CN220389305U - Capacitor plate laminating device - Google Patents

Abstract

The utility model discloses a capacitor plate laminating device, which relates to the technical field of chip capacitor processing equipment and comprises a pressing plate assembly and a pressing device, wherein the pressing plate assembly comprises at least two pressing plates; the upper end of the pressing device is connected with the rail beam, and the position of the pressing device in the length direction of the rail beam is adjustable; the conveying belt is used for conveying the pressing plate assembly; the support table is also included, and the paragraph is supported on the support table; the device also comprises a locking assembly, wherein the locking assembly is arranged on the pressing plate assembly and is used for restraining the relative position of the pressing plate. This scheme has the effect to paster electric capacity pipelined production advantage.

Description

Capacitor plate laminating device

Technical Field

The utility model relates to the technical field of chip capacitor processing equipment, in particular to a capacitor plate laminating device.

Background

The chip capacitor is a commonly used electronic component at present, taking a multilayer ceramic chip capacitor (MLCC) as an example, the MLCC is formed by laminating mutually parallel ceramic materials and electrode materials, and the specific production process comprises the processes of electrode material powder manufacture, electrode material slurry manufacture, slurry coating film formation, electrode printing, green sheet lamination, layering cutting and the like. In the green sheet lamination process, it is necessary to provide a certain pressure to the laminated green sheets and hold for a certain time to obtain a bead which can be cut into a plurality of individual chips by applying a bead cutting process.

In the chinese patent application document with application number CN202222880566.0, a technical scheme is provided for obtaining the pressing force of the pressing plate by rotating the threaded rod, so as to replace the manual removal of the balancing weight to achieve the purpose of pressing the green sheet. However, when the device is specifically used, for a single green sheet lamination combination, a certain static pressure compaction time is required for completing green sheet lamination, so that the device cannot be immediately applied to next green sheet lamination combination compaction, and in the process of waiting for static pressure completion, the green sheet lamination combination and the device are of an integrated structure, and a large space is required on site to complete storage of the integrated structure.

Disclosure of Invention

The utility model provides a capacitor plate laminating device which is applied to a green plate laminating process in the production of a chip capacitor and has a beneficial effect on the production line of the chip capacitor.

In order to solve the above problems, the utility model provides a capacitor plate laminating device which solves the problems by the following technical points: the capacitor plate laminating device comprises a pressing plate assembly and a pressing device, wherein the pressing plate assembly comprises at least two pressing plates, and the pressing device is used for applying pressure to a green plate lamination clamped between the pressing plates;

the upper end of the pressing device is connected with the rail beam, the position of the pressing device in the length direction of the rail beam is adjustable, and the lower end of the pressing device is the acting end of the pressing device on the pressing plate assembly;

the conveyor belt is used for conveying the pressing plate assembly, the section of the conveyor belt for supporting the pressing plate assembly is arranged right below the pressing device, the section extends along the extending direction of the track beam, and after the position of the pressing device is adjusted in the length direction of the track beam, the pressing device can act on the pressing plate assemblies positioned at different positions of the conveyor belt;

the support table is also included, and the paragraph is supported on the support table;

the device also comprises a locking assembly, wherein the locking assembly is arranged on the pressing plate assembly and is used for restraining the relative position of the pressing plate.

In the prior art, the green sheet is: the base layer is a ceramic plate, electrode material slurry is coated on the ceramic plate and passes through the electrode printing layer structure, and the green sheet lamination is the lamination of the layer structure. In the specific application, at least one pressing plate is used as a bottom plate to support the green sheet lamination, at least one pressing plate is used as a top plate and covers the green sheet lamination, in the green sheet lamination process, a bottom support is provided for the bottom plate, downward pressure is provided for the top plate by utilizing the acting end of the pressing device, a compact lamination structure is formed under the pressure, and the lamination of the capacitor sheets is completed for a certain time, so that the pressing strip which is a sheet is obtained.

