閵峰敭鐢�(ch菐n)鍝侊細閫�(j矛n)鍙CS��銆丳LC鎺у埗绯荤当(t菕ng)鍌欏搧鍌欎欢鍜屽ぇ鍨嬮€�(j矛n)鍙g郴绲�(t菕ng)妯″鍌欎欢鍏徃
1.Allen-Bradley(缇庡湅(gu贸)AB)绯诲垪鐢�(ch菐n)鍝併€�
2.Schneider(鏂借€愬痉闆绘埃)绯诲垪鐢�(ch菐n)鍝併€�
3.General electric(閫氱敤闆绘埃)绯诲垪鐢�(ch菐n)鍝併€�
4.Westinghouse锛堢編鍦�(gu贸)瑗垮眿锛夌郴鍒楃敘(ch菐n)鍝併€�
5.SIEMENS(瑗块杸瀛愮郴鍒楃敘(ch菐n)鍝�)銆�
6.閵峰敭ABB Robots. FANUC Robots���銆乊ASKAWA Robots銆並UKA Robots���銆丮itsubishi Robots��銆丱TC Robots���銆丳anasonic����銆丷obots����銆丮OTOMAN Robots銆�
7.estinghouse锛堣タ灞嬶級锛� OVATION绯荤当(t菕ng)����銆乄DPF绯荤当(t菕ng)銆丮AX1000绯荤当(t菕ng)鍌欎欢����銆�
8.Invensys Foxboro锛堢鍏嬫柉娉㈢緟锛夛細I/A Series绯荤当(t菕ng)���锛孎(xi脿n)BM锛堢従(xi脿n)鍫�(ch菐ng)杓稿叆/杓稿嚭妯″锛夐爢搴忔帶鍒��銆佹褰㈤倧杓帶鍒���銆佷簨鏁呰拷鎲惰檿鐞���銆佹暩(sh霉)妯¤綁(zhu菐n)鎻��銆佽几鍏�/杓稿嚭淇¤櫉(h脿o)铏曠悊銆佹暩(sh霉)鎿�(j霉)閫氫俊鍙婅檿鐞嗙瓑銆侷nvensys Triconex: 鍐椾綑瀹归尟(cu貌)鎺у埗绯荤当(t菕ng)��銆佸熀浜庝笁閲嶆ā浠跺啑浣欙紙TMR锛夌祼(ji茅)妲�(g貌u)鐨剒ui鐝�(xi脿n)浠e寲鐨勫閷�(cu貌)鎺у埗鍣������銆�
9.Siemens(瑗块杸瀛�)锛歋iemens MOORE���锛� Siemens Simatic C1锛孲iemens鏁�(sh霉)鎺х郴绲�(t菕ng)绛������銆�
10.Bosch Rexroth锛堝崥涓栧姏澹▊(l猫)锛夛細Indramat�锛孖/O妯″,PLC鎺у埗鍣�,椹�(q奴)鍕�(d貌ng)妯″绛夈€�
鈼哅otorola锛堟懇鎵樼緟鎷夛級锛歁VME 162����銆丮VME 167銆丮VME1772��銆丮VME177绛夌郴鍒�����銆�閲囪臣(g貌u)缇庡湅(gu贸)銆佸痉鍦�(gu贸)銆佹硶鍦�(gu贸)����銆佹剰澶у埄绛夋瓙鐩熷伐鎺х敘(ch菐n)鍝併€佸倷鍝佸倷浠�
very large, and the products with obvious price advantages (mainly refer to centrifugal blowers and general-purpose centrifugal and axial compressors), and high-tech industries and newly developed high-tech products (mainly refers to centrifugal compressors for ethylene plants with a capacity of more than 600000 tons, natural gas pipeline transmission compressors, high-pressure oil field gas injection compressors and compressors for large air separation units) , it is not competitive. In the ber case, the impact will be small after the market is opened. However, the enterprises producing such products should have a sense of urgency, focus on improving the development and innovation ability, improve the technical content and grade of products, and narrow the gap with foreign countries. In the latter case, it will be greatly impacted after the market is opened. 