,若如此構成,則隨著距離電源電路基板之配線距離變長,就越能夠有效減小流經第2副馬達驅動單元之驅動電路基板與電源電路基板之間之配線之電流。即,能夠減小第2副馬達驅動單元之驅動電路基板與電源電路基板之間之配線之流經較大電流部分之電阻,並能夠縮小第2副馬達驅動單元之驅動電路基板與電源電路基板之間之配線之流經較大電阻部分之電流。因此,即使複數個馬達驅動單元與複數個第2副馬達驅動單元於上下方向上重疊配置,亦能夠抑制第2副馬達驅動單元之驅動電路基板與電源電路基板之間之電壓下降。 According to this configuration, the installation area of the motor drive device can be made smaller than when a plurality of motor drive units and a plurality of second sub-motor drive units are arranged in the thickness direction of the drive circuit board. Further, according to this configuration, as the wiring distance from the power supply circuit board becomes longer, the current flowing through the wiring between the drive circuit board of the second sub-motor drive unit and the power supply circuit board can be effectively reduced. In other words, it is possible to reduce the resistance of the wiring between the drive circuit board and the power supply circuit board of the second sub-motor drive unit through a large current portion, and to reduce the drive circuit board and the power supply circuit board of the second sub-motor drive unit. The current between the wires flowing through the larger resistance portion. Therefore, even if a plurality of motor drive units and a plurality of second sub-motor drive units are arranged to overlap each other in the vertical direction, it is possible to suppress a voltage drop between the drive circuit board of the second sub-motor drive unit and the power supply circuit board.

又,若如此構成,則能夠於產生較大雜訊之馬達驅動單元及第2副馬達驅動單元之驅動電路基板附近配置不易受雜訊影響之馬達驅動單元及第2副馬達驅動單元之驅動電路基板,而於產生之雜訊變得較小之馬達驅動單元及第2副馬達驅動單元之驅動電路基板附近配置容易受雜訊影響之馬達驅動單元及第2副馬達驅動單元之驅動電路基板。又,由於隨著距離電源電路基板之配線距離變長,就越能夠有效減小流經第2副馬達驅動單元之驅動電路基板與電源電路基板之間之配線之電流,因此儘管流經不易受雜訊影響之第2副馬達驅動單元之驅動電路基板附近之配線之電流變大,但流經容易受雜訊影響之第2副馬達驅動單元之驅動電路基板附近之配線之電流變小,且容易受雜訊影響之第2副馬達驅動單元之驅動電路基板之附近之配線所產生之雜訊變小。因此,即使複數個馬達驅動單元與複數個第2副馬達驅動 單元於上下方向上重疊配置,亦能夠減小驅動電路基板所受之雜訊之影響。 Further, according to the configuration, the motor drive unit and the drive circuit of the second sub-motor drive unit that are less susceptible to noise can be disposed in the vicinity of the drive circuit board of the motor drive unit and the second sub-motor drive unit that generate large noise. In the vicinity of the drive circuit board of the motor drive unit and the second sub-motor drive unit in which the generated noise is small, the drive circuit board of the motor drive unit and the second sub-motor drive unit which are susceptible to noise is disposed. Moreover, as the wiring distance from the power supply circuit board becomes longer, the current flowing through the wiring between the drive circuit board of the second sub-motor drive unit and the power supply circuit board can be effectively reduced, and therefore, the flow is not easily affected. The current of the wiring in the vicinity of the drive circuit board of the second sub-motor drive unit affected by the noise is increased, but the current flowing through the wiring near the drive circuit board of the second sub-motor drive unit which is susceptible to noise is reduced, and The noise generated by the wiring in the vicinity of the drive circuit board of the second sub-motor drive unit which is susceptible to noise is reduced. Therefore, even a plurality of motor drive units and a plurality of second sub-motors are driven By overlapping the cells in the up and down direction, it is also possible to reduce the influence of the noise received by the drive circuit substrate.

又,若如此構成,則與複數個馬達驅動單元及複數個第2副馬達驅動單元沿驅動電路基板之厚度方向排列之情況相比,能夠抑制電源電路基板與驅動電路基板之間之電壓下降,並且能夠減小驅動電路基板所受之雜訊之影響。 According to this configuration, it is possible to suppress a voltage drop between the power supply circuit board and the drive circuit board as compared with a case where a plurality of motor drive units and a plurality of second sub-motor drive units are arranged in the thickness direction of the drive circuit board. Moreover, the influence of the noise received by the drive circuit substrate can be reduced.

於本發明中,較佳為於驅動電路基板中安裝有2個能夠連接供電用電纜之供電用連接器端子,於主馬達驅動單元中,2個供電用連接器端子為用於自上述驅動電路基板輸出電力之主輸出用連接器端子,於副馬達驅動單元及於第2副馬達驅動單元中,2個供電用連接器端子中之一個為用於向驅動電路基板輸入電力之輸入用連接器端子,2個供電用連接器端子中之另一個為用於自上述驅動電路基板輸出電力之輸出用連接器端子。若如此構成,則能夠容易地將主馬達驅動單元之驅動電路基板與副馬達驅動單元之驅動電路基板電性連接,或將其等斷開,容易地將副馬達驅動單元彼此之間之驅動電路基板電性連接,或將其等斷開,及容易地將第2副馬達驅動單元彼此之間之驅動電路基板電性連接,或將其等斷開。 In the present invention, it is preferable that two power supply connector terminals capable of connecting power supply cables are mounted on the drive circuit board, and in the main motor drive unit, two power supply connector terminals are used for the drive circuit. The main output connector terminal of the substrate output power, and the sub motor drive unit and the second sub motor drive unit, one of the two power supply connector terminals is an input connector for inputting electric power to the drive circuit board. The other of the terminals and the two power supply connector terminals is an output connector terminal for outputting electric power from the drive circuit substrate. According to this configuration, the drive circuit board of the main motor drive unit and the drive circuit board of the sub motor drive unit can be easily electrically connected or disconnected, and the drive circuits of the sub motor drive units can be easily driven. The substrate is electrically connected or disconnected, and the drive circuit board between the second sub-motor drive units is easily electrically connected or disconnected.

於該情形時,較佳為馬達驅動裝置至少具備2個以上之副馬達驅動單元,且2個主輸出用連接器端子中之一者與鄰接配置於主馬達驅動單元之第2方向側之副馬達驅動單元之輸入用連接器端子經由供電用電纜連接,2個主輸出用連接器端子中之另一者與最靠第1方向側配置之第2副馬達驅動單元之輸入用連接器端子經由供電用電纜連接,於驅動電路基板之厚度方向上彼此鄰接配置之2個副馬達驅動單元中之配置於第1方向側之副馬達驅動單元之輸出用連接器端子與於驅動電路基板之厚度方向上彼此鄰接配置之2個副馬達驅動單元中之配置於第2方向側之副馬達驅動單元之輸入用連接器端子經由供電用電纜 連接,於驅動電路基板之厚度方向上彼此鄰接配置之2個第2副馬達驅動單元中之配置於第1方向側之第2副馬達驅動單元之輸出用連接器端子與於驅動電路基板之厚度方向上彼此鄰接配置之2個第2副馬達驅動單元中之配置於第2方向側之第2副馬達驅動單元之輸入用連接器端子經由供電用電纜連接。若如此構成,則能夠縮短供電用電纜之長度。因此,能過整齊有序地拉繞供電用電纜。 In this case, it is preferable that the motor drive device includes at least two or more sub motor drive units, and one of the two main output connector terminals is disposed adjacent to the second direction side of the main motor drive unit. The input connector terminal of the motor drive unit is connected via the power supply cable, and the other of the two main output connector terminals is connected to the input connector terminal of the second sub motor drive unit disposed on the first direction side. The power supply cable is connected to the output connector terminal of the sub motor drive unit disposed on the first direction side and the thickness direction of the drive circuit board among the two sub motor drive units disposed adjacent to each other in the thickness direction of the drive circuit board. Among the two sub-motor drive units disposed adjacent to each other, the input connector terminal of the sub-motor drive unit disposed on the second direction side is connected via a power supply cable The output connector terminals of the second sub-motor driving unit disposed on the first direction side and the thickness of the driving circuit substrate among the two second sub-motor driving units disposed adjacent to each other in the thickness direction of the driving circuit board Among the two second sub-motor drive units that are disposed adjacent to each other in the direction, the input connector terminals of the second sub-motor drive unit disposed on the second direction are connected via a power supply cable. According to this configuration, the length of the power supply cable can be shortened. Therefore, the power supply cable can be pulled neatly and orderly.

於本發明中,較佳為沿驅動電路基板之厚度方向排列之複數個馬達驅動單元彼此緊密接觸。若如此構成,則能夠縮窄馬達驅動裝置之設置空間。 In the invention, it is preferable that a plurality of motor drive units arranged in the thickness direction of the drive circuit substrate are in close contact with each other. According to this configuration, the installation space of the motor drive device can be narrowed.

於本發明中,較佳為於主馬達驅動單元之框架之第2方向側之側面安裝有用於冷卻主馬達驅動單元之驅動電路基板之風扇,與主馬達驅動單元之第2方向側鄰接配置之副馬達驅動單元之驅動電路基板自第2方向側與風扇之吸氣側或排氣側對向配置。若如此構成,則能夠利用風扇高效地對發熱量最大之主馬達驅動單元之發熱零件進行冷卻。又,若如此構成,於安裝於主馬達驅動單元之框架之風扇旋轉時,能夠於與主馬達驅動單元之第2方向側鄰接配置之副馬達驅動單元之驅動電路基板之周圍產生空氣之流動,從而冷卻該驅動電路基板。因此,即使未於與主馬達驅動單元之第2方向側鄰接配置之副馬達驅動單元處設置風扇,亦能夠藉由主馬達驅動單元之風扇來冷卻安裝於該副馬達驅動單元之驅動電路基板之發熱零件。 In the present invention, it is preferable that a fan for cooling the drive circuit board of the main motor drive unit is attached to a side surface on the second direction side of the frame of the main motor drive unit, and is disposed adjacent to the second direction side of the main motor drive unit. The drive circuit board of the sub motor drive unit is disposed to face the intake side or the exhaust side of the fan from the second direction side. According to this configuration, the heat generating component of the main motor drive unit that generates the largest amount of heat can be efficiently cooled by the fan. In addition, when the fan attached to the frame of the main motor drive unit rotates, the flow of air can be generated around the drive circuit board of the sub motor drive unit disposed adjacent to the second direction side of the main motor drive unit. Thereby, the drive circuit substrate is cooled. Therefore, even if the fan is not provided at the sub motor driving unit disposed adjacent to the second direction side of the main motor driving unit, the driving circuit board mounted on the sub motor driving unit can be cooled by the fan of the main motor driving unit. Heated parts.

如上所述,於本發明中,馬達驅動裝置由輸出容量不同之複數個馬達驅動單元構成,該馬達驅動裝置能夠抑制安裝有馬達之驅動電路及控制電路之驅動電路基板與安裝有電源電路之電源電路基板之間之電壓下降,並且能夠減小驅動電路基板所受之雜訊之影響。 As described above, in the present invention, the motor driving device is composed of a plurality of motor driving units having different output capacities, and the motor driving device can suppress the driving circuit substrate on which the driving circuit and the control circuit of the motor are mounted and the power source to which the power supply circuit is mounted The voltage between the circuit boards is lowered, and the influence of the noise received by the drive circuit substrate can be reduced.

1‧‧‧馬達驅動裝置 1‧‧‧Motor drive

2‧‧‧馬達驅動單元 2‧‧‧Motor drive unit

2A‧‧‧馬達驅動單元(主馬達驅動單元) 2A‧‧‧Motor drive unit (main motor drive unit)

2B~2F‧‧‧馬達驅動單元(副馬達驅動單元) 2B~2F‧‧‧Motor drive unit (sub-motor drive unit)

2G~2L‧‧‧馬達驅動單元(第2副馬達驅動單元) 2G~2L‧‧‧Motor drive unit (2nd sub motor drive unit)

3‧‧‧驅動電路基板 3‧‧‧Drive circuit substrate

4‧‧‧框架 4‧‧‧Frame

4a‧‧‧基底部 4a‧‧‧ base

4b‧‧‧背面部 4b‧‧‧Back part

4c‧‧‧上表面部 4c‧‧‧ upper surface

4e‧‧‧散熱部 4e‧‧‧heating department

4f‧‧‧通氣口 4f‧‧‧ vent

5‧‧‧面板 5‧‧‧ panel

6‧‧‧外罩部件 6‧‧‧ Cover parts

6a‧‧‧通氣口 6a‧‧ vent

7‧‧‧電源電路基板 7‧‧‧Power circuit board

8‧‧‧外罩部件 8‧‧‧ Cover parts

9‧‧‧風扇 9‧‧‧fan

10‧‧‧外罩部件 10‧‧‧ Cover parts

10a‧‧‧通氣口 10a‧‧ vent

12‧‧‧供電用電纜 12‧‧‧Power supply cable

13‧‧‧供電用連接器端子(輸入用連接器端子、主輸出用連接器端子) 13‧‧‧Power supply connector terminals (input connector terminals, main output connector terminals)

14‧‧‧供電用連接器端子(輸出用連接器端子、主輸出用連接器端子) 14‧‧‧Power supply connector terminals (output connector terminals, main output connector terminals)

15‧‧‧連接器端子 15‧‧‧Connector terminals

16‧‧‧連接器端子 16‧‧‧Connector terminals

X‧‧‧驅動電路基板之厚度方向 X‧‧‧ drive circuit substrate thickness direction

X1‧‧‧第2方向 X1‧‧‧2nd direction

X2‧‧‧第1方向 X2‧‧‧1st direction

Y‧‧‧方向 Y‧‧‧ direction

Y1‧‧‧方向 Y1‧‧‧ direction

Y2‧‧‧方向 Y2‧‧‧ direction

Z‧‧‧上下方向 Z‧‧‧Up and down direction

Z1‧‧‧方向 Z1‧‧‧ direction

Z2‧‧‧方向 Z2‧‧‧ direction

圖1為本發明之實施形態之馬達驅動裝置之前視圖。 Fig. 1 is a front view of a motor driving device according to an embodiment of the present invention.

