CN201430187Y - Assembling system for bottom shell of zinc-carbon cell - Google Patents

Abstract

The utility model relates to cell manufacturing equipment, in particular to an assembling system for a bottom shell of a zinc-carbon cell. The assembling system for the bottom shell of the zinc-carboncell comprises a first input system 1 for inputting a cell main body, a second input system 2 for inputting the bottom shell, a rotary assembling system 3 for assembling the bottom shell on the cellmain body, an output system 4 for outputting the cell main body on which the bottom shell is assembled, and a control system 5. The assembling of the bottom shell and the cell main body can be continuously carried out through the continuous matching of the first input system 1, the second input system 2, the assembling system 3 and the output system 4 and the rotary operation mode of the assembling system 3, and the product yield is guaranteed. Simultaneously the control system 5 not only can coordinate the operations of all subsystems, but also can adjust the whole working speed of the assembling system for the bottom shell of the zinc-carbon cell so that the assembling system for the bottom shell of the zinc-carbon cell can be matched with the working speeds of other working procedures to realize continuous production of the cell and improve production efficiency.

Description

A kind of zinc-carbon cell drain pan package system

Technical field

The utility model relates to a kind of battery production equipment, specifically is a kind of zinc-carbon cell drain pan package system.

Background technology

In the production process of carbon zinc battery, metal or plastics drain pan need be assembled to the battery main body bottom.And existing package system is generally batch system, makes this operation can not be connected in other operations that battery is made synchronously, causes production efficiency lower.

The utility model content

The purpose of this utility model provides and a kind ofly can be connected in the drain pan package system that battery is made the production line of other operations synchronously.

For achieving the above object, the utility model adopts following technical scheme:

A kind of zinc-carbon cell drain pan package system, comprise: be used to import battery main body first input system 1, be used to import drain pan second input system 2, be used for drain pan is assembled to the revolving package system 3 on the battery main body, the output system 4 that is used to export the battery main body that has assembled drain pan, control system 5, its annexation is: first input system 1, second input system 2, output system 4 are connected with package system 3 respectively; The drain pan punching press that package system 3 is used for entering wherein is assembled to the bottom of battery main body, and delivers to output system 4; Control system 5 is connected with first input system 1, second input system 2, package system 3, output system 4.

As improvement of the present utility model, described package system 3 comprises: main motor 30, frame 31, rotation axis 33, capstan head 34, space cam 35, resetting block 36, some push rods 37, some assembly positioning seats 38, upper cover plate 39, its annexation is: rotation axis 33 is fixed on the frame 31, and its lower end is connected with main motor 30; Capstan head 34 is fixedly connected on rotation axis 33 and is positioned on the part shaft part of frame 31 tops; Space cam 35, resetting block 36 are that center fixation is on frame with the rotation axis; Push rod 37 circumferentially is distributed on the capstan head 34, and its bottom is provided with two contact sites that cooperate with space cam 35, resetting block 36 respectively; Assembly positioning seat 38 is installed on the capstan head 34, and its lower end is corresponding with the upper end of push rod 37, is used for fixedly entering the battery main body and the drain pan of package system 3 from top to bottom; Upper cover plate 39 is fixedlyed connected with these some assembly positioning seats 38, makes assembly positioning seat 38 more firmly be fixed on the capstan head 34, has limited moving upward of the battery main body that is fixed on the assembly positioning seat 38 and drain pan simultaneously.

The beneficial effects of the utility model are: by first input system 1, second input system 2, package system 3, the continuous cooperation of output system 4 and the rotary working method of package system 3, make the assembling of drain pan and battery main body to carry out continuously, and guarantee the product yield; Not only can coordinate the work of each subsystem simultaneously by control system 5, can also adjust overall work speed of the present utility model, make the utility model to cooperate, thereby realize the continuous production of battery, enhance productivity with the operating rate of other operations.

Description of drawings

Fig. 1 is a whole front view of the present utility model;

Fig. 2 is a whole vertical view of the present utility model;

Fig. 3 is the front view of first input system of the present utility model;

Fig. 4 is that the A of Fig. 3 is to cutaway view;

Fig. 5 is that the B of Fig. 3 is to cutaway view;

Fig. 6 is the vertical view of second input system of the present utility model;

Fig. 7 is the front view of second input system of the present utility model;

Fig. 8 is that the A of Fig. 6 is to cutaway view;

Fig. 9 is the front view of package system of the present utility model;

Figure 10 is the front view of the utility model push rod.

