CN205790198U - The mechanism that a kind of battery afterbody is encapsulated - Google Patents

Abstract

This utility model relates to the mechanism that a kind of battery afterbody is encapsulated.It includes rotating disk mechanism and the manipulator mechanism, encapsulation mechanism, the first compressing glue mechanism and the second compressing glue mechanism that arrange around rotating disk mechanism, it utilizes manipulator mechanism that battery is sent into rotating disk mechanism and fixes, the most sequentially through the encapsulated processing of encapsulation mechanism, the first compressing glue mechanism and the second compressing glue mechanism, after by manipulator mechanism, battery is unloaded again, wherein, it is encapsulated that first compressing glue mechanism is used for the corner to battery afterbody, and it is encapsulated that the second compressing glue mechanism is used for the end face to battery afterbody.The mechanism that this utility model battery afterbody is encapsulated, compact conformation, reasonable in design, effectively raise the automatization level of equipment, improve labor intensity of operating staff, reduce the personnel to operate error, and convenient to operate, produces stable, substantially increases the production efficiency of equipment.

Description

The mechanism that a kind of battery afterbody is encapsulated

Technical field

This utility model relates to lithium battery encapsulation apparatus field, particularly relates to the mechanism that a kind of battery afterbody is encapsulated.

Background technology

Development is constantly reformed along with electronic industry, digital product has become a requisite part in people's daily life, then needed for logarithmic code product, the demand of battery is the most increasing, currently, encapsulated main employing to battery afterbody manually manuallys locate and encapsulated, and this manual production and processing mode can not meet far away the demand of society.

Summary of the invention

The purpose of this utility model is the mechanism providing a kind of battery afterbody encapsulated.

The technical scheme that the above-mentioned technical problem of this utility model solution is used is: the mechanism that a kind of battery afterbody is encapsulated, its rotating disk mechanism including there are four rotary work stations being in same level and be in the manipulator mechanism of rotating disk mechanism the first station side, described battery is horizontally fixed on the station of rotating disk mechanism and the afterbody of battery is towards the outside of described rotating disk mechanism, also includes sequentially being in the encapsulation mechanism of other station sides of rotating disk mechanism, the first compressing glue mechanism and the second compressing glue mechanism；Described manipulator mechanism battery is sent into rotating disk mechanism fix, the most sequentially through the encapsulated processing of encapsulation mechanism, the first compressing glue mechanism and the second compressing glue mechanism, after by manipulator mechanism, battery is unloaded again.

In a preferred embodiment, described encapsulation mechanism includes a first substrate arranged perpendicular to the ground, the front side of described first substrate is provided with longitudinal slide rail of two vertical direction and two groups of horizontally arranged horizontal slide rails, and horizontal slide rail described in two groups lays respectively at two relative outsides of described longitudinal slide rail and is symmetrical set；Be respectively arranged with a rubberizing assembly that can do left and right back and forth movement along it on described horizontal slide rail, described longitudinal slide rail is respectively arranged with one can do along it move up and down cut glue assembly；The top of described first substrate is symmetrically arranged with two lacquer disk(-sc) assemblies being rotating to the release of adhesive tape；Be provided with two overhang rolls corresponding with described lacquer disk(-sc) assembly respectively on described first substrate, described adhesive tape through overhang roll transmission, through described in cut glue assembly and be transferred at described rubberizing assembly.

In a preferred embodiment, described rubberizing assembly includes first slide plate being connected with described horizontal slide rail, described first slide plate is horizontal " U " shape, the two ends of its " U " shape opening part are respectively arranged with one for adsorbing the sucker of adhesive tape, two described suckers are correspondingly arranged on a roller respectively near the inner side of " U " shape opening part of the first slide plate, and the afterbody of described battery can be inserted into " U " shape opening part of the first slide plate and be clamped between two described rollers.

In a preferred embodiment, described glue assembly of cutting includes second slide plate being connected with described longitudinal slide rail, the bottom of described second slide plate is fixedly connected with a tool rest, be fixedly connected with on described tool rest one arrange in horizontal direction cut film for cut off adhesive tape, described tool rest be provided above one for driving first cylinder of its back and forth movement in the horizontal direction, the bottom of described second slide plate be also fixedly connected with one be positioned at described in cut the glue groove in the direction of advance of film, described adhesive tape is sent at two suckers of rubberizing assembly through described glue groove.