圖2為圖1所示之馬達驅動裝置之局部仰視圖。 Fig. 2 is a partial bottom plan view of the motor driving device shown in Fig. 1.

圖3為表示圖1所示之主馬達驅動單元及與主馬達驅動單元鄰接配置之副馬達驅動單元之立體圖。 Fig. 3 is a perspective view showing the main motor drive unit shown in Fig. 1 and a sub motor drive unit disposed adjacent to the main motor drive unit.

圖4為將圖3所示之主馬達驅動單元與副馬達驅動單元進行分離後之狀態之立體圖。 Fig. 4 is a perspective view showing a state in which the main motor drive unit and the sub motor drive unit shown in Fig. 3 are separated.

圖5為自其他方向表示圖4所示之主馬達驅動單元及副馬達驅動單元之立體圖。 Fig. 5 is a perspective view showing the main motor drive unit and the sub motor drive unit shown in Fig. 4 from other directions.

圖6為自圖4所示之主馬達驅動單元取下外罩部件後之狀態之立體圖。 Fig. 6 is a perspective view showing a state in which the cover member is removed from the main motor drive unit shown in Fig. 4.

圖7為自圖5所示之主馬達驅動單元取下外罩部件後之狀態之立體圖。 Fig. 7 is a perspective view showing a state in which the cover member is removed from the main motor drive unit shown in Fig. 5.

圖8為用於說明圖1所示之馬達驅動裝置中之電源電路基板與驅動電路基板之間之電性連接關係之模式圖。 Fig. 8 is a schematic view for explaining an electrical connection relationship between a power supply circuit board and a drive circuit board in the motor drive device shown in Fig. 1.

圖9(A)~(C)為用於說明圖1所示之馬達驅動裝置之效果之表。 9(A) to 9(C) are tables for explaining the effects of the motor driving device shown in Fig. 1.

圖10為本發明之其他實施形態之馬達驅動裝置之前視圖。 Fig. 10 is a front elevational view showing the motor driving device according to another embodiment of the present invention.

圖11為用於說明圖10所示之馬達驅動裝置中之電源電路基板與驅動電路基板之間之電性連接關係之模式圖。 Fig. 11 is a schematic view for explaining an electrical connection relationship between a power supply circuit board and a drive circuit board in the motor drive device shown in Fig. 10.

以下,一面參照圖式,一面對本發明之實施形態進行說明。 Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(馬達驅動裝置之構成) (Composition of motor drive unit)

圖1為本發明之實施形態之馬達驅動裝置1之前視圖。圖2為圖1所示之馬達驅動裝置1之局部仰視圖。圖3為表示圖1所示之馬達驅動單元2A及馬達驅動單元2B之立體圖。圖4為將圖3所示之馬達驅動單元2A及馬達驅動單元2B分離後之狀態之立體圖。圖5為自其他方向表示圖4所示之馬達驅動單元2A、2B之立體圖。圖6為自圖4所示之馬達 驅動單元2A取下外罩部件8後之狀態之立體圖。圖7為自圖5所示之馬達驅動單元2A取下外罩部件10後之狀態之立體圖。圖8為用於說明圖1所示之馬達驅動裝置1中之電源電路基板7與驅動電路基板3之間之電性連接關係之模式圖。 Fig. 1 is a front view of a motor driving device 1 according to an embodiment of the present invention. Fig. 2 is a partial bottom plan view of the motor driving device 1 shown in Fig. 1. Fig. 3 is a perspective view showing the motor drive unit 2A and the motor drive unit 2B shown in Fig. 1 . Fig. 4 is a perspective view showing a state in which the motor drive unit 2A and the motor drive unit 2B shown in Fig. 3 are separated. Fig. 5 is a perspective view showing the motor drive units 2A, 2B shown in Fig. 4 from other directions. Figure 6 is the motor shown in Figure 4. A perspective view of the state in which the drive unit 2A is removed from the cover member 8. Fig. 7 is a perspective view showing a state in which the cover member 10 is removed from the motor drive unit 2A shown in Fig. 5. FIG. 8 is a schematic view for explaining an electrical connection relationship between the power supply circuit board 7 and the drive circuit board 3 in the motor drive device 1 shown in FIG.

於以下之說明中,分別將彼此正交之3個方向設為X方向、Y方向及Z方向。又,以X方向為左右方向、以Y方向為前後方向、以Z方向為上下方向。又,以X1方向側為“右”側、以X2方向側為“左”側、以Y1方向側為“前”側、以Y2方向側為“後”側、以Z1方向側為“上”側、以Z2方向側為“下”側。 In the following description, the three directions orthogonal to each other are defined as the X direction, the Y direction, and the Z direction. Further, the X direction is the left-right direction, the Y direction is the front-rear direction, and the Z direction is the vertical direction. Further, the X1 direction side is the "right" side, the X2 direction side is the "left" side, the Y1 direction side is the "front" side, the Y2 direction side is the "rear" side, and the Z1 direction side is the "upper" side. The side, the side in the Z2 direction is the "lower" side.

本實施形態之馬達驅動裝置1為用於驅動及控制工業用伺服馬達(省略圖示)之機器,且該馬達驅動裝置1具備複數個用於驅動並控制1台伺服馬達之馬達驅動單元2。即,馬達驅動裝置1由複數個馬達驅動單元2構成。馬達驅動裝置1例如具備6個馬達驅動單元2。該馬達驅動裝置1被安裝於搭載有馬達驅動裝置1之上位裝置(省略圖示)之控制盤等中使用。於本實施形態中,馬達驅動裝置1以上下方向(Z方向)與鉛直方向(重力方向)一致之方式配置。 The motor drive device 1 of the present embodiment is a device for driving and controlling an industrial servo motor (not shown), and the motor drive device 1 includes a plurality of motor drive units 2 for driving and controlling one servo motor. That is, the motor drive device 1 is composed of a plurality of motor drive units 2. The motor drive device 1 includes, for example, six motor drive units 2 . The motor drive device 1 is mounted on a control panel or the like on which a higher-level device (not shown) of the motor drive device 1 is mounted. In the present embodiment, the motor drive device 1 is disposed such that the upper and lower directions (Z direction) coincide with the vertical direction (gravity direction).

6個馬達驅動單元2沿左右方向排列。具體而言,6個馬達驅動單元2以於左右方向上彼此接觸之方式鄰接配置。於本形態中,鄰接之馬達驅動單元2彼此緊密接觸。馬達驅動單元2具備:驅動電路基板3,其安裝有伺服馬達之驅動電路(反相器電路)及控制電路(參照圖4及圖6);框架4,其固定有驅動電路基板3;面板5,其固定於框架4之前端;及外罩部件6,其固定於框架4之下端(參照圖2)。驅動電路基板3為形成為呈大致長方形之平板狀之剛性基板。 The six motor drive units 2 are arranged in the left-right direction. Specifically, the six motor drive units 2 are arranged adjacent to each other in the left-right direction. In the present embodiment, the adjacent motor drive units 2 are in close contact with each other. The motor drive unit 2 includes a drive circuit board 3 to which a drive circuit (inverter circuit) of the servo motor and a control circuit (see FIGS. 4 and 6); a frame 4 to which the drive circuit board 3 is fixed; and a panel 5 It is fixed to the front end of the frame 4; and the cover member 6 is fixed to the lower end of the frame 4 (refer to FIG. 2). The drive circuit board 3 is a rigid board formed into a substantially rectangular flat plate shape.

又,最靠左側配置之馬達驅動單元2具備電源電路基板7(參照圖6),上述電源電路基板7安裝有用於對複數個馬達驅動單元2之驅動電路基板3供給電力之電源電路。即,靠最左側配置之馬達驅動單元2具 備安裝了用於對馬達驅動裝置1之6個驅動電路基板3供給電力之電源電路之電源電路基板7,其餘之5個馬達驅動單元2不具備電源電路基板7。又,靠最左側配置之馬達驅動單元2具備:外罩部件8,其覆蓋驅動電路基板3及電源電路基板7;風扇9,其用於冷卻該馬達驅動單元2之驅動電路基板3(參照圖7);及外罩部件10,其覆蓋風扇9。電源電路基板7為形成為呈大致長方形之平板狀之剛性基板。 Further, the motor drive unit 2 disposed on the leftmost side includes a power supply circuit board 7 (see FIG. 6), and the power supply circuit board 7 is provided with a power supply circuit for supplying electric power to the drive circuit board 3 of the plurality of motor drive units 2. That is, the motor drive unit 2 disposed on the leftmost side has A power supply circuit board 7 for supplying power to the six drive circuit boards 3 of the motor drive unit 1 is mounted, and the remaining five motor drive units 2 do not include the power supply circuit board 7. Further, the motor drive unit 2 disposed on the leftmost side includes a cover member 8 that covers the drive circuit board 3 and the power supply circuit board 7, and a fan 9 that cools the drive circuit board 3 of the motor drive unit 2 (refer to FIG. 7). And a cover member 10 that covers the fan 9. The power circuit board 7 is a rigid board formed into a substantially rectangular flat plate shape.

於本形態中,靠最左側配置之馬達驅動單元2為具備電源電路基板7之主馬達驅動單元。又,除該馬達驅動單元2之外之其餘5個馬達驅動單元2為副馬達驅動單元,上述副馬達驅動單元具備自主馬達驅動單元之電源電路基板7供給電力之驅動電路基板3。於以下之說明中,於將主馬達驅動單元與副馬達驅動單元進行區分表示之情形時,以主馬達驅動單元作為馬達驅動單元2A,以副馬達驅動單元為馬達驅動單元2B~2F。按照自左側之順序依次配置馬達驅動單元2B~2F,馬達驅動單元2F配置於最右側。 In the present embodiment, the motor drive unit 2 disposed on the leftmost side is a main motor drive unit including the power supply circuit board 7. Further, the other five motor drive units 2 other than the motor drive unit 2 are sub motor drive units, and the sub motor drive unit includes a drive circuit board 3 that supplies electric power to the power circuit board 7 of the autonomous motor drive unit. In the following description, when the main motor drive unit and the sub motor drive unit are separately distinguished, the main motor drive unit is used as the motor drive unit 2A, and the sub motor drive unit is the motor drive unit 2B to 2F. The motor drive units 2B to 2F are arranged in this order from the left side, and the motor drive unit 2F is disposed on the rightmost side.

又,於本形態中,6個馬達驅動單元2以由馬達驅動單元2進行驅動之馬達之容量隨著自馬達驅動單元2A向馬達驅動單元2F變小之方式沿左右方向排列。即,馬達驅動單元2A~2F以馬達驅動單元2之輸出容量隨著自馬達驅動單元2A朝向馬達驅動單元2F(隨著朝向右側)變小之方式沿左右方向排列。即,馬達驅動單元2F之輸出容量較馬達驅動單元2A之輸出容量小,且6個馬達驅動單元2以於左右方向上鄰接配置之2個馬達驅動單元2中之配置於右側之馬達驅動單元2之輸出容量為配置於該馬達驅動單元2之左側之馬達驅動單元2(即,於左右方向上鄰接配置之2個馬達驅動單元2中之配置於左側之馬達驅動單元2)之輸出容量以下之方式沿左右方向排列。 Further, in the present embodiment, the capacity of the motor driven by the motor drive unit 2 in the six motor drive units 2 is arranged in the left-right direction as the motor drive unit 2A is made smaller toward the motor drive unit 2F. That is, the motor drive units 2A to 2F are arranged in the left-right direction such that the output capacity of the motor drive unit 2 becomes smaller as it goes from the motor drive unit 2A toward the motor drive unit 2F (toward the right side). That is, the output capacity of the motor drive unit 2F is smaller than the output capacity of the motor drive unit 2A, and the six motor drive units 2 are disposed on the motor drive unit 2 disposed on the right side of the two motor drive units 2 disposed adjacent to each other in the left-right direction. The output capacity is equal to or less than the output capacity of the motor drive unit 2 disposed on the left side of the motor drive unit 2 (that is, the motor drive unit 2 disposed on the left side of the two motor drive units 2 disposed adjacent to each other in the left-right direction). The way is arranged in the left and right direction.