Embodiment

Below in conjunction with accompanying drawing the utility model is further detailed.

As shown in Figure 1 and Figure 2, the utility model comprises: be used to import battery main body first input system 1, be used to import drain pan second input system 2, be used for drain pan be assembled to revolving package system 3 on the battery main body, be used to export the battery main body that has assembled drain pan output system 4, be used to control the control system 5 of motor.

1, described first input system 1 comprises as shown in Figure 3: the first input frame 11, first slideway 12, conveyer belt 13, power set, input rotating disk 15 (see figure 2)s, and its annexation is: first slideway 12 is arranged on the first input frame, 11 tops; Conveyer belt 13 is arranged on first slideway, 12 belows; Power set 14 are arranged on the first input frame 11 and with conveyer belt 13 and are connected; Input rotating disk 15 is connected with the output port of first slideway 12, is used for battery main body is directly sent into package system 3.Specifically:

1.1 the first input frame 11 as shown in Figure 3, comprising: two channel-section steels, 111 (see figure 4)s that the horizontal interval is provided with, be used for fixing some reference columns 112 of connecting this two channel-section steel 111, be arranged on the support component 113 that two channel-section steels, 111 belows are used to support two channel-section steels 111, the supporting plate 114 that is located at two channel-section steels, 111 1 ends;

1.2 first slideway 12 is as shown in Figure 3, comprising: be separately positioned on each channel-section steel 111 top at least two railing seats 121, be separately positioned at least two stocks 122 on this at least two railings seat 121;

1.3 power set as shown in Figure 3, comprise: be arranged on driving wheel 141 in these two channel-section steels, 111 cavitys, be arranged at least one driven pulley 142 in the cavity between this two channel-section steel 111, be arranged on the tensioning apparatus 143 that is used to regulate conveyer belt 13 of these two channel-section steels, 111 belows, its annexation is:

As shown in Figure 4, this driving wheel 141 is connected with drive motors, this two channel-section steel 111 is provided with the some to through hole of axis along continuous straight runs, be provided with an axis of rolling 145 in this through hole, driving wheel 141 and driven pulley 142 centers are provided with at least one rolling bearing 146, by should being set in the axis of rolling 145 by at least one rolling bearing 146, thereby driving wheel 141 and driven pulley 142 are arranged in the cavity between two channel-section steels 111;

Tensioning apparatus 143 as shown in Figure 5, comprise: be fixed in respectively the vertical spacing setting of these two channel-section steels, 111 lower ends two panels 1431, be arranged on regulating wheel 1432 on this two panels 1431, be used to regulate regulating wheel 1432 positions adjusting screw(rod) 1433, be fixed in the transverse slat 1434 of these two panels 1431 bottoms, specifically: this two panels 1431 is provided with a groove 1435, be provided with two slide blocks 1436 in this groove 1435, this two slide block 1436 is fixedly connected by an axis of rolling 1437, and these regulating wheel 1432 centers are provided with at least one rolling bearing 1438; By should being set on this axis of rolling 1437 by at least one rolling bearing 1438, thereby this regulating wheel 1432 is arranged on this two panels 1431; This adjusting screw(rod) 1433 is a threaded rod, one end and slide block 1436 are spirally connected, the other end passes and spiral shell is consolidated on this transverse slat 1434, put with the spiral shell maintenance of this transverse slat 1434 by adjusting this adjusting screw(rod) 1433, can adjust the position of this two slide block 1436 in this groove 1435, thereby the position of adjustment regulating wheel 1432 is to realize the tensioning degree adjustment to conveyer belt 13;

Driving wheel 141, driven pulley 142, regulating wheel 1432 are connected to form a sealing with conveyer belt 13 and transmit the loop, this driving wheel 141 is driving conveyer belt 13 shuttling movement between driving wheel 141, driven pulley 142 and regulating wheel 1432 under the driving of drive motors 146, and change regulating wheels 1432 positions and reach the purpose of adjusting conveyer belt 13 tensioning degrees by adjusting adjusting screw(rod) 1433, enter package system 3 thereby battery main body transmitted.