In a preferred embodiment, described first compressing glue mechanism includes a second substrate arranged perpendicular to the ground, described second substrate is provided with hairbrush in one and on first that described middle hairbrush is arranged hairbrush, first time hairbrush, left hairbrush and right hairbrush；On described first, hairbrush and first time hairbrush are vertically oppositely arranged, and left hairbrush and right hairbrush are oppositely arranged in transverse direction；Described middle hairbrush can do back and forth movement along direction before and after second substrate, and on described first, hairbrush and first time hairbrush can vertically do back and forth movement, described left hairbrush and right hairbrush and can do back and forth movement in transverse direction；On described first, the adhesive tape being covered in the upper and lower surface of described battery afterbody corner can be bent and be covered on the sidewall of battery by hairbrush and first time hairbrush vertically relative motion relatively, the adhesive tape being covered on the sidewall of left and right, battery afterbody corner can be bent and be covered on the end face of battery afterbody by described left hairbrush and right hairbrush relative motion in transverse direction, and the adhesive tape being covered in described battery afterbody corner can be bent and be covered on the end face of battery afterbody towards the forward of second substrate by described middle hairbrush.

In a preferred embodiment, described second compressing glue mechanism includes the 3rd substrate arranged perpendicular to the ground, connecting on described 3rd substrate and have hairbrush and second time hairbrush on second be vertically oppositely arranged, on described second, hairbrush and second time hairbrush can vertically do back and forth movement；On described second, the adhesive tape being covered in described battery afterbody upper and lower surface can be bent and be covered on the end face of battery afterbody by hairbrush and second time hairbrush vertically relative motion relatively.

In a preferred embodiment, four rotary work stations of described rotating disk mechanism are sequentially provided with respectively loading and unloading station, encapsulated station, angle encapsulation station and tail encapsulation station；Be provided with the fixed block for the self-contained battery left and right sides on described loading and unloading station, rubberizing station, angle encapsulation station and tail encapsulation station, the head of described battery towards the center of rotating disk mechanism, afterbody is towards the outside of rotating disk mechanism.

The mechanism that this utility model battery afterbody is encapsulated has the beneficial effects that: it utilizes manipulator mechanism that battery is sent into rotating disk mechanism and fixes, the most sequentially through the encapsulated processing of encapsulation mechanism, the first compressing glue mechanism and the second compressing glue mechanism, after by manipulator mechanism, battery is unloaded again, wherein, it is encapsulated that first compressing glue mechanism is used for the corner to battery afterbody, and it is encapsulated that the second compressing glue mechanism is used for the end face to battery afterbody.The mechanism that this utility model battery afterbody is encapsulated, compact conformation, reasonable in design, effectively raise the automatization level of equipment, improve labor intensity of operating staff, reduce the personnel to operate error, and convenient to operate, produces stable, substantially increases the production efficiency of equipment.

Accompanying drawing explanation

Fig. 1 is the perspective view of the mechanism that battery afterbody is encapsulated in an embodiment.

Fig. 2 is the perspective view of encapsulation mechanism in Fig. 1.

Fig. 3 is the front view of first substrate in Fig. 2.

Fig. 4 is the three-dimensional view of rubberizing assembly in Fig. 2.

Fig. 5 is the three-dimensional view of rubberizing assembly in Fig. 2.

Fig. 6 is the three-dimensional view of the first compressing glue mechanism in Fig. 1.

Fig. 7 is the three-dimensional view of the second compressing glue mechanism in Fig. 1.

Fig. 8 is the three-dimensional view of Fig. 1 turntable mechanism.

Detailed description of the invention

Below in conjunction with specific embodiment and accompanying drawing, the mechanism that battery afterbody of the present utility model is encapsulated is described in further detail.

Refer to Fig. 1, the mechanism that a kind of battery afterbody is encapsulated, its rotating disk mechanism (60) including there are four rotary work stations being in same level and be in the manipulator mechanism (10) of rotating disk mechanism (60) first station side, battery (70) is horizontally fixed on the station of rotating disk mechanism (60) and the afterbody of battery (70) is towards the outside of described rotating disk mechanism (60), and manipulator mechanism (10) is used for loading and unloading.

Preferably, the encapsulated mechanism of battery afterbody also includes sequentially being in the encapsulation mechanism (20) of rotating disk mechanism (60) other station sides, the first compressing glue mechanism (30) and the second compressing glue mechanism (40), manipulator mechanism (10) battery (70) is sent into rotating disk mechanism (60) fixing, the most sequentially through encapsulation mechanism (20), the first compressing glue mechanism (30) and the encapsulated processing of the second compressing glue mechanism (40), after by manipulator mechanism (10), battery (70) is unloaded again.

