Pole glue applicator for lead-acid battery
Technical Field
The invention relates to a pole glue applicator, in particular to a pole glue applicator for a lead-acid battery.
Background
A lead-acid accumulator is an accumulator whose electrodes are made of lead and its oxide and whose electrolyte is sulfuric acid solution. Since the invention in 1859, there has been over one hundred years of history to date. The lead-acid storage battery has the advantages of low price, easily obtained raw materials, sufficient reliability in use, suitability for large-current discharge, wide environmental temperature range and the like. The method is widely applied to various fields of traffic, communication, electric power, military affairs, daily necessities and the like.
When the valve-regulated sealed lead-acid storage battery is used, the internal sulfuric acid electrolyte gradually climbs along the surface of a lead terminal post along with the prolonging of the service time, and finally reaches a terminal (a corrosion terminal) of an external terminal of the battery, so that potential safety hazards or failure in the service life of the battery are caused.
Therefore, in the production process, the positions of the cover, the pole and the like are sealed by the pole glue, at present, the pole glue cylinder is manually and obliquely taken, then the glue nozzle is aligned to the periphery of the liquid injection hole, an operator rotates the pole glue cylinder again, so that the pole glue can be coated on the periphery of the liquid injection hole, the operation speed is slow, the rotation speed is not uniform and stable enough, the coated pole glue has the defects of poor bonding performance, poor acid resistance, poor fluidity, more bubbles, high brittleness, short service life and the like, the service life of the lead-acid storage battery is reduced, the hand part of the manually coated pole glue is easy to shake, the pole glue can be coated to the liquid injection hole carelessly, and the hand is easy to ache due to long-time operation.
In order to solve the problems, the invention needs to provide a lead-acid battery pole glue applicator which can uniformly and stably glue the periphery of a liquid injection hole, can block the liquid injection hole when pole glue is applied, has a positioning effect and can not cause ache by operating hands for a long time.
Disclosure of Invention
In order to overcome artifical rubber coating speed slower, rotatory speed is not even enough, stable, and the hand easily shakes when paining the utmost point post glue to can lead to the utmost point post glue to paining to annotating the liquid hole carelessly, long-time operation, the easy aching shortcoming of hand, the technical problem is: the utility model provides a can be even, stable carry out the rubber coating around annotating the liquid hole, can plug up when paining the utmost point post glue and annotate the liquid hole, also play the positioning action simultaneously, long-time operation hand can not the lead acid battery utmost point post glue obliterator of ache.
The utility model provides a lead acid battery utmost point post glue obliterator, is including cylinder pole and special-shaped handle, and special-shaped handle is installed to cylinder pole one end, still including drive arrangement and rotary device, and drive arrangement is installed to this cylinder pole other end, is equipped with rotary device on this drive arrangement, and this rotary device is used for placing utmost point post glue and drives its rotation, and this drive arrangement is used for driving rotary device rotatory.
Furthermore, the driving device comprises a fixed cylinder, a hollow cylinder, a first spring, a movable handle, a truncated cone block and a second spring, the other end of the cylinder rod is fixedly connected with the fixed cylinder, the hollow cylinder is sleeved on the cylinder rod in a sliding mode, the first spring is connected between the hollow cylinder and the fixed cylinder, the movable handle is installed on the hollow cylinder, the truncated cone block is arranged in the fixed cylinder in a sliding mode, and the second spring is connected between the truncated cone block and the fixed cylinder.
Further, rotary device is including the slip ring, special-shaped montant, place a section of thick bamboo, hose and arc rubber slab, the slip formula is equipped with the slip ring on this fixed cylinder, the rigid coupling has special-shaped montant on this slip ring, it has the helicla flute to open on this hollow cylinder, this special-shaped montant one end and this helicla flute cooperation, this dysmorphism is equipped with the section of thick bamboo of placing with the pivoted mode on hand, this place a section of thick bamboo end sealing connection has the hose, this hose end passes this special-shaped montant other end, this special-shaped is installed the arc rubber slab on hand, this place a section of thick bamboo and this arc rubber.
Further, still including the putty device, the putty device is including annular slide rail, sleeve, depression bar and third spring, and this activity is installed annular slide rail on hand, and the slidingtype is equipped with the sleeve on this annular slide rail, and this sleeve internal sliding type is equipped with the depression bar, is connected with the third spring between this depression bar one end and this sleeve, and this depression bar other end slidingtype sets up on special-shaped montant and compresses tightly the hose.
Further, still including vibrator, vibrator is including first wire wheel, the second wire wheel, stay cord and rotor plate, the first wire wheel of this dysmorphism handle one end fixedly connected with, this dysmorphism handle other end rigid coupling has the second wire wheel, this dysmorphism handle is the cavity form, this dysmorphism is rotatory to be equipped with the rotor plate on hand, this rotor plate one end with place a section of thick bamboo and contact the cooperation, be connected with the stay cord on this annular slide rail, this stay cord is connected with the rotor plate other end after passing hollow dysmorphism handle and bypassing the second wire wheel around first wire wheel.
