KR101075213B1 - Scrap magnet device - Google Patents

Abstract

The present invention relates to a scrap magnet device having a structure for connecting the power cable 20 and the connection cable 30 in the scrap magnet device.
The scrap magnet device according to the present invention has a structure for connecting the power cable 20 and the connection cable 30, the connector 21e of the power cable 20 is a non-ferrous metal inside the outer shell 22e made of an insulating elastomer The two conductors 23e-1 and 23e-2 which consist of two layers are arrange | positioned, the diaphragm 25e which is an insulator is arrange | positioned between two conductors 23e-1 and 23e-2, and the conductor 23e-1 And permanent magnets 26e-1 and 26e-2 are respectively inserted into the hollow grooves of 23e-2, and the set screws 27e-1 and 27e are fastened to the hollow grooves of the conductors 23e-1 and 23e-2. The permanent magnets 26e-1 and 26e-2 are fixed to the hollow grooves of the conductors 23e-1 and 23e-2 by -2), and the heads of the cable conductors 28e-1 and 28e-2 are fixed. 29e-1 and 29e-2 are fitted into the hollow grooves of the conductors 23e-1 and 23e-2 in a state where the outer shell 22e is caught by the shell 22e, and the head 29e of the cable leads 28e-1 and 28e-2. -1, 29e-2 are connected to the conductors 23e-1, 23e-2, and the connector 31e of the connecting cable 30 is made of an insulating elastic body. Two conductors 33e-1 and 33e-2 made of nonferrous metal are disposed inside the outer shell 32e, and a diaphragm 34e, which is an insulator, is disposed between the two conductors 33e-1 and 33e-2. The permanent magnets 36e-1 and 36e-2 are inserted into the hollow grooves of the conductors 33e-1 and 33e-2, respectively, and fastened to the hollow grooves of the conductors 33e-1 and 33e-2. The permanent magnets 36e-1 and 36e-2 are fixed to the hollow grooves of the conductors 33e-1 and 33e-2 by the set screws 37e-1 and 37e-2, and the cable leads 38e-1, The heads 39e-1 and 39e-2 of the 38e-2 are inserted into the hollow grooves of the conductors 33e-1 and 33e-2 in a state where the heads 39e-1 and 39e-2 are caught in the outer shell 32e, thereby providing the cable conductors 38e-1 and 38e. The heads 39e-1 and 39e-2 of -2) are connected to the conductors 33e-1 and 33e-2.

Description

Scrap Magnet Device {SCRAP MAGNET DEVICE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a scrap magnet device mounted on an excavator or tong truck, for sorting, sorting, and recovering scrap metal, etc. by electric magnetic force. The present invention relates to a scrap magnet device capable of connecting a cable and a connecting cable.

Korean Patent No. 10-859813 (registered on September 17, 2008) introduces an electronic chuck system for a crane vehicle.

The crane chuck electronic chuck system is mounted to the end of the multi-stage boom of the crane vehicle, the chuck main body is made of a conductive material that is embedded in the core wound coil, the one end of the coil is connected therein; An insulation bracket installed to be insulated from the chuck body; A first attachment / detachment jack installed on the insulation bracket, to which the other end of the coil is connected; A second attachment / detachment jack installed in the multi-stage boom and connected by a + terminal of the crane vehicle power and a power cable; And a detachable cable having a third detachable jack detachable from the first detachable jack, a fourth detachable jack detachable from the second detachable jack, and a cable connecting the third detachable jack and the fourth detachable jack. .

However, since the conventional electric chuck system of the crane vehicle uses the power of the crane vehicle, the use time is limited depending on the capacity of the battery, and either the first detachable jack or the second detachable jack is an iron core rod. And, any one of the third detachable jack and the fourth detachable jack is made of iron core rod, there is a disadvantage that a lot of heat occurs in the detachable jack made of iron core rod and power consumption is large.

Accordingly, an object of the present invention is that the permanent magnet is embedded in the conductor in the connector structure of the power cable and the connecting cable, so that the permanent magnet and the permanent magnet function to connect the two connectors to each other but are not involved in the flow of electricity. By conducting electricity from the conductor of the connector of the power cable to the conductor of the connector of the connecting cable, power consumption due to heat can be reduced, and heat can be prevented from occurring in the connector, thereby preventing the connector from being burned out by heat. It is to provide a scrap magnet device that can be prevented.

