CN216970098U - Automatic film coating equipment - Google Patents

Abstract

The utility model relates to automatic film coating equipment which comprises a platform, wherein an unreeling component and a film coating component are arranged on the platform, a rotating component is arranged below the film coating component, a clamping component is arranged on the rotating component, a cutting component is arranged on one side of the film coating component and used for clamping a shell, the film coating component clamps a film on the unreeling component and drives the film to move towards one side to cover one end of the film on the clamped shell, the rotating component drives the clamping component and the clamped shell to rotate to coat the film on the periphery of the shell, and the cutting component cuts one end of the film after the coating of the shell is finished.

Description

Automatic film coating equipment

Technical Field

The utility model relates to the technical field of lead-acid battery shell coating production equipment, in particular to automatic coating equipment.

Background

Lead acid battery case can carry out the diolame at the shell outmost usually in process of production, avoid causing the fish tail and be infected with the dust to the shell in working process such as subsequent transportation, prior art is when carrying out the diolame to the shell, need artifical manual placing the shell on diolame equipment, but current diolame equipment can't play fine centre gripping fixed effect when carrying out the diolame to the shell, influence the diolame quality of shell, and current diolame equipment operation is more complicated, the cost is also higher, a lot of enterprises consider that the cost still adopts artifical manual diolame, the diolame is inefficient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides automatic film coating equipment which comprises a platform, wherein an unreeling assembly, a film coating assembly, a rotating assembly, a clamping assembly and a cutting assembly are arranged on the platform, a shell is clamped through the clamping assembly, a film on the unreeling assembly is clamped through the film coating assembly and is driven to move to one side to cover one end of the film on the clamped shell, the clamping assembly and the clamped shell are driven to rotate through the rotating assembly to coat the film on the periphery of the shell, and one end of the film is cut off after the film coating of the shell is finished through the cutting assembly.

The technical solution of the utility model is as follows:

the utility model provides an automatic change diolame equipment, includes the platform, the platform is provided with and unreels subassembly and diolame subassembly, diolame subassembly below is provided with runner assembly, the last centre gripping subassembly that is provided with of runner assembly, diolame subassembly one side is provided with cutting assembly, the centre gripping subassembly is used for carrying out the centre gripping to the shell, diolame subassembly carries out the centre gripping and drives it to one side removal to unreeling the film on the subassembly and cover the shell of film one end in the centre gripping on, the shell rotation in runner assembly drive centre gripping subassembly and the centre gripping is rotatory around the shell with the film cladding, cutting assembly cuts film one end after the shell diolame is accomplished.

Preferably, the envelope assembly comprises a base a and a guide rail, the base a is fixedly arranged on the platform, a fixing part a is fixedly arranged on the base a, a fixing part b is movably arranged on the fixing part a, and a fixing part c and a fixing part d are slidably arranged on the guide rail.

Preferably, the fixing part a and the fixing part c are provided with grooves, the fixing part b and the fixing part d are provided with connecting pieces corresponding to the grooves, a reset spring a is arranged in each connecting piece, a handle is arranged on the back of the fixing part b, the tops of the fixing part c and the fixing part d are provided with a sliding rod a, and a sliding block a is arranged on the sliding rod a.

Preferably, the rotating assembly comprises a motor and a supporting seat driven by the motor, a rotating sleeve and a supporting rod are arranged at the bottom of the supporting seat, a rotating block is arranged at the bottom of the supporting rod, and a sliding groove a is formed in the top surface of the supporting seat.

As a preferred, the centre gripping subassembly is including fixed flexible cover, the rotation seat that sets up on the supporting seat and rotate the dwang of setting on rotating the seat, it has seted up the rotation hole on the seat to rotate, rotate the seat top and seted up spout b, it is provided with the holder to slide in the spout b, the holder tail end is provided with the turning block an with dwang matched with, the dwang both sides are provided with the stopper.

