CN211702511U - Destaticizing structure of stacking machine - Google Patents

Abstract

The utility model relates to a static electricity removing structure of a laminating machine, which relates to the technical field of laminating and aims to solve the technical problem that static electricity is easily generated between a sucker of the existing laminating machine and an adsorbed film, so that the film cannot normally fall off from the sucker; the device comprises a machine body and a frame module positioned on the machine body, wherein a sucker for adsorbing a ceramic membrane through negative pressure is connected below the frame module in a sliding manner; a raw material station and a stacking station are arranged below the frame module; the upper surface of the machine body is vertically provided with a static removing brush which is positioned between the raw material station and the stacking station; an ion fan is arranged on the side wall of the frame module close to the stacking station, and an air port of the ion fan faces the sucker; the utility model discloses have the effect that can lead and remove produced static charge between sucking disc and the film.

Description

Destaticizing structure of stacking machine

Technical Field

The utility model belongs to the technical field of the closed assembly technique and specifically relates to a range upon range of machine destatics structure is related to.

Background

The laminating machine is a device for laminating multilayer thin film materials together, and is mainly used for producing multilayer ceramic components such as chip multilayer ceramic capacitors or piezoresistors.

The prior Chinese patent with the publication number of CN104868154B discloses a laminated super capacitor group and an automatic lamination machine for battery packs, which comprises a longitudinally arranged frame module, wherein a capacitor plate raw material station, a laminating station and a diaphragm station are sequentially placed below the frame module, a guide rail is longitudinally arranged above the frame module, a pole piece module and a diaphragm module are arranged on the guide rail downwards, and vacuum chucks are respectively arranged below the pole piece module and the diaphragm module, wherein the pole piece module and the diaphragm module respectively correspond to the capacitor plate raw material station and the diaphragm station; in the working process, the pole piece on the raw material station of the capacitor pole plate is sucked to the stacking station through the vacuum chuck on the pole piece module, and the diaphragm on the diaphragm station is sucked to the stacking station through the vacuum chuck on the diaphragm module, so that the lamination operation of the pole piece and the diaphragm is realized.

The above prior art solutions have the following drawbacks: the surface of the vacuum chuck is easy to generate static electricity by friction with flowing air in the environment, and the generation of the static electricity easily causes that a pole piece or a diaphragm adsorbed on the vacuum chuck cannot be separated from the vacuum chuck and fall on a stacking station after reaching the stacking station, so that the subsequent operation is influenced, and the improvement is needed.

SUMMERY OF THE UTILITY MODEL

To the deficiency that prior art exists, the utility model aims at providing a destatic structure of range upon range of machine, it has the advantage that can lead away the static charge that produces between sucking disc and the film.

The static electricity removing structure of the laminating machine comprises a machine body and a frame module positioned on the machine body, wherein a sucker for adsorbing a ceramic membrane through negative pressure is connected below the frame module in a sliding manner; a raw material station and a stacking station are arranged below the frame module; the upper surface of the machine body is vertically provided with a static removing brush, and the static removing brush is positioned between the raw material station and the stacking station; an ion fan is arranged on the side wall of the frame module close to the stacking station, and an air port of the ion fan faces the sucker.

By adopting the technical scheme, when the film adsorbed on the sucker passes through the static removing brush, the lower surface of the film is contacted with the upper end of the brush body, and the static removing brush is grounded through the grounding wire, so that the static removing brush can conduct static charges between the sucker and the film to the ground, and primary static removal is realized; when the sucking disc removed to the closed assembly station top, the ion fan can produce a large amount of air currents that have positive negative electric charge to can with the object on the electric charge with fall, consequently make through the mode that destatics brush and ion fan cooperation were used the utility model discloses have better destatic effect, thereby avoid appearing making the film can't break away from the condition of sucking disc because of the static between film and the sucking disc.

Furthermore, a correlation type photoelectric switch is arranged on the side wall, close to the stacking station, of the frame module, the correlation type photoelectric switch is electrically connected with a controller, and the controller is electrically connected with the ion fan.

Through adopting above-mentioned technical scheme, when the sucking disc removed to the closed assembly station top, the light beam that launches between correlation formula photoelectric switch's the transmitter and the receiver received blockking of sucking disc to produce a switching signal, the controller accepts this switching signal and starts the ion fan and destatic the operation to the sucking disc, in order to improve the intermittent type work that realizes the ion fan, practice thrift the electric energy.