The scrap magnet device according to the present invention for achieving the above object is a structure for connecting the power cable and the connection cable in the scrap magnet device, the connector of the power cable is made of a non-ferrous metal inside the outer shell made of an insulating elastomer 2 Conductors are arranged, a diaphragm as an insulator is disposed between the two conductors, permanent magnets are respectively inserted into the hollow grooves of the conductor, and the permanent magnets are set by the set screws fastened to the hollow grooves of the conductor, respectively. Respectively fixed to the hollow groove of the cable conductor, and the head of the cable conductor is fitted into the hollow groove of the conductor, the head of the cable conductor is connected to the conductor, and the connector of the connecting cable is placed inside the outer shell Two conductors made of non-ferrous metal are arranged, and the diaphragm as an insulator is formed between the two conductors. Permanent magnets are inserted into the hollow grooves of the conductor, and the permanent magnets are fixed to the hollow grooves of the conductor by a set screw fastened to the hollow grooves of the conductor, respectively, and the head of the cable conductor is caught in the outer shell. In the hollow groove of the conductor, characterized in that the head of the cable lead is connected to the conductor.

As a result, the scrap magnet device according to the present invention is applied to an excavator or a tong car, which can reduce power consumption by heat, and can prevent the connector from being burned out by heat.

Figure 1 is a side view schematically showing the edge of the scrap magnet device applied to the excavator according to the present invention
2 is a cross-sectional view showing a connector structure of a power cable and a connector structure of a connecting cable for connecting the power cable and the connecting cable;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

Referring to FIG. 1, the scrap magnet device according to the present invention includes a hydraulic generator 10 mounted on a main body 3 of an excavator 1, a power cable 20 connected to the hydraulic generator 10, and a power cable. The connection cable 30 is connected to the 20, and the electromagnet 40 is connected to the connection cable (30).

At this time, the power cable 20 is composed of two strands, one power cable is connected to the (+) pole of the hydraulic generator, the other power cable is connected to the (-) pole of the hydraulic generator.

Referring to FIG. 2, the connector structure of the power cable 20 and the connector structure of the connection cable 30 for connecting the power cable 20 and the connection cable 30 are as follows.

In the connector 21e of the power cable 20, two conductors 23e-1 and 23e-2 made of a non-ferrous metal having high conductivity, such as copper and aluminum, are disposed inside the outer shell 22e made of an insulating elastic body. The diaphragm 25e which is an insulator is arrange | positioned between two conductors 23e-1 and 23e-2, and the permanent magnets 26e-1 and 26e-2 in the hollow groove of the conductors 23e-1 and 23e-2. ) Are respectively inserted, and the permanent magnets 26e-1 and 26e-2 are connected by the set screws 27e-1 and 27e-2 fastened to the hollow grooves of the conductors 23e-1 and 23e-2. It is fixed to the hollow groove of 23e-1, 23e-2, and the conductor 29e-1, 29e-2 of the cable conductor 28e-1, 28e-2 is caught in the outer shell 22e, and the conductor The heads 29e-1 and 29e-2 of the cable conductors 28e-1 and 28e-2 are inserted into the hollow grooves of the 23e-1 and 23e-2 to form conductors 23e-1 and 23e-2. Is connected to.

In the connector 31e of the connecting cable 30, two conductors 33e-1 and 33e-2 made of a non-ferrous metal having high conductivity, such as copper and aluminum, are disposed inside the outer shell 32e made of an insulating elastomer. The diaphragm 34e which is an insulator is arrange | positioned between two conductors 33e-1 and 33e-2, and the permanent magnets 36e-1 and 36e-2 in the hollow groove of the conductors 33e-1 and 33e-2. ) Are respectively inserted, and the permanent magnets 36e-1 and 36e-2 are connected by the set screws 37e-1 and 37e-2 fastened to the hollow grooves of the conductors 33e-1 and 33e-2. It is fixed to the hollow grooves of 33e-1 and 33e-2, and the conductors 39e-1 and 39e-2 of the cable conductors 38e-1 and 38e-2 are caught in the outer shell 32e. Inserted into the hollow grooves of 33e-1 and 33e-2, the heads 39e-1 and 39e-2 of the cable conductors 38e-1 and 38e-2 connect the conductors 33e-1 and 33e-2. Is connected to.