Preferably, a telescopic rod is arranged in the telescopic sleeve, a bearing plate is arranged at the top of the telescopic rod, extrusion rods are arranged on two sides of the bottom of the bearing plate, limiting plates are arranged on two sides of the top surface of the bearing plate, and a return spring b is arranged at the bottom of the telescopic rod.

Preferably, the clamping assembly further comprises a sliding block b arranged in the sliding groove a in a sliding mode, the tail end of the sliding block b is provided with a rotating block b matched with the rotating rod, and the tail end of the sliding block b is further provided with a return spring c.

Preferably, the cutting assembly comprises a base b fixedly arranged on the platform, an air cylinder arranged on the base b and a cutter driven by the air cylinder, a sliding groove c is formed in the base b, and a sliding rod b is arranged at the tail end of the cutter in a matched manner with the sliding groove c.

Preferably, the unwinding assembly comprises a base c fixedly arranged on the platform and an unwinding roller rotatably arranged on the base c.

Preferably, the platform is provided with a rotating groove matched with the rotating block.

The utility model has the beneficial effects that

1. The clamping assembly is arranged, the extrusion rod in the clamping assembly is matched with the sliding block b, the telescopic rod descends along the telescopic sleeve through the weight of the shell, the sliding block b is extruded outwards by the extrusion rod, and meanwhile the sliding block b drives the rotating rod to rotate so that the clamping piece moves inwards along the sliding groove b to clamp and fix the shell.

2. The film coating machine is provided with the rotating assembly, the rotating assembly is matched with the clamping assembly, the motor in the rotating assembly is controlled to be started through the control system after the clamping assembly descends in place, and the clamping assembly and the shell clamped on the clamping assembly are driven by the motor to rotate to coat a film on the shell, so that the film coating efficiency is higher and more accurate.

3. The film coating assembly is arranged, the fixing piece c and the fixing piece d in the film coating assembly are matched with the guide rail, when the fixing piece c and the fixing piece d move rightwards along the guide rail, the fixing piece c and the fixing piece d can coat the film on the side surface of the shell in a smooth manner when driving the film to move through the arc shape at one end of the guide rail, so that the film is pre-fixed on the shell, the film can be more accurately and more closely attached to the shell when the subsequent rotating assembly drives the shell to rotate, and the problem of low efficiency when the film coating is manually carried out in the prior art is solved.

In conclusion, the film wrapping machine has the advantages of higher film efficiency, more stable shell clamping during film wrapping, good linkage effect, ingenious structure, convenience in use and the like, and is suitable for the technical field of engineering plastics.

Drawings

The utility model is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic structural diagram of the automated coating machine;

FIG. 2 is a schematic structural view of an encapsulation assembly;

FIG. 3 is a schematic structural diagram of a fastener a, a fastener b, a fastener c, a fastener d, etc.;

FIG. 4 is an exploded view of the rotating assembly and clamping assembly;

FIG. 5 is an enlarged view of FIG. 4 at A;

FIG. 6 is a schematic view of a cutting assembly;

FIG. 7 is a schematic view of the automated coating machine coating the shell;

FIG. 8 is a schematic cross-sectional view of the automated encapsulation tool encapsulating the shell;

fig. 9 is an enlarged schematic view of fig. 8 at B.

Detailed Description

The technical scheme in the embodiment of the utility model is clearly and completely explained by combining the attached drawings.

Example one

As shown in fig. 1 to 9, an automatic coating device comprises a platform 1, an unreeling assembly 2 and a coating assembly 3 are arranged on the platform 1, a rotating assembly 4 is arranged below the coating assembly 3, a clamping assembly 5 is arranged on the rotating assembly 4, a cutting assembly 6 is arranged on one side of the coating assembly 3, the clamping assembly 5 is used for clamping a shell 7, the coating assembly 3 clamps a film on the unreeling assembly 2 and drives the film to move to one side to cover one end of the film on the shell 7 in clamping, the rotating assembly 4 drives the clamping assembly 5 and the shell 7 in clamping to rotate to coat the film around the shell 7, and the cutting assembly 6 cuts one end of the film after the coating of the shell 7 is completed.

