CN221319067U - Double-hydraulic winch control system - Google Patents

Abstract

The utility model discloses a double-hydraulic winch control system, which comprises a control box; a left winch control valve and a right winch control valve for controlling the winch are arranged in the control box body of the control box, and the left winch control valve and the right winch control valve are respectively communicated with a left winch electromagnetic valve and a right winch electromagnetic valve for controlling working conditions through gas paths; a left clutch valve and a right clutch valve for controlling the left clutch and the right clutch are also arranged in the box body; the control box is connected with the control box. The double-hydraulic winch control system adopts a highly integrated design, and all hydraulic, pneumatic and electric elements required by the two winches are integrated into the control box, so that the occupied space of the double-hydraulic winch system is greatly saved, the installation is simpler and more convenient, the transportation is easy, and the transportation cost is saved; secondly, through control box, electrical component and electrical system, realized the long-range control of while, the same place of each item function of double winch system, make the use of double hydraulic winch system more convenient.

Description

Double-hydraulic winch control system

Technical Field

The utility model belongs to the technical field of hydraulic winch control, and particularly relates to a double-hydraulic winch control system.

Background

The hydraulic winch is widely applied to vehicles with functions of towing heavy objects and rescuing heavy equipment, and some vehicles are required to be provided with double hydraulic winches so as to realize the rescuing function of equipment with larger weight. The two hydraulic winches need to be controlled jointly during use of the dual hydraulic winch. The existing double-hydraulic winch system is often characterized in that two separate hydraulic control systems are used for respectively controlling two winches, the required installation space is large, the installation and the practicability are inconvenient, and the combined control and the remote control of the two winches are not facilitated.

Disclosure of utility model

The utility model aims to: the utility model aims to provide a double-hydraulic winch control system which is small in size and convenient to operate.

The technical scheme is as follows: the utility model relates to a double-hydraulic winch control system, which comprises a control box; a left winch control valve and a right winch control valve for controlling the winch are arranged in the control box body of the control box, and the left winch control valve and the right winch control valve are respectively communicated with a left winch electromagnetic valve and a right winch electromagnetic valve for controlling working conditions through gas paths; a left clutch valve and a right clutch valve for controlling the left clutch and the right clutch are also arranged in the box body; the control box is connected with the control box.

The pipeline connector comprises a left clutch interface, a right clutch interface, a left winch hydraulic pump interface, a right winch hydraulic pump interface, an oil return interface, a right winch A interface, a right winch B interface, a left winch A interface, an air source interface and a first cable socket.

The control box is connected with the control box through a cable and comprises a box body, and a second cable socket and an operation panel are arranged on the box body.

The hydraulic pump inputs oil pressure into the left winch control valve and the right winch control valve through LP and RP interfaces.

The left winch control valve and the right winch control valve are respectively communicated with the left winch and the right winch through LA or LB, RA or RB interfaces.

The device further comprises an external air source, wherein the external air source is respectively communicated with the left clutch valve and the right clutch valve through QP interfaces by the external air source; the left clutch valve and the right clutch valve are communicated with the left winch clutch and the right winch clutch through LL and RL interfaces.

The system also comprises a left winch pressure gauge and a right winch pressure gauge for measuring the system pressure of the left winch and the right winch.

The beneficial effects are that: compared with the prior art, the utility model has the following advantages: the double-hydraulic winch control system adopts a highly integrated design, all hydraulic, pneumatic and electric elements required by two winches are integrated into the control box, so that the control functions of rope twisting, rope releasing, clutch disengaging and the like are simultaneously carried out on the two hydraulic winches, the problem that the required installation space is overlarge due to the separate arrangement of the two hydraulic winch control systems is solved, the occupied space of the double-hydraulic winch system is greatly saved, the installation is simpler and more convenient, the transportation is easy, and the transportation cost is saved; secondly, through control box, electrical component and electrical system, realized the long-range control of while, the same place of each item function of double winch system, make the use of double hydraulic winch system more convenient, the commonality is good.

Drawings

FIG. 1 is a hydraulic and pneumatic schematic diagram of the interior of the control box of the present utility model;

FIG. 2 is a front view of the control box structure of the present utility model;

FIG. 3 is a schematic view of the inside of the control box structure of the present utility model;

FIG. 4 is a rear elevational view of the control box structure of the present utility model;

FIG. 5 is a front view of the steering box of the present utility model;

FIG. 6 is a side view of the present utility model manipulating box;

fig. 7 is a top view of the steering box of the present utility model.

Detailed Description

As shown in fig. 1 to 7, the double hydraulic winch control system in the utility model comprises a control box, wherein the control box comprises a box body 6, a left winch control valve 18, a right winch control valve 7, a left winch electromagnetic valve 15, a right winch electromagnetic valve 14, a left clutch valve 8, a right clutch valve 9, a left winch pressure gauge 17, a right winch pressure gauge 16 and connecting pipes and joints, and various pipe joints are arranged on the side wall of the control box 6 and used for transitional connection between the inner pipeline and the outer pipeline of the control box 6; the pipe joint comprises a left clutch interface 1, a right clutch interface 2, a left winch hydraulic pump interface 3, a right winch hydraulic pump interface 4, an oil return interface 5, a right winch A interface 10, a right winch B interface 11, a left winch B interface 12, a left winch A interface 13, an air source interface 19 and a first cable socket 20. The left winch control valve 7 and the right winch control valve 18 are used for directly controlling functions of winch such as rope twisting and rope releasing working conditions, overload protection and the like; the left winch electromagnetic valve 15 and the right winch electromagnetic valve 14 are respectively connected with the left winch control valve 17 and the right winch control valve 18 through air circuits and are used for indirectly controlling the rope reeling and unreeling working conditions of the winches; the left clutch valve 8 and the right clutch valve 9 are used for directly controlling the left clutch and the right clutch; the left winch pressure gauge 17 and the right winch pressure gauge 16 are used for measuring the system pressure of the left winch and the right winch, so that the system pressure conditions of the left winch and the right winch can be conveniently mastered in real time.