The most referring also to Fig. 2 and Fig. 3, encapsulation mechanism (20) includes a first substrate arranged perpendicular to the ground (11), the front side of first substrate (11) is provided with longitudinal slide rail (111) of two vertical direction and two groups of horizontally arranged horizontal slide rails (112), and two groups of horizontal slide rails (112) lay respectively at two relative outsides of longitudinal slide rail (111) and are symmetrical set.

Laterally it is respectively arranged with one on slide rail (112) and the rubberizing assembly (12) of left and right back and forth movement can be made along it, be respectively arranged with on longitudinal slide rail (111) one can do along it move up and down cut glue assembly (13), the top of first substrate (11) is symmetrically arranged with two lacquer disk(-sc) assemblies (50) being rotating to the release of adhesive tape (51).

Being provided with two overhang rolls (113) corresponding with lacquer disk(-sc) assembly (50) respectively on first substrate (11), adhesive tape (51) is through the transmission of overhang roll (113), be transferred into rubberizing assembly (12) place through cutting glue assembly (13).

The most referring also to Fig. 4, rubberizing assembly (12) includes first slide plate (121) being connected with horizontal slide rail (112), first slide plate (121) is in horizontal " U " shape, the two ends of its " U " shape opening part are respectively arranged with one for the sucker (122) adsorbing adhesive tape (51), two suckers (122) are correspondingly arranged on a roller (123) respectively near the inner side of " U " shape opening part of the first slide plate (121), and the afterbody of battery (70) can be inserted into " U " shape opening part of the first slide plate (121) and be clamped between two rollers (123).

nullThe most referring also to Fig. 5，Cut glue assembly (13) and include second slide plate (131) being connected with longitudinal slide rail (111)，The bottom of the second slide plate (131) is fixedly connected with a tool rest (133)，It is fixedly connected with one on tool rest (133) to arrange in horizontal direction、Film (134) is cut for cut off adhesive tape (51)，Tool rest (133) be provided above one for driving first cylinder (135) of its back and forth movement in the horizontal direction，The bottom of the second slide plate (131) is also fixedly connected with a glue groove (132) being positioned in the direction of advance cutting film (134)，Adhesive tape (51) is sent to two sucker (122) places of rubberizing assembly (12) through glue groove (132) and blocks " U " shape opening of the first slide plate (121)，When the afterbody of battery (70) inserts " U " shape opening part of the first slide plate (121)，Under the effect of roller (123)，The absorption adhesive tape (51) at sucker (122) place is tightly wrapped up the afterbody of battery (70).

The most referring also to Fig. 6, first compressing glue mechanism (30) includes a second substrate arranged perpendicular to the ground (31), second substrate (31) is provided with hairbrush in (36) and on first that described middle hairbrush (36) is arranged hairbrush (32), first time hairbrush (33), left hairbrush (34) and right hairbrush (35)；On first, hairbrush (32) and first time hairbrush (33) are vertically oppositely arranged, and left hairbrush (34) and right hairbrush (35) are oppositely arranged in transverse direction；Middle hairbrush (36) can do back and forth movement along direction before and after second substrate (31), and on first, hairbrush (32) and first time hairbrush (33) can vertically be done back and forth movement, left hairbrush (34) and right hairbrush (35) and can be done back and forth movement in transverse direction.

On the relative sidewall bending and being covered in battery (70) of adhesive tape (51) that on first, hairbrush (32) can will be covered in the upper and lower surface of battery (70) afterbody corner with first time hairbrush (33) vertically relative motion, the adhesive tape (51) being covered on the sidewall of left and right, battery (70) afterbody corner can be bent and be covered on the end face of battery (70) afterbody by left hairbrush (34) and right hairbrush (35) relative motion in transverse direction, and the adhesive tape (51) being covered in described battery (70) afterbody corner can be bent and be covered on the end face of battery (70) afterbody towards the forward of second substrate (31) by middle hairbrush (36).

The most referring also to Fig. 7, second compressing glue mechanism (40) includes the 3rd substrate (41) arranged perpendicular to the ground, there are hairbrush (42) and second time hairbrush (43) on second be vertically oppositely arranged 3rd substrate (41) upper connection, and on second, hairbrush (42) and second time hairbrush (43) can vertically do back and forth movement.

On the relative end face bending and being covered in battery (70) afterbody of adhesive tape (51) that on second, hairbrush (42) can will be covered in battery (70) afterbody upper and lower surface with second time hairbrush (43) vertically relative motion.

The most referring also to Fig. 8, four rotary work stations of rotating disk mechanism (60) are sequentially provided with loading and unloading station (61), encapsulated station (62), angle encapsulation station (63) and tail encapsulation station (64) respectively；Loading and unloading station (61), rubberizing station (62), angle encapsulation station (63) and tail encapsulate and are provided with the fixed block (65) for self-contained battery (70) left and right sides on station (64), the head of battery (70) towards the center of rotating disk mechanism (60), afterbody is towards the outside of rotating disk mechanism (60).

