CN103840351A - Electrode movement device - Google Patents

Abstract

The invention provides an electrode movement device. The electrode movement device comprises an upper electrode, a lower electrode and a press machine fixedly connected with the upper electrode. By the apparatus, the press machine can drive the upper electrode to move vertically, the operation is simple, and at the same time, the production efficiency is also quite high.

Description

Electrode mobile device

Technical field

The present invention relates to a kind of mobile device, relate in particular to a kind of electrode mobile device in order to move up and down with moving electrode.

Background technology

At present, in the time using some parts of electrode pair to process associative operation, electrode need to be moved with handled easily towards parts; And complete after associative operation, need again electrode take out parts or parts are done to other processing towards moving to facilitate away from the direction of parts.But existing electrode mobile device is bulky and complicated operation, thereby in the time of traveling electrode, not only lose time, production efficiency is low, cost is also higher simultaneously.

In view of this, be necessary existing electrode mobile device to be improved, to address the above problem.

Summary of the invention

The object of the present invention is to provide a kind of novel electrode mobile device, this electrode mobile device is not only simple to operate, and production efficiency is also higher simultaneously.

For achieving the above object, the invention provides a kind of electrode mobile device, it comprises top electrode, bottom electrode and the press being fixedly connected with described top electrode, and described press is in order to drive described top electrode to move up and down.

As a further improvement on the present invention, described electrode mobile device also comprises support column, and described press is arranged on also can upper and lower slippage on described support column on described support column.

As a further improvement on the present invention, the outer projection of a side direction of described support column has projection, and described press is held in also can upper and lower slippage on described projection on described projection.

As a further improvement on the present invention, the width of described projection is less than the width of described support column, to make described press be held in the both sides of described projection.

As a further improvement on the present invention, the operation principle of described press and the operation principle of cylinder are similar.

The invention has the beneficial effects as follows: electrode mobile device of the present invention is by the press that is provided with top electrode, bottom electrode and is fixedly connected with described top electrode, thereby described press can drive described top electrode to move up and down, not only simple to operate, production efficiency is also higher simultaneously.

Brief description of the drawings

Fig. 1 is the part stereogram of assembly line processing unit of the present invention.

Fig. 2 is the stereogram of assembly line fastener in the processing unit of assembly line shown in Fig. 1.

Fig. 3 is the stereogram of assembly line cutter sweep in the processing unit of assembly line shown in Fig. 1.

Fig. 4 is the stereogram of assembly line draw-off gear in the processing unit of assembly line shown in Fig. 1.

Fig. 5 is the more combination stereogram of changing device and assembly line checkout gear of assembly line pressure setting, electrode mobile device, electrode in the processing unit of assembly line shown in Fig. 1.

Fig. 6 is the front view of Fig. 5.

Fig. 7 is the local amplification stereogram that in Fig. 5, assembly line checkout gear coordinates assembling with assembly line.

Fig. 8 is the stereogram of assembly line shearing device in the processing unit of assembly line shown in Fig. 1.

Fig. 9 is the partial enlarged drawing of the shearing device of assembly line shown in Fig. 8.

Figure 10 is the stereogram of protective cover in the processing unit of assembly line shown in Fig. 1.

Figure 11 is the flow chart of assembly line processing method of the present invention.

Embodiment

In order to make the object, technical solutions and advantages of the present invention clearer, describe the present invention below in conjunction with the drawings and specific embodiments.

As shown in Figures 1 to 10, assembly line processing unit 100 of the present invention is in order to two thin cable 201 in assembly line 200 are processed, and above-mentioned assembly line 200 is in order to be installed on wheel speed sensors (not shown).Described assembly line processing unit 100 comprises to the insulator 202 of described thin cable 201 peripheries is cut the first module 1 of the heart yearn 203 that exposes some dispersions, some described heart yearns 203 that disperse is pressed into second module 2 of whole and by the 3rd module 3 of cutting off through the unwanted part of the second module 2 described heart yearn 203 1 side after treatment.

As shown in Figures 2 to 4, described the first module 1 comprises assembly line fastener, assembly line cutter sweep and assembly line draw-off gear.

