CN215681189U - Automatic deciliter formula current collector - Google Patents

Abstract

The utility model relates to an automatic opening and closing type current collector, which comprises a sliding contact line, a current collector base and an electric push rod, wherein the sliding contact line is arranged on a mobile device with power receiving and charging requirements; the fixed end of the electric push rod is hinged with the current collector base, and the moving end of the electric push rod is hinged with the current collector. The advantages are that: the utility model realizes the automatic connection and separation of the current collector and the sliding contact line, realizes the automatic power receiving and charging functions of a fixed place of the long-distance traveling equipment, cancels the heavy dangerous operation of manually plugging and unplugging a plug to carry out power receiving and charging, improves the production efficiency, and has the characteristics of reasonable design, strong practicability, simple structure, and stable and reliable action.

Description

Automatic deciliter formula current collector

Technical Field

The utility model belongs to the technical field of power supply of current collectors, and particularly relates to an automatic opening and closing type current collector.

Background

At present, the conventional technical scheme for implementing continuous power supply for mobile equipment which needs intelligent transmission and long-distance running is battery power supply and current collector power supply, especially for providing alternating current power, such as power for equipment of electric automobiles, cranes and the like, and the power supply runs through the whole running process. When the running interval is long and only a certain specific place needs to be powered on or charged, the power can be powered on only by plugging and unplugging the plug manually, for example, the iron folding operation of a torpedo tank car in a steel plant needs to be powered on by plugging and unplugging the plug manually, so that the iron folding operation time is prolonged, and the operation is dangerous and labor-consuming.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model aims to provide an automatic on-off type current collector which can be arranged at a position needing power receiving and charging and solve the problem that a plug needs to be plugged and unplugged manually for connection.

In order to achieve the purpose, the utility model is realized by the following technical scheme:

an automatic separation and combination type current collector comprises a sliding contact line, a current collector base and an electric push rod, wherein the sliding contact line is arranged on a mobile device with power receiving and charging requirements; the fixed end of the electric push rod is hinged with the current collector base, and the moving end of the electric push rod is hinged with the current collector.

The sliding contact line comprises a first guide plate, a second guide plate, a screw, a first insulator and a sliding contact line bracket; the first guide plates and the second guide plates are arranged in rows, the second guide plates are arranged at the lowest layer, the first guide plates are sequentially arranged upwards by taking the second guide plates as a reference, and the number of the first guide plates is 1-20; the non-working surfaces of the first guide plate and the second guide plate are welded with one end of the screw, and the other end of the screw is fixedly connected with the first insulator; the other end of the first insulator is fixed to the trolley wire support.

The current collector comprises a current collector frame, a bearing, a travel switch I, an insulator II, a current collecting arm, a current collecting slide block and a current collector power control box; the bearing is connected to the collector frame to enable the collector to move on the collector base in a reciprocating mode; the first travel switches are fixedly connected to the current collector frame and are arranged in rows and correspond to the first guide plates; one end of the second insulator is fixedly connected with the first travel switch, and the other end of the second insulator is fastened with the inner end of the current collecting arm and leads out a fourth lead; the other end of the wire IV is connected with an output terminal of the collector power control box; the current collection sliding block is hinged with the outer end of the current collection arm.

The current collection sliding block is in a polyhedral prism shape.

The current collector base comprises a base, a travel switch II, an insulator III, a swing arm, a slide block, a lead V and a lead VI, wherein the travel switch II is fixed on the base, and two ends of a normally open contact of the travel switch II are respectively connected with the lead V and the lead VI; one end of the insulator III is fixed with the travel switch II, and the other end of the insulator III is fixedly connected with the inner end of the swing arm; the slide block is hinged with the outer end of the swing arm.

The power supply further comprises a relay and an electric push rod power supply, wherein the positive electrode of the output end of the electric push rod power supply is connected with the input ends of the first relay normally-open contact and the first relay normally-closed contact, and the negative electrode of the output end of the electric push rod power supply is connected with the negative electrode of the relay power supply, and the input ends of the second relay normally-open contact and the second relay normally-closed contact are connected.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model realizes the automatic connection and separation of the current collector and the sliding contact line, realizes the automatic power receiving and charging functions of a fixed place of the long-distance traveling equipment, cancels the heavy dangerous operation of manually plugging and unplugging a plug to carry out power receiving and charging, improves the production efficiency, and has the characteristics of reasonable design, strong practicability, simple structure, and stable and reliable action.

Drawings

Fig. 1 is a front view of the separable collector in a separated state.

Fig. 2 is a plan view of the split collector in a split state.

Fig. 3 is a front view of the split collector in a combined state.

Fig. 4 is a plan view of the integrated state of the separable collector.

Fig. 5 is a front view of the trolley line.

Fig. 6 is a top view of a trolley line.

Fig. 7 is a front view of a current collector.

Fig. 8 is a top view of a current collector.

Figure 9 is a front view of a current collector base.

Figure 10 is a top view of a current collector base.