1.4 input rotating disk 15 as shown in figure 10, comprise: rotation axis 151, be arranged on rotation axis 151 tops input pallet 152, be arranged on the input gear 153 of rotation axis 151 belows, master gear 332 (see figure 9)s on the rotation axis 33 in input gear 153 and the package system 3 cooperate, and the battery main body positioning disk 381 (see figure 10) positions of the assembly positioning seat 38 in the position of importing pallet 152 and the package system 3 are corresponding.

2, described second input system 2 comprises as Fig. 6, shown in Figure 7: the second input frame 21, second slideway 22, hold down gag 23, gas control equipment 24, exit plate 25, and its annexation is: second slideway 22 is arranged on the second input frame 21; Hold down gag 23 is arranged on the second input frame 21, is used for second slideway 22 is locked to the second input frame 21; Exit plate 25 is connected with the output port of second slideway 22, is used for drain pan is directly sent into package system 3.Specifically:

2.1 the second input frame 21 as shown in Figure 7, comprising: base plate 211, be arranged on the bracing frame 212 that base plate 211 belows are used to support base plate 211;

2.2 second slideway 22 is as Fig. 7, shown in Figure 8, comprise: overlay the delivery board 221 on the base plate 211 successively from lower to upper, on blow plate 222, upper sealing panel 223, its annexation is: the upper and lower surface of delivery board 221 is equipped with the groove road along its length direction, make and form closed air chamber 224 between the upper surface of the lower surface of delivery board 221 and base plate 211, and make delivery board 221 upper surface and on blow and form a drain pan passage 225 between the lower surface of plate, also be distributed with the some pores 226 that are communicated with its biconcave conduit in addition on the delivery board 221, the gas in the following closed air chamber 224 can enter drain pan passage 225 by pore 226; On blow plate 222 and be provided with the some pores 227 that penetrate upper and lower surface; Upper sealing panel 223 lower surfaces are provided with the groove road along its length direction, make upper sealing panel 223 lower surfaces and on blow plate 222 upper surfaces and form closed air chamber 228 on, the gas in the last closed air chamber 228 can by on the pore 227 that blows on the plate 222 enter drain pan passage 225.

2.3 hold down gag 23 as shown in Figure 8, comprise: the solid hinges fixing reservation 231 of spiral shell in base plate 211 1 sides, be located at blow plate 222 tops and with hinges fixing reservation 231 articulated hinges plates 232, the solid holder 233 of spiral shell in base plate 211 another sides, be used for the free end of flap 232 is fixedly attached to the stretching screw 234 and the clamp nut 235 of holder 233, one end of stretching screw 234 is fixed on the holder 233, the other end is spirally connected with clamp nut 235 after passing the free end of flap 232, by knob clamp nut 235 flap 232 is pressed on and blows on the plate 222, thus on blow plate 222 and lock on the delivery board 221.

2.4 gas control equipment 24 as shown in Figure 7, comprise: be arranged on the upper sealing panel 223 and the adjusted valve 241 that is communicated with last closed air chamber 228, be arranged on the base plate 211 and the following adjuster valve 242 that is communicated with following closed air chamber 224, after adjusted valve 241 and following adjuster valve 242 are connected the external high pressure source of the gas respectively, high pressure draught enters respectively in closed air chamber 228 and the following closed air chamber 224, and respectively through on blow pore 227 on the plate 222 and the pore 226 on the delivery board 221 enters drain pan passage 225, thereby blowing drain pan moves and finally enters package system along this drain pan passage 225, can also pass through to regulate adjusted valve 241 and following adjuster valve 242 simultaneously, thereby control enters the transporting velocity of the current rate control drain pan in the drain pan passage 225.

2.5 exit plate 25 as shown in Figure 6, is arranged on the exit of second slideway 22, is used for drain pan is delivered directly in the drain pan positioning disk 381 of assembly positioning seat 38 of package system 3.