鈶� generally used Small and medium-sized ventilators in transit are the vast majority of products in the fan industry, belonging to large quantities and a wide range of products. It is equivalent to the situation mentioned above that the products have low cost and price advantage. After China&锛�39;s accession to the WTO, it will be conducive to expanding exports, and the opening of the domestic market basically does not pose a threat. For example, the world&锛�39;s more famous Fan enterprises are mainly German TLT company Among them, Shanghai Blower Factory Co Ltd. has introduced German TLT technology, Shenyang Blower Factory has introduced Danish novenko technology, Chengdu electric machinery factory and Shenyang Blower Factory have introduced German k.k.k technology, and British Haodeng company has established a wholly-owned enterprise in China Enterprises have already participated in the domestic fan market competition. From the price comparison of such products, taking the prices of Japanese manufacturers as an example, the prices of Japanese manufacturers&锛�39; fans are now twice that of domestic fans. After China&锛�39;s accession to the WTO, the tariffs have been reduced, but their prices are still 50% ~ 60% higher than those of domestic products. This shows that such products will not be competitive after China&锛�39;s accession to the WTO It
鍏徃鏈嶅嫏(w霉)瀹楁棬锛氱偤瀹㈡埗鍓�(chu脿ng)閫犲埄鐩��锛屽壍(chu脿ng)閫犲児(ji脿)鍊硷紝婊挎剰鏄垜 鍊戞湇鍕�(w霉)鐨勫畻鏃������锛屾偍鐨勪俊璩存槸鎴戝€戞案閬�(yu菐n)鐨勮拷姹����锛�
绠$恫(w菐ng)澹撳姏妾㈡脯(c猫)榛�(di菐n)�����锛�
250KW璁婇牷鍣�����锛屾车鎴夸緵姘存车鎺у埗���锛�
110KW杌熷暉鍕�(d貌ng)鍣����锛屾车鎴夸緵姘存车鎺у埗��锛�
100M宸ユキ(y猫)浠ュお缍�(w菐ng)�����锛屽粻鍏�(n猫i)蹇€熷彲闈犻€氳▕��锛�
ProfiBus-DP宸ユキ(y猫)鐝�(xi脿n)鍫�(ch菐ng)绺界窔����锛屽粻鍏�(n猫i)鎺у埗瑷�(sh猫)鍌欓€g恫(w菐ng)�锛涗笁��銆佽В姹烘柟妗堝劒(y艒u)鍕�(sh矛)
鍏堥€�(j矛n)鎬э細閲囩敤鐣�(d膩ng)鍓嶅厛閫�(j矛n)鐨勭恫(w菐ng)绲�(lu貌)鎶€琛�(sh霉)鍜屾帶鍒惰ō(sh猫)鍌���锛�
缍�(j墨ng)婵�(j矛)鎬э細S7-400PLC/S7-300PLC/ET200鏅鸿兘I/O绔��銆佽畩闋诲櫒/杌熷暉鍕�(d貌ng)鍣� SIMOCODE銆丳rofiBus-DP/100M宸ユキ(y猫)浠ュお缍�(w菐ng)鐨勯潏娲昏ō(sh猫)鍌欓伕鍨嬪強鎳�(y墨ng)鐢��锛�
妯�(bi膩o)婧�(zh菙n)鍖栥€佹ā濉婂寲锛�
* SIEMENS PLC鎺у埗绯荤当(t菕ng)��锛�
* SIEMENS SINUAT鐒�(w煤)绶氶€氳▕绯荤当(t菕ng)
绶ㄧ▼绲勬厠(t脿i)绨�(ji菐n)渚�����銆佹摯(ku貌)灞曟€у挤(qi谩ng)��銆佸彲闈犳€ч珮
寮�(qi谩ng)澶х殑淇濊(h霉)鍔熻兘锛歋IMOCODE�����銆佽畩闋诲櫒�銆佽粺鍟熷嫊(d貌ng)鍣�����銆佽几鍏�/杓稿嚭闆绘姉鍣ㄣ€侀浕鍣ㄨ伅(li谩n)閹����銆佺▼搴忚伅(li谩n)閹栫瓑�����锛�
瀹屾暣鐨勬暩(sh霉)鎿�(j霉)閲囬泦锛� 鐢熺敘(ch菐n)閬�(gu貌)绋嬫暩(sh霉)鎿�(j霉)�銆佽ō(sh猫)鍌欑媭鎱�(t脿i)淇℃伅绛������锛�
宸ユキ(y猫)鐝�(xi脿n)鍫�(ch菐ng)绺界窔鎶€琛�(sh霉)锛氭彁楂樻暣鍊�(g猫)绯荤当(t菕ng)鐨勫彲闈犳€��锛屾笡灏戝竷绶氭柦宸ヨ不(f猫i)鐢紝闄嶄綆浣跨敤缍(h霉)鎴愭湰�锛�
100M宸ユキ(y猫)浠ュお缍�(w菐ng)锛氭彁楂樼恫(w菐ng)绲�(lu貌)閫氳▕鐨勫揩閫熸€у拰鍙潬鎬уぇ鎱舵补鐢伴儴鍒嗘薄姘寸珯鍙嶆矕娲楄缃檿浜庢墜鍕�(d貌ng)鐙€鎱�(t脿i)��锛屽瓨鍦ㄤ笉鑳藉畾鏅�(sh铆)鍙嶆矕娲������銆佸弽娌栨祦閲忔帶鍒朵笉����銆佹烤鏂欓倓娌�(m茅i)娌栬捣灏辨敧鎷岀瓑涓€绯诲垪鐨勫晱(w猫n)椤��锛屽皪(du矛)鐢熺敘(ch菐n)閫犳垚涓嶅埄鐨勫奖闊裤€傛湰鏂囧皣PLC鎶€琛�(sh霉)鎳�(y墨ng)鐢ㄤ簬鍙嶆矕娲楁帶鍒������锛岄€氶亷(gu貌)纭欢绯荤当(t菕ng)鏀归€�(j矛n)����锛屽(sh铆)鐝�(xi脿n)璁婇牷鎺у埗鑷嫊(d貌ng)鍙嶆矕娲����锛屾彁楂樼郴绲�(t菕ng)鍙嶆矕娲楃殑璩�(zh矛)閲����锛屾笡杓曞伐浜哄嫗鍕�(d貌ng)寮�(qi谩ng)搴︺€備富椤岃锛氳嚜鎺� 姹℃按绔� 鍙嶆矕娲� 1 寮曡█ 鍚补姹℃按铏曠悊鏄棞(gu膩n)绯诲埌姘磋唱(zh矛)鏄惁鍚堟牸鐨勯棞(gu膩n)閸垫椹������锛岃€屾烤缃愮殑鍙嶆矕娲楁檪(sh铆)闁撳拰鏁堟灉鍓囩洿鎺ュ奖闊挎薄姘寸殑閬�(gu貌)婵捐唱(zh矛)閲忥紝鎵€浠ュ畾鏅�(sh铆)鍙嶆矕娲��锛屾寜瑕佹眰鎺у埗鍙嶆矕娲楃殑娴侀噺鏇茬窔鏄帶鍒舵按璩�(zh矛)璩�(zh矛)閲忕殑鏍稿績銆傚ぇ鎱舵补鐢伴儴鍒嗘薄姘寸珯锛堣仛鏉忊叀-鈪犵珯锛夊弽娌栨礂瑁濈疆铏曚簬鎵嬪嫊(d貌ng)鐙€鎱�(t脿i)���锛岃畩闋诲櫒鑸囬浕鍕�(d貌ng)闁ヤ笉鑳介厤鍚�����锛岃畩闋诲櫒鐒�(w煤)娉曟姇鐢�����锛屽弽娌栨礂娴侀噺鐒�(w煤)娉曟帶鍒讹紝鍑虹従(xi脿n)娌栬蛋婵炬枡绛夊晱(w猫n)椤���锛屽奖闊垮弽娌栨礂鏁堟灉���銆傛暣鍊�(g猫)鍙嶆矕娲楅亷(gu貌)绋嬫按娉靛绲傝檿浜庢豢璨�(f霉)鑽烽亱(y霉n)杞�(zhu菐n)���锛岄€犳垚澶ч噺闆昏兘鎼嶅け锛岃€屼笖姣忓€�(g猫)缃愰兘闇€鍠崹(d煤)鎿嶄綔���锛屾搷浣滃伐浜哄嫗鍕�(d貌ng)寮�(qi谩ng)搴﹀緢澶����銆傞€欎簺閮藉皪(du矛)鐢熺敘(ch菐n)閫犳垚涓嶅埄鐨勫奖闊�����銆傚洜姝ゅ皪(du矛)鐝�(xi脿n)鏈夋墜鍕�(d貌ng)鍙嶆矕娲楄缃殑鑷嫊(d貌ng)鍖栨敼閫��锛屼笉鍍呭彲娓涜紩鎿嶄綔宸ヤ汉鐨勫嫗鍕�(d貌ng)寮�(qi谩ng)搴︼紝鏇撮噸瑕佺殑鏄兘鎻愰珮绯荤当(t菕ng)鍙嶆矕娲楃殑璩�(zh矛)閲���锛屼娇瑷�(sh猫)鍌欓仈(d谩)鍒颁匠鐨勯亱(y霉n)琛屾晥鏋����銆�2 宸ヨ棟閬�(gu貌)绋� 姹℃按娣卞害铏曠悊姝e父閬�(gu貌)婵剧殑閬�(gu貌)绋嬫槸锛氱敱涓€娈�����銆佷簩娈佃劔鍑烘按缍�(j墨ng)绶╂矕缃���銆佸崌澹撴车閫�(j矛n)鍏ヤ竴娆℃烤缃���銆佷簩娆℃烤缃愬悗鍒版敞鍏ョ珯娉ㄥ叆鍦颁笅���銆傛烤缃愬収(n猫i)婵炬枡缍�(j墨ng)閬�(gu貌)涓€娈垫檪(sh铆)闁撳悗锛屾渻(hu矛)娌夌⿳涓€浜涙薄娌���锛岄渶瑕佸畾鏈熼€�(j矛n)琛屽弽娌栨礂��锛屽湪瀵�(sh铆)闅涚敓鐢�(ch菐n)涓紝鎵嬪嫊(d貌ng)鎺у埗鍙嶆矕娲楁搷浣滄椹熷涓嬶細
1锛� 闂�(gu膩n)闁夊緟鍙嶆矕娲楃綈閬�(gu貌)婵鹃€�(j矛n)����銆佸嚭鍙i枼闁€锛岄枊(k膩i)鍟熷弽娌栨礂閫�(j矛n)�����銆佸嚭鍙i枼闁€�����锛�
2锛� 闁�(k膩i)鍟熷弽娌栨礂姘存车�锛屾寜闅庢褰㈡彁楂樻按娉甸浕姗�(j墨)闋荤巼鐩村埌閬�(d谩)鍒�50Hz锛�
3锛� 闁�(k膩i)鍟熷弽娌栨礂婵剧綈鏀媽鍣���锛屾敧鎷�10鍒嗛悩鍚庨棞(gu膩n)闁夋敧鎷屽櫒�銆�
4锛� 涓婁竴鑷�(t谩i)鍙嶆矕娲�15鍒嗛悩鍚庯紝闂�(gu膩n)闁変笅涓€鑷�(t谩i)寰呭弽娌栨礂缃愰亷(gu貌)婵鹃€�(j矛n)���銆佸嚭鍙i枼闁€��锛岄枊(k膩i)鍟熷弽娌栨礂閫�(j矛n)��銆佸嚭鍙i枼闁€��锛�
5锛� 閲嶅京(f霉)浠ヤ笂姝ラ��锛岀洿鑷冲叏閮ㄩ亷(gu貌)婵剧綈鍙嶆矕娲楀畬鐣���銆�3 绯荤当(t菕ng)绲勬垚 鍙嶆矕娲楄嚜鍕�(d貌ng)鎺у埗绯荤当(t菕ng)鐨勮几鍏ヤ俊铏�(h脿o)涓昏鏈変笂浣嶆(j墨)鎿嶄綔鑷�(t谩i)鍜岃Ц鎽稿睆鐨勬帶鍒惰几鍏ュ強闁ヤ綅闁�(k膩i)闂�(gu膩n)鍙嶉淇¤櫉(h脿o)����銆傚叡鏈夐枊(k膩i)闂�(gu膩n)閲忥紙DI锛�120鍊�(g猫)杓稿叆榛�(di菐n)銆侾LC绯荤当(t菕ng)鐨勬帶鍒惰矤(f霉)杓変富瑕佸寘鎷(di脿o)绡€(ji茅)闁ユ帶鍒������銆佹敧鎷屽櫒鍟�/鍋�����銆佽畩闋诲櫒鎺у埗璨�(f霉)杓夈€傚叡鏈夐枊(k膩i)闂�(gu膩n)閲忥紙DO锛�270鍊�(g猫)杓稿嚭榛�(di菐n)�锛屾ā鎿噺锛圓O锛�2鍊�(g猫)杓稿嚭榛�(di菐n)銆俆he system has the advantages of energy saving, reliable operation and high degree of automation, which improves the quality of water supply. 