As shown in Figure 2, described assembly line fastener comprise accommodating the securing member 11 of described assembly line 200, the lever 12 being connected with described securing member 11 and the first cylinder 13 being connected with described lever 12.In present embodiment, described the first cylinder 13 is arranged at the below of described lever 12, thereby can drive the elastic movement of described lever 12.

Described securing member 11 is provided with the first clamping part 111, the one end being connected on described lever 12, with described securing member 11 is provided with second clamping part 121 corresponding with described the first clamping part 111, the resettlement section 14 that is also provided with to place described assembly line 200 on described securing member 11, between described the first clamping part 111 and described the second clamping part 121, moves that towards described the first clamping part 111 described assembly line 200 is clamped and is retained in described resettlement section 14 thereby can promote described the second clamping part 121 by described the first cylinder 13.

The height of described resettlement section 14 upper surfaces is less than the height of described the first clamping part 111 upper surfaces.Described securing member 11 also comprises and is positioned at the support portion 15 that described resettlement section 14 1 sides and upper level are less than described resettlement section 14 upper level.The upper surface of described support portion 15 is tabular surface, and described lever 12 is placed and is supported on the upper surface of described support portion 15.

As Fig. 3 and in conjunction with as shown in Fig. 2, described assembly line cutter sweep comprises the first upper blade 21, and first bottom knife 22 that shift to install and second cylinder 24 that drive described first upper blade 21 move up and down relative with described the first upper blade 21.Described the first upper blade 21 correspondences are arranged at the rear of described the first bottom knife 22, and described the first upper blade 21 is close to described the first bottom knife 22 and arranges.

Corresponding two accepting grooves 23 that are provided with to accommodate respectively described two thin cable 201 on described the first upper blade 21 and described the first bottom knife 22, and the edge of described accepting groove 23 all can cut described insulator 202.

Described the first upper blade 21 and described the first bottom knife 22 correspondences are arranged at the rear of described securing member 11, and described accepting groove 23 correspondences are arranged at the rear of described resettlement section 14, with make described assembly line 200 be contained in described resettlement section 14 when interior described in two thin cable 201 just in time hold in the described accepting groove 23 that is contained in described the first bottom knife 22, thereby can coordinate the described insulator 202 of described thin cable 201 peripheries is cut open by the dislocation of described the first upper blade 21 and described the first bottom knife 22.

As Fig. 4 and in conjunction with as shown in Fig. 2 and Fig. 3, the first slide block 33 that described assembly line draw-off gear comprises operating desk 31, be fixedly mounted on the first slide rail 32 on described operating desk 31, slide before and after can be on described the first slide rail 32, be fixed on the mobile device 34 on described the first slide block 33 and promote the 3rd cylinder 35 that described the first slide block 33 drives described mobile device 34 to slide on described the first slide rail 32.

Described the first upper blade 21 and described the first bottom knife 22 are included in described mobile device 34, thereby described the 3rd cylinder 35 promote described the first slide block 33 drive described mobile device 34 on described the first slide rail 32 before and after slide time, accepting groove 23 inside edges of described the first upper blade 21 and accepting groove 23 inside edges of described the first bottom knife 22 cooperatively interact that described insulator 202 drawings are gone out to a segment distance and expose some described heart yearns 203.

As shown in Figures 5 to 7, described the second module 2 comprises more changing device and assembly line checkout gear of assembly line pressure setting, electrode mobile device, electrode.

As shown in Fig. 5 and Fig. 6, described assembly line pressure setting comprises placing the compacting platform 41 of described assembly line 200, in order to the upper/lower electrode 42,43 that some described heart yearns 203 that disperse are suppressed and the press 44 that drives described top electrode 42 to move up and down.On described compacting platform 41, be provided with to accommodate the first accepting groove 411 of described assembly line 200, the front end of described the first accepting groove 411 divides and is separated with the 3rd accepting groove (not label) that extends to accommodate the second accepting groove 412 of described thin cable 201 towards dead ahead and extend towards other different directions.In present embodiment, the diameter of described the second accepting groove 412 and described the 3rd accepting groove is less than the diameter of described the first accepting groove 411.

Described upper/lower electrode 42,43 correspondences are arranged at the rear side of described compacting platform 41, and arrange corresponding to described the second accepting groove 412.Thereby in the time that the described heart yearn 203 in described two thin cable 201 is suppressed respectively, first a thin cable 201 is put into described the second accepting groove 412,201 of another root thin cable are put into described the 3rd accepting groove; Then produce large electric current by the docking of described upper/lower electrode 42,43, and then some described heart yearns 203 are pressed into one whole; Finally, by two thin cable 201 transpositions, another root thin cable 201 is suppressed.