Workflow is as follows:

During use, first rotate lacquer disk(-sc) assembly (50) and adhesive tape (51) is sent to rubberizing assembly (12) place and by sucker suction through overhang roll (113), adhesive tape (51) is cut-off under the active force cutting film (134), then battery to be processed it is sent to the loading and unloading station (61) of rotating disk mechanism (60) by manipulator mechanism (10) and fixes, now, the afterbody of battery is towards the outside of rotating disk mechanism (60)；When rotating disk mechanism (60) turns to rubberizing station (62), rubberizing assembly (12) moves towards battery afterbody, and under the effect of roller (123), the absorption adhesive tape (51) at sucker (122) place is tightly wrapped up the afterbody of battery (70)；Rotating disk mechanism (60) is rotated further to angle encapsulation station (63), on the relative sidewall bending and being covered in battery (70) of adhesive tape (51) that on first, hairbrush (32) will be covered in the upper and lower surface of battery (70) afterbody corner with first time hairbrush (33) vertically relative motion, the adhesive tape (51) being covered on the sidewall of left and right, battery (70) afterbody corner is bent and is covered on the end face of battery (70) afterbody by left hairbrush (34) and right hairbrush (35) relative motion in transverse direction, the adhesive tape (51) being covered in battery (70) afterbody corner can be bent and be covered on the end face of battery (70) afterbody towards the forward of second substrate (31) by middle hairbrush (36)；Rotating disk mechanism (60) turns to tail encapsulation station (64), on the relative end face bending and being covered in battery (70) afterbody of adhesive tape (51) that on second, hairbrush (42) will be covered in battery (70) afterbody upper and lower surface with second time hairbrush (43) vertically relative motion, now the encapsulated of battery afterbody completes；Finally, rotating disk mechanism (60) turns to loading and unloading station (61), and manipulator mechanism (10) is drawn and unloaded from rotating disk mechanism (60) i.e. complete encapsulated technique by completing encapsulated battery.

To sum up, the mechanism that this utility model battery afterbody is encapsulated, the mechanism that this utility model battery afterbody is encapsulated has the beneficial effects that: it utilizes manipulator mechanism that battery is sent into rotating disk mechanism and fixes, the most sequentially through the encapsulated processing of encapsulation mechanism, the first compressing glue mechanism and the second compressing glue mechanism, after by manipulator mechanism, battery is unloaded again, wherein, it is encapsulated that first compressing glue mechanism is used for the corner to battery afterbody, and it is encapsulated that the second compressing glue mechanism is used for the end face to battery afterbody.The mechanism that this utility model battery afterbody is encapsulated, compact conformation, reasonable in design, effectively raise the automatization level of equipment, improve labor intensity of operating staff, reduce the personnel to operate error, and convenient to operate, produces stable, substantially increases the production efficiency of equipment.

Although description of the present utility model being combined embodiments above carry out, but, those skilled in the art can carry out many replacement, modifications and variations according to above-mentioned content, be apparent from.Therefore, all such replacements, improve and change in the spirit and scope being included in appended claims.

Claims (7)

1. the mechanism that a battery afterbody is encapsulated, its rotating disk mechanism (60) including there are four rotary work stations being in same level and be in the manipulator mechanism (10) of rotating disk mechanism (60) first station side, described battery is horizontally fixed on the station of rotating disk mechanism (60) and the afterbody of battery (70) is towards the outside of described rotating disk mechanism (60), it is characterized in that, also include sequentially being in the encapsulation mechanism (20) of rotating disk mechanism (60) other station sides, the first compressing glue mechanism (30) and the second compressing glue mechanism (40)；Described manipulator mechanism (10) battery (70) is sent into rotating disk mechanism (60) fixing, the most sequentially through encapsulation mechanism (20), the first compressing glue mechanism (30) and the encapsulated processing of the second compressing glue mechanism (40), after by manipulator mechanism (10), battery (70) is unloaded again.

