CN106430011A - Hanging basket control circuit - Google Patents

Abstract

The invention relates to the technical field of hanging basket control, in particular to a variable-frequency hanging basket control circuit which can realize accurate control on hanging baskets. The hanging basket control circuit comprises two motors D1 and D2, wherein the motor D1 is connected with one end of a thermal overload relay FR1; the other end of the thermal overload relay FR1 is connected with a relay G7-1 and one end of a first relay switch KM1 through a relay switch BX1; a motor D2 is connected with one end of a thermal overload relay FR2; the other end of the thermal overload relay FR2 is connected with a relay G7-2 and one end of a first relay switch KM 2 through a relay switch BX2; the other end of the first relay switch KM1 and the other end of the first relay switch KM2 are connected, and then are connected with a general contactor QS; and the generator contactor QS adopts a three-phase five-wire mode.

Description

A kind of hanging basket control circuit

Technical field

The present invention relates to hanging basket control technical field, be specially one band frequency conversion hanging basket control circuit.

Background technology

Hanging basket is equipment conventional in building field, for the loading lifting of material lifting and personnel, the wherein liter of hanging basket Fall is by driving motor to realize, motor is realized control by controlling electricity cabinet, and existing control electricity cabinet is simple, it is impossible to ensure to hang The accurate control of basket.

Content of the invention

In order to solve the problems referred to above, the invention provides a kind of band frequency conversion hanging basket control circuit, it is capable of hanging basket Accurately control.

Its technical scheme is such：A kind of hanging basket control circuit, it is characterised in that it includes two motors D1, D2, institute Stating motor D1 and connecting thermal overload relay FR1 one end, the described thermal overload relay FR1 other end is by relay switch BX1 even Contact relay G7-1, first relay switch KM1 one end, described motor D2 connects thermal overload relay FR2 one end, described heat The overload relay FR2 other end connects relay G7-2, first relay switch KM2 one end, institute by relay switch BX2 State first relay switch KM1 other end, first relay switch KM2 other end connects total contactor QS, institute after being connected State total contactor QS use three-phase five-wire mode, described total contactor QS be also connected with phase sequence relay PR1, switch P1 one end, second Individual relay switch KM1 one end, transformer T2 former limit one end, the former limit of described switch P2 other end connection transformer T1, described change Connecting valve P2 one end, depressor T2 secondary one end, the described switch P2 other end connects press button TA one end, described press button TA other end connecting valve QA1-1 one end, switch QA1-2 one end, the 3rd relay switch KM1 one end, the 3rd relay Switch KM2 one end, the described switch QA1-1 other end passes through described after being connected with described 3rd the relay switch KM1 other end First switch of relay G7-1 connects relay K M1 one end, the described switch QA1-2 other end and described 3rd relay The switch KM2 other end connects relay K M2 one end, described relay by first switch of described relay G7-2 after being connected The KM1 other end is connected the described transformer T1 secondary other end by switching BR after being connected with the described relay K M2 other end, described Second relay switch KM1 other end passes through second relay switch KM2 connection transformer T2 former limit other end, described change Depressor T2 secondary one end by switch P3 connect second switch one end of described relay G7-1, relay switch ZD1 one end, Second switch one end, relay switch ZD2 one end of described relay G7-2, second switch of described relay G7-1 is another One end connects relay ZD1 one end, and described relay switch ZD1 three switches S1, X1, B1 in parallel connect relay BX1 one end, second switch other end of described relay G7-2 connects relay ZD2 one end, described relay switch ZD2 three switches S2, X2, B2 in parallel connect relay BX2 one end, the described relay ZD1 other end, relay BX1 The other end, the relay ZD2 other end, the relay BX2 other end connect the described transformer T2 secondary other end after being connected.

After using the circuit of the present invention, by multiple relays and the components and parts such as transformer, switch, have effectively achieved The accurate control to hanging basket for the motor.

Brief description

Fig. 1 is circuit theory diagrams of the present invention.