3, described package system 3 is as Fig. 1, shown in Figure 9, comprise: main motor 30 (see figure 1)s, frame 31 (see figure 1)s, rotation axis holder 32, rotation axis 33, capstan head 34, space cam 35, resetting block 36, some push rods 37, some assembly positioning seats 38, upper cover plate 39, its annexation is:

Rotation axis holder 32 is arranged on the frame 31; Rotation axis 33 passes and is connected on the rotation axis holder 32, and its lower end is connected with main motor 30; Capstan head 34 is fixedly connected on rotation axis 33 and is positioned on the part shaft part of top, frame 31 planes; Space cam 35, resetting block 36 are that center fixation is on frame with the rotation axis; Push rod 37 circumferentially is distributed on the capstan head 34, and its bottom is provided with two contact sites that cooperate with space cam 35, resetting block 36 respectively; Assembly positioning seat 38 is installed on the capstan head 34, and its lower end is corresponding with the upper end of push rod 37, is used for fixedly entering the battery main body and the drain pan of package system 3 from top to bottom; Upper cover plate 39 is fixedlyed connected with these some assembly positioning seats 38, makes assembly positioning seat 38 more firmly be fixed on the capstan head 34, has limited moving upward of the battery main body that is fixed on the assembly positioning seat 38 and drain pan simultaneously.

During work, push rod 37 is in the process that moves in a circle, and its lower end one contact site and the contact of space cam 35 make push rod 37 relative capstan heads 34 rise, thereby will be fixed on drain pan press fit in the assembly positioning seat 38 to the bottom of battery main body; Because of another contact site of push rod 37 lower ends contacts with resetting block 36, make push rod 37 relative capstan heads descend and return to initial position then.

Specifically:

3.1 main motor 30 as shown in Figure 1, it is connected with rotation axis 33, and their junction is provided with an overload clutch 301, to guarantee the power safety transmission of main motor 30.

3.2 frame 31 as shown in Figure 1 and Figure 2, comprise machine side plate 311 (see figure 1)s that are provided with some through holes and bracing frame 312 (see figure 1)s that are arranged on machine side plate 311 belows, wherein also being provided with battery main body on the input rotating disk 15 that is used for guiding first input system 1 on the machine side plate 311 enters input guiding groove 313 (see figure 2)s of package system and the battery main body that is equipped with drain pan on the output rotating disk 41 in the guiding output system 4 and delivers to output guiding groove 314 (see figure 2)s on the output slideway 42.

3.3 rotation axis holder 32 as shown in Figure 9, it is the solid hollow pipe box in machine side plate 311 through holes of a spiral shell, but its upper end open place is provided with the thrust bearing 321 of axially loaded, and its inwall also is provided with rolling bearing 322.

3.4 rotation axis 33 as shown in Figure 9, is located in the rotation axis holder 32, which is provided with the boss 331 that may be stuck on the thrust bearing 321, makes rotation axis freely rotate in the rotation axis holder 32 again and be unlikely to landing; Be provided with one in addition and be used for driving the input rotating disk 15 of first input system 1 and the master gear 332 that the output rotating disk in the output system 4 42 rotates.

3.5 capstan head 34 as shown in Figure 9, it is fixed on the rotation axis 33 by connecting ringfeder 341, and capstan head 34 is also along circumferentially being provided with the some installing holes 342 that are used to install some push rods 37.

3.6 push rod 37 is as shown in figure 10, can be located in axial motion in the installing hole 342 by a sleeve 3700, it comprises:

Upper boom 3701, lower beam 3702, upper boom spring positioning sleeve 3703, upper boom spring 3704, assembling pressure head 3705, lower beam spring positioning sleeve 3706, lower beam spring 3707, roller shaft 3708, first roller 3709, second roller 3710, slide key 3711, its annexation is:

The solid main body of on lower beam 3702 tops, forming push rod 37 thus of upper boom 3701 spiral shells, upper boom 3701 is provided with plush copper 3712 and upper boom boss 3713, and lower beam 3702 is provided with sliding tray 3714; Upper boom spring positioning sleeve 3703, upper boom spring 3704, assembling pressure head 3705 is set on the upper boom 3701 from bottom to top successively, wherein upper boom spring positioning sleeve 3705 is arranged on and is provided with on the upper boom boss 3713 of adjusting pad 3715, assembling pressure head 3703 is hollow tubular, its upper surface and lower surface are provided with respectively and upper boom plush copper 3713 and upper boom spring 3704 close-fitting two counterbores, when being subjected to raising of space cam 35, lower beam 3702 does the time spent, on the upper boom 3701 sheathed upper boom spring 3704 will promote the assembling pressure head 3705 rise synchronously, when lower beam 3702 was subjected to the suppressing action of resetting block 36, the plush copper 3713 on the upper boom 3701 can be guaranteed to assemble pressure head 3705 and be descended synchronously; Lower beam spring positioning sleeve 3706, lower beam spring 3707 are set on the lower beam 3702 from top to bottom successively, wherein lower beam spring positioning sleeve 3706 is fastened on the lower surface of installing hole 342, lower beam spring 3707 is set at first can utilize the elastic force after spring is compressed to guarantee that further push rod 37 declines reset, next is can be smoothly and ensure the uphill process of push rod 37, avoid taking place push rod 37 and impact rising suddenly, can also guarantee that at last push rod 37 lower ends closely contact with space cam 35 or resetting block 36; Roller shaft 3708 is arranged on the bottom of lower beam 3702; First roller 3709, second roller 3710 are arranged on the roller shaft 3708, and wherein first roller 3709 contacts with space cam 35, and second roller 3710 contacts with resetting block 36; Slide key 3711 is horizontally through installing hole 342 on the capstan head 34 and the sliding tray 3714 on the lower beam 3702 successively, and finally is fixed on the capstan head 33, and slide key 3711 can prevent push rod 37 rotation in the course of the work.

3.7 assembly positioning seat 38 as shown in figure 10, it is fixed on the capstan head 33, and the lower end is corresponding with the upper end of push rod 37, it comprises: battery main body positioning disk 381, drain pan positioning disk 382, they by screw from top to bottom in the lump spiral shell be affixed on the capstan head 33, the exit position of the position of battery main body positioning disk 381 and first slideway 12 of first input on the slideway 1 is corresponding, drain pan positioning disk 382 is provided with the annular opening, it only carries out horizontal location to drain pan, make drain pan 2 be positioned under the battery main body just, and realize by assembling pressure head 3705 vertical direction of drain pan location, promptly after drain pan enters part positioning seat 38, drain pan will hold the upper end surface that is located at assembling pressure head 3705.

3.8 upper cover plate 39 as shown in Figure 9, is a circular slab, it is fixedlyed connected with assembly positioning seat 38 by screw.

4, described output system 4 comprises as shown in Figure 1: output rotating disk 41, output slideway 42, its annexation is: output rotating disk 41 is connected with the upstream end of output slideway 42.

5, described control system 5 as shown in Figure 1, comprise: main control system (figure does not show), be arranged on the some first slideway transducers (figure does not show) on first slideway 12, be arranged on the some second slideway transducers (figure does not show) on second slideway 22, be arranged on the some output slideway transducers (figure does not show) on the output slideway 42, be arranged on the overload clutch transducer (figure do not show) on overload clutch 301 mountains in the package system 3, wherein main control system (figure does not show) respectively with the first slideway transducer (figure does not show), the second slideway transducer (figure does not show), output slideway transducer (figure does not show), overload clutch transducer (figure do not show) connects and receives its transducing signal; Simultaneously, main control system (figure does not show) is also respectively with main motor 30, drive motors 144, adjusted valve 241, adjuster valve 242 is connected down, main control system during work (figure does not show) can be according to the feedback signal of transducer, regulate main motor 30, drive motors 144, adjusted valve 241, following adjuster valve 242, to control first input system 1, second input system 2, package system 3, output system 4 operating rate separately, reach each system coordination place of working purpose.

The course of work of the present utility model is as follows:

At first start main motor 30, drive motors 144, adjusted valve 241, following adjuster valve 242 by main control system (figure does not show).

This moment, conveyer belt 13 began shuttling movement under the drive of drive motors, thereby drove battery main body moving in the pallet 114 in first slideway 12, up to the input pallet 152 that enters on the output rotating disk 15.

This battery main body moves to the engagement place of the capstan head 33 of input pallet 152 and package system 3 under the guiding of importing pallet 152 rotation drives and input guiding groove 313 then.Because the master gear 332 of package system 3 and the input gear of first input system 1 153 through matching design, make that the assembly positioning seat 38 on the capstan head 34 this moment also just moves to this position of engagement, this battery main body changes in the assembly positioning seat 38 subsequently.

Then this assembly positioning seat 38 will be with 25 places of the exit plate in turret rotated to the second input system, this moment from second slideway 22 be transported to drain pan the exit plate 25 will enter this assembly positioning seat 38 battery main body under, and the upper surface of assembled pressure head institute support.