Further, the static electricity removing brush comprises a brush body and a metal frame fixedly arranged below the brush body; the upper surface of the machine body close to the static-removing hairbrush is provided with a metal plate, and the upper surface of the metal plate is provided with a mounting groove for the metal frame to be inserted in along the length direction of the metal plate.

Through adopting above-mentioned technical scheme, seting up of mounting groove can realize being connected with dismantling of organism destaticizing brush, prevents that its upper surface from wearing and tearing appear after the destaticizing brush uses for a long time, and the static removal effect of destaticizing brush is guaranteed to the regular change destaticizing brush of being convenient for.

Furthermore, pull rods are respectively arranged on the upper surface of the metal frame and positioned at the two ends of the metal frame.

Through adopting above-mentioned technical scheme, the setting of pull rod can be convenient for operating personnel will destatic the brush and stably insert or take out the mounting groove in, avoid operating personnel direct through the mode of holding between the fingers the soft brush body of texture insert the mounting groove with the metal frame inside and cause brush body part to buckle, cause the brush body can't contact with the film, destatic the effect of destaticizing of brush.

Further, the outer side wall of the pull rod is provided with anti-skidding lines.

Through adopting above-mentioned technical scheme, the friction between operating personnel staff and the pull rod has been increased in setting up of anti-skidding line, realizes that operating personnel carries the stability of carrying the pull rod and carries, improves the handling efficiency of destaticizing brush.

Further, the metal frame lower surface just is located its periphery and has seted up the spigot surface of being convenient for insert the metal frame fast in the mounting groove.

Through adopting above-mentioned technical scheme, the setting up of spigot surface can be convenient for operating personnel insert the mounting groove with the metal frame more fast in, improve the installation effectiveness of static brush.

Furthermore, the outer side wall of the metal frame is in threaded connection with an adjusting bolt, and the side wall of the metal plate is provided with a sliding strip hole for the inserting of the adjusting bolt along the height direction of the side wall of the metal plate.

Through adopting above-mentioned technical scheme, destatic brush is after using an end time, and wearing and tearing or partial bending phenomenon easily appear in its upper surface to lead to brush body upper surface can't contact and realize destatic effect with the film, the accessible slides adjusting bolt along the direction of height in the strip hole that slides this moment, makes the metal frame uplift that makes progress, thereby makes brush body upper surface and film contact, prolongs destatic brush's life.

Furthermore, a spring washer is sleeved on the outer side wall of the screw of the adjusting bolt, one end of the spring washer is attached to the head of the adjusting bolt, and the other side of the spring washer is abutted to the side wall of the metal plate close to the sliding strip hole.

Through adopting above-mentioned technical scheme, spring washer's setting can prevent that adjusting bolt screw thread pine from taking off in the metal frame to influence metal frame and the stable relation of being connected of mounting groove.

To sum up, the utility model discloses a beneficial technological effect does:

1. the utility model has better static electricity removing effect by using the static electricity removing brush and the ion fan in a matching way, thereby avoiding the situation that the film can not be separated from the sucker due to the static electricity between the film and the sucker;

2. when the sucking disc moves to the position above the stacking station, the light beam emitted from the emitter to the receiver of the correlation photoelectric switch is blocked by the sucking disc, so that a switching signal is generated, the controller receives the switching signal and starts the ion fan to perform static electricity removal operation on the sucking disc, intermittent operation of the ion fan is improved, and electric energy is saved.

Drawings

FIG. 1 is a schematic diagram of a destaticizing mechanism of a laminator;

FIG. 2 is an exploded view showing the connection between the electrostatic eliminating brush and the metal plate in the embodiment; .

Fig. 3 is a partially enlarged view for showing the positional relationship between the ion blower and the suction cup and between the opposed photoelectric switch and the suction cup in the embodiment.

In the figure: 1. a body; 11. a frame module; 111. a suction cup; 112. an ion blower; 113. a correlation type photoelectric switch; 1131. a transmitter; 1132. a receiver; 12. a raw material station; 13. a stacking station; 14. a metal plate; 141. mounting grooves; 142. a sliding strip hole; 15. a static electricity removing brush; 151. a brush body; 152. a metal frame; 1521. a guide surface; 1522. adjusting the bolt; 1523. a spring washer; 1524. a pull rod; 1525. anti-skid lines; 2. and a controller.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, for the utility model discloses a destatic structure of stacking machine, including organism 1, the fixed welding of organism 1 top has frame module 11, the frame upper surface just lies in the below of frame module 11 and is used for raw materials station 12 and closed assembly station 13 through bolt fixed connection, frame module 11 lower surface slides along its length direction and is connected with sucking disc 111, install on frame module 11 and be used for driving sucking disc 111 along the pneumatic slip table of 11 length direction reciprocating motion of frame module, frame module 11 upper surface is through bolt fixed mounting be used for driving the cylinder that sucking disc 111 reciprocated; the suction cup 111 is used for absorbing the film on the raw material station 12 and transferring the film to the stacking station 13, so as to realize the stacking operation of the multilayer film.