The film wrapping machine is provided with a platform 1, an unreeling component 2 and a film wrapping component 3 are arranged on the platform 1, a rotating component 4 is arranged below the film wrapping component 3, a clamping component 5 is arranged on the rotating component 4, a cutting component 6 is arranged on one side of the film wrapping component 5, a control system is further arranged on one side of the film wrapping component 3, a shell 7 is clamped through the clamping component 5, a film on the unreeling component 2 is clamped through the film wrapping component 3 and is driven to move to one side to cover one end of the film on the clamped shell 7, the clamping component 5 and the clamped shell 7 are driven to rotate through the rotating component 4 to wrap the film around the shell 7, one end of the film is cut off after the coating of the shell 7 is finished through the cutting component 6, and the operation of each component is controlled through the control system, so that the problems that the clamping effect is not firm when the shell is wrapped by the film wrapping equipment in the prior art are solved, Low efficiency and poor continuity.

Envelope assembly 3 includes base a31 and guide rail 32 that are fixed setting on platform 1, base a31 is fixed and is provided with mounting a33, mounting a33 is movably provided with mounting b34, guide rail 32 is slidably provided with mounting c35 and mounting d36, the film is fixed through mounting a33 and mounting b34, the film is prevented from being drooping and influenced by subsequent mounting c35 and mounting d36 to clamp the film, and mounting c35 and mounting d36 drive the film along guide rail 32 to pre-fix one end of the film on one side of housing 7 through a control system.

The fixing piece a33 and the fixing piece c35 are respectively provided with a groove 37, the fixing piece b34 and the fixing piece d36 are respectively provided with a connecting piece 38 corresponding to the groove 37, the connecting piece 38 is internally provided with a return spring a39, the tops of the fixing piece c35 and the fixing piece d36 are respectively provided with a slide bar a311, the slide bar a311 is provided with a slide block a312, the fixing piece a33 and the fixing piece b34 are matched with the return spring a39 through the groove 37 to realize the opening and closing of the fixing piece a 3538, films can be conveniently placed and fixed, the two matched fixing pieces are combined more tightly and firmly after being combined together by the connecting piece 38, and the fixing piece c35 and the fixing piece d36 can slide in the guide rail 32 more stably and more smoothly through the slide bar a311 and the slide block a 312.

It is worth mentioning that the film wrapping machine is provided with the film wrapping component 3, the fixing piece c33 and the fixing piece d36 in the film wrapping component 3 are matched with the guide rail 32, when the fixing piece c33 and the fixing piece d36 move rightwards along the guide rail 32, the fixing piece c33 and the fixing piece d36 can wrap a film on the side surface of the shell 7 in a smooth manner when driving the film to move through the arc shape at one end of the guide rail 32, so that the film is pre-fixed on the shell 7, the film can be more accurately attached to the shell 7 when the subsequent rotating component 4 drives the shell 7 to rotate, and the problem of low efficiency when manually wrapping the film in the prior art is solved.

Rotating assembly 4 includes motor 41 and supporting seat 42 under the motor 41 drives, supporting seat 42 bottom is provided with and rotates cover 43 and bracing piece 44, bracing piece 44 bottom is provided with turning block 45, spout a46 has been seted up to supporting seat 42 top surface, it makes supporting seat 42 go up centre gripping subassembly 5 and the synchronous rotation of casing 7 with the film cladding on casing 7 to drive supporting seat 42 through motor 41 and rotate, make the more firm setting of rotating assembly 4 on platform 1 through turning block 45, and it is more smooth and easy when 11 cooperations make rotating assembly 4 rotate through the rotation groove of seting up, it makes slider b514 realize sliding to set up spout a 46.