例如,馬達驅動單元2A之輸出容量為1.2kW,馬達驅動單元2B之輸出容量為800W,馬達驅動單元2C之輸出容量為400W,馬達驅 動單元2D之輸出容量為200W,馬達驅動單元2E之輸出容量為100W,馬達驅動單元2F之輸出容量為50W。即,馬達驅動單元2A~2E之輸出容量隨著朝向右側依次減小。或者,例如馬達驅動單元2A之輸出容量為1.2kW,馬達驅動單元2B、2C之輸出容量為800W,馬達驅動單元2D~2F之輸出容量為400W。 For example, the motor drive unit 2A has an output capacity of 1.2 kW, the motor drive unit 2B has an output capacity of 800 W, and the motor drive unit 2C has an output capacity of 400 W. The output capacity of the moving unit 2D is 200 W, the output capacity of the motor driving unit 2E is 100 W, and the output capacity of the motor driving unit 2F is 50 W. That is, the output capacities of the motor drive units 2A to 2E are sequentially decreased toward the right side. Alternatively, for example, the motor drive unit 2A has an output capacity of 1.2 kW, the motor drive units 2B and 2C have an output capacity of 800 W, and the motor drive units 2D to 2F have an output capacity of 400 W.

框架4由鋁合金等之具有散熱性之散熱性材料形成。該框架4具備:基底部4a,其形成為大致長方形之平板狀且與左右方向正交配置;背面部4b,其呈大致平板狀且構成框架4之背面;及上表面部4c,其呈大致平板狀且構成框架4之上端面。背面部4b與前後方向正交配置,上表面部4c與上下方向正交配置。又,背面部4b自基底部4a之上端朝向左側突出。再者,馬達驅動單元2A~2F之框架4左右方向之寬度形成得不同,但大致相同。 The frame 4 is formed of a heat dissipating material such as aluminum alloy which has heat dissipation properties. The frame 4 includes a base portion 4a formed in a substantially rectangular flat plate shape and disposed orthogonally to the left-right direction, a rear surface portion 4b having a substantially flat plate shape and constituting a rear surface of the frame 4, and an upper surface portion 4c which is substantially It is flat and forms the upper end surface of the frame 4. The back surface portion 4b is disposed to be orthogonal to the front-rear direction, and the upper surface portion 4c is disposed to be orthogonal to the vertical direction. Further, the back surface portion 4b protrudes from the upper end of the base portion 4a toward the left side. Further, the widths of the frame 4 of the motor drive units 2A to 2F in the left-right direction are different, but they are substantially the same.

於基底部4a之左側面固定有驅動電路基板3。於基底部4a之右側面形成有散熱部4e,上述散熱部4e用於散發固定於基底部4a之左側面之驅動電路基板3之熱。散熱部4e由散熱用之複數個散熱片構成。於背面部4b形成有插通孔,上述插通孔用於供將馬達驅動裝置1固定到上位裝置之控制盤等螺絲貫穿插入。於上表面部4c中形成有於上下方向上貫通上表面部4c之複數個通氣口4f。通氣口4f以自上表面部4c之左端朝向右端切削之方式形成,自上下方向觀察時,通氣口4f之形狀呈細長之大致U形狀。又,複數個通氣口4f沿前後方向排列。 The drive circuit board 3 is fixed to the left side surface of the base portion 4a. A heat dissipating portion 4e is formed on the right side surface of the base portion 4a, and the heat dissipating portion 4e is for dissipating heat of the driving circuit board 3 fixed to the left side surface of the base portion 4a. The heat radiating portion 4e is composed of a plurality of heat radiating fins for heat dissipation. An insertion hole is formed in the back surface portion 4b, and the insertion hole is for inserting a screw such as a control panel for fixing the motor driving device 1 to the upper device. A plurality of vent holes 4f penetrating the upper surface portion 4c in the vertical direction are formed in the upper surface portion 4c. The vent 4f is formed to be cut from the left end of the upper surface portion 4c toward the right end, and the shape of the vent 4f is elongated and substantially U-shaped when viewed from the vertical direction. Further, a plurality of vent holes 4f are arranged in the front-rear direction.

驅動電路基板3以其厚度方向與左右方向一致之方式固定於基底部4a之左側面。本形態之左右方向(X方向)為驅動電路基板3之厚度方向,馬達驅動單元2A~2F以驅動電路基板3之厚度方向與水平方向一致之方式配置。又,本形態之左方向(X2方向)為作為驅動電路基板3之厚度方向之一方之第1方向,右方向(X1方向)為作為驅動電路基板3之厚度方向之另一方之第2方向。 The drive circuit board 3 is fixed to the left side surface of the base portion 4a such that its thickness direction coincides with the left-right direction. The left-right direction (X direction) of the present embodiment is the thickness direction of the drive circuit board 3, and the motor drive units 2A to 2F are arranged such that the thickness direction of the drive circuit board 3 coincides with the horizontal direction. Further, the left direction (X2 direction) of the present embodiment is the first direction which is one of the thickness directions of the drive circuit board 3, and the right direction (X1 direction) is the other second direction which is the thickness direction of the drive circuit board 3.

於驅動電路基板3中安裝有各種電子零件。於本形態中,於驅動電路基板3之左面安裝有驅動IC等發熱零件。又,於驅動電路基板3之前端側安裝有連接自伺服馬達引出來之電纜等之各種連接器端子。又,如圖2、圖8所示,於驅動電路基板3之下端側安裝有2個能夠連接供電用之電纜(供電用電纜)12之連接器端子13、14。於馬達驅動單元2A中,連接器端子13、14為用於自驅動電路基板3輸出電力之輸出用連接器端子。另一方面,於馬達驅動單元2B~2F中,連接器端子13為用於向驅動電路基板3輸入電力之輸入用連接器端子,連接器端子14為用於自驅動電路基板3輸出電力之輸出用連接器端子。於本形態中,馬達驅動單元2A之連接器端子13、14為主輸出用連接器端子。 Various electronic components are mounted on the drive circuit board 3. In the present embodiment, a heat generating component such as a driver IC is mounted on the left side of the drive circuit board 3. Further, various connector terminals such as a cable connected to the servo motor are attached to the front end side of the drive circuit board 3. Further, as shown in FIGS. 2 and 8, two connector terminals 13 and 14 capable of connecting a power supply cable (power supply cable) 12 are attached to the lower end side of the drive circuit board 3. In the motor drive unit 2A, the connector terminals 13 and 14 are output connector terminals for outputting electric power from the drive circuit board 3. On the other hand, in the motor drive units 2B to 2F, the connector terminal 13 is an input connector terminal for inputting electric power to the drive circuit board 3, and the connector terminal 14 is an output for outputting power from the drive circuit board 3. Use the connector terminals. In the present embodiment, the connector terminals 13 and 14 of the motor drive unit 2A are main output connector terminals.

再者,於驅動電路基板3之下端側安裝有連接器端子15,上述連接器端子15用於對配置於馬達驅動單元2A~2F之外部之外部風扇(省略圖示)供給電力。向外部風扇供給電力之外部風扇供電用電纜能夠與連接器端子15連接。又,於驅動電路基板3之右面安裝有連接器端子16,上述連接器端子16用於對風扇9供給電力。對風扇9供給電力之風扇供電用電纜能夠與連接器端子16連接。 Further, a connector terminal 15 is attached to the lower end side of the drive circuit board 3, and the connector terminal 15 is for supplying electric power to an external fan (not shown) disposed outside the motor drive units 2A to 2F. The external fan power supply cable that supplies electric power to the external fan can be connected to the connector terminal 15. Further, a connector terminal 16 is attached to the right side of the drive circuit board 3, and the connector terminal 16 is for supplying electric power to the fan 9. The fan power supply cable that supplies electric power to the fan 9 can be connected to the connector terminal 16.

連接器端子13~15安裝於驅動電路基板3之前端側。又,如上所述,連接器端子13~15安裝於驅動電路基板3之下端側,連接器端子13~15配置於馬達驅動單元2A~2F之底面。連接器端子13、14以供電用電纜12自馬達驅動單元2A~2F之底面側插入之方式安裝於驅動電路基板3。同樣,連接器端子15亦以外部風扇供電用電纜自馬達驅動單元2A~2F之底面側插入之方式安裝於驅動電路基板3。如圖7所示,連接器端子16配置於基底部4a之右側面。連接器端子16以風扇供電用電纜自馬達驅動單元2A之右側插入之方式安裝於驅動電路基板3。 The connector terminals 13 to 15 are attached to the front end side of the drive circuit board 3. Further, as described above, the connector terminals 13 to 15 are attached to the lower end side of the drive circuit board 3, and the connector terminals 13 to 15 are disposed on the bottom surfaces of the motor drive units 2A to 2F. The connector terminals 13 and 14 are attached to the drive circuit board 3 such that the power supply cable 12 is inserted from the bottom surface side of the motor drive units 2A to 2F. Similarly, the connector terminal 15 is also attached to the drive circuit board 3 so that the external fan power supply cable is inserted from the bottom surface side of the motor drive units 2A to 2F. As shown in FIG. 7, the connector terminal 16 is disposed on the right side surface of the base portion 4a. The connector terminal 16 is attached to the drive circuit board 3 so that the fan power supply cable is inserted from the right side of the motor drive unit 2A.

電源電路基板7配置於馬達驅動單元2A之驅動電路基板3之左 側。於馬達驅動單元2A之基底部4a之左側面固定有朝向左側豎起之支柱,電源電路基板7利用螺絲固定於該支柱之左端面。電源電路基板7以其厚度方向與左右方向一致之方式配置。於電源電路基板7中安裝有各種電子零件。又,於電源電路基板7之前端側安裝有連接器端子,上述連接器端子連接自交流電源引出之電纜。 The power circuit board 7 is disposed on the left side of the drive circuit board 3 of the motor drive unit 2A. side. A pillar that rises toward the left side is fixed to the left side surface of the base portion 4a of the motor drive unit 2A, and the power supply circuit board 7 is fixed to the left end surface of the pillar by screws. The power supply circuit board 7 is disposed such that its thickness direction coincides with the left-right direction. Various electronic components are mounted on the power circuit board 7. Further, a connector terminal is attached to the front end side of the power supply circuit board 7, and the connector terminal is connected to a cable drawn from an AC power source.

風扇9為軸流風扇。該風扇9安裝於馬達驅動單元2A之散熱部4e(即,馬達驅動單元2A之框架4之右側面)。又,風扇9固定於散熱部4e之後端側或固定於中央部,並且固定於散熱部4e之於上下方向上之中心。風扇9利用螺絲固定於散熱部4e。又,風扇9以其軸向與左右方向一致之方式固定於馬達驅動單元2A之散熱部4e。又,風扇9以自右側吸入空氣並朝向左側排出之方式配置。即,風扇9之吸氣側配置於右側,風扇9之排氣側配置於左側。風扇9經由風扇供電用電纜(省略圖示)與連接器端子16連接。再者,風扇9亦能夠安裝於馬達驅動單元2B~2F之框架4之右側面。 The fan 9 is an axial fan. The fan 9 is attached to the heat radiating portion 4e of the motor driving unit 2A (that is, the right side surface of the frame 4 of the motor driving unit 2A). Further, the fan 9 is fixed to the rear end side of the heat radiating portion 4e or fixed to the center portion, and is fixed to the center of the heat radiating portion 4e in the vertical direction. The fan 9 is fixed to the heat radiating portion 4e by screws. Moreover, the fan 9 is fixed to the heat radiating portion 4e of the motor drive unit 2A so that its axial direction coincides with the left-right direction. Further, the fan 9 is disposed such that air is taken in from the right side and discharged toward the left side. That is, the intake side of the fan 9 is disposed on the right side, and the exhaust side of the fan 9 is disposed on the left side. The fan 9 is connected to the connector terminal 16 via a fan power supply cable (not shown). Furthermore, the fan 9 can also be attached to the right side of the frame 4 of the motor drive units 2B to 2F.

於馬達驅動單元2A之面板5中形成有用於使固定於驅動電路基板3之前端側之連接器端子及固定於電源電路基板7之前端側之連接器端子露出之開口部。於馬達驅動單元2B~2F之面板5中形成有用於使固定於驅動電路基板3之前端側之連接器端子露出之開口部。又,於面板5之上端側配置有控制台。 An opening portion for exposing the connector terminal fixed to the front end side of the drive circuit board 3 and the connector terminal fixed to the front end side of the power supply circuit board 7 is formed in the panel 5 of the motor drive unit 2A. Openings for exposing the connector terminals fixed to the front end side of the drive circuit board 3 are formed in the panel 5 of the motor drive units 2B to 2F. Further, a console is disposed on the upper end side of the panel 5.