In the figure: the device comprises a sliding contact line 1, a current collector 2, a current collector base 3, an electric push rod 4, a first lead 4.1, a second lead 4.2, an electric push rod power supply 5, a relay 6, a first relay normally-open contact 6.1, a second relay normally-open contact 6.2, a first relay normally-closed contact 6.3, a second relay normally-closed contact 6.4, a third lead 7, a first guide plate 1.1, a second guide plate 1.2, a screw 1.3, a first insulator 1.4, a sliding contact line support 1.5, a first bolt 1.6, a first nut 1.7, a current collector frame 2.1, a bolt bearing 2.2, a first travel switch 2.3, a second insulator 2.4, a current collection arm 2.5, a current collection sliding block 2.6, a second bolt 2.7, a first screw 2.8, a fourth lead 2.9, a current collector power control box 2.10, a base 3.1, a second travel switch 3.2, a first screw 3.3, a third insulator 3.4, a third bolt 3.5, a swing arm 3.6, a sliding block 3.7, a second travel switch 3.8, a six-open contact and a six-stroke switch lead.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings, but it should be noted that the present invention is not limited to the following embodiments.

Referring to fig. 1-10, an automatic separation and combination type current collector includes a sliding contact line 1, a current collector 2, a current collector base 3, and an electric push rod 4; wiping line 1 installs on the mobile device that has the received electricity, the demand of charging, current collector base 3 is fixed and is received the electricity, on the basic frame of charging position department, current collector 2 sits on current collector base 3, electric putter 4's stiff end is articulated with current collector base 3, electric putter 4's removal end is articulated with current collector 2, wire one 4.1 and relay normally open contact one 6.1, normally closed contact one 6.3's output is connected, wire two 4.2 and relay normally open contact two 6.2, normally closed contact two 6.4's output is connected. The other ends of the first lead 4.1 and the second lead 4.2 are connected with a wiring terminal of the electric push rod 4; of course, the function and position of the electric push rod 4 can be replaced by other driving modes, such as a hydraulic cylinder, an air cylinder, a speed reducer, a gear-rack drive and the like.

As shown in fig. 1-10, the positive electrode of the output end of the electric push rod power supply 5 is connected with the input ends of a five lead 3.9, a first relay normally-open contact 6.1 and a first relay normally-closed contact 6.3, the negative electrode of the output end of the electric push rod power supply 5 is connected with the negative electrode of the power supply of the relay 6 through a third lead 7, a second relay normally-open contact 6.2 and a second relay normally-closed contact 6.4, and the positive electrode of the power supply of the relay 6 is connected with a six lead 3.10.

As shown in fig. 5 and 6, the trolley line 1 is composed of a first guide plate 1.1, a second guide plate 1.2, a screw 1.3, a first insulator 1.4, a trolley line bracket 1.5, a first bolt 1.6 and a first nut 1.7; the first guide plates 1.1 and the second guide plates 1.2 are arranged in rows, the second guide plates 1.2 are arranged at the lowest layer, the first guide plates 1.1 are sequentially arranged upwards by taking the second guide plates 1.2 as a reference, and the number of the first guide plates 1.1 is 1-20; the non-working faces of the first guide plate 1.1 and the second guide plate 1.2 are welded with one end of the screw 1.3, 2 screws 1.3 are welded on each of the first guide plate 1.1 and the second guide plate 1.2, and the other end of each screw 1.3 is in threaded connection with the first insulator 1.4 and is fastened through the first nut 1.7; the other end of the first insulator 1.4 is fastened to the trolley wire support 1.5 by means of a first bolt 1.6.

As shown in fig. 7 and 8, the current collector 2 is composed of a current collector frame 2.1, a bolt bearing 2.2, a travel switch I2.3, an insulator II 2.4, a current collecting arm 2.5, a current collecting slide block 2.6, a bolt II 2.7, a screw I2.8, a lead wire IV 2.9 and a current collector power control box 2.10; the bolt bearing 2.2 is arranged on the current collector frame 2.1 and is used as a running wheel of the current collector 1; the first travel switches 2.3 are mounted on the current collector frame 2.1 through the first screws 2.8, the first travel switches 2.3 are arranged in rows, and the number and the height of the arrangement correspond to those of the first guide plate 1.1; one end of the second insulator 2.4 is fastened to the first travel switch 2.3 through a second bolt 2.7, the other end of the second insulator 2.4 is fastened to the inner end of the current collecting arm 2.5 through a second bolt 2.7, and meanwhile, a fourth lead 2.9 is led out; the other end of the lead wire IV 2.9 is connected with an output terminal of the collector power control box 2.10; the current collection sliding block 2.6 is hinged with the outer end of the current collection arm 2.5, and the current collection sliding block 2.6 is in a polyhedral prism shape.