More importantly, the rotating assembly 4 is matched with the clamping assembly 5 through the rotating assembly 4, the motor 41 in the rotating assembly 4 is controlled to be started through the control system after the clamping assembly 5 descends in place, the motor 41 drives the clamping assembly 5 and the shell 7 clamped on the clamping assembly 5 to rotate to coat the film on the shell 7, and therefore film coating efficiency is higher and more accurate.

The clamping component 5 comprises a telescopic sleeve 51 fixedly arranged on a supporting seat 42, a rotating seat 52 and a rotating rod 53 rotatably arranged on the rotating seat 52, a rotating hole 54 is formed in the rotating seat 52, a sliding groove b55 is formed in the top of the rotating seat 52, a clamping piece 56 is slidably arranged in a sliding groove b55, a rotating block a57 matched with the rotating rod 53 is arranged at the tail end of the clamping piece 56, limiting blocks 58 are arranged on two sides of the rotating rod 53, the rotating rod 53 is enabled to rotate on the rotating seat 52 through the rotating hole 54, the clamping piece 56 slides inwards along a sliding groove b55 through the sliding groove b55, a rotating block a57 and the rotating block are arranged, and the sliding block b514 drives the rotating rod 53 to rotate to enable the clamping piece 56 to slide inwards along the sliding groove b55 to clamp the shell 7 fixedly.

An expansion link 59 is arranged in the expansion sleeve 51, a bearing plate 510 is arranged at the top of the expansion link 59, extrusion rods 511 are arranged at two sides of the bottom of the bearing plate 510, limit plates 512 are arranged at two sides of the top surface of the bearing plate 510, a return spring b513 is arranged at the bottom of the expansion link 59, the expansion link 59 is lowered by the self weight after the shell 7 is placed on the bearing plate 510 through the cooperation of the expansion sleeve 51 and the expansion link 59, the extrusion rods 511 are driven to extrude the sliding block b514 towards two sides so that the sliding block b514 drives the rotating rod 53 to rotate, the expansion link 59 is lifted and returned through the return spring b513 after the shell 7 is separated from the bearing plate 510, meanwhile, the extrusion rods 511 relieve the extrusion on the sliding block b514 so that the sliding block b514 is returned through the return spring c516, the shell 7 is pre-fixed after the shell 7 is placed on the bearing plate 510 through the limit plates 512, the shell 7 is fixed in four directions through the cooperation with the clamping piece 56, so that the shell 7 is more stable when rotating along with the rotating component 4, no loosening occurs.

The clamping assembly 5 further comprises a sliding block b514 which is arranged in the sliding groove a46 in a sliding mode, a rotating block b515 which is matched with the rotating rod 53 is arranged at the tail end of the sliding block b514, a return spring c516 is further arranged at the tail end of the sliding block b514, the rotating block b515 is rotatably connected with the rotating rod 53, the sliding block b514 drives the rotating rod 53 to rotate when sliding outwards along the sliding groove a46, after extrusion on the sliding block b514 is relieved by the extrusion rod 511, the sliding block b514 is enabled to slide inwards to reset through the return spring c516, and meanwhile the rotating rod 53 is driven to reset.

In addition, the clamping assembly 5 is arranged, the extrusion rod 511 in the clamping assembly 5 is matched with the sliding block b514, the telescopic rod 59 descends along the telescopic sleeve 51 through the weight of the shell 7, the extrusion rod 511 extrudes the sliding block b514 outwards, and meanwhile the sliding block b514 drives the rotating rod 53 to rotate so that the clamping piece 56 moves inwards along the sliding groove b55 to clamp and fix the shell 7, so that the problem that the shell 7 cannot be well fixed when the shell 7 is coated by coating equipment in the prior art is solved, the risk that the shell 7 is loosened when the shell 7 is coated is solved, meanwhile, the linkage effect is good, the clamping assembly 5 is driven to clamp the shell 7 through the self weight of the shell 7, and energy is effectively saved.