As Fig. 7 and in conjunction with as shown in Fig. 5, before described heart yearn 203 is suppressed, need to confirm whether described assembly line 200 has been put on described compacting platform 41.Whether be placed into described assembly line checkout gear on described compacting platform 41 and comprise described compacting platform 41 and be arranged at described the second accepting groove 412 on described compacting platform 41 in order to detect described assembly line 200.The both sides of described the second accepting groove 412 are respectively arranged with to detect described assembly line 200 and have or not the first sensor (not shown) of putting into described the second accepting groove 412.

Described first sensor comprises optical transmitting set and the optical receiver corresponding with described optical transmitting set, if thereby described optical receiver can receive the light that described optical transmitting set emits, illustrate in described the second accepting groove 412 and have described assembly line 200, thus assembly line pressure setting work described in described optical receiver control; If described optical receiver can not receive the light that described optical transmitting set emits, illustrate in described the second accepting groove 412 and there is no described assembly line 200, thus assembly line pressure setting break-off described in described optical receiver control.

As Fig. 5 and Fig. 6 and in conjunction with as shown in Fig. 7, in the time that described heart yearn 203 is suppressed, described bottom electrode 43 maintains static, and described top electrode 42 needs moves up and down.In order to drive the described electrode mobile device that described top electrode 42 moves up and down comprise described top electrode 42, bottom electrode 43 and be fixedly connected with described top electrode 42 the described press 44 that drives described top electrode 42 to move up and down.

Described electrode mobile device also comprises support column 51, the outer projection of one side direction of described support column 51 has width to be less than the projection 52 of described support column 51 width, thus described press 44 install and be held in described projection 52 both sides and can be along the upper and lower slippage in the both sides of described projection 52.In present embodiment, the operation principle of described press 44 and the operation principle of cylinder are similar.

Described electrode more changing device in order to described upper/lower electrode 42,43 is changed in the time that described upper/lower electrode 42,43 damages.Described electrode more changing device comprises carriage and described upper/lower electrode 42,43 and described compacting platform 41, and described carriage is fixedly connected with described compacting platform 41.

Described carriage comprises the second slide rail 61, second slide block 62 that can slide on described the second slide rail 61 and the interspersed gim peg 63 being arranged on described the second slide rail 61 and described the second slide block 62.On described the second slide block 62 and described the second slide rail 61, offer respectively some holes 64, thereby described gim peg 63 can be contained in the described hole 64 on described the second slide rail 61 through the described hole 64 on described the second slide block 62 part, so that described the second slide block 62 and described the second slide rail 61 are fixed.Changing described upper/lower electrode 42,43 o'clock, first described gim peg 63 is taken off and described the second slide block 62 that manually slides to drive described compacting platform 41 entirety to slide, in the time that described compacting platform 41 slides into the position that is applicable to changing described upper/lower electrode 42,43, then in the described hole 64 that described gim peg 63 is interted on described the second slide block 62 and described the second slide rail 61.

Described carriage also comprises the connector 65 that is fixedly connected with described compacting platform 41 and described the second slide block 62, thereby described the second slide block 62 can drive described compacting platform 41 entirety to slide while slip on described the second slide rail 61, so that change described upper/lower electrode 42,43.

As shown in Fig. 8 and Fig. 9, described the 3rd module 3 comprises in order to cut off the assembly line shearing device through the unwanted part of described the second module 2 described heart yearn 203 1 side after treatment.Described assembly line shearing device comprises the second upper blade 71, and second bottom knife 72 and the corresponding parcel tray (not shown) that be positioned over described second upper blade 71 belows and in order to accommodate be cut off heart yearn that shift to install relative with described the second upper blade 71.Described the second upper blade 71 correspondences are arranged at the rear of described the second bottom knife 72, and described the second upper blade 71 is close to described the second bottom knife 72 and arranges.

Corresponding the 4th accepting groove 73 that is provided with to accommodate described assembly line 200 respectively on described the second upper blade 71 and described the second bottom knife 72, and the edge of described the 4th accepting groove 73 also can cut off described assembly line 200.In present embodiment, the number of described the 4th accepting groove 73 is one.

