SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a suction nozzle dismounting device and battery become equipment aims at solving among the prior art and changes the technical problem that the operation degree of difficulty is big and work efficiency is low to the negative pressure suction nozzle of battery formation equipment.
In order to achieve the above object, the utility model adopts the following technical scheme: a suction nozzle dismounting device comprises a base and a plurality of buckle components, wherein each buckle component comprises a buckle piece and a mounting seat arranged on the base, an embedding cavity with an inlet is formed in each mounting seat, each buckle piece comprises a connecting part, a supporting part and a buckling part, the supporting part and the buckling part are respectively connected to two opposite sides of the connecting part, each connecting part is respectively and rotatably connected to the corresponding mounting seat so that each buckling part can swing along the inlet direction of a suction nozzle, each buckling part respectively extends into the corresponding inlet of the mounting seat, and each supporting part is respectively used for being abutted against the corresponding mounting seat.
The utility model provides a suction nozzle dismounting device has following beneficial effect at least: when the suction nozzle dismounting device is used, the suction nozzle dismounting device moves towards the direction of a suction nozzle close to battery formation equipment, each suction nozzle is abutted against the buckling part of the corresponding buckling part, each buckling part swings downwards, the top of each buckling part is separated from the corresponding mounting seat, at the moment, the inlet of each mounting seat is in an open state, and each suction nozzle can enter the placing cavity through the inlet of the corresponding mounting seat; then the suction nozzle dismounting device moves towards the direction of the suction nozzle far away from the battery formation equipment, each suction nozzle is abutted against the corresponding buckling part of the buckling part again, each buckling part swings upwards until the top of each buckling part is abutted against the corresponding mounting seat, at the moment, each buckling part locks the inlet of the corresponding mounting seat, each suction nozzle is blocked in the placing cavity of the corresponding mounting seat, the suction nozzle dismounting device continues to move towards the direction of the suction nozzle far away from the battery formation equipment, so that each suction nozzle is pulled out of the battery formation equipment, and therefore the suction nozzles are dismounted simultaneously.
In one embodiment, each of the fastening components includes an elastic member, one end of the elastic member is connected to the corresponding mounting seat, and the other end of the elastic member is connected to the top of the corresponding fastening member.
In one embodiment, each of the mounting seats is provided with a guide hole, and each of the elastic members is disposed in the guide hole of the corresponding mounting seat.
In one embodiment, each of the mounting seats includes a first fastening member, each of the mounting seats is provided with a connecting hole communicated with the corresponding guide hole, the first fastening member is connected to the corresponding connecting hole and then enters the corresponding guide hole, one end of the elastic member is detachably connected to the corresponding supporting top of the buckle member, and the other end of the elastic member is detachably connected to the corresponding first fastening member.
In one embodiment, the supporting top of each fastening member is provided with a first magnet for being attracted to the corresponding mounting seat, and/or each mounting seat is provided with a second magnet for being attracted to the supporting top of the corresponding fastening member.
In one embodiment, the fastening assemblies are sequentially arranged to form a multi-column structure.
In one embodiment, each of the snap components includes two oppositely disposed snap pieces.
In one embodiment, the base is provided with a plurality of through holes and an accommodating cavity is formed inside the base, and the placing cavity of each mounting seat is communicated with the accommodating cavity through the corresponding through hole.
In one embodiment, the base is provided with a drawer which can enter or leave the accommodating cavity.
In order to achieve the above object, the utility model provides a battery ization becomes equipment still, including driver, suction nozzle group and above-mentioned suction nozzle dismounting device, the suction nozzle group has a plurality of suction nozzles, each buckle subassembly and each of suction nozzle dismounting device the suction nozzle one-to-one sets up, the driver is used for the drive suction nozzle dismounting device is close to or keeps away from towards the direction removal of suction nozzle group.
Since the battery formation equipment adopts all the embodiments of the suction nozzle dismounting device, at least all the beneficial effects of the embodiments are achieved, and no further description is given here.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.
Fig. 1 is a schematic structural view of a suction nozzle dismounting device provided in an embodiment of the present invention;
FIG. 2 is an exploded view of the suction nozzle removing device shown in FIG. 1;
FIG. 3 is a schematic view of a snap assembly of the nozzle removing device of FIG. 1;
FIG. 4 is a cross-sectional view taken along line A-A of the buckle assembly shown in FIG. 3;
FIG. 5 is a schematic structural view of a latch of the latch assembly shown in FIG. 4.