Cutting assembly 6 is including fixed base b61 that sets up on platform 1, the cylinder 62 of setting on base b61 and the cutter 63 under the cylinder 62 drives, spout c64 has been seted up on base b61, cutter 63 tail end cooperation spout c64 is provided with slide bar b65, it cuts the film to drive cutter 63 through control system control cylinder 62, the cooperation through spout c64 and slide bar b65 makes the cutter 63 operation more quick more stable, be favorable to cutting the film fast.

The unwinding assembly 2 comprises a base c21 fixedly arranged on the platform 1 and an unwinding roller 22 rotatably arranged on the base c 21.

The rotating groove 11 matched with the rotating block 45 is formed in the platform 1, the rotating block 45 can rotate more smoothly through the rotating groove 11, and the rotating assembly 4 is more stably installed.

Example two

As shown in fig. 3, in which the same or corresponding components as those in the first embodiment are denoted by the same reference numerals as those in the first embodiment, only the points of difference from the first embodiment will be described below for the sake of convenience; the second embodiment is different from the first embodiment in that: the back of the fixing b34 is provided with a pull handle 310.

This embodiment facilitates the securing of the film between mount a33 and mount b34 by providing pull 310 on the back of mount b34 and by pulling pull 310 to separate mount a33 from mount b 34.

Working process

Firstly, the power supply of the control system and each component is started, then the handle 310 is pulled to open and close the fixing piece a33 and the fixing piece b34 to fix the film on the unreeling roller 22 between the fixing piece a33 and the fixing piece b34, then the shell 7 to be coated is placed on the bearing plate 510, the telescopic rod 59 descends along the telescopic sleeve 51 by the self weight of the shell 7, the extrusion rod 511 extrudes the sliding block b514 outwards, meanwhile, the sliding block b514 slides along the sliding groove a46 to drive the rotating rod 53 to rotate, the rotating rod 53 rotates to drive the clamping piece 56 to move inwards along the sliding groove b55 to clamp and fix the shell 7, then the control system controls the fixing piece c35 and the fixing piece d36 to clamp one end of the film fixed on the fixing piece a33 and the fixing piece b34 and moves leftwards along the guide rail 32 to coat one end of the film on one side of the shell 7, then the control system controls the fixing piece c35 and the d36 to release the clamping of the film and starts the motor 41, the clamping assembly 5 arranged on the rotating assembly 4 and the shell 7 clamped by the clamping assembly 5 are driven by the motor 41 to rotate to coat the film on the shell 7, then the cutting knife 63 is driven by the control system to cut off the film, then the shell 7 with the coated film is lifted upwards, when the shell 7 leaves the bearing plate 510, the telescopic rod 59 is lifted and reset through the reset spring b513, meanwhile, the extrusion rod 511 relieves the extrusion on the sliding block b514, the inward sliding reset is realized through the reset spring c516, meanwhile, the rotating rod 53 is driven to reset, the clamping piece 56 is driven by the rotating rod 53 to reset to relieve the clamping on the shell 7, finally, the shell 7 is taken out, and the processing operation flow is circulated in sequence.

In the description of the present invention, it is to be understood that the terms "front-back", "left-right", 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 describing the present invention and simplifying the description, but do not indicate or imply that the referred device or component must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Of course, in this disclosure, those skilled in the art will understand that the terms "a" and "an" should be interpreted as "at least one" or "one or more," i.e., in one embodiment, a number of an element may be one, and in another embodiment, a number of the element may be plural, and the terms "a" and "an" should not be interpreted as limiting the number.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily made by those skilled in the art in light of the technical teaching of the present invention should be included within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. An automatic change diolame equipment, includes platform (1), its characterized in that: be provided with on platform (1) and unreel subassembly (2) and diolame subassembly (3), diolame subassembly (3) below is provided with runner assembly (4), be provided with centre gripping subassembly (5) on runner assembly (4), diolame subassembly (3) one side is provided with cutting assembly (6), centre gripping subassembly (5) are used for carrying out the centre gripping to shell (7), diolame subassembly (3) carry out the centre gripping and drive it to one side and remove and cover shell (7) in the centre gripping with film one end to unreeling the film on subassembly (2), runner assembly (4) drive shell (7) in centre gripping subassembly (5) and the centre gripping rotatory film cladding around shell (7), cutting assembly (6) cut film one end after shell (7) diolame is accomplished.