Referring to fig. 1 and 2, a metal plate 14 is fixedly welded on the upper surface of a machine body 1, the metal plate 14 is located between a raw material station 12 and a stacking station 13, an installation groove 141 is concavely formed in the upper surface of the metal plate 14 along the length direction of the metal plate, a static removing brush 15 is inserted into the installation groove 141, the static removing brush 15 comprises a brush body 151 made of a carbon fiber material and a metal frame 152 fixedly wrapped on the outer side wall of the brush body 151, and in the embodiment, the metal frame 152 and the metal plate 14 are both made of aluminum alloy; the lower surface of the metal frame 152 is provided with a guide surface 1521 which is convenient for the metal frame 152 to be inserted into the mounting groove 141, the metal frame 152 is inserted into the metal plate 14 and is attached to the inner side wall of the mounting groove 141, and the outer side wall of the metal plate 14 is grounded through a grounding wire; when the suction cup 111 sucks the film on the raw material station 12 on the lower surface thereof and transfers the film to the stacking station 13, when the suction cup 111 passes through the static removing brush 15, the upper surface of the brush body 151 contacts with the lower surface of the film, and static electricity generated between the suction cup 111 and the film is conducted to the ground through the static removing brush 15 and the ground wire, thereby achieving the static removing effect.

Referring to fig. 1 and 2, an adjusting bolt 1522 is in threaded connection with a side wall of one side of the metal frame 152, a sliding bar hole 142 for the adjusting bolt 1522 to be inserted is formed in the side wall of the metal plate 14 in a penetrating manner, the sliding bar hole 142 is communicated with the mounting groove 141, and the sliding bar hole 142 is formed along the height direction of the metal plate 14; because the brush body 151 texture is softer, after using for a period of time, wearing and tearing or the phenomenon of buckling easily appear in brush body 151 upper surface to lead to the brush body 151 upper surface can't contact with the film lower surface, can shift up metal frame 152 along mounting groove 141 direction of height this moment, make brush body 151 upper surface and film lower surface can contact, the position of the fixed metal frame 152 of rethread adjusting bolt 1522, in order to prolong the life of static brush 15.

Referring to fig. 1 and 2, a spring washer 1523 is sleeved on the outer side wall of the screw rod of the adjusting bolt 1522 along the circumferential direction thereof, the side wall of one side of the spring washer 1523 abuts against the head of the adjusting bolt 1522, and the other side of the adjusting bolt 1522 abuts against the side wall of the metal plate 14, so that the adjusting bolt 1522 is prevented from being loosened from the metal frame 152, and the stable connection relationship between the metal plate 14 and the metal frame 152 is ensured.

Referring to fig. 1 and 2, the upper surface of the metal frame 152 is vertically welded with L-shaped pull rods 1524 made of plastic at two ends thereof, the outer side walls of the pull rods 1524 can have anti-slip threads 1525, the metal frame 152 is assembled and disassembled in the installation groove 141 by lifting the pull rods 1524, and the phenomenon that the metal frame 152 is assembled and disassembled in the installation groove 141 by directly pinching the brush body 151 to cause the brush body 151 to be bent due to a large pinching force is avoided, so that the contact between the brush body 151 and a film is affected.

Referring to fig. 1 and 3, the frame module 11 is close to the lateral wall of closed assembly station 13 direction and has ion fan 112 through bolt fixed mounting, and ion fan 112 is horizontal ion fan in this embodiment, and when sucking disc 111 removed to closed assembly station 13 top, ion fan 112's wind gap was just towards the laminating department of sucking disc 111 and film, and ion fan 112 produces a large amount of air currents that have positive and negative electric charges to with the static charge neutralization that produces between sucking disc 111 and the film, with the further optimization on the basis of destatic brush 15 the utility model discloses a destatic effect.