Wherein, in the figures, the respective reference numerals:
10. nozzle dismounting device, 11, base, 111, cover plate, 1111, through-hole, 112, bottom shell, 1121, guide rail, 1122, pull-out mouth, 113, holding chamber, 114, drawer, 115, second fastener, 12, buckle subassembly, 121, mount pad, 1211, imbedding chamber, 1212, entry port, 1213, guiding hole, 1214, first fastener, 1215, connecting hole, 122, buckle spare, 1221, connecting portion, 1222, buckle portion, 1223, back-up portion, 1224, guiding inclined plane, 123, elastic component, 1231, couple.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, should not be construed as limiting the present invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
First, it should be noted that the direction indicated by the reference mark a in fig. 4 is a direction in which a suction nozzle described below enters the catch assembly 12.
Example one
Referring to fig. 1 to 4, a nozzle dismounting device 10 includes a base 11 and a plurality of fastening components 12, each fastening component 12 includes a fastening member 122 and a mounting seat 121 mounted on the base 11, an insertion cavity 1211 having an inlet 1212 is formed inside each mounting seat 121, each fastening member 122 includes a connecting portion 1221, and a supporting portion 1223 and a fastening portion 1222 connected to opposite sides of the connecting portion 1221, respectively, each connecting portion 1221 is rotatably connected to the corresponding mounting seat 121 so that each fastening portion 1222 can swing along an inlet direction a of a nozzle, each fastening portion 1222 extends into the inlet 1212 of the corresponding mounting seat 121, and each supporting portion 1223 is used for abutting against the corresponding mounting seat 121.
When the device is used, the nozzle dismounting device 10 moves towards the direction close to the nozzles of the battery formation equipment, each nozzle abuts against the buckling part 1222 of the corresponding buckling part 122, each buckling part 1222 swings downwards, the top supporting part 1223 of each buckling part 122 is separated from the corresponding mounting seat 121, at this time, the inlet 1212 of each mounting seat 121 is in an open state, and each nozzle can enter the placing cavity 1211 through the inlet 1212 of the corresponding mounting seat 121; next, the nozzle dismounting device 10 moves towards the direction away from the nozzles of the battery formation equipment, each nozzle abuts against the corresponding fastening part 1222 of the fastening part 122 again, each fastening part 1222 swings upwards until the supporting part 1223 of each fastening part 122 abuts against the corresponding mounting seat 121, at this time, each fastening part 1222 locks the inlet 1212 of the corresponding mounting seat 121, each nozzle is blocked in the insertion cavity 1211 of the corresponding mounting seat 121, the nozzle dismounting device 10 continues to move towards the direction away from the nozzles of the battery formation equipment, so that each nozzle is pulled out of the battery formation equipment, and thus, the nozzles are dismounted simultaneously, the operation is simple and convenient, and the working efficiency is high.
Specifically, as shown in fig. 5, the surface of the fastening portion 1222 of each fastening member 122 away from the corresponding insertion cavity 1211 of the mounting seat 121 forms a guiding inclined surface 1224, and the guiding inclined surface 1224 is inclined toward the insertion direction a of the suction nozzle, so as to reduce the resistance generated when the suction nozzle enters the insertion cavity 1211 of the mounting seat 121, effectively improve the smoothness of the suction nozzle detaching operation, and further improve the working efficiency.
In the present embodiment, please refer to fig. 4, each of the fastening assemblies 12 includes an elastic element 123, one end of the elastic element 123 is connected to the corresponding mounting seat 121, and the other end is connected to the top support 1223 of the corresponding fastening element 122. In an initial state, each elastic member 123 pulls the supporting top 1223 of the corresponding latch 122 to keep the latch 1222 of each latch 122 to lock the access port 1212 of the corresponding mounting seat 121, when the nozzle removing device 10 moves toward the direction close to the nozzle of the battery formation equipment until each nozzle abuts against the latch 1222 of the corresponding latch 122, each nozzle presses the latch 1222 of the corresponding latch 122, so that each latch 1222 swings downward against the elastic force of the corresponding elastic member 123, at this time, the access port 1212 of each mounting seat 121 is in an open state, and each nozzle can enter the insertion cavity 1211 through the access port 1212 of the corresponding mounting seat 121; after each suction nozzle enters the placing cavity 1211 of the corresponding mounting seat 121, the buckling part 1222 of each buckling piece 122 is reset under the elastic action of the corresponding elastic piece 123 so as to lock the inlet port 1212 of each mounting seat 121 again, meanwhile, the supporting top 1223 of each buckling piece 122 abuts against the corresponding mounting seat 121 under the elastic action of the corresponding elastic piece 123, when the suction nozzle dismounting device 10 moves towards the direction close to the suction nozzle far away from the battery formation equipment, each suction nozzle abuts against the buckling part 1222 of the corresponding buckling piece 122 again, each suction nozzle 1222 of each buckling piece 122 is pulled out of the battery formation equipment under the action of the contact force between the buckling part 1222 of each buckling piece 122 and the corresponding suction nozzle, and therefore the operation of dismounting a plurality of suction nozzles simultaneously is achieved.