馬達驅動單元2A之外罩部件6覆蓋驅動電路基板3、框架4及電源電路基板7之下端。馬達驅動單元2B~2F之外罩部件6覆蓋驅動電路基板3及框架4之下端。如圖2所示,於外罩部件6中形成有用於使連接器端子13~15露出之開口部。又,於外罩部件6中形成有於上下方向上將外罩部件6貫通之複數個通氣口6a。通氣口6a形成為於左右方向呈細長之長圓形狀。又,複數個通氣口6a形成於外罩部件6之後端側並且於前後方向上排列。 The motor cover unit 2A covers the lower end of the drive circuit board 3, the frame 4, and the power supply circuit board 7 with the cover member 6. The motor drive unit 2B to 2F cover member 6 covers the drive circuit board 3 and the lower end of the frame 4. As shown in FIG. 2, an opening for exposing the connector terminals 13 to 15 is formed in the cover member 6. Further, a plurality of vent holes 6a penetrating the cover member 6 in the vertical direction are formed in the cover member 6. The vent hole 6a is formed in an elongated circular shape in the left-right direction. Further, a plurality of vent holes 6a are formed on the rear end side of the cover member 6, and are arranged in the front-rear direction.

外罩部件8固定於馬達驅動單元2A之框架4之左端側。該外罩部件8自左側覆蓋驅動電路基板3及電源電路基板7。外罩部件10固定於馬達驅動單元2A之框架4之右側面。該外罩部件10自右側覆蓋風扇9。如圖5所示,於外罩部件10之與風扇9對應之部位形成有於左右方向上將外罩部件10貫通之複數個通氣口10a。通氣口10a形成為大致圓弧狀,且複數個通氣口10a配置成圓環狀。 The cover member 8 is fixed to the left end side of the frame 4 of the motor drive unit 2A. The cover member 8 covers the drive circuit board 3 and the power supply circuit board 7 from the left side. The cover member 10 is fixed to the right side surface of the frame 4 of the motor drive unit 2A. The cover member 10 covers the fan 9 from the right side. As shown in FIG. 5, a plurality of vent holes 10a penetrating the cover member 10 in the left-right direction are formed in a portion of the cover member 10 corresponding to the fan 9. The vent hole 10a is formed in a substantially arc shape, and the plurality of vent holes 10a are arranged in an annular shape.

如上所述,馬達驅動單元2A~2F以於左右方向上彼此接觸之方式鄰接配置。具體而言,馬達驅動單元2A~2F分別以馬達驅動單元2A之外罩部件10之右側面與馬達驅動單元2B之上表面部4c之左端面及外罩部件6之左端面接觸、且馬達驅動單元2B~2E之散熱部4e之右端面與馬達驅動單元2C~2F之上表面部4c之左端面及外罩部件6之左端面接觸之方式鄰接配置。 As described above, the motor drive units 2A to 2F are arranged adjacent to each other in the left-right direction. Specifically, the motor drive units 2A to 2F are respectively in contact with the left end surface of the upper surface portion 4c of the motor drive unit 2B and the left end surface of the cover member 6 with the right side surface of the outer cover member 10 of the motor drive unit 2A, and the motor drive unit 2B The right end surface of the heat radiating portion 4e of the ~2E is disposed adjacent to the left end surface of the upper surface portion 4c of the motor driving units 2C to 2F and the left end surface of the cover member 6.

於馬達驅動單元2A中,驅動電路基板3與電源電路基板7以藉由省略圖示之電纜等自電源電路基板7向驅動電路基板3供給電力之方式電性連接。又,馬達驅動單元2A之連接器端子13或者連接器端子14與馬達驅動單元2B之連接器端子13經由供電用電纜12連接。於本形態中,馬達驅動單元2A之連接器端子14與馬達驅動單元2B之連接器端子13經由供電用電纜12而連接。又,馬達驅動單元2B之連接器端子14與馬達驅動單元2C之連接器端子13經由供電用電纜12連接,馬達驅動單元2C之連接器端子14與馬達驅動單元2D之連接器端子13經由供電用電纜12連接,馬達驅動單元2D之連接器端子14與馬達驅動單元2E之連接器端子13經由供電用電纜12連接,馬達驅動單元2E之連接器端子14與馬達驅動單元2F之連接器端子13經由供電用電纜12連接。即,於左右方向上彼此鄰接配置之2個馬達驅動單元2B~2F中之配置於左側之馬達驅動單元2B~2E之輸出用連接器端子與於左右方向上彼此鄰接配置之2個馬達驅動單元2B~2F中之配置於右側之馬達 驅動單元2C~2F之輸入用連接器端子經由供電用電纜12而連接。 In the motor drive unit 2A, the drive circuit board 3 and the power supply circuit board 7 are electrically connected to each other from the power supply circuit board 7 to the drive circuit board 3 by a cable or the like (not shown). Further, the connector terminal 13 of the motor drive unit 2A or the connector terminal 14 and the connector terminal 13 of the motor drive unit 2B are connected via the power supply cable 12. In the present embodiment, the connector terminal 14 of the motor drive unit 2A and the connector terminal 13 of the motor drive unit 2B are connected via the power supply cable 12. Further, the connector terminal 14 of the motor drive unit 2B and the connector terminal 13 of the motor drive unit 2C are connected via the power supply cable 12, and the connector terminal 14 of the motor drive unit 2C and the connector terminal 13 of the motor drive unit 2D are supplied with power. The cable 12 is connected, and the connector terminal 14 of the motor drive unit 2D and the connector terminal 13 of the motor drive unit 2E are connected via the power supply cable 12, and the connector terminal 14 of the motor drive unit 2E and the connector terminal 13 of the motor drive unit 2F are connected via The power supply cable 12 is connected. In other words, the output connector terminals of the motor drive units 2B to 2E disposed on the left side and the two motor drive units disposed adjacent to each other in the left-right direction among the two motor drive units 2B to 2F disposed adjacent to each other in the left-right direction 2B~2F motor arranged on the right side The input connector terminals of the drive units 2C to 2F are connected via the power supply cable 12.

電源電路基板7與6個驅動電路基板3並聯電性連接(參照圖8)。又,於本形態中,配線長度按照馬達驅動單元2A之驅動電路基板3與電源電路基板7之間之配線(電性路徑之長度)、馬達驅動單元2B之驅動電路基板3與電源電路基板7之間之配線、馬達驅動單元2C之驅動電路基板3與電源電路基板7之間之配線、馬達驅動單元2D之驅動電路基板3與電源電路基板7之間之配線、馬達驅動單元2E之驅動電路基板3與電源電路基板7之間之配線及馬達驅動單元2F之驅動電路基板3與電源電路基板7之間之配線之順序逐漸變長。 The power circuit board 7 is electrically connected in parallel to the six drive circuit boards 3 (see FIG. 8). Further, in the present embodiment, the wiring length is in accordance with the wiring (the length of the electrical path) between the drive circuit board 3 of the motor drive unit 2A and the power supply circuit board 7, the drive circuit board 3 of the motor drive unit 2B, and the power supply circuit board 7 Between the wiring, the wiring between the drive circuit board 3 of the motor drive unit 2C and the power supply circuit board 7, the wiring between the drive circuit board 3 of the motor drive unit 2D and the power supply circuit board 7, and the drive circuit of the motor drive unit 2E The wiring between the substrate 3 and the power supply circuit board 7 and the wiring between the drive circuit board 3 of the motor drive unit 2F and the power supply circuit board 7 are gradually increased.

即,6個馬達驅動單元2之驅動電路基板3與電源電路基板7以於左右方向上彼此鄰接配置之2個馬達驅動單元2中之配置於左側之馬達驅動單元2之驅動電路基板3與電源電路基板7之間之配線長度較於左右方向上彼此鄰接配置之2個馬達驅動單元2中之配置於右側之馬達驅動單元2之驅動電路基板3與電源電路基板7之間之配線長度短之方式並聯電性連接。 In other words, the drive circuit board 3 of the six motor drive units 2 and the power supply circuit board 7 are disposed on the drive circuit board 3 and the power supply of the motor drive unit 2 disposed on the left side of the two motor drive units 2 disposed adjacent to each other in the left-right direction. The wiring length between the circuit boards 7 is shorter than the wiring length between the drive circuit board 3 and the power supply circuit board 7 of the motor drive unit 2 disposed on the right side of the two motor drive units 2 disposed adjacent to each other in the left-right direction. The mode is electrically connected in parallel.

於外罩部件10之右側面與馬達驅動單元2B之驅動電路基板3之間形成有間隙。又,馬達驅動單元2B之驅動電路基板3配置於風扇9之右側。即,馬達驅動單元2B之驅動電路基板3以自右側與風扇9之吸氣側對向之方式配置。具體而言,安裝有馬達驅動單元2B之驅動電路基板3之發熱零件之部分自右側直接與風扇9之吸氣側對向配置。又,馬達驅動單元2B之框架4之通氣口4f及馬達驅動單元2B之外罩部件6之通氣口6a於左右方向上配置於較馬達驅動單元2B之驅動電路基板3靠左側之位置。 A gap is formed between the right side surface of the cover member 10 and the drive circuit board 3 of the motor drive unit 2B. Moreover, the drive circuit board 3 of the motor drive unit 2B is disposed on the right side of the fan 9. That is, the drive circuit board 3 of the motor drive unit 2B is disposed to face the intake side of the fan 9 from the right side. Specifically, a portion of the heat generating component on which the drive circuit board 3 of the motor drive unit 2B is mounted is disposed directly opposite to the intake side of the fan 9 from the right side. Further, the vent 4f of the frame 4 of the motor drive unit 2B and the vent 6a of the cover member 6 of the motor drive unit 2B are disposed on the left side of the drive circuit board 3 of the motor drive unit 2B in the left-right direction.

於本形態中,當風扇9旋轉時,如圖3之箭頭V1所示,空氣自馬達驅動單元2B之通氣口4f、6a吸入,並且,自通氣口4f、6a吸入之空氣藉由風扇9而向馬達驅動單元2A之散熱部4e輸送。即,風扇9藉由 自馬達驅動單元2B之通氣口4f、6a吸入空氣並將空氣朝向馬達驅動單元2A之散熱部4e輸送來對散熱部4e進行冷卻。向馬達驅動單元2A之散熱部4e輸送之空氣於到達馬達驅動單元2A之基底部4a之右側面後,沿著基底部4a之右側面於上下方向流動,如圖3之箭頭V2所示,排出至馬達驅動裝置1之外部。又,於本形態中,由於於風扇9旋轉時,空氣會被自馬達驅動單元2B之通氣口4f、6a吸入,因此會於馬達驅動單元2B之驅動電路基板3之周圍產生空氣流動。 In the present embodiment, when the fan 9 rotates, as shown by an arrow V1 in FIG. 3, air is taken in from the vents 4f, 6a of the motor drive unit 2B, and the air taken in from the vents 4f, 6a is blown by the fan 9 It is sent to the heat radiating portion 4e of the motor drive unit 2A. That is, the fan 9 is by Air is taken in from the vents 4f, 6a of the motor drive unit 2B, and air is sent toward the heat radiating portion 4e of the motor drive unit 2A to cool the heat radiating portion 4e. The air sent to the heat radiating portion 4e of the motor driving unit 2A reaches the right side surface of the base portion 4a of the motor driving unit 2A, and then flows in the vertical direction along the right side surface of the base portion 4a, as shown by an arrow V2 in FIG. To the outside of the motor drive unit 1. Further, in the present embodiment, since the air is sucked from the vent ports 4f and 6a of the motor drive unit 2B when the fan 9 rotates, air flows around the drive circuit board 3 of the motor drive unit 2B.

再者,自通氣口4f、6a吸入之空氣經過外罩部件10之通氣口10a而被吸入到風扇9。又,根據馬達驅動單元2C-2F之發熱量設置外部風扇以便對馬達驅動單元2C~2F之驅動電路基板3進行冷卻。例如,於4個馬達驅動單元2C~2F之下側配置外部風扇,外部風扇向上側輸送空氣。 Further, the air taken in from the vent ports 4f, 6a is sucked into the fan 9 through the vent opening 10a of the cover member 10. Further, an external fan is provided in accordance with the amount of heat generated by the motor drive unit 2C-2F to cool the drive circuit board 3 of the motor drive units 2C to 2F. For example, an external fan is disposed below the four motor drive units 2C to 2F, and the external fan delivers air to the upper side.

(本形態之主要效果) (The main effect of this form)

如上述說明,於本形態中,6個馬達驅動單元2以馬達驅動單元2之輸出容量隨著自馬達驅動單元2A向馬達驅動單元2F變小之方式沿左右方向排列。因此,於本形態中,流經各馬達驅動單元2之驅動電路基板3之電流(驅動電路基板3之消耗電流)隨著自馬達驅動單元2A向馬達驅動單元2F變小。又,於本形態中,6個馬達驅動單元2之驅動電路基板3與電源電路基板7以於左右方向上彼此鄰接配置之2個馬達驅動單元2中之配置於左側之馬達驅動單元2之驅動電路基板3與電源電路基板7之間之配線長度較於左右方向上彼此鄰接配置之2個馬達驅動單元2中之配置於右側之馬達驅動單元2之驅動電路基板3與電源電路基板7之間之配線長度短之方式並聯電性連接。因此,於本形態中,能夠有效地減小隨著自馬達驅動單元2A與馬達驅動單元2B之間之供電用電纜12向馬達驅動單元2E與馬達驅動單元2F之間之供電用電纜12流經供電用電纜12之電流。 As described above, in the present embodiment, the output capacities of the six motor drive units 2 in the motor drive unit 2 are arranged in the left-right direction as the motor drive unit 2A becomes smaller from the motor drive unit 2F. Therefore, in the present embodiment, the current flowing through the drive circuit board 3 of each motor drive unit 2 (the current consumption of the drive circuit board 3) becomes smaller from the motor drive unit 2A to the motor drive unit 2F. In the present embodiment, the drive circuit board 3 of the six motor drive units 2 and the power supply circuit board 7 are driven by the motor drive unit 2 disposed on the left side of the two motor drive units 2 disposed adjacent to each other in the left-right direction. The wiring length between the circuit board 3 and the power supply circuit board 7 is between the drive circuit board 3 and the power supply circuit board 7 of the motor drive unit 2 disposed on the right side of the two motor drive units 2 disposed adjacent to each other in the left-right direction. The wiring length is short and the electrical connection is made in parallel. Therefore, in the present embodiment, it is possible to effectively reduce the flow of the power supply cable 12 between the motor drive unit 2E and the motor drive unit 2F from the power supply cable 12 between the motor drive unit 2A and the motor drive unit 2B. The current of the power supply cable 12.