1. With the rapid development of variable frequency speed regulation technology and programmable controller, as well as its wide application, powerful function and convenient use, it has become one of the main devices of modern industrial automation and is widely used in industrial production, applications in other areas, such as civil and Home automation, have also developed rapidly. Due to the flexible and convenient application of frequency conversion and programmable logic controller, it is also widely used in constant pressure water supply system. Using PLC as the central control unit, the working pressure of the water supply system can be quickly adjusted according to the system state by the combination of frequency converter and Pid, thus achieving the goal of constant pressure water supply and improving the working stability of the system, the good control effect and obvious energy-saving effect are obtained. 2. System Structure Frequency conversion constant pressure water supply system principle as figure 1, it mainly has PLC, frequency converter, pressure transmitter, liquid level sensor, power and control circuit and pump group comb. The user understands and controls the operation of the system by means of the indicator lights and buttons on the Control Panel and the transfer switch. Through the pressure transmitter installed on the outlet pipe network, the outlet pressure signal is changed into 4 ~ 20mA standard signal and sent to the PID regulator built in the frequency converter. By comparing the PID operation with the given pressure beter, the 4 ~ 20mA beter is obtained, 4 ~ 20mA signal is sent to frequency converter. The control system uses the frequency converter to control the pump speed in order to adjust the water supply. According to the different water consumption, the frequency of the frequency converter to adjust the pump speed is different, setting an upper limit frequency and a lower limit frequency detection in the