It should be noted that the kind of the elastic member 123 includes various kinds, such as a spring, a pneumatic telescopic rod, etc., and is not limited herein.
Specifically, as shown in fig. 4, each mounting seat 121 is provided with a guide hole 1213, and each elastic element 123 is disposed in the corresponding guide hole 1213 of the mounting seat 121. Through arranging each elastic member 123 in the corresponding guiding hole 1213, the condition that the elastic member 123 rocked appears in the use can be avoided on the one hand, effectively guarantees the job stabilization nature of buckle subassembly 12, and on the other hand also can simplify the structure of buckle subassembly 12, makes the structure of buckle subassembly 12 become compacter.
Specifically, as shown in fig. 4, the guide hole 1213 of each mount 121 extends in the intake direction a of the suction nozzle.
Specifically, as shown in fig. 4, each of the mounting seats 121 includes a first fastening member 1214, such as a bolt, a screw, etc., and each of the mounting seats 121 has a connecting hole 1215 communicated with the corresponding guide hole 1213, the first fastening member 1214 enters the corresponding guide hole 1213 after being connected to the corresponding connecting hole 1215, one end of the elastic member 123 is detachably connected to the top supporting portion 1223 of the corresponding buckling member 122, and the other end of the elastic member 123 is detachably connected to the corresponding first fastening member 1214. Since the elastic member 123 is prone to have its elastic force attenuated after a long time use, the elastic member 123 needs to be replaced periodically; by adopting the above technical solution, when replacing the elastic element 123, the first fastening element 1214 can be unscrewed from the connecting hole 1215, at this time, the elastic element 123 is separated from the first fastening element 1214, the elastic element 123 can be taken out from the guide hole 1213 after being removed from the fastening part 1222 of the fastening element 122, then a new elastic element 123 is placed into the guide hole 1213, the first fastening element 1214 is screwed into the connecting hole 1215 again until the first fastening element 1214 passes through one end of the elastic element 123, and finally the other end of the new elastic element 123 is connected with the top supporting part 1223 of the fastening element 122, so that the replacing operation of the elastic element 123 is completed, and the operation is simple and convenient.
Specifically, as shown in fig. 4, two ends of each elastic element 123 are provided with hooks 1231, one hook 1231 of each elastic element 123 hooks the top 1223 of the corresponding fastening element 122, and the other hook 1231 hooks the corresponding first fastening element 1214, so as to realize the detachable connection of the elastic element 123.
In the present embodiment, please refer to fig. 1 and fig. 2, the fastening components 12 are sequentially arranged to form a multi-row structure. By adopting the above technical scheme, the layout structure of each buckle component 12 of the suction nozzle dismounting device 10 is effectively adapted to the layout structure of the suction nozzle of the battery formation equipment, and meanwhile, the number of the suction nozzles pulled out during each dismounting operation can be effectively increased by adopting a multi-column layout structure for each buckle component 12, so that the working efficiency can be further improved.
In the present embodiment, please refer to fig. 4, each of the fastening assemblies 12 includes two fastening members 122 disposed oppositely. Through adopting above-mentioned technical scheme, can make the whole atress of suction nozzle even to avoid the suction nozzle to appear inclining or the condition of turning over the side in the dismantlement process, effectively guarantee that the suction nozzle dismantles the operation and can go on steadily.
Of course, the number of the snap elements 122 in the same snap assembly 12 may be different according to actual needs, and is not limited in detail.