即,例如,若模式性地以流經馬達驅動單元2B之驅動電路基板3之電流為“5”、流經馬達驅動單元2C之驅動電路基板3之電流為“4”、流經馬達驅動單元2D之驅動電路基板3之電流為“3”、流經馬達驅動單元2E之驅動電路基板3之電流為“2”、流經馬達驅動單元2F之驅動電路基板3之電流為“1”,則於本形態中,如圖9(A)所示,流經馬達驅動單元2A與馬達驅動單元2B之間之供電用電纜12之電流為“15”,流經馬達驅動單元2B與馬達驅動單元2C之間之供電用電纜12之電流為“10”,流經馬達驅動單元2C與馬達驅動單元2D之間之供電用電纜12之電流為“6”,流經馬達驅動單元2D與馬達驅動單元2E之間之供電用電纜12之電流為“3”,流經馬達驅動單元2E與馬達驅動單元2F之間之供電用電纜12之電流為“1”。 In other words, for example, the current flowing through the drive circuit board 3 of the motor drive unit 2B is "5", and the current flowing through the drive circuit board 3 of the motor drive unit 2C is "4", flowing through the motor drive unit. When the current of the drive circuit board 3 of the 2D is "3", the current flowing through the drive circuit board 3 of the motor drive unit 2E is "2", and the current flowing through the drive circuit board 3 of the motor drive unit 2F is "1", then the current is "1". In the present embodiment, as shown in FIG. 9(A), the current flowing through the power supply cable 12 between the motor drive unit 2A and the motor drive unit 2B is "15", and flows through the motor drive unit 2B and the motor drive unit 2C. The current between the power supply cable 12 is "10", and the current flowing through the power supply cable 12 between the motor drive unit 2C and the motor drive unit 2D is "6", flowing through the motor drive unit 2D and the motor drive unit 2E. The current between the power supply cable 12 is "3", and the current flowing through the power supply cable 12 between the motor drive unit 2E and the motor drive unit 2F is "1".

與此相應,例如,當馬達驅動單元2B~2F以馬達驅動單元2之輸出容量隨著自馬達驅動單元2B向馬達驅動單元2F變大之方式沿左右方向排列之情形時,如圖9(B)所示,流經馬達驅動單元2A與馬達驅動單元2B之間之供電用電纜12之電流為“15”,流經馬達驅動單元2B與馬達驅動單元2C之間之供電用電纜12之電流為“14”,流經馬達驅動單元2C與馬達驅動單元2D之間之供電用電纜12之電流為“12”,流經馬達驅動單元2D與馬達驅動單元2E之間之供電用電纜12之電流為“9”,流經馬達驅動單元2E與馬達驅動單元2F之間之供電用電纜12之電流為“5”。 In response to this, for example, when the motor drive units 2B to 2F are arranged in the left-right direction in such a manner that the output capacity of the motor drive unit 2 is increased from the motor drive unit 2B to the motor drive unit 2F, as shown in FIG. 9 (B). The current flowing through the power supply cable 12 between the motor drive unit 2A and the motor drive unit 2B is "15", and the current flowing through the power supply cable 12 between the motor drive unit 2B and the motor drive unit 2C is "14", the current flowing through the power supply cable 12 between the motor drive unit 2C and the motor drive unit 2D is "12", and the current flowing through the power supply cable 12 between the motor drive unit 2D and the motor drive unit 2E is "9", the current flowing through the power supply cable 12 between the motor drive unit 2E and the motor drive unit 2F is "5".

又,例如,於馬達驅動單元2A之連接器端子14與距離馬達驅動單元2A最遠之馬達驅動單元2F之連接器端子13經由供電用電纜12連接,馬達驅動單元2F之連接器端子14與馬達驅動單元2E之連接器端子13經由供電用電纜12連接,馬達驅動單元2E之連接器端子14與馬達驅動單元2D之連接器端子13經由供電用電纜12連接,馬達驅動單元2D之連接器端子14與馬達驅動單元2C之連接器端子13經由供電用電 纜12連接,馬達驅動單元2C之連接器端子14與馬達驅動單元2B之連接器端子13經由供電用電纜12連接之情形時,流經各馬達驅動單元2之間之供電用電纜12之電流如圖9(C)所示。 Further, for example, the connector terminal 14 of the motor drive unit 2A and the connector terminal 13 of the motor drive unit 2F farthest from the motor drive unit 2A are connected via the power supply cable 12, and the connector terminal 14 of the motor drive unit 2F and the motor The connector terminal 13 of the drive unit 2E is connected via the power supply cable 12, and the connector terminal 14 of the motor drive unit 2E and the connector terminal 13 of the motor drive unit 2D are connected via the power supply cable 12, and the connector terminal 14 of the motor drive unit 2D. The connector terminal 13 of the motor drive unit 2C is powered by power. When the cable 12 is connected, when the connector terminal 14 of the motor drive unit 2C and the connector terminal 13 of the motor drive unit 2B are connected via the power supply cable 12, the current flowing through the power supply cable 12 between the motor drive units 2 is as Figure 9 (C).

如此,於本形態中,能夠有效減小隨著自馬達驅動單元2A與馬達驅動單元2B之間之供電用電纜12向馬達驅動單元2E與馬達驅動單元2F之間之供電用電纜12流經馬達驅動單元2之間之供電用電纜12之電流。即,於本形態中,隨著距離電源電路基板7之配線距離變長,就越能夠有效地減小流經電源電路基板7與驅動電路基板3之間配線之電流。因此,於本形態中,能夠減小配線之流經較大電流部分之電阻,且能夠縮小配線之流經較大電阻部分之電流,其結果,能夠抑制電源電路基板7與驅動電路基板3之間之電壓下降。 Thus, in the present embodiment, it is possible to effectively reduce the flow of the power supply cable 12 between the motor drive unit 2E and the motor drive unit 2F from the motor drive unit 2A and the motor drive unit 2B to the power supply cable 12 through the motor. The current of the power supply cable 12 between the drive units 2. In other words, in the present embodiment, as the wiring distance from the power supply circuit board 7 becomes longer, the current flowing through the wiring between the power supply circuit board 7 and the drive circuit board 3 can be effectively reduced. Therefore, in the present embodiment, the electric resistance of the wiring flowing through the large current portion can be reduced, and the current flowing through the large resistance portion of the wiring can be reduced, and as a result, the power supply circuit board 7 and the driving circuit substrate 3 can be suppressed. The voltage between them drops.

又,於輸出容量較大之馬達驅動單元2之驅動電路基板3中,由於消耗電流變大,因此該驅動電路基板3會產生較大之雜訊,但該驅動電路基板3不易受雜訊影響。另一方面,於輸出容量較小之馬達驅動單元2之驅動電路基板3中,由於消耗電流變小,因此該驅動電路基板3所產生之雜訊變得較小,但該驅動電路基板3容易受雜訊影響。又,於電源電路基板7與驅動電路基板3之間之配線中,隨著流經配線之電流變大,配線所產生之雜訊亦變大。於本形態中,由於馬達驅動單元2之輸出容量隨著自馬達驅動單元2A向馬達驅動單元2F變小之方式沿左右方向排列,因此能夠於產生較大雜訊之馬達驅動單元2之驅動電路基板3附近配置不易受雜訊影響之驅動電路基板3,而於所產生之雜訊較小之馬達驅動單元2之驅動電路基板3附近配置容易受雜訊影響之驅動電路基板3。又,於本形態中,隨著距離電源電路基板7之配線距離變長,就越能夠有效地減小流經電源電路基板7與驅動電路基板3之間配線之電流,因此流經不易受雜訊影響之驅動電路基板3附近之配線之電流變大,但流經容易受雜訊影響之驅動電路基板3附近之 配線之電流變小,並且容易受雜訊影響之驅動電路基板3之附近之配線所產生之雜訊變小。因此,於本形態中,能夠減小驅動電路基板3所受之雜訊之影響。 Further, in the drive circuit board 3 of the motor drive unit 2 having a large output capacity, since the current consumption is increased, the drive circuit board 3 generates a large amount of noise, but the drive circuit board 3 is less susceptible to noise. . On the other hand, in the drive circuit board 3 of the motor drive unit 2 having a small output capacity, since the current consumption is small, the noise generated by the drive circuit board 3 becomes small, but the drive circuit board 3 is easy. Affected by noise. Further, in the wiring between the power supply circuit board 7 and the drive circuit board 3, as the current flowing through the wiring becomes larger, the noise generated by the wiring also becomes larger. In the present embodiment, since the output capacity of the motor drive unit 2 is arranged in the left-right direction as the motor drive unit 2A becomes smaller toward the motor drive unit 2F, the drive circuit of the motor drive unit 2 capable of generating a large amount of noise can be generated. The drive circuit board 3 which is less susceptible to noise is disposed in the vicinity of the substrate 3, and the drive circuit board 3 which is susceptible to noise is disposed in the vicinity of the drive circuit board 3 of the motor drive unit 2 in which noise is generated. Further, in the present embodiment, as the wiring distance from the power supply circuit board 7 becomes longer, the current flowing through the wiring between the power supply circuit board 7 and the drive circuit board 3 can be effectively reduced, so that it is less susceptible to flow. The current of the wiring in the vicinity of the drive circuit board 3 affected by the signal becomes large, but flows through the vicinity of the drive circuit board 3 which is easily affected by noise. The current generated by the wiring becomes small, and the noise generated by the wiring in the vicinity of the drive circuit board 3 which is easily affected by noise becomes small. Therefore, in the present aspect, the influence of the noise received by the drive circuit board 3 can be reduced.

又,於本形態中,由於隨著距離電源電路基板7之配線距離變長,就越能夠有效地減小流經電源電路基板7與驅動電路基板3之間之配線之電流,因此隨著朝向右側就越能夠將供電用電纜12設置得細一些。 Further, in the present embodiment, as the wiring distance from the power supply circuit board 7 becomes longer, the current flowing through the wiring between the power supply circuit board 7 and the drive circuit board 3 can be effectively reduced, so that the direction is The more the right side, the more the power supply cable 12 can be set.

又,於本形態中,由於6個馬達驅動單元2以馬達驅動單元2之輸出容量隨著自馬達驅動單元2A向馬達驅動單元2F變小之方式沿左右方向排列,因此各馬達驅動單元2中之發熱量隨著自馬達驅動單元2A向馬達驅動單元2F變小,但仍舊於馬達驅動單元2A中設置風扇9並根據馬達驅動單元2C~2F之發熱量而設置外部風扇。因此,於本形態中,能夠利用風扇9及外部風扇,集中對發熱量較大之馬達驅動單元2進行冷卻,並且能夠根據需要對發熱量較小之馬達驅動單元2進行冷卻。 Further, in the present embodiment, since the output capacities of the six motor drive units 2 are arranged in the left-right direction as the motor drive unit 2A becomes smaller from the motor drive unit 2F, the motor drive unit 2 is arranged in each of the motor drive units 2 The amount of heat generated becomes smaller from the motor drive unit 2A to the motor drive unit 2F, but the fan 9 is still provided in the motor drive unit 2A and an external fan is provided in accordance with the amount of heat generated by the motor drive units 2C to 2F. Therefore, in the present embodiment, the fan drive unit 9 and the external fan can be used to cool the motor drive unit 2 that generates a large amount of heat, and the motor drive unit 2 that generates a small amount of heat can be cooled as needed.

