CN102826415A

CN102826415A - Power line winder

Info

Publication number: CN102826415A
Application number: CN2011101686683A
Authority: CN
Inventors: 张春宇
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-06-14
Filing date: 2011-06-14
Publication date: 2012-12-19

Abstract

The invention relates to a remote control electric winder for power lines, consisting of a cable (wire), a winding drum, an electric motor, a cable (wire) electric connecting assembly, a remote control device and a rotary locking device; the remote control electric winder can realize collecting and releasing of the cable (wire) by switching on and off the cable (wire) through remote control, can be arranged at the high positions such as a wall, is suitable for users who frequently use the cable (wire) and is beneficial to improving the working efficiency.

Description

A kind of power cord spooling machine

Technical field

The present invention relates to the electronic bobbin winoler of a kind of power lead, particularly relate to a kind of electronic bobbin winoler of power lead that uses wireless remote control.

Background technology

Bobbin winoler is mainly by support, turning cylinder, and winding drum is formed.Power cord spooling machine is to use the recovery power of backrush spring as cable (line).Bobbin winoler need reach the purpose of unwrapping wire through the cable (line) of tractive bobbin winoler load, and in order to overcome the pulling force of backrush spring, cable (line) itself can receive non-homogeneous pulling force, can make cable (line) bear bigger load, and cable (line) is caused potential damage.In actual life, stay in the high resident family of several floors, in order to give the charging of Electrical Bicycle downstairs, use existing power cord spooling machine, then waste time and energy, very inconvenient.

Summary of the invention

In order to overcome above-mentioned defective, the contriver uses electrical motor to replace the backrush spring that pulling force is provided on bobbin winoler, utilizes control device of wireless to realize the folding and unfolding action of bobbin winoler.Use electrical motor a pulsation-free pulling force to be provided as cable, not can along with the folding and unfolding of cable apart from the abrupt change that pulling force takes place, cause cable stress uneven, cause potential safety hazard; Through using the forward and reverse rotation in control device of wireless control motor to drive the folding and unfolding that winding drum is accomplished cable, can accomplish the smooth-going folding and unfolding control process of cable at a distance, avoided pulling to cable.

Wireless remote controller comprises a controlled in wireless receiving device and a controlled in wireless feedway.The controlled in wireless receiving device is connected respectively with control device of electric motor and cable (line) control setup with power supply.

Cable on the winding drum (line) links to each other with power supply through electrical connection module, and electrical connection module mainly is made up of the drum shaft of conducting slip ring and conduction.

Rotary connecting device between electrical motor and winding drum; Needing can either efficient transfer motor-driven power; Can guarantee that again winding drum stretches and draw when rotating the protection of motor receiving accident, among the present invention, use worm and gear as main rotation lock device; Electrical motor connects worm screw, and winding drum connects worm gear.Worm-and-wheel gear can obtain very big transmitting ratio, and compacter than cross helical gear mechanism, is applicable to the small construction size; Be the line contact between the two-wheeled mesh tooth face, so load-carrying capacity is bigger; Worm drive is equivalent to worm drive, is multiple tooth engaged transmission, so stable drive, noise is very little, is suitable for the steady coiling to cable; Worm and gear has self-locking performance, and when the lead angle of worm screw during less than the equivalent friction angle of meshing wheel between cog, mechanism has self-locking performance, can realize reverse self-locking, promptly can only drive worm gear by worm screw, and can not be by the worm gear drives worm screw.Its reverse self-locking performance can play the safety guard-safeguard effect to the motor in rotating, and can be implemented under the cold situation of electrical motor the winding drum transfixion.It is 0.5 that the parameter of worm gear can be selected transverse module, and the number of teeth is 28, and angle of obliquity is 20 °, and rotation direction is a left side, and helical angle is 3 °; It is 0.5 that the parameter of worm screw can be selected modulus, and angle of obliquity is 20 °, and rotation direction is a left side, and helical angle is 3 °, and a number is 1, and transmission direction is a direction of motor rotation.

Through using wireless remote controller, electronic bobbin winoler just can be placed in the high flexible of number floor.And, can operate by a people, just can finish the work.Control motivated, reliable, convenient.

As shown in Figure 2, adopt control device of electric motor to compose in parallel by two relays, the present invention uses normally opened relay.Be series capacity 002 in auxiliary winding, the mouth of motor power line difference cut-in relay 003 and relay 004.Because motor of the present invention adopts the identical clockwise and anticlockwise motor of major-minor winding data, through the adhesive of different relays, the position of transposing main winding and auxiliary winding, motor is promptly realized forward and reverse.