As shown in fig. 9 and 10, the current collector base 3 is composed of a base 3.1, a second travel switch 3.2, a first screw 3.3, a third insulator 3.4, a third bolt 3.5, a swing arm 3.6, a slider 3.7, a second normally open contact 3.8 of the travel switch, a fifth lead 3.9 and a sixth lead 3.10; a second travel switch 3.2 is mounted on the base 3 through a first screw 3.3, the mounting height of the second travel switch 3.2 corresponds to that of the second guide plate 1.2, and two ends of a normally open contact 3.8 of the second travel switch are respectively connected with a fifth lead 3.9 and a sixth lead 3.10; one end of the insulator III 3.4 is fastened to the travel switch II 3.2 through a bolt III 3.5, and the other end of the insulator III 3.4 is fastened with the inner end of the swing arm 3.6 through a bolt III 3.5; the slide block 3.7 is hinged with the outer end of the swing arm 3.6.

As shown in fig. 1 and fig. 2, when the mobile device needing to receive power and charge does not reach the power receiving and charging position, the current collector 2 and the trolley line 1 are in a separated state, the electric push rod 4 is in the rear position, and the current collector 2 is also in the rear position under the driving of the electric push rod 4. The mobile equipment needing power receiving and charging moves upwards, the guide plate II 1.2 touches the sliding block 3.7, when the travel switch II 3.2 is pressed to close the normally open contact 3.8 of the travel switch II, the electric push rod 4 moves forwards to the front position, and meanwhile, the current collector 2 is driven to move forwards to enable the current collecting sliding block 2.6 to be reliably contacted with the guide plate I1.1, power in the power control box 2.10 of the current collector is operated to be electrically transmitted to the guide plate I1.1, and therefore the purpose of power transmission of the mobile equipment needing power receiving and charging is achieved. The mobile equipment needing to be powered and charged descends, after the guide plate II 1.2 is separated from the sliding block 3.7, the normally open contact 3.8 of the travel switch II is recovered to be in a normally open state, the electric push rod 4 retreats to the rear position again, and meanwhile, the current collector 2 is driven to retreat to the rear position, as shown in the figure 3 and the figure 4, so that the purpose of stopping power transmission for the mobile equipment needing to be powered and charged is achieved. Of course, the action and position of the electric push rod 4 can be replaced by other driving means, such as a hydraulic cylinder, an air cylinder, and the like.

The utility model realizes the automatic connection and separation of the current collector and the sliding contact line, realizes the automatic power receiving and charging functions of a fixed place of the long-distance traveling equipment, cancels the heavy dangerous operation of manually plugging and unplugging a plug to carry out power receiving and charging, improves the production efficiency, and has the characteristics of reasonable design, strong practicability, simple structure, stable and reliable action and the like.

Claims (6)

1. An automatic separation and combination type current collector is characterized by comprising a sliding contact line, a current collector base and an electric push rod, wherein the sliding contact line is arranged on a mobile device with current receiving and charging requirements; the fixed end of the electric push rod is hinged with the current collector base, and the moving end of the electric push rod is hinged with the current collector.

2. The automatic opening and closing type current collector according to claim 1, wherein the trolley line comprises a first guide plate, a second guide plate, a screw, a first insulator and a trolley line bracket; the first guide plates and the second guide plates are arranged in rows, the second guide plates are arranged at the lowest layer, the first guide plates are sequentially arranged upwards by taking the second guide plates as a reference, and the number of the first guide plates is 1-20; the non-working surfaces of the first guide plate and the second guide plate are welded with one end of the screw, and the other end of the screw is fixedly connected with the first insulator; the other end of the first insulator is fixed to the trolley wire support.

3. The automatic on-off collector according to claim 1, wherein the collector comprises a collector frame, a bearing, a first travel switch, a second insulator, a collector arm, a collector slider and a collector power control box; the bearing is connected to the collector frame to enable the collector to move on the collector base in a reciprocating mode; the first travel switches are fixedly connected to the current collector frame and are arranged in rows and correspond to the first guide plates; one end of the second insulator is fixedly connected with the first travel switch, and the other end of the second insulator is fastened with the inner end of the current collecting arm and leads out a fourth lead; the other end of the wire IV is connected with an output terminal of the collector power control box; the current collection sliding block is hinged with the outer end of the current collection arm.

4. An automatic opening/closing type collector according to claim 3, wherein said collector shoe has a polygonal prism shape.

5. The automatic opening and closing type current collector of claim 1, wherein the current collector base comprises a base, a second travel switch, a third insulator, a swing arm, a slider, a fifth lead and a sixth lead, the second travel switch is fixed on the base, and two ends of a normally open contact of the second travel switch are respectively connected with the fifth lead and the sixth lead; one end of the insulator III is fixed with the travel switch II, and the other end of the insulator III is fixedly connected with the inner end of the swing arm; the slide block is hinged with the outer end of the swing arm.

6. The automatic opening and closing type current collector according to claim 1, further comprising a relay and an electric push rod power supply, wherein the positive electrode of the output end of the electric push rod power supply is connected with the input ends of the first relay normally-open contact and the first relay normally-closed contact, and the negative electrode of the output end of the electric push rod power supply is connected with the negative electrode of the relay power supply, and the input ends of the second relay normally-open contact and the second relay normally-closed contact are connected.

Images