於本形態中,馬達驅動單元2A之連接器端子14與馬達驅動單元2B之連接器端子13經由供電用電纜12連接,且於左右方向上彼此鄰接配置之2個馬達驅動單元2B~2F中之配置於左側之馬達驅動單元2B~2E之輸出用連接器端子與於左右方向上彼此鄰接配置之2個馬達驅動單元2B~2F中之配置於右側之馬達驅動單元2C~2F之輸入用連接器端子經由供電用電纜12連接。因此,於本形態中,與馬達驅動單元2A分別同5個馬達驅動單元2B~2F經由供電用電纜12連接之情形相比,能夠縮短供電用電纜12之長度。因此,於本形態中,能夠整齊有序地拉繞供電用電纜12。 In the present embodiment, the connector terminal 14 of the motor drive unit 2A and the connector terminal 13 of the motor drive unit 2B are connected via the power supply cable 12, and are disposed in two motor drive units 2B to 2F which are disposed adjacent to each other in the left-right direction. The output connector for the motor drive units 2B to 2E disposed on the left side and the input connector for the motor drive units 2C to 2F disposed on the right side of the two motor drive units 2B to 2F disposed adjacent to each other in the left-right direction The terminals are connected via a power supply cable 12. Therefore, in the present embodiment, the length of the power supply cable 12 can be shortened compared to the case where the five motor drive units 2B to 2F are connected to the motor drive unit 2A via the power supply cable 12, respectively. Therefore, in the present embodiment, the power supply cable 12 can be wound in a neat and orderly manner.

於本形態中,於馬達驅動單元2A之框架4之右側面安裝有風扇9,當風扇9旋轉時,自通氣口4f、6a吸入之空氣被朝向馬達驅動單元 2A之散熱部4e輸送,並且於馬達驅動單元2B之驅動電路基板3之周圍產生空氣流動。因此,於本形態中,能夠藉由朝向馬達驅動單元2A之散熱部4e輸送之空氣,經由散熱部4e來冷卻固定於馬達驅動單元2A之基底部4a之驅動電路基板3,並能夠藉由於馬達驅動單元2B之驅動電路基板3之周圍產生之空氣流動,對馬達驅動單元2B之驅動電路基板3進行冷卻。因此,於本形態中,能夠利用共用之風扇9對馬達驅動單元2A之散熱零件及馬達驅動單元2B之散熱零件進行冷卻。 In the present embodiment, a fan 9 is attached to the right side surface of the frame 4 of the motor drive unit 2A, and when the fan 9 rotates, the air taken in from the vent ports 4f, 6a is directed toward the motor drive unit. The heat radiating portion 4e of 2A is transported, and air flow is generated around the drive circuit substrate 3 of the motor drive unit 2B. Therefore, in the present embodiment, the air supplied to the heat radiating portion 4e of the motor driving unit 2A can be cooled by the heat radiating portion 4e to the drive circuit board 3 fixed to the base portion 4a of the motor driving unit 2A, and can be driven by the motor. The air generated around the drive circuit board 3 of the drive unit 2B flows, and the drive circuit board 3 of the motor drive unit 2B is cooled. Therefore, in the present embodiment, the heat radiating parts of the motor drive unit 2A and the heat radiating parts of the motor drive unit 2B can be cooled by the shared fan 9.

於本形態中,沿左右方向排列之6個馬達驅動單元2彼此緊密接觸。因此,於本形態中,能夠縮窄馬達驅動裝置1之設置空間。 In the present embodiment, the six motor drive units 2 arranged in the left-right direction are in close contact with each other. Therefore, in the present aspect, the installation space of the motor drive device 1 can be narrowed.

(馬達驅動裝置之變化例) (Changes in the motor drive unit)

圖10為本發明之其他實施形態之馬達驅動裝置1之前視圖。圖11為用於說明圖10所示之馬達驅動裝置1中之電源電路基板7與驅動電路基板3電性連接關係之模式圖。 Fig. 10 is a front elevational view showing the motor driving device 1 according to another embodiment of the present invention. FIG. 11 is a schematic view for explaining the electrical connection relationship between the power supply circuit board 7 and the drive circuit board 3 in the motor drive device 1 shown in FIG.

於上述形態中,於進一步增加馬達驅動裝置1所具備之馬達驅動單元2之個數之情形時,為了縮小馬達驅動裝置1之設置面積,而可將複數個馬達驅動單元2排列成2層。例如,如圖10所示,馬達驅動裝置1具備6個與馬達驅動單元2B~2F構成為相同之馬達驅動單元2G~2L,且6個馬達驅動單元2G~2L以於左右方向上彼此接觸之方式鄰接配置,且亦可於上下方向上與6個馬達驅動單元2A~2F重疊配置。於圖10所示之例子中,馬達驅動單元2G~2L配置於馬達驅動單元2A~2F之下側。該情形時之馬達驅動單元2G~2L為第2副馬達驅動單元。再者,馬達驅動單元2G~2L亦可配置於馬達驅動單元2A~2F之上側。 In the above aspect, when the number of the motor drive units 2 included in the motor drive device 1 is further increased, a plurality of motor drive units 2 can be arranged in two layers in order to reduce the installation area of the motor drive device 1. For example, as shown in FIG. 10, the motor drive device 1 includes six motor drive units 2G to 2L that are identical to the motor drive units 2B to 2F, and six motor drive units 2G to 2L are in contact with each other in the left-right direction. The arrangement is adjacent to the arrangement, and may be arranged in an overlapping manner with the six motor drive units 2A to 2F in the vertical direction. In the example shown in FIG. 10, the motor drive units 2G to 2L are disposed on the lower side of the motor drive units 2A to 2F. In this case, the motor drive units 2G to 2L are the second sub motor drive units. Furthermore, the motor drive units 2G to 2L may be disposed on the upper side of the motor drive units 2A to 2F.

6個馬達驅動單元2G~2L按照自左側之順序配置。由馬達驅動單元2G驅動之馬達之容量為由馬達驅動單元2A驅動馬達之容量以下。即,馬達驅動單元2G之輸出容量為馬達驅動單元2A之輸出容量以 下,又,6個馬達驅動單元2G~2L以由馬達驅動單元2G~2L驅動之馬達之容量隨著自馬達驅動單元2G向馬達驅動單元2L變小之方式(馬達驅動單元2G~2L之輸出容量變小之方式)沿左右方向排列。即,馬達驅動單元2L之輸出容量較馬達驅動單元2G之輸出容量小,且6個馬達驅動單元2G~2L以於左右方向上鄰接配置之2個馬達驅動單元2G~2L中之配置於右側之馬達驅動單元2G~2K之輸出容量為配置於該馬達驅動單元2之左側之馬達驅動單元2H~2L之輸出容量以下之方式沿左右方向排列。再者,馬達驅動單元2G具備外罩部件8。 The six motor drive units 2G to 2L are arranged in order from the left side. The capacity of the motor driven by the motor drive unit 2G is equal to or less than the capacity of the motor driven by the motor drive unit 2A. That is, the output capacity of the motor drive unit 2G is the output capacity of the motor drive unit 2A. Further, the six motor drive units 2G to 2L are driven by the motor drive unit 2G to 2L in a manner that the capacity of the motor is reduced from the motor drive unit 2G to the motor drive unit 2L (the output of the motor drive unit 2G to 2L) The way the capacity becomes smaller is arranged in the left and right direction. In other words, the output capacity of the motor drive unit 2L is smaller than the output capacity of the motor drive unit 2G, and the six motor drive units 2G to 2L are disposed on the right side of the two motor drive units 2G to 2L disposed adjacent to each other in the left-right direction. The output capacities of the motor drive units 2G to 2K are arranged in the left-right direction so as to be equal to or smaller than the output capacities of the motor drive units 2H to 2L disposed on the left side of the motor drive unit 2. Furthermore, the motor drive unit 2G is provided with the cover member 8.

馬達驅動單元2A之連接器端子13與馬達驅動單元2G之連接器端子13經由供電用電纜12連接。又,馬達驅動單元2G之連接器端子14與馬達驅動單元2H之連接器端子13經由供電用電纜12連接,馬達驅動單元2H之連接器端子14與馬達驅動單元2I之連接器端子13經由供電用電纜12連接,馬達驅動單元2I之連接器端子14與馬達驅動單元2J之連接器端子13經由供電用電纜12連接,馬達驅動單元2J之連接器端子14與馬達驅動單元2K之連接器端子13之間經由供電用電纜12連接,馬達驅動單元2K之連接器端子14與馬達驅動單元2L之連接器端子13經由供電用電纜12連接。即,於左右方向上彼此鄰接配置之2個馬達驅動單元2G~2L中之配置於左側之馬達驅動單元2G~2K之輸出用連接器端子與於左右方向上彼此鄰接配置之2個馬達驅動單元2G~2L中之配置於右側之馬達驅動單元2H~2L之輸入用連接器端子經由供電用電纜12連接。 The connector terminal 13 of the motor drive unit 2A and the connector terminal 13 of the motor drive unit 2G are connected via a power supply cable 12. Further, the connector terminal 14 of the motor drive unit 2G and the connector terminal 13 of the motor drive unit 2H are connected via the power supply cable 12, and the connector terminal 14 of the motor drive unit 2H and the connector terminal 13 of the motor drive unit 2I are supplied with power. The cable 12 is connected, and the connector terminal 14 of the motor drive unit 2I and the connector terminal 13 of the motor drive unit 2J are connected via a power supply cable 12, and the connector terminal 14 of the motor drive unit 2J and the connector terminal 13 of the motor drive unit 2K The power supply cable 12 is connected to each other, and the connector terminal 14 of the motor drive unit 2K and the connector terminal 13 of the motor drive unit 2L are connected via the power supply cable 12. In other words, the output connector terminals of the motor drive units 2G to 2K disposed on the left side and the two motor drive units disposed adjacent to each other in the left-right direction among the two motor drive units 2G to 2L disposed adjacent to each other in the left-right direction Among the 2G to 2L, the input connector terminals of the motor drive units 2H to 2L disposed on the right side are connected via the power supply cable 12.

馬達驅動單元2G~2L之驅動電路基板3與電源電路基板7並聯電性連接(參照圖11)。又,配線長度按照馬達驅動單元2A之驅動電路基板3與電源電路基板7之間之配線、馬達驅動單元2G之驅動電路基板3與電源電路基板7之間之配線、馬達驅動單元2H之驅動電路基板3與電源電路基板7之間之配線、馬達驅動單元2I之驅動電路基板3與電源 電路基板7之間之配線、馬達驅動單元2J之驅動電路基板3與電源電路基板7之間之配線、馬達驅動單元2K之驅動電路基板3與電源電路基板7之間之配線、及馬達驅動單元2L之驅動電路基板3與電源電路基板7之間之配線之順序按照逐漸變長。 The drive circuit board 3 of the motor drive units 2G to 2L is electrically connected in parallel to the power supply circuit board 7 (see FIG. 11). Further, the wiring length is in accordance with the wiring between the drive circuit board 3 of the motor drive unit 2A and the power supply circuit board 7, the wiring between the drive circuit board 3 of the motor drive unit 2G and the power supply circuit board 7, and the drive circuit of the motor drive unit 2H. Wiring between the substrate 3 and the power supply circuit substrate 7, the drive circuit substrate 3 of the motor drive unit 2I, and a power supply Wiring between the circuit boards 7, wiring between the drive circuit board 3 of the motor drive unit 2J and the power supply circuit board 7, wiring between the drive circuit board 3 of the motor drive unit 2K and the power supply circuit board 7, and a motor drive unit The order of the wiring between the drive circuit board 3 of 2L and the power supply circuit board 7 is gradually lengthened.

即,6個馬達驅動單元2G~2L之驅動電路基板3與電源電路基板7以於左右方向上彼此鄰接配置之2個馬達驅動單元2G~2L中之配置於左側之馬達驅動單元2G~2K之驅動電路基板3與電源電路基板7之間之配線長度較於左右方向上彼此鄰接配置之2個馬達驅動單元2G~2L中之配置於右側之馬達驅動單元2H~2L之驅動電路基板3與電源電路基板7之間之配線長度短之方式並聯電性連接。 In other words, the drive circuit board 3 of the six motor drive units 2G to 2L and the power supply circuit board 7 are disposed on the left side of the motor drive units 2G to 2K among the two motor drive units 2G to 2L disposed adjacent to each other in the left-right direction. The wiring length between the drive circuit board 3 and the power supply circuit board 7 is higher than the drive circuit board 3 and the power supply of the motor drive units 2H to 2L disposed on the right side among the two motor drive units 2G to 2L disposed adjacent to each other in the left-right direction. The wiring length between the circuit boards 7 is electrically connected in parallel in a short manner.

再者,於圖10、圖11所示之馬達驅動裝置1中,根據馬達驅動單元2G~2L之發熱量而設置外部風扇以便對馬達驅動單元2G~2L之驅動電路基板3進行冷卻。 Further, in the motor driving device 1 shown in FIGS. 10 and 11, an external fan is provided in accordance with the amount of heat generated by the motor driving units 2G to 2L to cool the driving circuit board 3 of the motor driving units 2G to 2L.

於圖10、圖11所示之馬達驅動裝置1中,與上述形態相同,由於隨著距離電源電路基板7之配線距離變長就越能夠有效地減小流經馬達驅動單元2G~2L之驅動電路基板3與電源電路基板7之間之配線之電流,因此能夠減小配線之流經較大電流部分之電阻,且能夠減小配線之流經較大電阻部分之電流。因此,即使馬達驅動單元2A~2F與馬達驅動單元2G~2L於上下方向上重疊配置,亦能夠抑制馬達驅動單元2G~2L之驅動電路基板3與電源電路基板7之間之電壓下降。 In the motor drive device 1 shown in FIG. 10 and FIG. 11, as in the above-described embodiment, the drive through the motor drive unit 2G to 2L can be effectively reduced as the wiring distance from the power supply circuit board 7 becomes longer. The current of the wiring between the circuit board 3 and the power supply circuit board 7 can reduce the resistance of the wiring flowing through a large current portion, and can reduce the current flowing through the large resistance portion of the wiring. Therefore, even if the motor drive units 2A to 2F and the motor drive units 2G to 2L are arranged to overlap each other in the vertical direction, the voltage drop between the drive circuit board 3 of the motor drive units 2G to 2L and the power supply circuit board 7 can be suppressed.