Referring to fig. 1 and 3, a correlation photoelectric switch 113 is fixedly mounted on a side wall of the frame module 11 close to the stacking station 13 through bolts, the correlation photoelectric switch 113 includes a transmitter 1131 and a receiver 1132, the transmitter 1131 and the receiver 1132 are respectively fixedly mounted on two outer side walls of the frame module 11 through bolts, the correlation photoelectric switch 113 is electrically connected to a controller 2, in this embodiment, the controller 2 is a PLC controller, and the controller 2 is electrically connected to the ion blower 112; light that sends through transmitter 1131 directly gets into receiver 1132, when sucking disc 111 removed between transmitter 1131 and the receiver 1132, and light was blocked to sucking disc 111, and the correlation formula photoelectric switch 113 output switching signal gives controller 2 this moment, and controller 2 starts ion fan 112, through the operating time of the interior timing function control ion fan 112 that establishes of controller 2 to realize ion fan 112's discontinuous automatic start-stop, practice thrift the electric energy.

The implementation principle of the embodiment is as follows: in the process that the film on the raw material station 12 is adsorbed and transferred to the stacking station 13 by the sucker 111, the sucker 111 firstly passes through the static removing brush 15, and at the moment, the upper surface of the brush body 151 is in contact with the lower surface of the film, so that static charges generated between the sucker 111 and the film are conducted to the ground through the static removing brush 15 and a grounding wire, and preliminary static removal is realized; when the suction cup 111 moves to the position above the stacking station 13, the suction cup 111 blocks light between the emitter 1131 and the receiver 1132 of the correlation type photoelectric switch 113, at this time, the correlation type photoelectric switch 113 transmits a switching signal to the controller 2, the controller 2 starts the ion fan 112, and the ion fan 112 outputs a large amount of positive and negative charges from the air inlet to further neutralize static charges generated between the suction cup 111 and the film, thereby realizing secondary static electricity removal; the static charge generated between the suction cup 111 and the film is conducted away by the static removing brush 15 and the ion blower 112.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The static electricity removing structure of the laminating machine comprises a machine body (1) and a frame module (11) positioned on the machine body (1), wherein a sucker (111) passing through a negative pressure raw material film is connected below the frame module (11) in a sliding manner; a raw material station (12) and a stacking station (13) are arranged below the frame module (11); the method is characterized in that: the upper surface of the machine body (1) is vertically provided with a static removing brush (15), and the static removing brush (15) is positioned between the raw material station (12) and the stacking station (13); an ion fan (112) is arranged on the side wall of the frame module (11) close to the stacking station (13), and an air port of the ion fan (112) faces the sucker (111).

2. The destaticizing structure of a laminator according to claim 1, wherein: the frame module (11) is provided with correlation formula photoelectric switch (113) on being close to the lateral wall of closed assembly station (13), correlation formula photoelectric switch (113) electricity is connected with controller (2), controller (2) and ionic wind machine (112) electricity are connected.

3. The destaticizing structure of a laminator according to claim 1, wherein: the static electricity removing brush (15) comprises a brush body (151) and a metal frame (152) fixedly arranged below the brush body (151); the upper surface of the machine body (1) close to the static-removing hairbrush (15) is provided with a metal plate (14), and the upper surface of the metal plate (14) is provided with a mounting groove (141) for the metal frame (152) to be inserted in along the length direction of the metal plate.

4. A destaticizing structure of a laminator according to claim 3, wherein: and pull rods (1524) are respectively arranged on the upper surface of the metal frame (152) and at the two ends of the metal frame.

5. The destaticizing structure of a laminator according to claim 4, wherein: the outer side wall of the pull rod (1524) is provided with anti-skidding lines (1525).

6. A destaticizing structure of a laminator according to claim 3, wherein: the lower surface of the metal frame (152) is provided with a guide surface (1521) which is positioned on the periphery of the lower surface and is convenient for the metal frame (152) to be rapidly inserted into the mounting groove (141).

7. The destaticizing structure of a laminator according to claim 6, wherein: the outer side wall of the metal frame (152) is in threaded connection with an adjusting bolt (1522), and the side wall of the metal plate (14) is provided with a sliding strip hole (142) for the adjusting bolt (1522) to insert in the height direction.

8. The destaticizing structure of a laminator according to claim 7, wherein: the outer side wall of the screw of the adjusting bolt (1522) is sleeved with a spring washer (1523), one end of the spring washer (1523) is attached to the head of the adjusting bolt (1522), and the other side of the spring washer (1523) is abutted to the side wall of the metal plate (14) close to the sliding strip hole (142).

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