2. The automatic coating machine according to claim 1, wherein the coating assembly (3) comprises a base a (31) fixedly arranged on the platform (1) and a guide rail (32), a fixing member a (33) is fixedly arranged on the base a (31), a fixing member b (34) is movably arranged on the fixing member a (33), and a fixing member c (35) and a fixing member d (36) are slidably arranged on the guide rail (32).

3. The automatic film wrapping equipment according to claim 2, wherein a groove (37) is formed in each of the fixing piece a (33) and the fixing piece c (35), a connecting piece (38) is arranged on each of the fixing piece b (34) and the fixing piece d (36) corresponding to the groove (37), a return spring a (39) is arranged in the connecting piece (38), a handle (310) is arranged on the back of the fixing piece b (34), a sliding rod a (311) is arranged on each of the tops of the fixing piece c (35) and the fixing piece d (36), and a sliding block a (312) is arranged on each sliding rod a (311).

4. The automatic coating machine according to claim 1, wherein the rotating assembly (4) comprises a motor (41) and a supporting base (42) driven by the motor (41), a rotating sleeve (43) and a supporting rod (44) are arranged at the bottom of the supporting base (42), a rotating block (45) is arranged at the bottom of the supporting rod (44), and a sliding groove a (46) is formed in the top surface of the supporting base (42).

5. The automatic film coating equipment according to claim 4, wherein the clamping assembly (5) comprises a telescopic sleeve (51) fixedly arranged on the supporting seat (42), a rotating seat (52) and a rotating rod (53) rotatably arranged on the rotating seat (52), a rotating hole (54) is formed in the rotating seat (52), a sliding groove b (55) is formed in the top of the rotating seat (52), a clamping piece (56) is slidably arranged in the sliding groove b (55), a rotating block a (57) matched with the rotating rod (53) is arranged at the tail end of the clamping piece (56), and limiting blocks (58) are arranged on two sides of the rotating rod (53).

6. The automatic film coating equipment is characterized in that a telescopic rod (59) is arranged in the telescopic sleeve (51), a bearing plate (510) is arranged at the top of the telescopic rod (59), extrusion rods (511) are arranged on two sides of the bottom of the bearing plate (510), limiting plates (512) are arranged on two sides of the top surface of the bearing plate (510), and a return spring b (513) is arranged at the bottom of the telescopic rod (59).

7. The automated coating machine according to claim 5, characterized in that the clamping assembly (5) further comprises a sliding block b (514) which is slidably arranged in the sliding groove a (46), the tail end of the sliding block b (514) is provided with a rotating block b (515) which is matched with the rotating rod (53), and the tail end of the sliding block b (514) is further provided with a return spring c (516).

8. The automatic film coating equipment according to claim 1, wherein the cutting assembly (6) comprises a base b (61) fixedly arranged on the platform (1), an air cylinder (62) arranged on the base b (61), and a cutter (63) driven by the air cylinder (62), a sliding groove c (64) is formed in the base b (61), and a sliding rod b (65) is arranged at the tail end of the cutter (63) and matched with the sliding groove c (64).

9. The automatic film wrapping equipment according to claim 1, wherein the unwinding assembly (2) comprises a base c (21) fixedly arranged on the platform (1) and an unwinding roller (22) rotatably arranged on the base c (21).

10. The automatic coating machine according to claim 4, wherein the platform (1) is provided with a rotating groove (11) matched with the rotating block (45).

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