Then this battery main body and drain pan are in the process that the moving axis 33 that rotates along with assembly positioning seat 38 moves in a circle, and the push rod 37 of assembly positioning seat 38 belows also synchronous rotation moving axis 33 moves in a circle.Owing to be installed in the upper surface motion that first roller shaft 3709 of push rod 37 lower ends is close to space cam 35, under the effect that raises of space cam 35, the assembling pressure head 3705 at push rod 37 tops will will hold on it on the battery main body bottom of drain pan punching press of establishing directly over being assembled into.Owing to be subjected to the restriction of upper cover plate 39, battery main body can't be by axial ejection assembly positioning seat 38 simultaneously.After this because second roller shaft 3710 that is installed in push rod 37 lower ends under the pressure drop effect of resetting block 35, drives push rod 37 resets.

The battery main body that has then assembled drain pan continues to move in a circle with assembly positioning seat 38, when this assembly positioning seat 38 turns to capstan head 34 and exports the engagement place of rotating disk 41, the battery main body that has assembled drain pan enters output rotating disk 41 under the guiding of output guiding groove 314, enter output slideway 42 at last and be delivered to next process.

Claims (10)

1, a kind of zinc-carbon cell drain pan package system, it is characterized in that, comprise: be used to import battery main body first input system (1), be used to import drain pan second input system (2), be used for drain pan is assembled to the revolving package system (3) on the battery main body, the output system (4) that is used to export the battery main body that has assembled drain pan, control system (5), its annexation is:

First input system (1), second input system (2), output system (4) are connected with package system (3) respectively; The drain pan punching press that package system (3) is used for entering wherein is assembled to the bottom of battery main body, and delivers to output system (4); Control system (5) is connected with first input system (1), second input system (2), package system (3), output system (4).

2, a kind of zinc-carbon cell drain pan package system according to claim 1, it is characterized in that: described package system (3) comprising: main motor (30), frame (31), rotation axis (33), capstan head (34), space cam (35), resetting block (36), some push rods (37), some assembly positioning seats (38), upper cover plate (39), and its annexation is:

Rotation axis (33) is fixed on the frame (31), and its lower end is connected with main motor (30); Capstan head (34) is fixedly connected on rotation axis (33) and is positioned on the part shaft part of frame (31) top; Space cam (35), resetting block (36) are that center fixation is on frame with the rotation axis; Push rod (37) circumferentially is distributed on the capstan head (34), and its bottom is provided with two contact sites that cooperate with space cam (35), resetting block (36) respectively; Assembly positioning seat (38) is installed on the capstan head (34), and its lower end is corresponding with the upper end of push rod (37), is used for fixedly entering the battery main body and the drain pan of package system (3) from top to bottom; Upper cover plate (39) is fixedlyed connected with these some assembly positioning seats (38), makes assembly positioning seat (38) more firmly be fixed on the capstan head (34), has limited moving upward of the battery main body that is fixed on the assembly positioning seat (38) and drain pan simultaneously.

3, a kind of zinc-carbon cell drain pan package system according to claim 2, it is characterized in that: described rotation axis (33) is fixed on the frame (31) by rotation axis holder (32), and:

Described main motor (30) is provided with an overload clutch (301) with the junction of rotation axis (33);

Described frame (31) comprises the machine side plate (311) that is provided with some through holes and is arranged on the bracing frame (312) of machine side plate (311) below;

Rotation axis holder (32) is the solid hollow pipe box in machine side plate (311) through hole of a spiral shell, but its upper end open place is provided with the thrust bearing (321) of axially loaded, and its inwall also is provided with rolling bearing (322);

Rotation axis (33) is located in the rotation axis holder (32), which is provided with the boss (331) and the master gear (332) that may be stuck on the thrust bearing (321);

Capstan head (34) is fixed on the rotation axis (33) by connecting ringfeder (341), and circumferentially is provided with the some installing holes (342) that are used to install some push rods (37);

Push rod (37) can be located in the installing hole (342) with axial motion by a sleeve (3700).

Assembly positioning seat (38) is fixed on the capstan head (33), and the lower end is corresponding with the upper end of push rod (37), it comprises: battery main body positioning disk (381), drain pan positioning disk (382), they by screw from top to bottom in the lump spiral shell be affixed on the capstan head (33), the position of battery main body positioning disk (381) is corresponding with the delivery outlet position of first input system (1), drain pan positioning disk (382) is provided with the annular opening, it only carries out horizontal location to drain pan, makes drain pan be positioned under the battery main body just.