The basic conception of this scheme is to provide a electric capacity piece laminating device suitable for paster electric capacity streamlined production, specifically does: firstly, laminating a pressing plate assembly and green sheets to form a to-be-pressed die set, then, carrying the to-be-pressed die set by a conveyor belt to move to the lower side of a track beam, and arranging a plurality of to-be-pressed die sets at intervals along the conveying direction of the conveyor belt, wherein after the plurality of to-be-pressed die sets move to the position right below the track beam, the conveyor belt is stopped, then, a pressing device positioned on the track beam adjusts the position of the pressing device on the track beam according to the specific position of each to-be-pressed die set, and pressure is provided for each to-be-pressed die set one by one so as to enable the capacitor sheets to be attached. In the process, the supporting table is used for supporting the conveyor belt, and after the green sheets on each module to be pressed are pressed in place, the relative position of the pressing plate is fixed through the locking assembly, so that the following steps are realized: after the acting force of the pressing device on the pressing plate assembly is removed, the locking assembly is utilized to keep the pressing plate to the green sheet, and at the moment, the pressing device can move to the next position to execute pressing of the pressing module.

In summary, by adopting the scheme, the control of the pressing amount of the to-be-pressed die set is realized through the pressing device, the static pressure maintenance of the to-be-pressed die set is realized through the locking assembly, and the conveying belt can realize the assembly line transmission of the to-be-pressed die set through the arrangement that the conveying belt comprises the track beam and the pressing device is adjustable in position on the track beam, so that the capacitor sheet laminating operation can be carried out on a plurality of to-be-pressed die sets after the conveying belt is stopped once, and the scheme is not only suitable for the production of the chip capacitor assembly line, but also has high efficiency of the capacitor sheet laminating operation; the static pressure maintenance is independent of the pressure position of the pressing device, so that the space size of the static pressure maintenance stage applied to process product placement is effectively reduced.

In a specific embodiment, the compressing device comprises a travelling mechanism and a cylinder, wherein the travelling mechanism is arranged on the track beam, the cylinder is arranged on the travelling mechanism, and the acting end is the end part of a piston rod of the cylinder. The specific implementation mode of the pressing device is provided, the travelling mechanism is applied to position adjustment of the air cylinder in the length direction of the track beam, and the air cylinder is an actuating mechanism for pressing the to-be-pressed die set. According to the scheme, when the air cylinder is selected as the actuating mechanism, the pressure of the pressing device to the module to be pressed can be controlled by controlling the air pressure in the air cylinder.

In a specific embodiment, the air supply device further comprises an air passage for supplying air to the air cylinder, and a pressure adjusting device is arranged on the air passage and used for adjusting the air supply pressure of the air passage to the air cylinder. The scheme provides a more perfect technical scheme on the basis that the compressing device comprises a cylinder: in the prior art, the pressure of a gas source connected with a cylinder is generally larger than the pressure of compressed gas in the cylinder (the working pressure of the cylinder), and the pressure of the gas in the cylinder is regulated in real time by using the pressure regulating device under the condition that the external gas source pressure is certain or only fluctuates in a certain range by using the pressure regulating device so as to meet different requirements of different pressing die groups on the pressure.

In a specific embodiment, the conveyor belt is formed by connecting multiple rigid sections and multiple flexible sections in series, wherein the rigid sections are arranged at intervals in the length direction of the conveyor belt, and two adjacent rigid sections are connected in series through the flexible sections; on both rigid segments, the connection location of the flexible segment on any rigid segment is located on the side of the rigid segment, and the side is the side of the rigid segment that is adjacent to the other rigid segment. In the above scheme, although the supporting table is utilized to provide support for the transmission belt, the widely adopted flexible transmission belt is easy to generate unrecoverable deformation under the clamping of the pressing plate component and the supporting table, so that the transmission belt is influenced to horizontally support the pressing plate component, and when the pressing device finally acts on the pressing plate component, the pressure is unevenly distributed at different positions of the green sheet, and the transmission belt comprising the rigid section and the flexible section is arranged under the background. In particular use, the platen assembly is supported on the rigid segments with the bottom side of the rigid segments in contact with the support table to maintain the flatness of the belt surface with the superior resistance to deformation of the rigid segments, as will be readily appreciated, the flexible segments are provided to provide the belt with some flexibility to maintain the belt in endless rotation. In use, the rigid section is made of metal strips extending along the width direction of the conveyor belt, lubricating oil is arranged on the top surface of the supporting table, the bottom side of the rigid section is subjected to wear-resistant heat treatment, and the flexible section is made of plastic or fiber woven cloth or the like.