The control box comprises a box body 23, an operation panel 25 and a second cable socket 24; the case 23 houses a battery and internal circuitry for providing power and internal transmission and conversion of electrical signals. The operation panel 25 is provided with a power switch, a left winch, a right winch and a control knob of a clutch thereof, and is connected with an internal circuit for controlling the operation of the two winches by an operator; the electric quantity display lamp is arranged on the operation panel, so that an operator can conveniently master the electric quantity of the operation box in real time; the cable socket is connected with the internal circuit of the control box, and is connected with the cable socket on the control box through a cable when in use, and transmits an electric signal generated by the control box to an electric element in the control box; the cable socket may also be used to connect to an external power source for charging when charging is required. The control box is connected with the control box through a cable, and an internal circuit of the control box converts the operation of an operator on the panel into signals executable by the electric elements and transmits the signals to the control box through the cable.

The working flow is as follows: the hydraulic pump inputs the oil pressure to the left winch control valve 18 and the right winch control valve 7 via LP and RP interfaces, and outputs the oil pressure to the left and right winches via LA, LB, RA, or RB interfaces, respectively. The external air source inputs air pressure into the left winch electromagnetic valve 15 and the right winch electromagnetic valve 14 through QP interfaces, the left winch electromagnetic valve 15 and the right winch electromagnetic valve 14 are respectively connected with the left winch control valve 18 and the right winch control valve 7 through air paths, and each electromagnetic valve has two states of upper power-on and lower power-on, so that a reversing valve in the control valve is respectively positioned at a rope twisting station and a rope releasing station. The external air source inputs air pressure into the clutch valve through QP interface, and outputs air pressure to the left capstan clutch 8 and the right capstan clutch 9 through LL and RL interfaces respectively, when the clutch valve is powered on, the clutch is disconnected, and when the clutch is powered off, the clutch is reset. The left winch pressure gauge 17 and the right winch pressure gauge 16 are respectively connected with pressure measuring interfaces on the left winch control valve 18 and the right winch control valve 7, and respectively measure the system pressures of the two winches.

When the rope twisting operation of the left winch and the right winch is carried out, an operator can adjust a left winch control knob and a right winch control knob on the control box to a rope twisting position, and at the moment, the left winch electromagnetic valve 15 and the right winch electromagnetic valve 14 are electrified to enable the left winch control valve 18 and the right winch control valve 7 to be positioned at a rope twisting station, and the left hydraulic winch and the right hydraulic winch to be positioned at rope twisting working conditions; when the rope releasing operation of the left winch and the right winch is carried out, an operator can adjust the left winch control knob and the right winch control knob on the control box to the 'rope releasing' position, and at the moment, the left winch electromagnetic valve 15 and the right winch electromagnetic valve 14 are powered down, so that the left winch control valve 18 and the right winch control valve 7 are positioned at a rope releasing station, and the left hydraulic winch and the right hydraulic winch are positioned at a rope releasing working condition. When the left/right winch is manually released, an operator can adjust the left/right clutch control knob to the release position when the clutch is required to be released, at the moment, the left/right clutch valve is powered on, and the clutch is released, so that the manual rope releasing operation can be performed.

Claims (7)

1. A double hydraulic winch control system comprises a control box; the winch control system is characterized in that a left winch control valve (18) and a right winch control valve (7) for controlling a winch are arranged in a box body (6) of the control box, and the left winch control valve (18) and the right winch control valve (7) are respectively communicated with a left winch electromagnetic valve (15) and a right winch electromagnetic valve (14) for controlling working conditions through air paths; a left clutch valve (8) and a right clutch valve (9) for controlling the left clutch and the right clutch are also arranged in the box body (6); the control box is connected with the control box.

2. The dual hydraulic winch control system according to claim 1, wherein a pipeline joint for transitional connection of an inner pipeline and an outer pipeline is arranged on the inner wall of the control box, and the pipeline joint comprises a left clutch interface (1), a right clutch interface (2), a left winch hydraulic pump interface (3), a right winch hydraulic pump interface (4), an oil return interface (5), a right winch a interface (10), a right winch B interface (11), a left winch B interface (12), a left winch a interface (13), an air source interface (19) and a first cable socket (20).

3. A dual hydraulic winch control system according to claim 1, characterized in that the control box is connected to the control box by means of a cable, the control box comprising a box body (23), the box body (23) being provided with a second cable socket (24) and an operating panel (25).

4. A dual hydraulic winch control system according to claim 1, further comprising a hydraulic pump that inputs oil pressure to the left winch control valve (18) and the right winch control valve (7) via LP, RP interfaces.

5. A dual hydraulic winch control system according to claim 4, characterized in that the left winch control valve (18) and the right winch control valve (7) communicate with the left winch and the right winch respectively through LA or LB, RA or RB interfaces.

6. A dual hydraulic winch control system according to claim 1, further comprising an external air source, which communicates with the left clutch valve (8), the right clutch valve (9) via QP interface, respectively, via an external air source; the left clutch valve (8) and the right clutch valve (9) are communicated with the left winch clutch and the right winch clutch through LL and RL interfaces.

7. A dual hydraulic winch control system according to claim 1, further comprising a left winch pressure gauge (17), a right winch pressure gauge (16) for measuring the system pressure of the left and right winches.