Described assembly line shearing device also comprises driving the four-cylinder 74 that described the second upper blade 71 moves up and down and is arranged at described the second bottom knife 72 front sides in order to place and to hold the placement table 75 of described assembly line 200.On described placement table 75, be provided with to use for interspersed plate 76 and intert so that described the 4th accepting groove 73 is separated into the described slot 751 of two, thereby described two thin cable 201 can be positioned in described the 4th accepting groove 73 to be simultaneously severed simultaneously, and then promote the cooperation that misplaces up and down of described the second upper blade 71 and described the second bottom knife 72 by described four-cylinder 74, with by the disposable cut-out of the described heart yearn unwanted part of 203 1 side.

As shown in figure 10, assembly line processing unit 100 of the present invention is provided with to ensure respectively the protective cover 80 of each module safe operation in the periphery of described the first module 1, the second module 2 and described the 3rd module 3.This specification describes the described protective cover 80 in the second module 2 emphatically.

Described protective cover 80 comprises front shroud 81 and is close to the back cover 82 of setting with described front shroud 81.The junction of described front shroud 81 and described back cover 82 is provided with gate controlled switch 83, is provided with the second transducer (not shown) in described gate controlled switch 83, thereby can automatically prevent misoperation by the induction of described the second transducer.

The sidewall 85 that described front shroud 81 and described back cover 82 are provided with respectively roof 84 and extend downward vertically from the edge of described roof 84.The snap device 832 that described gate controlled switch 83 comprises latch mechanism 831 and matches with described latch mechanism 831, and described latch mechanism 831 is arranged at the front end of a sidewall of described back cover 82,832 correspondences of described snap device are arranged at the rear end of a sidewall of contiguous described back cover 82 on described front shroud 81.In present embodiment, described latch mechanism 831 is similar to lock, and described snap device 832 correspondence is similar to key.

As Figure 11 and in conjunction with as shown in Fig. 1 to Figure 10, assembly line processing method of the present invention, comprises the following steps:

S1, assembly line 200 is put into the first module 1;

S2, the first upper blade 21 and the first bottom knife 22 cooperatively interact that the insulator 202 of the interior thin cable of assembly line 200 201 peripheries is cut;

S3, the first upper blade 21 and the first bottom knife 22 slide on the first slide rail 32, insulator 202 pulled open to a segment distance and to expose some heart yearns 203;

S4, assembly line 200 is put into the second module 2;

S5, top electrode 42 and bottom electrode 43 docking produce large electric current so that some heart yearns 203 are pressed into one whole;

S6, assembly line 200 is put into the 3rd module 3;

S7, the second upper blade 71 and the second bottom knife 72 cooperatively interact with by the unwanted Partial Resection of heart yearn 203 1 side.

In sum, assembly line processing unit 100 of the present invention can be accomplished light, fast, accurate in the time that described insulator 202 is cut; Can also under the prerequisite of not damaging described heart yearn 203, described insulator 202 drawings be gone out to a segment distance simultaneously; Can also ensure further the fail safe of processing procedure.In a word, assembly line processing unit 100 of the present invention is not only simple in structure, and production efficiency is also higher simultaneously.Assembly line processing method of the present invention is simple, easy to operate.

Above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although the present invention is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify or be equal to replacement technical scheme of the present invention, and not depart from the spirit and scope of technical solution of the present invention.

Claims (5)

1. an electrode mobile device, is characterized in that: described electrode mobile device comprises top electrode, bottom electrode and the press being fixedly connected with described top electrode, and described press is in order to drive described top electrode to move up and down.

2. electrode mobile device according to claim 1, is characterized in that: described electrode mobile device also comprises support column, and described press is arranged on also can upper and lower slippage on described support column on described support column.

3. electrode mobile device according to claim 2, is characterized in that: the outer projection of a side direction of described support column has projection, and described press is held in also can upper and lower slippage on described projection on described projection.

4. electrode mobile device according to claim 3, is characterized in that: the width of described projection is less than the width of described support column, to make described press be held in the both sides of described projection.

5. electrode mobile device according to claim 1, is characterized in that: the operation principle of described press and the operation principle of cylinder are similar.

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