In the present embodiment, please refer to fig. 1 and fig. 2, the base 11 is provided with a plurality of through holes 1111, and the accommodating cavity 113 is formed therein, and the inserting cavity 1211 of each mounting seat 121 is communicated with the accommodating cavity 113 through the corresponding through hole 1111. By adopting the above technical scheme, after being pulled out, each suction nozzle can fall into the containing cavity 113 of the base 11 from the corresponding placing cavity 1211 of the mounting seat 121 through the corresponding through hole 1111, so that the suction nozzles can be effectively collected, and the use convenience of the suction nozzle dismounting device 10 is effectively improved.
Specifically, as shown in fig. 2, the base 11 includes a cover plate 111 and a bottom shell 112, the cover plate 111 is covered on the bottom shell 112 to form the accommodating cavity 113, and the cover plate 111 is provided with the through holes 1111.
Specifically, as shown in fig. 2, the base 11 is provided with a drawer 114 capable of entering or leaving the accommodating cavity 113. By adopting the above technical scheme, after each suction nozzle is pulled out, the suction nozzle can fall into the accommodating cavity 113 of the base 11 through the corresponding through hole 1111 from the insertion cavity 1211 of the corresponding mounting seat 121, and fall into the drawer 114, and after the suction nozzle is detached, the drawer 114 can be pulled out, and the suction nozzle in the drawer 114 can be cleaned, so that the accommodating cavity 113 of the base 11 can be cleaned, and the use convenience of the suction nozzle detaching device 10 can be further improved.
Specifically, as shown in fig. 2, a drawing opening 1122 is formed in a side wall of the bottom shell 112, and a guide rail 1121 is disposed in the bottom shell 112, so that the drawer 114 can slide along the guide of the guide rail 1121, so as to push the drawer 114 into the accommodating cavity 113 of the base 11 through the drawing opening 1122 or pull the drawer 114 out of the accommodating cavity 113 of the base 11 through the drawing opening 1122.
Specifically, as shown in fig. 2, the base 11 further includes a second fastening member 115, such as a bolt, a screw, etc., when the nozzle is detached, the drawer 114 is connected to the bottom casing 112 through the second fastening member 115, so as to prevent the drawer 114 from moving out of the base 11 during the detachment of the nozzle, and to ensure that the nozzle detachment operation can be performed stably.
Example two
The difference between the present embodiment and the first embodiment is that the reset structure of the locking member 122 is different.
In this embodiment, each of the top portions 1223 of the fastening members 122 is provided with a first magnet for engaging with the corresponding mounting seat 121, and/or each of the mounting seats 121 is provided with a second magnet for engaging with the top portion 1223 of the corresponding fastening member 122. In an initial state, the magnetic force of the first magnet and/or the second magnet can keep the latch 1222 of each latch 122 to lock the access port 1212 of the corresponding mounting seat 121, when the nozzle removing device 10 moves toward the direction close to the nozzle of the battery formation equipment until each nozzle abuts against the latch 1222 of the corresponding latch 122, each nozzle presses the latch 1222 of the corresponding latch 122, so that each latch 1222 swings downward against the magnetic force of the first magnet and/or the second magnet, at this time, the access port 1212 of each mounting seat 121 is in an open state, and each nozzle can enter the insertion cavity 1211 through the access port 1212 of the corresponding mounting seat 121; after each suction nozzle enters the placing cavity 1211 of the corresponding mounting seat 121, the buckling part 1222 of each buckling piece 122 is reset under the magnetic force of the first magnet and/or the second magnet to lock the inlet 1212 of each mounting seat 121 again, meanwhile, the supporting part 1223 of each buckling piece 122 abuts against the corresponding mounting seat 121 under the magnetic force of the first magnet and/or the second magnet, when the suction nozzle dismounting device 10 moves towards the direction far away from the suction nozzle of the battery formation equipment, each suction nozzle abuts against the buckling part 1222 of the corresponding buckling piece 122 again, each suction nozzle is pulled out of the battery formation equipment under the contact force between the buckling part 1222 of each buckling piece 122 and the corresponding suction nozzle, and therefore the operation of dismounting a plurality of suction nozzles is achieved simultaneously.
A battery formation device comprises a driver, a suction nozzle group and the suction nozzle dismounting device 10, wherein the suction nozzle group is provided with a plurality of suction nozzles, each buckle component 12 of the suction nozzle dismounting device 10 is arranged corresponding to each suction nozzle one by one, and the driver is used for driving the suction nozzle dismounting device 10 to move towards the direction close to or far away from the suction nozzle group.
Since the battery formation equipment adopts all embodiments of the suction nozzle dismounting device 10, at least all the advantages of the embodiments are achieved, and no further description is given here.
The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.