Detailed description of the invention

As shown in Figure 1, a kind of hanging basket control circuit, it includes two motors D1, D2, and motor D1 connects thermal overload relay FR1 one end, the thermal overload relay FR1 other end connects relay G7-1, first relay switch by relay switch BX1 KM1 one end, motor D2 connects thermal overload relay FR2 one end, and the thermal overload relay FR2 other end passes through relay switch BX2 Connect relay G7-2, first relay switch KM2 one end, first the relay switch KM1 other end, first relay The switch KM2 other end connects total contactor QS after being connected, and total contactor QS uses three-phase five-wire mode, and total contactor QS is also connected with phase Sequence protector PR1, switch P1 one end, second relay switch KM1 one end, transformer T2 former limit one end, switch the P2 other end The former limit of connection transformer T1, connecting valve P2 one end, transformer T2 secondary one end, the switch P2 other end connects press button TA mono- End, press button TA other end connecting valve QA1-1 one end, switch QA1-2 one end, the 3rd relay switch KM1 one end, the By continuing after three relay switch KM2 one end, the switch QA1-1 other end and the 3rd the relay switch KM1 other end are connected First switch of electrical equipment G7-1 connects relay K M1 one end, and the switch QA1-2 other end and the 3rd relay switch KM2 are another One end connects relay K M2 one end, the relay K M1 other end and relay by first switch of relay G7-2 after being connected By the switch BR connection transformer T1 secondary other end after the KM2 other end is connected, second relay switch KM1 other end passes through Second relay switch KM2 connection transformer T2 former limit other end, transformer T2 secondary one end connects relay by switch P3 Second switch one end of device G7-1, relay switch ZD1 one end, second switch one end, the relay of relay G7-2 leave Closing ZD2 one end, second switch other end of relay G7-1 connects relay ZD1 one end, and relay switch ZD1 is in parallel Three switches S1, X1, B1 connect relay BX1 one end, second of the relay G7-2 switch other end connects relay ZD2 One end, relay switch ZD2 in parallel three switch S2, X2, B2 connect relay BX2 one end, relay ZD1 another End, the relay BX1 other end, the relay ZD2 other end, the relay BX2 other end be connected after connection transformer T2 secondary another End.

Claims (1)

1. a hanging basket control circuit, it is characterised in that it includes two motors D1, D2, described motor D1 connects thermal overload and continues Electrical equipment FR1 one end, the described thermal overload relay FR1 other end by relay switch BX1 connect relay G7-1, first continue Electric switch KM1 one end, described motor D2 connects thermal overload relay FR2 one end, and the described thermal overload relay FR2 other end leads to Cross relay switch BX2 and connect relay G7-2, first relay switch KM2 one end, described first relay switch KM1 The other end, first relay switch KM2 other end connect total contactor QS after being connected, and described total contactor QS uses three-phase five Line system, described total contactor QS is also connected with phase sequence relay PR1, switch P1 one end, second relay switch KM1 one end, change Depressor T2 former limit one end, the former limit of described switch P2 other end connection transformer T1, described transformer T2 secondary one end connecting valve P2 one end, the described switch P2 other end connects press button TA one end, described press button TA other end connecting valve QA1-1 mono- End, switch QA1-2 one end, the 3rd relay switch KM1 one end, the 3rd relay switch KM2 one end, described switch QA1- 1 other end is connected by first switch of described relay G7-1 after being connected with described 3rd the relay switch KM1 other end Contact relay KM1 one end, the described switch QA1-2 other end passes through after being connected with described 3rd the relay switch KM2 other end First switch of described relay G7-2 connects relay K M2 one end, the described relay K M1 other end and described relay The KM2 other end connects the described transformer T1 secondary other end by switch BR after being connected, and described second relay switch KM1 is another Second relay switch KM2 connection transformer T2 former limit other end is passed through in one end, and described transformer T2 secondary one end is by opening Close P3 connect second switch one end of described relay G7-1, relay switch ZD1 one end, the second of described relay G7-2 Individual switch one end, relay switch ZD2 one end, second switch other end of described relay G7-1 connects relay ZD1 mono- End, described relay switch ZD1 three switches S1, X1, B1 in parallel connect relay BX1 one end, described relay Second switch other end of device G7-2 connects relay ZD2 one end, described relay switch ZD2 three switches in parallel S2, X2, B2 connect relay BX2 one end, the described relay ZD1 other end, the relay BX1 other end, relay ZD2 another End, the relay BX2 other end connect the described transformer T2 secondary other end after being connected.