In a specific embodiment, grooves are formed in the two rigid sections on the side surfaces of any rigid section adjacent to the other rigid section, at least one end of each groove intersects with the surface of the rigid section, and the maximum groove width position of each groove is located on the inner side of each groove; the connecting rods are arranged at the two ends of the flexible section, the connecting rod at one end of the flexible section is in interference connection with the groove at the side face of one rigid section, and the connecting rod at the other end of the flexible section is in interference connection with the groove at the side face of the other rigid section. The scheme provides a specific rigid section and flexible section connected mode, and specifically rigid section and flexible section are connected and are realized in the recess through connecting rod intensity expansion joint. The maximum groove width position limiting of the groove aims at realizing the anti-drop of the connecting rod relative to the rigid section, the interference connection is arranged to avoid unnecessary abrasion caused by the sliding of the connecting rod in the groove, and at least one end of the groove is intersected with the surface of the rigid section for realizing: the connecting rod is embedded into the groove by the end of the groove. In use, the grooves are arranged such that the cross-sectional profile perpendicular to the axis is a non-closed circle, the circumference of the non-closed circle is greater than one half of the full circumference, and the opening part of the circle is the notch part of the groove.

In a specific embodiment, grooves are formed in the two rigid sections on the side surfaces of any rigid section adjacent to the other rigid section, at least one end of each groove intersects with the surface of the rigid section, and the maximum groove width position of each groove is located on the inner side of each groove; the connecting rods are arranged at two ends of the flexible section, the elastic pads are embedded on the groove surfaces of the elastic pads and/or the grooves wrapped on the outer sides of the connecting rods, the connecting rods at one end of the flexible section are embedded in the grooves on one side surface of the rigid section, the connecting rods at the other end of the flexible section are embedded in the grooves on the other side surface of the rigid section, and after the connection is completed, the elastic pads are compressed and elastically deformed. It is easy to understand that this solution is a parallel solution to the above one, differing only in: the connecting rod is prevented from sliding in the groove by the elastic pad.

In a specific embodiment, the locking component is a steel ribbon, the pressing plate comprises a bottom side pressing plate and a top side pressing plate, and a containing groove capable of being embedded into the steel ribbon is formed in the bottom surface of the bottom side pressing plate and/or the top surface of the top side pressing plate. The present solution provides a specific implementation form of the locking assembly, and it should be noted that: through setting up to including the holding tank, can realize that the steel ribbon is anti-skidding for the clamp plate, increase the reliability that the locking subassembly retrained clamp plate relative position.

In a specific embodiment, the bottom surface of the bottom side pressing plate and the top surface of the top side pressing plate are provided with containing grooves, the containing grooves are through grooves, and the groove depth of the containing grooves is larger than or equal to the thickness of the steel ribbon. This scheme is more further technical scheme of above scheme, sets up to the holding tank and is logical groove to the groove depth of holding tank is greater than the thickness of steel ribbon, and like this, the interface position of steel ribbon is configured to the position that is located outside the holding tank, and steel ribbon imbeds in the holding tank with the mode of sinking, under this kind of circumstances, even install the steel ribbon of being tightened up preliminarily in advance, steel ribbon also can not influence the flat support clamp plate subassembly of rigid section, can not influence closing device and level and act on the clamp plate subassembly. When the die set is pressed down in place, the form of the die set to be pressed can be maintained by locking the steel ribbon before the acting force of the pressing device is released.

In a specific embodiment, the locking assembly comprises a plurality of locking bolts, the pressing plate comprises a bottom side pressing plate and a top side pressing plate, the lower ends of the locking bolts are connected with the bottom side pressing plate, bolt holes for the locking bolts to pass through are formed in the top side pressing plate, and the inner diameters of the bolt holes are larger than the outer diameters of the locking bolts; the clamp plate is the rectangular plate, and each corner of clamp plate all disposes locking bolt, and each locking bolt all disposes the lock nut of connecting in locking bolt upper end. The scheme provides another implementation mode of the locking assembly, which specifically comprises the following steps: the pressing plate serving as the top plate moves downwards under the action of the pressing device, and at the moment, the top plate moves along the length direction of the locking bolt, after the top plate moves downwards to a proper position, the locking nut is rotated, and the pressure provided by the locking nut for the upper end face of the top plate maintains the position of the top plate in the length direction of the locking bolt so as to maintain the form of the to-be-pressed die set.