Furthermore, the device also comprises an ejector rod and a fourth spring, wherein a chute is formed in the flat-topped conical block, the ejector rod is arranged in the fixed cylinder in a sliding manner, the fourth spring is connected between the ejector rod and the fixed cylinder, the fourth spring is in a compressed state, one end of the ejector rod is in contact fit with the chute, and the other end of the ejector rod is in contact fit with the side of the sliding ring.
Has the advantages that: according to the invention, the pole column rubber cylinder is fixed in the placing cylinder, pole column rubber can be uniformly shaken by shaking the pole column rubber bottle in the placing cylinder, the movable handle is pulled, the special-shaped vertical rod can be driven to rotate by pulling the spiral groove to move upwards, so that the pole column rubber can be uniformly coated on the periphery of the liquid injection hole of the lead-acid battery, the pole column rubber in the hose can be prevented from being oxidized by the blocking device, the annular slide rail can be pulled to move by the movable handle, the pull rope can be pulled, the rotating plate can be driven by the pull rope, the placing cylinder and the pole column rubber cylinder in the placing cylinder can be jacked up by the rotating plate, after the pull rope is loosened, the placing cylinder and the pole column rubber cylinder can swing downwards under the self-gravity action of the placing cylinder and the pole column rubber cylinder, the pole column rubber cylinder does not need to swing the placing cylinder and the pole column rubber cylinder manually at regular time, the pole.
Drawings
Fig. 1 is a schematic bottom view of the present invention.
Fig. 2 is a first front view structure diagram of the present invention.
Fig. 3 is a second front view structure diagram of the present invention.
Fig. 4 is an enlarged schematic view of part a of the present invention.
Part names and serial numbers in the figure: 1 cylindrical rod, 2 special-shaped handles, 3 driving devices, 31 fixed cylinders, 32 hollow cylinders, 33 first springs, 34 movable handles, 35 flat-topped conical blocks, 36 second springs, 4 rotating devices, 41 sliding rings, 42 special-shaped vertical rods, 43 spiral grooves, 44 placing cylinders, 45 hoses, 46 arc-shaped rubber plates, 5 blocking devices, 51 annular sliding rails, 52 sleeves, 53 pressing rods, 54 third springs, 6 vibrating devices, 61 first guide wheels, 62 second guide wheels, 63 pull ropes, 64 rotating plates, 7 chutes, 8 ejector rods and 9 fourth springs.
Detailed Description
The technical scheme of the invention is further explained by combining the attached drawings.
Example 1
The utility model provides a lead acid battery utmost point post glue obliterator, as shown in fig. 1-4, including cylinder pole 1, special-shaped handle 2, drive arrangement 3 and rotary device 4, special-shaped handle 2 is installed on cylinder pole 1 top, and drive arrangement 3 is installed to this cylinder pole 1 lower extreme, is equipped with rotary device 4 on this drive arrangement 3, and this rotary device 4 is used for placing utmost point post glue and drives its rotation, and this drive arrangement 3 is used for driving rotary device 4 rotatory.
The driving device 3 comprises a fixed cylinder 31, a hollow cylinder 32, a first spring 33, a movable handle 34, a truncated cone block 35 and a second spring 36, the fixed cylinder 31 is fixedly connected to the lower end of the cylinder rod 1, the hollow cylinder 32 is slidably sleeved on the cylinder rod 1, the first spring 33 is connected between the hollow cylinder 32 and the fixed cylinder 31, the movable handle 34 is installed at the top of the hollow cylinder 32, the truncated cone block 35 is slidably arranged at the bottom inside the fixed cylinder 31, and the second spring 36 is connected between the truncated cone block 35 and the fixed cylinder 31.
Rotating device 4 is including the slip ring 41, special-shaped montant 42, place a section of thick bamboo 44, hose 45 and arc rubber slab 46, the slip is equipped with slip ring 41 on this fixed cylinder 31, the rigid coupling has special-shaped montant 42 on this slip ring 41, it has helicla flute 43 to open on this hollow cylinder 32, this special-shaped montant 42 upper end and this helicla flute 43 cooperation, this special-shaped handle 2 lower part is equipped with the pivoted mode and places a section of thick bamboo 44, this place a section of thick bamboo 44 right-hand member sealing connection has hose 45, this hose 45 end passes this special-shaped montant 42 other end, install arc rubber slab 46 on this special-shaped handle 2, this place a section of thick bamboo 44 left part and this arc rubber slab.