又,於圖10、圖11所示之馬達驅動裝置1中,與上述形態相同,能夠於產生較大雜訊之馬達驅動單元2之驅動電路基板3附近配置不易受雜訊影響之驅動電路基板3,而於所產生之雜訊變得較小之馬達驅動單元2之驅動電路基板3附近配置容易受雜訊影響之驅動電路基板3。又,於圖10、圖11所示之馬達驅動裝置1中,流經不易受雜訊影響之驅動電路基板3附近之配線之電流變大,但流經容易受雜訊影響之 驅動電路基板3附近之配線之電流變小,並且容易受雜訊影響之驅動電路基板3附近之配線所產生之雜訊會變小。因此,即使馬達驅動單元2A~2F與馬達驅動單元2G~2L於上下方向上重疊配置,亦能夠減小驅動電路基板3所受之雜訊之影響。 Further, in the motor drive device 1 shown in FIG. 10 and FIG. 11, as in the above-described configuration, the drive circuit board which is less susceptible to noise can be disposed in the vicinity of the drive circuit board 3 of the motor drive unit 2 which generates a large amount of noise. 3. The drive circuit board 3 which is susceptible to noise is disposed in the vicinity of the drive circuit board 3 of the motor drive unit 2 in which the generated noise is small. Further, in the motor driving device 1 shown in FIG. 10 and FIG. 11, the current flowing through the wiring in the vicinity of the drive circuit board 3 which is less susceptible to noise is increased, but the flow is easily affected by noise. The current of the wiring in the vicinity of the drive circuit board 3 becomes small, and the noise generated by the wiring in the vicinity of the drive circuit board 3 which is easily affected by noise becomes small. Therefore, even if the motor drive units 2A to 2F and the motor drive units 2G to 2L are arranged to overlap each other in the vertical direction, the influence of the noise received by the drive circuit board 3 can be reduced.

又,於圖10、圖11所示之馬達驅動裝置1中,與馬達驅動單元2A~2L沿左右方向排列之情形相比,能夠抑制驅動電路基板3與電源電路基板7之間之電壓下降,並且能夠減小驅動電路基板3所受之雜訊之影響。 Further, in the motor drive device 1 shown in FIG. 10 and FIG. 11, the voltage drop between the drive circuit board 3 and the power supply circuit board 7 can be suppressed as compared with the case where the motor drive units 2A to 2L are arranged in the left-right direction. Further, the influence of the noise received by the drive circuit substrate 3 can be reduced.

又,於圖10、圖11所示之馬達驅動裝置1中,與上述形態相同,與馬達驅動單元2A與6個馬達驅動單元2G~2L之各者經由供電用電纜12連接之情形相比,能夠縮短供電用電纜12之長度。因此,能夠整齊有序地拉繞供電用電纜12。 Further, in the motor drive device 1 shown in FIG. 10 and FIG. 11, as in the above-described embodiment, compared with the case where each of the motor drive unit 2A and the six motor drive units 2G to 2L is connected via the power supply cable 12, The length of the power supply cable 12 can be shortened. Therefore, the power supply cable 12 can be wound in a neat and orderly manner.

(其他實施形態) (Other embodiments)

上述形態為本發明之較佳形態之一例,但並不限定於此,只要不脫離本發明之主旨可為各種變化實施。 The above-described embodiments are an example of a preferred embodiment of the present invention, but are not limited thereto, and various modifications can be made without departing from the gist of the present invention.

於上述形態中,馬達驅動單元2A之連接器端子14與馬達驅動單元2B之連接器端子13經由供電用電纜12連接,且於左右方向上彼此鄰接配置之2個馬達驅動單元2B~2F中之配置於左側之馬達驅動單元2B之輸出用連接器端子與於左右方向上彼此鄰接配置之2個馬達驅動單元2B~2F中之配置於右側之馬達驅動單元2C之輸入用連接器端子經由供電用電纜12連接。除此以外,例如亦可係馬達驅動單元2A與5個馬達驅動單元2B~2F之各者經由供電用電纜12連接。同樣,於圖10、圖11所示之馬達驅動裝置1中,亦可係馬達驅動單元2A與6個馬達驅動單元2G~2L之各者經由供電用電纜12連接。 In the above-described embodiment, the connector terminal 14 of the motor drive unit 2A and the connector terminal 13 of the motor drive unit 2B are connected via the power supply cable 12, and are disposed in the two motor drive units 2B to 2F which are disposed adjacent to each other in the left-right direction. The output connector terminal of the motor drive unit 2B disposed on the left side and the input connector terminal of the motor drive unit 2C disposed on the right side of the two motor drive units 2B to 2F disposed adjacent to each other in the left-right direction are supplied with power. The cable 12 is connected. In addition to this, for example, each of the motor drive unit 2A and the five motor drive units 2B to 2F may be connected via the power supply cable 12. Similarly, in the motor drive device 1 shown in FIGS. 10 and 11, the motor drive unit 2A and each of the six motor drive units 2G to 2L may be connected via the power supply cable 12.

於上述形態中,馬達驅動單元2A~2F按照自左側之順序依次排列,但馬達驅動單元2A~2F亦可按自右側之順序依次排列。又,於 上述形態中,馬達驅動單元2驅動並控制1台伺服馬達,但馬達驅動單元2亦可驅動並控制2台或3台等複數台伺服馬達。 In the above embodiment, the motor drive units 2A to 2F are arranged in order from the left side, but the motor drive units 2A to 2F may be arranged in order from the right side. Again, in In the above embodiment, the motor drive unit 2 drives and controls one servo motor, but the motor drive unit 2 can also drive and control two or three servo motors.

於上述形態中,風扇9以自右側吸入空氣並向左側排出空氣之方式配置。除此以外,例如亦可係風扇9以自左側吸入空氣並向右側排出空氣之方式配置。於該情形時,馬達驅動單元2B之驅動電路基板3以自右側與風扇9之排氣側對向之方式配置。又,於上述形態中,馬達驅動單元2A具備風扇9,但馬達驅動單元2A亦可不具備風扇9。於該情形時,採用外部風扇對馬達驅動單元2A、2B之驅動電路基板3進行冷卻即可。又,於上述形態中,亦可於馬達驅動單元2B~2E中之至少1個框架4之右側面及於馬達驅動單元2G~2K中之至少1個框架4之右側面安裝風扇9。 In the above aspect, the fan 9 is disposed such that air is taken in from the right side and air is discharged to the left side. In addition to this, for example, the fan 9 may be disposed such that air is taken in from the left side and air is discharged to the right side. In this case, the drive circuit board 3 of the motor drive unit 2B is disposed to face the exhaust side of the fan 9 from the right side. Further, in the above embodiment, the motor drive unit 2A includes the fan 9, but the motor drive unit 2A may not include the fan 9. In this case, the drive circuit board 3 of the motor drive units 2A and 2B may be cooled by an external fan. Further, in the above aspect, the fan 9 may be attached to the right side surface of at least one of the motor drive units 2B to 2E and the right side surface of at least one of the motor drive units 2G to 2K.

1‧‧‧馬達驅動裝置 1‧‧‧Motor drive

2‧‧‧馬達驅動單元 2‧‧‧Motor drive unit

2A‧‧‧馬達驅動單元(主馬達驅動單元) 2A‧‧‧Motor drive unit (main motor drive unit)

2B~2F‧‧‧馬達驅動單元(副馬達驅動單元) 2B~2F‧‧‧Motor drive unit (sub-motor drive unit)

5‧‧‧面板 5‧‧‧ panel

10‧‧‧外罩部件 10‧‧‧ Cover parts

X‧‧‧驅動電路基板之厚度方向 X‧‧‧ drive circuit substrate thickness direction

X1‧‧‧第2方向 X1‧‧‧2nd direction

X2‧‧‧第1方向 X2‧‧‧1st direction

Y‧‧‧方向 Y‧‧‧ direction

Y1‧‧‧方向 Y1‧‧‧ direction

Z‧‧‧上下方向 Z‧‧‧Up and down direction

Z1‧‧‧方向 Z1‧‧‧ direction

Z2‧‧‧方向 Z2‧‧‧ direction

Claims (10)