In one embodiment, the method further comprises an electric torque wrench for completing the threaded connection of the locking nut on the locking bolt, wherein the number of the electric torque wrenches is greater than or equal to 2. The setting aim of this scheme is: the locking nuts of each corner can be synchronously operated on one opposite corner of the pressing plate assembly so as to maintain the uniformity of pressure distribution of each position of the green sheet.

The utility model has the following beneficial effects:

the scheme is applied to a green sheet lamination process, in the specific scheme, the pressing quantity control of the to-be-pressed die set is realized through the pressing device, the static pressure maintenance of the to-be-pressed die set is realized through the locking component, and the conveying belt can realize the assembly line transmission of the to-be-pressed die set by arranging the track beam and the pressing device on the track beam in an adjustable position, so that the conveying belt can carry out the capacitor sheet laminating operation on a plurality of to-be-pressed die sets after single stagnation, and the scheme is not only suitable for the assembly line production of the chip capacitor, but also has high efficiency of the capacitor sheet laminating and laminating operation; the static pressure maintenance is independent of the pressure position of the pressing device, so that the space size of the static pressure maintenance stage applied to process product placement is effectively reduced.

Drawings

Fig. 1 is a schematic structural view of an embodiment of a capacitive sheet laminating device according to the present disclosure, where the schematic structural view includes only a portion of a conveyor belt, and the schematic structural view is rotated counterclockwise by 90 ° relative to an installation state.

The reference numerals in the drawings are respectively: 1. the device comprises a track beam, 2, a pressing device, 3, a conveyor belt, 4, a pressing plate assembly, 5, a locking assembly, 6, a supporting table, 7, a rigid section, 8, a flexible section, 9 and a green sheet lamination.

Detailed Description

The present utility model will be described in further detail with reference to the following examples, but the present utility model is not limited to the following examples:

example 1:

from fig. 1, a capacitor plate laminating device comprises a pressing plate assembly 4 and a pressing device 2, wherein the pressing plate assembly 4 comprises at least two pressing plates, and the pressing device 2 is used for applying pressure to a green plate laminated layer 9 clamped between the pressing plates;

the device comprises a pressing device 2, a pressing plate assembly 4 and a strip-shaped track beam 1, wherein the upper end of the pressing device 2 is connected with the track beam 1, the position of the pressing device 2 in the length direction of the track beam 1 is adjustable, and the lower end of the pressing device 2 is the acting end of the pressing device 2 on the pressing plate assembly 4;

the device comprises a conveyor belt (3), wherein the conveyor belt (3) is used for conveying a pressing plate assembly (4), a section of the conveyor belt (3) for supporting the pressing plate assembly (4) is arranged right below the pressing device (2), the section extends along the extending direction of the track beam (1), and after the position of the pressing device (2) is adjusted along the length direction of the track beam (1), the pressing device (2) can act on the pressing plate assembly (4) positioned at different positions of the conveyor belt (3);

the device also comprises a supporting table 6, wherein the paragraph is supported on the supporting table 6;

the device further comprises a locking assembly 5, wherein the locking assembly 5 is arranged on the pressing plate assembly 4, and the locking assembly 5 is used for restraining the relative position of the pressing plate.

In the prior art, the green sheet is: the base layer is a ceramic plate, electrode material slurry is coated on the ceramic plate and passes through the electrode printing layer structure, and the green sheet lamination 9 is the lamination layer structure lamination. In the specific application, at least one pressing plate is used as a bottom plate to support the green sheet lamination 9, at least one pressing plate is used as a top plate and covers the green sheet lamination 9, in the green sheet lamination process, bottom support is provided for the bottom plate, downward pressure is provided for the top plate by utilizing the acting end of the pressing device 2, a compact lamination structure is formed under the pressure, and the lamination of the capacitor sheets is completed for a certain time, so that the pressing strip which is a sheet is obtained.