4, a kind of zinc-carbon cell drain pan package system according to claim 3 is characterized in that:

Described push rod (37) can be located in the installing hole (342) with axial motion by a sleeve (3700), comprise: upper boom (3701), lower beam (3702), upper boom spring positioning sleeve (3703), upper boom spring (3704), assembling pressure head (3705), lower beam spring positioning sleeve (3706), lower beam spring (3707), roller shaft (3708), first roller (3709), second roller (3710), slide key (3711), its annexation is:

The solid main body of on lower beam (3702) top, forming push rod (37) thus of upper boom (3701) spiral shell, upper boom (3701) is provided with upper boom plush copper (3712) and upper boom boss (3713), and lower beam (3702) is provided with sliding tray (3714);

Upper boom spring positioning sleeve (3703), upper boom spring (3704), assembling pressure head (3705) are set on the upper boom (3701) from bottom to top successively, wherein upper boom spring positioning sleeve (3703) is arranged on and is provided with on the upper boom boss (3713) of adjusting pad (3715), assembling pressure head 3703 is hollow tubular, and its upper surface and lower surface are provided with respectively and upper boom plush copper (3713) and close-fitting two counterbores of upper boom spring (3704);

Lower beam spring positioning sleeve (3706), lower beam spring (3707) are set on the lower beam (3702) from top to bottom successively, and wherein lower beam spring positioning sleeve (3706) is fastened on the lower surface of installing hole (342);

Roller shaft (3708) is arranged on the bottom of lower beam (3702); First roller (3709), second roller (3710) are arranged on the roller shaft (3708), and wherein first roller (3709) contacts with space cam (35), and second roller (3710) contacts with resetting block (36);

Slide key (3711) is horizontally through installing hole (342) on the capstan head (34) and the sliding tray (3714) on the lower beam (3702) successively, and is fixed on the capstan head (33).

5, a kind of zinc-carbon cell drain pan package system according to claim 3, it is characterized in that: described first input system (1) comprising: the first input frame (11), first slideway (12), conveyer belt (13), power set (14), input rotating disk (15), and its annexation is: first slideway (12) is arranged on first input frame (11) top; Conveyer belt (13) is arranged on first slideway (12) below and power set (14) interlock, and goes up the moving loop that forms with sealing at power set (14); Power set (14) are arranged on the first input frame (11); Input rotating disk (15) is connected with the output port of first slideway (12), is used for battery main body is directly sent into package system (3).

6, a kind of zinc-carbon cell drain pan package system according to claim 5 is characterized in that:

The described first input frame (11) comprising: two channel-section steels (111) that the horizontal interval is provided with, be used for fixing some reference columns (112) of connecting this two channel-section steel (111), be arranged on the support component (113) that is used to support two channel-section steels (111) below two channel-section steels (111), the supporting plate (114) that is located at two channel-section steels (111) one ends;

Described first slideway (12) comprising: be arranged on each channel-section steel (111) top railing seat (121), be arranged on the stock (122) on the railing seat (121);

Described power set (14) comprising: be arranged on the driving wheel (141) in this two channel-section steel (111) cavity, be arranged at least one driven pulley (142) in the cavity between this two channel-section steel (111), be arranged on the tensioning apparatus that is used to regulate conveyer belt (13) (143) of this two channel-section steel (111) below, its annexation is: this driving wheel (141) is connected with drive motors (144), this two channel-section steel (111) is provided with some to through hole, be provided with an axis of rolling (145) in this through hole, driving wheel (141) and driven pulley (142) center are provided with rolling bearing (146), by this rolling bearing (146) is set in the axis of rolling (145), thereby driving wheel (141) and driven pulley (142) are arranged in the cavity between two channel-section steels (111);

Described input rotating disk (15) comprising: rotation axis (151), be arranged on rotation axis (151) top input pallet (152), be arranged on the input gear (153) of rotation axis (151) below, master gear (332) on the rotation axis (33) in input gear (153) and the package system (3) cooperates, and battery main body positioning disk (381) position of the assembly positioning seat (38) in the position of importing pallet (152) and the package system (3) is corresponding;

Also be provided with the input guiding groove (313) that battery main body on the input rotating disk (15) that is used for guiding first input system (1) enters package system on the described machine side plate (311).