一種馬達驅動裝置,其特徵在於:上述馬達驅動裝置具備複數個用於驅動並控制特定台數之馬達之馬達驅動單元,上述馬達驅動單元具備:驅動電路基板及框架,上述驅動電路基板安裝有上述馬達之驅動電路及控制電路,上述框架固定上述驅動電路基板,複數個上述馬達驅動單元沿固定於上述框架之上述驅動電路基板之厚度方向排列,若以上述驅動電路基板之厚度方向之一方為第1方向,以上述驅動電路基板之厚度方向之另一方為第2方向,則最靠上述第1方向側配置之上述馬達驅動單元為主馬達驅動單元,上述主馬達驅動單元具備安裝有用於對複數個上述馬達驅動單元之上述驅動電路基板供給電力之電源電路之電源電路基板,除上述主馬達驅動單元之外其餘之上述馬達驅動單元為副馬達驅動單元,上述副馬達驅動單元具備由上述主馬達驅動單元之上述電源電路基板供給電力之上述驅動電路基板,複數個上述馬達驅動單元以上述馬達驅動單元之輸出容量隨著自上述主馬達驅動單元朝向最靠上述第2方向側配置之上述副馬達驅動單元變小之方式,沿上述驅動電路基板之厚度方向排列,複數個上述馬達驅動單元之上述驅動電路基板與上述電源電路基板,以於上述驅動電路基板之厚度方向上彼此鄰接配置之2個上述馬達驅動單元中之配置於上述第1方向側之上述馬達驅動單元之上述驅動電路基板與上述電源電路基板之間之配線長度 較於上述驅動電路基板之厚度方向上彼此鄰接配置之2個上述馬達驅動單元中之配置於上述第2方向側之上述馬達驅動單元之上述驅動電路基板與上述電源電路基板之間之配線長度短之方式並聯電性連接。 A motor driving device comprising: a plurality of motor driving units for driving and controlling a specific number of motors, wherein the motor driving unit includes a driving circuit board and a frame, and the driving circuit board is mounted with the above a drive circuit and a control circuit for the motor, wherein the frame fixes the drive circuit board, and the plurality of motor drive units are arranged along a thickness direction of the drive circuit board fixed to the frame, and one of thickness directions of the drive circuit board is In the first direction, the other one of the thickness directions of the drive circuit board is the second direction, and the motor drive unit disposed on the first direction side is a main motor drive unit, and the main motor drive unit is provided with a pair for the plural The power circuit board of the power supply circuit to which the drive circuit board of the motor drive unit is supplied with power, the motor drive unit other than the main motor drive unit being a sub motor drive unit, and the sub motor drive unit including the main motor Above the drive unit The drive circuit board on which the power supply circuit board supplies electric power, and the plurality of motor drive units have a smaller output capacity of the motor drive unit as the sub motor drive unit disposed closest to the second direction side from the main motor drive unit The drive circuit board and the power supply circuit board of the plurality of motor drive units are arranged in the thickness direction of the drive circuit board, and the two motor drive units are disposed adjacent to each other in the thickness direction of the drive circuit board. Wiring length between the drive circuit board and the power supply circuit board of the motor drive unit disposed on the first direction side The wiring length between the drive circuit board and the power supply circuit board of the motor drive unit disposed on the second direction side of the two motor drive units disposed adjacent to each other in the thickness direction of the drive circuit board is short. The way is electrically connected in parallel. 如請求項1之馬達驅動裝置,其中於上述驅動電路基板安裝有2個能夠連接供電用電纜之供電用連接器端子,於上述副馬達驅動單元中,2個上述供電用連接器端子中之一者為用於向上述驅動電路基板輸入電力之輸入用連接器端子,2個上述供電用連接器端子中之另一者為用於自上述驅動電路基板輸出電力之輸出用連接器端子。 The motor drive device according to claim 1, wherein the power supply connector terminal to which the power supply cable can be connected is mounted on the drive circuit board, and one of the two power supply connector terminals is provided in the sub motor drive unit. The input connector terminal for inputting electric power to the drive circuit board, and the other of the two power supply connector terminals is an output connector terminal for outputting electric power from the drive circuit board. 如請求項2之馬達驅動裝置,其中該馬達驅動裝置至少具備2個以上上述副馬達驅動單元,於上述主馬達驅動單元中,2個上述供電用連接器端子中之至少一者為用於自上述驅動電路基板輸出電力之主輸出用連接器端子,上述主輸出用連接器端子與配置於上述主馬達驅動單元之上述第2方向側之上述副馬達驅動單元之上述輸入用連接器端子經由上述供電用電纜而連接,於上述驅動電路基板之厚度方向上彼此鄰接配置之2個上述副馬達驅動單元中之配置於上述第1方向側之上述副馬達驅動單元之上述輸出用連接器端子與於上述驅動電路基板之厚度方向上彼此鄰接配置之2個上述副馬達驅動單元中之配置於上述第2方向側之上述副馬達驅動單元之上述輸入用連接器端子經由上述供電用電纜而連接。 A motor driving device according to claim 2, wherein the motor driving device includes at least two or more of the sub motor driving units, and at least one of the two power supply connector terminals is used for the self motor driving unit The main output connector terminal for outputting power of the drive circuit board, the main output connector terminal, and the input connector terminal of the sub motor drive unit disposed on the second direction side of the main motor drive unit via the The power supply cable is connected to the output connector terminal of the sub motor drive unit disposed on the first direction side of the two sub motor drive units disposed adjacent to each other in the thickness direction of the drive circuit board. The input connector terminals of the sub motor driving units disposed on the second direction side of the two sub motor driving units disposed adjacent to each other in the thickness direction of the driving circuit board are connected via the power supply cable. 如請求項1至3中任一項之馬達驅動裝置,其中該馬達驅動裝置具備構成為與上述副馬達驅動單元相同之複數個第2副馬達驅動 單元,複數個上述第2副馬達驅動單元沿上述驅動電路基板之厚度方向排列,並且複數個上述第2副馬達驅動單元於與上述驅動電路基板之厚度方向正交之上下方向上與沿上述驅動電路基板之厚度方向排列之複數個上述馬達驅動單元重疊配置,最靠上述第1方向側配置之上述第2副馬達驅動單元之輸出容量為上述主馬達驅動單元之輸出容量以下,複數個上述第2副馬達驅動單元以上述第2副馬達驅動單元之輸出容量隨著自最靠上述第1方向側配置之上述第2副馬達驅動單元向最靠上述第2方向側配置之上述第2副馬達驅動單元變小之方式,沿上述驅動電路基板之厚度方向排列,複數個上述第2副馬達驅動單元之上述驅動電路基板與上述電源電路基板,以於上述驅動電路基板之厚度方向上彼此鄰接配置之2個上述第2副馬達驅動單元中之配置於上述第1方向側之上述第2副馬達驅動單元之上述驅動電路基板與上述電源電路基板之間之配線長度較於上述驅動電路基板之厚度方向上彼此鄰接配置之2個上述第2副馬達驅動單元中之配置於上述第2方向側之上述第2副馬達驅動單元之上述驅動電路基板與上述電源電路基板之間之配線長度短之方式並聯電性連接。 The motor driving device according to any one of claims 1 to 3, wherein the motor driving device is provided with a plurality of second sub motor drives configured to be identical to the sub motor driving unit a plurality of the second sub-motor driving units are arranged along a thickness direction of the driving circuit substrate, and the plurality of second sub-motor driving units are vertically upward and downward along the thickness direction of the driving circuit substrate and along the driving a plurality of the motor driving units arranged in the thickness direction of the circuit board are arranged to overlap each other, and an output capacity of the second sub-motor driving unit disposed on the first direction side is equal to or less than an output capacity of the main motor driving unit, and the plurality of the first The second sub-motor drive unit has the output capacity of the second sub-motor drive unit being the second sub-motor disposed on the second direction side from the second sub-motor drive unit disposed on the first direction side. The driving unit is arranged in the thickness direction of the driving circuit board, and the driving circuit board and the power circuit board of the plurality of second sub-motor driving units are arranged adjacent to each other in the thickness direction of the driving circuit board. The second of the two second sub-motor drive units disposed on the first direction side The wiring length between the drive circuit board and the power supply circuit board of the motor drive unit is disposed on the second direction side of the two second sub-motor drive units disposed adjacent to each other in the thickness direction of the drive circuit board. The wiring length between the drive circuit board and the power supply circuit board of the second sub-motor drive unit is electrically connected in parallel. 如請求項4之馬達驅動裝置,其中於上述驅動電路基板安裝有2個能夠連接供電用電纜之供電用連接器端子,於上述主馬達驅動單元中,2個上述供電用連接器端子為用於自上述驅動電路基板輸出電力之主輸出用連接器端子,於上述副馬達驅動單元及於上述第2副馬達驅動單元中,2個上述供電用連接器端子之一者為用於向上述驅動電路基板輸入電力之輸入用連接器端子,2個上述供電用連接器端子之另一者 為用於自上述驅動電路基板輸出電力之輸出用連接器端子。 The motor driving device according to claim 4, wherein the power supply connector terminals to which the power supply cable can be connected are mounted on the drive circuit board, and the two power supply connector terminals are used for the main motor drive unit. a main output connector terminal that outputs electric power from the drive circuit board, and one of the two power supply connector terminals in the sub motor drive unit and the second sub motor drive unit is for the drive circuit The input terminal for inputting the substrate input power, and the other of the two power supply connector terminals It is an output connector terminal for outputting power from the above-described drive circuit substrate. 如請求項5之馬達驅動裝置,其中該馬達驅動裝置至少具備2個以上上述副馬達驅動單元,2個上述主輸出用連接器端子中之一者與鄰接配置於上述主馬達驅動單元之上述第2方向側之上述副馬達驅動單元之上述輸入用連接器端子經由上述供電用電纜連接,2個上述主輸出用連接器端子中之另一者與最靠上述第1方向側配置之上述第2副馬達驅動單元之上述輸入用連接器端子經由上述供電用電纜連接,於上述驅動電路基板之厚度方向上彼此鄰接配置之2個上述副馬達驅動單元中之配置於上述第1方向側之上述副馬達驅動單元之上述輸出用連接器端子與於上述驅動電路基板之厚度方向上彼此鄰接配置之2個上述副馬達驅動單元中之配置於上述第2方向側之上述副馬達驅動單元之上述輸入用連接器端子經由上述供電用電纜連接,於上述驅動電路基板之厚度方向上彼此鄰接配置之2個上述第2副馬達驅動單元中之配置於上述第1方向側之上述第2副馬達驅動單元之上述輸出用連接器端子與於上述驅動電路基板之厚度方向上彼此鄰接配置之2個上述第2副馬達驅動單元中之配置於上述第2方向側之上述第2副馬達驅動單元之上述輸入用連接器端子經由上述供電用電纜連接。 The motor driving device according to claim 5, wherein the motor driving device includes at least two or more of the sub motor driving units, and one of the two main output connector terminals is disposed adjacent to the main motor driving unit The input connector terminal of the sub motor driving unit on the two-direction side is connected via the power supply cable, and the other of the two main output connector terminals and the second one disposed on the first direction side The input connector terminals of the sub motor drive unit are connected via the power supply cable, and the pair of the sub motor drive units disposed adjacent to each other in the thickness direction of the drive circuit board are disposed on the first direction side. The output connector terminal of the motor drive unit and the sub motor drive unit disposed on the second direction side of the two sub motor drive units disposed adjacent to each other in the thickness direction of the drive circuit board are used for the input. The connector terminals are connected via the power supply cable, and are in contact with each other in the thickness direction of the drive circuit substrate Among the two second sub-motor drive units that are disposed, the output connector terminals of the second sub-motor drive unit disposed on the first direction side are disposed adjacent to each other in the thickness direction of the drive circuit board. Among the two second sub-motor drive units, the input connector terminals of the second sub-motor drive unit disposed on the second direction side are connected via the power supply cable. 如請求項6之馬達驅動裝置,其中沿上述驅動電路基板之厚度方向排列之複數個上述馬達驅動單元彼此緊密接觸。 The motor driving device of claim 6, wherein the plurality of motor driving units arranged in the thickness direction of the driving circuit substrate are in close contact with each other. 如請求項7之馬達驅動裝置,其中於上述主馬達驅動單元之上述框架之上述第2方向側之側面安裝有風扇,上述風扇用於冷卻上述主馬達驅動單元之上述驅動電路基板, 於上述第2方向側與上述主馬達驅動單元鄰接配置之上述副馬達驅動單元之上述驅動電路基板以自上述第2方向側與上述風扇之吸氣側或排氣側對向之方式配置。 The motor drive device according to claim 7, wherein a fan is attached to a side surface of the frame of the main motor drive unit on the second direction side, and the fan is configured to cool the drive circuit substrate of the main motor drive unit. The drive circuit board of the sub motor drive unit disposed adjacent to the main motor drive unit in the second direction side is disposed to face the intake side or the exhaust side of the fan from the second direction side. 如請求項1至3中任一項之馬達驅動裝置,其中沿上述驅動電路基板之厚度方向排列之複數個上述馬達驅動單元彼此緊密接觸。 The motor driving device according to any one of claims 1 to 3, wherein the plurality of the motor driving units arranged in the thickness direction of the driving circuit substrate are in close contact with each other. 如請求項9之馬達驅動裝置,其中於上述主馬達驅動單元之上述框架之上述第2方向側之側面安裝有風扇,上述風扇用於冷卻上述主馬達驅動單元之上述驅動電路基板,於上述第2方向側與上述主馬達驅動單元鄰接配置之上述副馬達驅動單元之上述驅動電路基板以自上述第2方向側與上述風扇之吸氣側或排氣側對向之方式配置。 The motor drive device according to claim 9, wherein a fan is attached to a side surface of the frame of the main motor drive unit on the second direction side, and the fan is configured to cool the drive circuit board of the main motor drive unit. The drive circuit board of the sub motor drive unit disposed adjacent to the main motor drive unit on the two-direction side is disposed to face the intake side or the exhaust side of the fan from the second direction side.
TW103143374A 2014-01-24 2014-12-11 Motor drive TWI527361B (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2014011769A JP6322428B2 (en) 2014-01-24 2014-01-24 Motor drive device

Publications (2)

Publication Number Publication Date
TW201535959A true TW201535959A (en) 2015-09-16
TWI527361B TWI527361B (en) 2016-03-21

Family

ID=53695668

Family Applications (1)

Application Number Title Priority Date Filing Date
TW103143374A TWI527361B (en) 2014-01-24 2014-12-11 Motor drive

Country Status (4)

Country Link
JP (1) JP6322428B2 (en)
KR (1) KR101667869B1 (en)
CN (1) CN104811098B (en)
TW (1) TWI527361B (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106411185A (en) * 2016-11-13 2017-02-15 刘军 High efficiency high power controller
JP6989112B2 (en) * 2017-11-27 2022-01-05 株式会社アイエイアイ Multi-part cooling system, equipment and method
CN109802624A (en) * 2019-01-21 2019-05-24 深圳微智天下科技有限公司 A kind of driver that efficiently can more control motor

Family Cites Families (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH08168293A (en) * 1994-12-15 1996-06-25 Japan Servo Co Ltd Method for connecting multi-shaft motor drive device
US6076124A (en) * 1995-10-10 2000-06-13 The Foxboro Company Distributed control system including a compact easily-extensible and serviceable field controller
TW525329B (en) * 2000-05-29 2003-03-21 Omron Tateisi Electronics Co Power supply module and power supply unit using the same
JP2005261120A (en) * 2004-03-12 2005-09-22 Yaskawa Electric Corp Multiaxial servo drive
JP4725338B2 (en) * 2006-01-31 2011-07-13 パナソニック株式会社 Motor drive device cooling structure
JP2011108044A (en) * 2009-11-18 2011-06-02 Fanuc Ltd Robot controller which simultaneously controls n robots
JP5810584B2 (en) * 2011-03-30 2015-11-11 セイコーエプソン株式会社 Robot controller
JP5749192B2 (en) * 2012-02-13 2015-07-15 株式会社東芝 Vehicle drive control device

Also Published As

Publication number Publication date
JP6322428B2 (en) 2018-05-09
KR101667869B1 (en) 2016-10-19
TWI527361B (en) 2016-03-21
KR20150088726A (en) 2015-08-03
CN104811098B (en) 2017-09-01
CN104811098A (en) 2015-07-29
JP2015139357A (en) 2015-07-30

Similar Documents

Publication Publication Date Title
TWI527361B (en) Motor drive
US20150109731A1 (en) Electronic device
CN107896514B (en) Motor control device and robot system
TWI613951B (en) Motor drive
JP2010118492A (en) Power control device
JP5668843B2 (en) Electronics
JP2018190921A (en) Drive device
JP6941005B2 (en) Electrical equipment
JP6615630B2 (en) Electrical equipment
JP6271265B2 (en) Motor drive device
JP2014059502A (en) Display device
JP6139366B2 (en) Power converter
JP5358717B2 (en) Flat panel display
JP4104143B2 (en) Rack system
JP7002339B2 (en) Electrical equipment
JP2012164743A (en) On-vehicle electronic apparatus
JP7535983B2 (en) Electrical Equipment Unit
WO2023243082A1 (en) Electric power conversion unit
JP2012165643A (en) Electric power conversion apparatus
JP6652732B1 (en) Electronics
JP6707293B2 (en) Electrical equipment unit
JP6550858B2 (en) Power converter
JP6133608B2 (en) Electronics
JP2015008207A (en) Electronic device housing rack

Legal Events

Date Code Title Description
MM4A Annulment or lapse of patent due to non-payment of fees