The basic conception of this scheme is to provide a electric capacity piece laminating device suitable for paster electric capacity streamlined production, specifically does: the pressing plate assembly 4 and the green sheet are laminated to form a to-be-pressed module, then the to-be-pressed module is carried by the conveyor belt 3 to move to the lower side of the track beam 1, and a plurality of to-be-pressed modules are arranged at intervals along the transfer direction of the conveyor belt 3, after the plurality of to-be-pressed modules move to the position right below the track beam 1, the conveyor belt 3 is stopped, then the pressing device 2 on the track beam 1 adjusts the position of the pressing device 2 on the track beam 1 according to the specific position of each to-be-pressed module, and pressure is provided for each to-be-pressed module one by one so that the capacitor sheets are attached. In the process, the supporting table 6 is used for supporting the conveyor belt 3, and after the green sheets on each module to be pressed are pressed in place, the relative position of the pressing plate is fixed through the locking assembly 5, so that the following steps are realized: after the acting force of the pressing device 2 on the pressing plate assembly 4 is removed, the locking assembly 5 is utilized to keep the pressing plate to press the green sheet, and at this time, the pressing device 2 can be moved to the next position to execute pressing of the pressing module.

In summary, by adopting the scheme, the control of the pressing amount of the to-be-pressed die set is realized through the pressing device 2, the static pressure maintenance of the to-be-pressed die set is realized through the locking component 5, and the conveying belt 3 can realize the assembly line transmission of the to-be-pressed die set, and the single stop delay of the conveying belt 3 can carry out the capacitor sheet laminating operation on a plurality of to-be-pressed die sets by arranging the track beam 1 and the pressing device 2 to be adjustable in position on the track beam 1, so that the scheme is not only suitable for the production of a patch capacitor assembly line, but also has high capacitor sheet laminating and laminating operation efficiency; the static pressure maintenance is independent of the pressure position of the pressing device 2, so that the space size of the static pressure maintenance stage applied to process product placement is effectively reduced.

As a more detailed technical scheme of the embodiment, the pressing device 2 comprises a travelling mechanism and a cylinder, the travelling mechanism is mounted on the track beam 1, the cylinder is mounted on the travelling mechanism, and the acting end is the end part of a piston rod of the cylinder. The specific implementation mode of the pressing device 2 is provided, the travelling mechanism is applied to position adjustment of the air cylinder in the length direction of the track beam 1, and the air cylinder is an actuating mechanism for pressing a to-be-pressed die set. According to the scheme, when the air cylinder is selected as the actuating mechanism, the pressure of the pressing device 2 to the module to be pressed can be controlled by controlling the air pressure in the air cylinder.

As the more detailed technical scheme of this embodiment, still include the gas circuit that is used for the cylinder supplies air, be provided with pressure adjusting device on the gas circuit, pressure adjusting device is used for adjusting the gas circuit is to the air feed pressure of cylinder. The scheme provides a more perfect technical scheme on the basis that the compressing device 2 comprises a cylinder: in the prior art, the pressure of a gas source connected with a cylinder is generally larger than the pressure of compressed gas in the cylinder (the working pressure of the cylinder), and the pressure of the gas in the cylinder is regulated in real time by using the pressure regulating device under the condition that the external gas source pressure is certain or only fluctuates in a certain range by using the pressure regulating device so as to meet different requirements of different pressing die groups on the pressure.

As a more detailed technical scheme of the embodiment, the conveyor belt 3 is formed by connecting multiple rigid sections 7 and multiple flexible sections 8 in series, wherein the rigid sections 7 are arranged at intervals in the length direction of the conveyor belt 3, and two adjacent rigid sections 7 are connected in series through the flexible sections 8; on both rigid segments 7, the connection of the flexible segment 8 on any rigid segment 7 is located on the side of the rigid segment 7, and this side is the side of the rigid segment 7 that is close to the other rigid segment 7. In the above scheme, although the supporting table 6 is utilized to provide support for the driving belt, the widely adopted flexible driving belt 3 is easy to generate unrecoverable deformation under the clamping of the pressing plate assembly 4 and the supporting table 6, so that the driving belt 3 is influenced to horizontally support the pressing plate assembly 4, and when the pressing device 2 finally acts on the pressing plate assembly 4, the pressure is unevenly distributed at different positions of the green sheet, and the driving belt 3 comprising the rigid section 7 and the flexible section 8 is arranged under the background. In particular use, the platen assembly 4 is supported on the rigid section 7 and the bottom side of the rigid section 7 is in contact with the support table 6 to maintain the flatness of the surface of the conveyor belt 3 with the superior deformation resistance of the rigid section 7, as will be readily appreciated, the flexible section 8 being provided so that the conveyor belt 3 still has some flexibility to maintain the endless rotation of the conveyor belt 3. In operation, the rigid section 7 is made of metal strips extending in the width direction of the conveyor belt 3, lubricating oil is arranged on the top surface of the supporting table 6, the bottom side of the rigid section 7 is subjected to wear-resistant heat treatment, and the flexible section 8 is made of plastic or fiber woven cloth or the like.