frequency converter setting, when the water consumption is large, the frequency converter quickly rises to the upper limit frequency, at this time, the frequency converter outputs a switching signal to the PLC; When the frequency converter output reaches the lower limit frequency, the frequency converter also outputs a switching signal to the PLC; the two signals will not be produced simultaneously. When any signal is generated, the signal is fed back to the PLC, and the PLC can switch the AC contactor group by setting an internal program to drive the i/o switch output, so as to coordinate the number of pump motors put into operation, and the completion of the motor start-stop, frequency and power-frequency switching. By adjusting the number of motors put into operation and controlling the frequency conversion speed of one motor in the set, the working pressure of the system pipe network is always stable, and then the aim of constant pressure water supply is achieved. Working principle the system has two modes of operation: Manual and automatic. Manual Mode, press the button to start and stop the pump, according to the need to control the start and stop of 1 # ~ 3 # pump, this mode is mainly used for equipment
鍎�(y艒u)鍕�(sh矛)鍨嬭櫉(h脿o)濡備笅:
5SHY3545L0009
5SHY3545L0016
HESG440295R2
HESG448688R22
07BR61R1 GJV3074376R1
UAD149A0011
PFTL101B 2.0KN
PPC905AE101
HESG440295R2
HESG448688R22
07BR61R1 GJV3074376R1
UAD149A0011
PFTL101B 2.0KN
PPC905AE101
HESG440295R2
HESG448688R22
07BR61R1 GJV3074376R1
UAD149A0011
PFTL101B 2.0KN
PPC905AE101
HESG440295R2
HESG448688R22
07BR61R1 GJV3074376R1
UAD149A0011
PFTL101B 2.0KN
PPC905AE101
HESG440295R2
HESG448688R22
07BR61R1 GJV3074376R1
UAD149A0011
PFTL101B 2.0KN
PPC905AE101
HESG440295R2
HESG448688R22
07BR61R1 GJV3074376R1
UAD149A0011
PFTL101B 2.0KN
PPC905AE101
IMMPI01
IMMPI02
IMNPM01
IMPCC01
IMPTM01
IMQRS22
IMRI002
IMRIO02
IMSED01
IMSEM11
IMSET01
IMSPM01
INBIM02
INBTM01
INCT01
INDDM01
INICT01
INICT03
INICT03A
INICT12
INICT13A
INICT13A
INICTO3A
A06B-6200
A20B-1000
A20B-9001
A860-2120
A290-0854
A02B-0309
A02B-0124
A860-2155
A06B-6114
A06B-6130
A660-2005
A06B-6142
A06B-6059
AA20B-81