As shown in Figure 3, cable (line) control setup is by mainly being made up of magnetic latching relay, and the relay input end is connected in remote-receiver, and mouth is connected in cable (line) and power lead, has realized the energising and the outage of remote control control cable (line).The present invention controls two electric wires of power lead simultaneously with magnetic latching relay, has realized that zero line and live wire (or supplying telegram in reply road) are switched on or switched off simultaneously, have improved the safety of device.

Description of drawings

Fig. 1 is the structural representation of remote control electric bobbin winoler.

01. winding drum among the figure, 02. rotation lock device, 03. electrical motor; 04. power lead, 05. control device of electric motor, 06. receiving/releasing control signal is used electric wire; 07. the controlled in wireless receiving device, 08. controlled in wireless feedway, 09. cable (line) control setup; 10. the on/off electric control signal is used electric wire, 11. multicables (line), 12. cables (line) coupling assembling.

Fig. 2 is the controlled in wireless receiving device and the scheme drawing that is connected of electrical motor.

001. motor winding among the figure, 002. electrical motor electric capacity, 003. relay, 004. relay.

Fig. 3 is magnetic latching relay and cable (line) the core bonded assembly scheme drawing wherein of cable (line) control setup.

Among the figure 010. connect cable (line) a core, 011. magnetic latching relay, 012. electrode, 013. conduction movable contact.

The specific embodiment

Referring to accompanying drawing, specify specific embodiments of the present invention.

As shown in Figure 1, the remote control electric bobbin winoler is mainly by winding drum, rotation lock device, electrical motor, control device of electric motor, and supply unit is formed.Cable (line) is installed on the winding drum; Winding drum is connected with electrical motor with turbine through worm screw; Electrical motor is connected with control device of electric motor; Control device of electric motor is responsible for the conducting and the direction of current of control motor driving circuit, and motor drive circuit connects the control signal output ends of controlled in wireless receiving device.

Simultaneously, cable (line) control setup control cable (line) links to each other with power supply, and cable (line) control setup links with controlled in wireless receiving device signal output part simultaneously.Specifically: in input end parallel connection or series connection (direction of current is consistent), perhaps use a relay that has two groups of mouths by two magnetic latching relays.

Electrical connection module is made up of conducting slip ring, and promptly each conducting slip ring connects a cable (line) core.

Controlled in wireless feedway (08) sends " receipts " code signal through emitting antenna, and controlled in wireless receiving device (07) receives " receipts " code signal, and controlled in wireless receiving device (07) converts code signal into the forward drive signal; Send the positive rotaring signal of electrical motor to control device of electric motor (05); Relay (003) adhesive, relay (004) is failure to actuate, the conducting of control device of electric motor (05) forward link circuit; Produce forward current; Driving motor (03) rotor drives worm screw and rotates, and worm screw drives worm gear and rotates, and turbine drives winding drum (01) and is rotated in the forward; Controlled in wireless feedway (08) stops to send " receipts " code signal; Controlled in wireless receiving device (07) stops to send the positive rotaring signal of electrical motor to control device of electric motor (05); Relay (003) is failure to actuate, and relay (004) is failure to actuate, control device of electric motor (05) forward link circuit open circuit;

Controlled in wireless feedway (08) sends " putting " code signal through emitting antenna, and controlled in wireless receiving device (07) receives " putting " code signal, and controlled in wireless receiving device (07) converts code signal into reverse drive signals; Relay (003) is failure to actuate; Relay (004) adhesive is sent the electrical motor reverse signal to control device of electric motor (05), the reverse link circuit conducting of control device of electric motor (05); Produce counter-current; The driving motor rotor drives worm screw and rotates, and worm screw drives worm gear and rotates, and turbine drives the winding drum contrarotation; Controlled in wireless feedway (08) stops to send " putting " code signal; Controlled in wireless receiving device (07) stops to send the electrical motor reverse signal to control device of electric motor (05); Relay (003) is failure to actuate, and relay (004) is failure to actuate, the reverse link circuit open circuit of control device of electric motor (05).