The mechanism that battery afterbody the most according to claim 1 is encapsulated, it is characterized in that, described encapsulation mechanism (20) includes a first substrate arranged perpendicular to the ground (11), the front side of described first substrate (11) is provided with longitudinal slide rail (111) of two vertical direction and two groups of horizontally arranged horizontal slide rails (112), and horizontal slide rail (112) described in two groups lays respectively at two relative outsides of described longitudinal slide rail (111) and is symmetrical set；Be respectively arranged with a rubberizing assembly (12) that can do left and right back and forth movement along it on described horizontal slide rail (112), described longitudinal slide rail (111) is respectively arranged with one can do along it move up and down cut glue assembly (13)；The top of described first substrate (11) is symmetrically arranged with two lacquer disk(-sc) assemblies (50) being rotating to the release of adhesive tape (51)；Be provided with two overhang rolls (113) corresponding with described lacquer disk(-sc) assembly (50) respectively on described first substrate (11), described adhesive tape (51) through overhang roll (113) transmission, through described in cut glue assembly (13) and be transferred into described rubberizing assembly (12) place.

The mechanism that battery afterbody the most according to claim 2 is encapsulated, it is characterized in that, described rubberizing assembly (12) includes first slide plate (121) being connected with described horizontal slide rail (112), described first slide plate (121) is in horizontal " U " shape, the two ends of its " U " shape opening part are respectively arranged with one for adsorbing the sucker (122) of adhesive tape (51), two described suckers (122) are correspondingly arranged on a roller (123) respectively near the inner side of " U " shape opening part of the first slide plate (121), the afterbody of described battery (70) can be inserted into " U " shape opening part of the first slide plate (121), and be clamped between two described rollers (123).

nullThe mechanism that battery afterbody the most according to claim 3 is encapsulated，It is characterized in that，Described glue assembly (13) of cutting includes second slide plate (131) being connected with described longitudinal slide rail (111)，The bottom of described second slide plate (131) is fixedly connected with a tool rest (133)，Be fixedly connected with on described tool rest (133) one arrange in horizontal direction cut film (134) for cut off adhesive tape (51)，Described tool rest (133) be provided above one for driving first cylinder (135) of its back and forth movement in the horizontal direction，The bottom of described second slide plate (131) be also fixedly connected with one be positioned at described in cut the glue groove (132) in the direction of advance of film (134)，Described adhesive tape (51) is sent to two sucker (122) places of rubberizing assembly (12) through described glue groove (132).

The mechanism that battery afterbody the most according to claim 4 is encapsulated, it is characterized in that, described first compressing glue mechanism (30) includes a second substrate arranged perpendicular to the ground (31), described second substrate (31) is provided with hairbrush in (36) and on first that described middle hairbrush (36) is arranged hairbrush (32), first time hairbrush (33), left hairbrush (34) and right hairbrush (35)；On described first, hairbrush (32) and first time hairbrush (33) are vertically oppositely arranged, and left hairbrush (34) and right hairbrush (35) are oppositely arranged in transverse direction；Described middle hairbrush (36) can do back and forth movement along direction before and after second substrate (31), on described first, hairbrush (32) and first time hairbrush (33) can vertically be done back and forth movement, described left hairbrush (34) and right hairbrush (35) and can be done back and forth movement in transverse direction；On the relative sidewall bending and being covered in battery (70) of adhesive tape (51) that on described first, hairbrush (32) can will be covered in the upper and lower surface of described battery (70) afterbody corner with first time hairbrush (33) vertically relative motion, the adhesive tape (51) being covered on the sidewall of left and right, battery (70) afterbody corner can be bent and be covered on the end face of battery (70) afterbody by described left hairbrush (34) and right hairbrush (35) relative motion in transverse direction, and the adhesive tape (51) being covered in described battery (70) afterbody corner can be bent and be covered on the end face of battery (70) afterbody towards the forward of second substrate (31) by described middle hairbrush (36).

The mechanism that battery afterbody the most according to claim 5 is encapsulated, it is characterized in that, described second compressing glue mechanism (40) includes the 3rd substrate (41) arranged perpendicular to the ground, there are hairbrush (42) and second time hairbrush (43) on second be vertically oppositely arranged described 3rd substrate (41) upper connection, and on described second, hairbrush (42) and second time hairbrush (43) can vertically do back and forth movement；On the relative end face bending and being covered in battery (70) afterbody of adhesive tape (51) that on described second, hairbrush (42) can will be covered in described battery (70) afterbody upper and lower surface with second time hairbrush (43) vertically relative motion.

7. according to the mechanism that the battery afterbody described in any one of claim 1-6 is encapsulated, it is characterized in that, four rotary work stations of described rotating disk mechanism (60) are sequentially provided with loading and unloading station (61), encapsulated station (62), angle encapsulation station (63) and tail encapsulation station (64) respectively；Described loading and unloading station (61), rubberizing station (62), angle encapsulation station (63) and tail encapsulate and are provided with the fixed block (65) for self-contained battery (70) left and right sides on station (64), the head of described battery (70) towards the center of rotating disk mechanism (60), afterbody is towards the outside of rotating disk mechanism (60).