Firstly, an operator fixes a pole glue bottle on a placing barrel 44, holds the upper end of a special-shaped handle 2, then the operator clamps the lower end of a flat-top conical block 35 into a lead-acid battery liquid injection hole, the operator slightly presses downwards, the flat-top conical block 35 can be tightly contacted with the lead-acid battery liquid injection hole under the action of a second spring 36, the liquid injection hole of the lead-acid battery can be blocked through the flat-top conical block 35, then the operator pulls a movable handle 34 upwards, the movable handle 34 can drive a hollow cylinder 32 to move upwards, a first spring 33 is stretched along with the movable handle, under the action of a spiral groove 43, a special-shaped vertical rod 42 and a sliding ring 41 can be driven to rotate for three hundred sixty degrees, the special-shaped vertical rod 42 can drive a hose 45 to rotate, so that pole glue can be evenly coated around the liquid injection hole of the lead-acid battery, after a period of use, the operator can swing the placing barrel 44, the pole, can rock utmost point post and glue the bottle like this, can rock even utmost point post and glue, under the effect of arc rubber slab 46, can fix and the shock attenuation placing a section of thick bamboo 44.
Example 2
On the basis of embodiment 1, as shown in fig. 1 to 4, the device further includes a blocking device 5, the blocking device 5 includes an annular slide rail 51, a sleeve 52, a pressing rod 53 and a third spring 54, the annular slide rail 51 is mounted on the movable handle 34, the diameter of the annular slide rail 51 is larger than that of the hollow cylinder 32, the sleeve 52 is slidably disposed at the bottom of the annular slide rail 51, the pressing rod 53 is slidably disposed in the sleeve 52, the third spring 54 is connected between the upper end of the pressing rod 53 and the sleeve 52, and the lower end of the pressing rod 53 is slidably disposed on the special-shaped vertical rod 42 and presses the hose 45.
Still including vibrator 6, vibrator 6 is including first wire wheel 61, second wire wheel 62, stay cord 63 and rotor plate 64, the first wire wheel 61 of 2 upper portion right-hand members fixedly connected with of this dysmorphism handle, the 2 lower extreme rigid couplings of this dysmorphism handle have second wire wheel 62, this dysmorphism handle 2 is hollow, this 2 lower part rotary types of dysmorphism handle are equipped with rotor plate 64, this rotor plate 64 left end with place a section of thick bamboo 44 contact cooperation, be connected with stay cord 63 on this annular slide rail 51, this stay cord 63 is walked around first wire wheel 61 and is passed hollow dysmorphism handle 2 and is connected with the right lower extreme of rotor plate 64 after bypassing second wire wheel 62.
When the movable handle 34 moves upward, the annular slide rail 51 is driven to move upward, the annular slide rail 51 can pull the sleeve 52 and the pressing rod 53 to move upward, when the pressing rod 53 moves upward to contact with the fixed cylinder 31, the pressing rod 53 no longer presses the hose 45, the polar glue can be discharged from the hose 45, when the operator continues to pull the movable handle 34 upwards, the sleeve 52 can move upwards, the third spring 54 is stretched, the shaped vertical rod 42 rotates to drive the pressing rod 53 to rotate together, the annular sliding rail 51 plays a guiding role, when the operator releases the movable handle 34, the movable handle 34 moves downward to drive the sleeve 52 and the pressing rod 53 to move downward, and when the pressing rod 53 is no longer in contact with the movable cylinder, under the action of the third spring 54, the pressing rod 53 can be downward matched with the special-shaped vertical rod 42 again to flatten the hose 45, so that the pole glue in the hose 45 can be prevented from being oxidized.
When annular slide rail 51 up moved, alright pulling stay cord 63, turn to under the effect through first wire wheel 61 and second wire wheel 62, stay cord 63 can pull rotor plate 64 clockwise swing at last, rotor plate 64 left part alright jack-up place a section of thick bamboo 44 and the utmost point post packing element in it, when annular slide rail 51 down moved, alright loosen stay cord 63, under the action of gravity of placing a section of thick bamboo 44 and utmost point post packing element self, alright make and place a section of thick bamboo 44 and utmost point post packing element and swing down, so relapse, just need not artifical regularly to swing and place a section of thick bamboo 44 and utmost point post packing element, can shake even utmost point post glue automatically.
Example 3
On the basis of the embodiment 2, as shown in fig. 3-4, the device further comprises a top rod 8 and a fourth spring 9, the flat-topped conical block 35 is internally provided with the chute 7, the fixed cylinder 31 is internally provided with the top rod 8 in a sliding manner, the fourth spring 9 is connected between the top rod 8 and the fixed cylinder 31, the fourth spring 9 is in a compressed state, one end of the top rod 8 is in contact fit with the chute 7, and the other end of the top rod 8 is in contact fit with the inner side of the sliding ring 41.
When the flat top conical block 35 moves upwards, the chute 7 can be driven to move upwards, when the chute 7 moves upwards and is not in contact with the ejector rod 8 any more, the ejector rod 8 can be driven to move inwards under the action of the fourth spring 9, so that the sliding ring 41 can not be clamped any more, the sliding ring 41 can slide smoothly, when the flat top conical block 35 moves downwards to drive the chute 7, the chute 7 can push the ejector rod 8 to outwards prop against the sliding ring 41, the special-shaped vertical rod 42 and the movable handle 34 are fixed, and the phenomenon that an operator touches the movable handle 34 by mistake to cause the device to operate can be avoided.
It should be understood that this example is only for illustrating the present invention and is not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.