In the connector structure of the power cable 20 and the connector structure of the connection cable 30 as described above, as shown in Fig. 2, the socket grooves 24e-1, at the ends of the conductors 23e-1, 23e-2, 24e-2) and the plug portions 34e-1 and 34e-2 are formed at the ends of the conductors 33e-1 and 33ee-2, respectively, the connector of the power cable 20 becomes a socket. The connector of the connection cable 30 becomes a plug, so that the connector of the connection cable 30 can be plugged into the connector of the power cable 20.

Thereby, when (+) power is applied from the conductor 23e-1 of the power cable 20 to the conductor 23e-1 of the connection cable 30, the conductor of the power cable 20 ( (E) power is supplied from the 23e-2 to the conductor 23e-2 of the connecting cable 30, and the permanent magnets 26e-1 and 26e-2 and the permanent magnets 36e-1 and 36e-2. It is prevented that the connector 31e of the connecting cable 30 is automatically disconnected from the connector 21e of the power cable 20 by the attraction force of the conductors, and the conductors 23e-1 and 23e-2 of the connector 21e are prevented. Is applied to the conductors 33e-1 and 33e-2 of the connector 31e, thereby generating heat at the connector 21e of the power cable 20 and the connector 31e of the connection cable 30. By preventing the heat, power consumption due to heat can be reduced, and it is possible to prevent the connector 21e of the power cable 20 and the connector 31e of the connection cable 30 from being burned out by heat.

20: power cable 21e: connector
22e: jacket 23e-1, 23e-2: conductor
25e: Diaphragm 26e-1, 26e-2: Permanent magnet
27e-1, 27e-2: set screw 28e-1, 28e-2: cable lead
30: connecting cable 31e: connector
33e-1, 33e-2: Conductor 34e: Diaphragm
36e-1, 36e-2: permanent magnet 37e-1, 37e-2: set screw
38e-1, 38e-2: cable lead

Claims (1)

In the structure for connecting the power cable 20 and the connecting cable 30 in the scrap magnet device,
In the connector 21e of the power cable 20, two conductors 23e-1 and 23e-2 made of non-ferrous metal are disposed inside the sheath 22e made of an insulating elastic body, and two conductors 23e-1 are disposed. , 23e-2, a diaphragm 25e, which is an insulator, is disposed, and permanent magnets 26e-1 and 26e-2 are inserted into the hollow grooves of the conductors 23e-1 and 23e-2, respectively. The permanent magnets 26e-1 and 26e-2 are connected to the conductors 23e-1 and 23e-2 by the set screws 27e-1 and 27e-2 fastened to the hollow grooves of the 23e-1 and 23e-2. Fixed in the hollow groove, and the conductors 23e-1 and 23e-2 in the state where the heads 29e-1 and 29e-2 of the cable conductors 28e-1 and 28e-2 are caught in the sheath 22e. ), The heads 29e-1 and 29e-2 of the cable conductors 28e-1 and 28e-2 are connected to the conductors 23e-1 and 23e-2,
In the connector 31e of the connecting cable 30, two conductors 33e-1 and 33e-2 made of non-ferrous metal are arranged inside the outer shell 32e made of an insulating elastic body, and two conductors 33e-1 are disposed. , 33e-2, an insulator diaphragm 34e is disposed, and permanent magnets 36e-1 and 36e-2 are inserted into the hollow grooves of the conductors 33e-1 and 33e-2, respectively. The permanent magnets 36e-1 and 36e-2 are formed of conductors 33e-1 and 33e-2 by the set screws 37e-1 and 37e-2 fastened to the hollow grooves of the 33e-1 and 33e-2. The conductors 33e-1 and 33e-2 in the state where the heads 39e-1 and 39e-2 of the cable conductors 38e-1 and 38e-2 are caught in the sheath 32e. And the heads 39e-1 and 39e-2 of the cable conductors 38e-1 and 38e-2 are connected to the conductors 33e-1 and 33e-2. Magnet device.

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