Controlled in wireless feedway (08) sends " connection " code signal through emitting antenna; Controlled in wireless receiving device (07) receives " connection " code signal; Controlled in wireless receiving device (07) converts code signal into the forward voltage signal, to magnetic latching relay (011) the transmission forward voltage signal of cable (line) control setup, magnetic latching relay (011) left side adhesive; Cable (line) switch conduction makes cable (line) energising; Controlled in wireless feedway (08) stops to send " connection " code signal; Controlled in wireless receiving device (07) stops to code signal being converted into the forward voltage signal; Magnetic latching relay (011) to cable (line) control setup stops to send the forward voltage signal; The magnetic latching relay left side continues to keep adhesive, and cable (line) switch conduction makes cable (line) be in "on" position;

Controlled in wireless feedway (08) sends " disconnection " code signal through emitting antenna; Controlled in wireless receiving device (07) receives " disconnection " code signal; Controlled in wireless receiving device (07) converts code signal into reverse voltage signal, to magnetic latching relay (011) the transmission reverse voltage signal of cable (line) control setup, magnetic latching relay (011) right side adhesive; Cable (line) switch opens circuit, and makes cable (line) outage; Controlled in wireless feedway (08) stops to send " disconnection " code signal; Controlled in wireless receiving device (07) stops to converting code signal into reverse voltage signal; Magnetic latching relay (011) to cable (line) control setup stops to send reverse voltage signal; Adhesive is continued to keep in the magnetic latching relay right side, and cable (line) switch keeps off-state, makes cable (line) be in off-position;

For guarantee that wireless signal is not interfered in the transmitting-receiving process, controlled in wireless emission/receiving device can use for example PT2262, PT2264; EV1527; EV527, general coding-decoding circuit such as HCS301 is encrypted the signal that sends; Improve antijamming capability, avoid that complex electromagnetic environments causes maloperation in the working environment.

Above embodiment describes preferred implementation of the present invention; Be not that scope of the present invention is limited; Design under the prerequisite of spirit not breaking away from the present invention; Various distortion and improvement that those of ordinary skills make technical scheme of the present invention all should fall in the definite protection domain of claims of the present invention.

Claims

1. power cord spooling machine; Mainly form with power supply bonded assembly electrical connection module, winding drum, rotation lock device, it is characterized in that also comprising the motor, motor control assembly, cable (line) control setup and the wireless remote controller that drive winding drum by cable (line), cable (line).

Wherein wireless remote controller comprises a controlled in wireless receiving device and a controlled in wireless feedway.

2. power cord spooling machine as claimed in claim 1 is characterized in that using the universal coding circuit in the controlled in wireless feedway, uses corresponding general decoding circuit in the controlled in wireless receiving device.

3. power cord spooling machine as claimed in claim 1 is characterized in that the controlled in wireless receiving device is connected respectively with power supply, control device of electric motor and cable (line) control setup.

4. power cord spooling machine as claimed in claim 1 is characterized in that cable (line) control setup is made up of magnetic latching relay, and its input end and wireless remote control receiving device link, mouth tie cable (line).

5. power cord spooling machine as claimed in claim 4 is characterized in that the magnetic latching relay in cable (line) control setup, and two cores in the control cable (line) can be switched on or switched off power supply simultaneously simultaneously.

6. power cord spooling machine as claimed in claim 1; It is characterized in that control device of electric motor mainly is made up of two normally opened relays; The power supply line of electrical motor connects the mouth of relay (003) and relay (004), and the input end of each relay connects the signal output part of controlled in wireless receiving device respectively.

7. the cable on the winding drum (line) links to each other with power supply through electrical connection module, and the structure of electrical connection module mainly is that conducting slip ring is formed.

8. power cord spooling machine as claimed in claim 1 is characterized in that rotation lock device mainly is made up of worm and gear, and electrical motor connects worm screw, and winding drum connects worm gear.

9. the method for application of a power cord spooling machine as claimed in claim 1:

Controlled in wireless feedway (08) sends " disconnection " code signal through emitting antenna; Controlled in wireless receiving device (07) receives " disconnection " code signal; Controlled in wireless receiving device (07) converts code signal into reverse voltage signal, to magnetic latching relay (011) the transmission reverse voltage signal of cable (line) control setup, magnetic latching relay (011) right side adhesive; Cable (line) switch opens circuit, and makes cable (line) outage; Controlled in wireless feedway (08) stops to send " disconnection " code signal; Controlled in wireless receiving device (07) stops to converting code signal into reverse voltage signal; Magnetic latching relay (011) to cable (line) control setup stops to send reverse voltage signal; Adhesive is continued to keep in the magnetic latching relay right side, and cable (line) switch keeps off-state, makes cable (line) be in off-position.