7, a kind of zinc-carbon cell drain pan package system according to claim 6 is characterized in that:

Described tensioning apparatus (143) comprising: be fixed in two panels (1431) that the vertical spacing of this two channel-section steel (111) lower end is provided with respectively, be arranged on regulating wheel (1432) on this two panels (1431), be used to regulate regulating wheel (1432) position adjusting screw(rod) 1433, be fixed in the transverse slat (1434) of this two panels (1431) bottom, its annexation is:

This two panels (1431) is provided with a groove 1435, be provided with two slide blocks 1436 in this groove 1435, this two slide block 1436 is fixedly connected by an axis of rolling 1437, this regulating wheel (1432) center is provided with at least one rolling bearing 1438, by should being set on this axis of rolling 1437 by at least one rolling bearing 1438, thereby this regulating wheel (1432) is arranged on this two panels (1431); This adjusting screw(rod) 1433 is a threaded rod, and one end and slide block 1436 are spirally connected, and the other end passes and spiral shell is consolidated on this transverse slat (1434).

8, a kind of zinc-carbon cell drain pan package system according to claim 3, it is characterized in that: described second input system (2) comprising: the second input frame (21), second slideway (22), hold down gag (23), gas control equipment (24), exit plate (25), and its annexation is: second slideway (22) is arranged on the second input frame (21); Hold down gag (23) is arranged on second slideway (22), is used for second slideway (22) is locked to the second input frame (21); Exit plate (25) is connected with the output port of second slideway (22), is used for drain pan is directly sent into package system (3).

9, a kind of zinc-carbon cell drain pan package system according to claim 8 is characterized in that:

The described second input frame (21) comprising: base plate (211), be arranged on the bracing frame (212) that base plate (211) below is used to support base plate (211);

Described second slideway (22) comprising: overlay the delivery board (221) on the base plate (211) successively from lower to upper, on blow plate (222), upper sealing panel (223), its annexation is: the upper and lower surface of delivery board (221) is equipped with the groove road along its length direction, make and form closed air chamber (224) between the upper surface of the lower surface of delivery board (221) and base plate (211), and make delivery board (221) upper surface and on blow and form a drain pan passage (225) between the lower surface of plate, also be distributed with the some pores (226) that are communicated with its biconcave conduit in addition on the delivery board (221), the gas in the following closed air chamber (224) can enter drain pan passage (225) by pore (226); On blow plate (222) and be provided with the some pores (227) that penetrate upper and lower surface; Upper sealing panel (223) lower surface is provided with the groove road along its length direction, make upper sealing panel (223) lower surface and on blow plate (222) upper surface and form closed air chamber (228) on, the gas in the last closed air chamber (228) can by on the pore (227) that blows on the plate (222) enter drain pan passage (225);

Described hold down gag (23) comprising: the solid hinges fixing reservation (231) of spiral shell in base plate (211) one sides, be located at blow plate (222) top and with hinges fixing reservation (231) articulated hinges plate (232), the solid holder (233) of spiral shell in base plate (211) another side, be used for the free end of flap (232) is fixedly attached to the stretching screw (234) and the clamp nut (235) of holder (233), one end of stretching screw (234) is fixed on the holder (233), and the other end is spirally connected with clamp nut (235) after passing the free end of flap (232);

Described gas control equipment (24) comprising: be arranged on adjusted valve (241) that upper sealing panel (223) goes up and is communicated with last closed air chamber (228), be arranged on the base plate (211) and the following adjuster valve (242) that is communicated with following closed air chamber (224);

Described exit plate (25) is arranged on the exit of second slideway (22), is used for drain pan is delivered directly in the drain pan positioning disk 381 of assembly positioning seat (38) of package system (3);

10, a kind of zinc-carbon cell drain pan package system according to claim 3 is characterized in that:

Described output system (4) comprising: output rotating disk (41), output slideway (42), and its annexation is: output rotating disk (41) is connected with the upstream end of output slideway (42);

Also be provided with the battery main body that is equipped with drain pan on the output rotating disk (41) that is used for guiding output system (4) on the described machine side plate (311) and deliver to output guiding groove (314) on the output slideway (42).

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