As a more detailed technical scheme of the embodiment, grooves are formed in the two rigid sections 7 on the side surfaces of any rigid section 7 adjacent to the other rigid section 7, at least one end of each groove intersects with the surface of the rigid section 7, and the maximum groove width position of each groove is located on the inner side of each groove; the connecting rods are arranged at the two ends of the flexible section 8, the connecting rod at one end of the flexible section 8 is in interference connection with the groove at the side face of one rigid section 7, and the connecting rod at the other end of the flexible section 8 is in interference connection with the groove at the side face of the other rigid section 7. The scheme provides a specific rigid section 7 and flexible section 8 connected mode, and specifically rigid section 7 and flexible section 8 are connected and are realized in the recess through connecting rod intensity expansion joint. The maximum groove width position limitation of the groove aims at realizing the anti-drop of the connecting rod relative to the rigid section 7, the interference connection is arranged to avoid unnecessary abrasion caused by the sliding of the connecting rod in the groove, and at least one end of the groove is intersected with the surface of the rigid section 7 for realizing: the connecting rod is embedded into the groove by the end of the groove. In use, the grooves are arranged such that the cross-sectional profile perpendicular to the axis is a non-closed circle, the circumference of the non-closed circle is greater than one half of the full circumference, and the opening part of the circle is the notch part of the groove.

As a more detailed technical scheme of the embodiment, grooves are formed in the two rigid sections 7 on the side surfaces of any rigid section 7 adjacent to the other rigid section 7, at least one end of each groove intersects with the surface of the rigid section 7, and the maximum groove width position of each groove is located on the inner side of each groove; the two ends of the flexible section 8 are provided with connecting rods, the outer side of each connecting rod is wrapped with an elastic pad and/or the groove surface of each groove is embedded with an elastic pad, the connecting rod at one end of each flexible section 8 is embedded into the groove at the side surface of one rigid section 7, the connecting rod at the other end of each flexible section 8 is embedded into the groove at the side surface of the other rigid section 7, and after the connection is completed, the elastic pad is compressed and elastically deformed. It is easy to understand that this solution is a parallel solution to the above one, differing only in: the connecting rod is prevented from sliding in the groove by the elastic pad.

As a more detailed technical scheme of this embodiment, the locking component 5 is a steel ribbon, the pressing plate includes a bottom side pressing plate and a top side pressing plate, and a receiving groove capable of being embedded into the steel ribbon is provided on the bottom surface of the bottom side pressing plate and/or the top surface of the top side pressing plate. The present solution provides a specific implementation form of the locking assembly 5, and it should be noted that: by including the receiving slot, the steel tie may be made slip-resistant relative to the pressure plate, increasing the reliability of the locking assembly 5 in restraining the relative position of the pressure plate.

As a more detailed technical scheme of the embodiment, the bottom surface of the bottom side pressing plate and the top surface of the top side pressing plate are provided with containing grooves, the containing grooves are through grooves, and the groove depth of the containing grooves is larger than or equal to the thickness of the steel ribbon. This scheme is more further technical scheme of above scheme, sets up to the holding tank and is logical groove to the groove depth of holding tank is greater than the thickness of steel ribbon, and like this, the interface position of steel ribbon is configured to the position that is located outside the holding tank, and steel ribbon imbeds in the holding tank with the mode of sinking, under this kind of circumstances, even install the steel ribbon of being tightened up preliminarily in advance, steel ribbon also can not influence rigid section 7 and level and support clamp plate subassembly 4, can not influence closing device 2 and level and act on clamp plate subassembly 4. When the die set to be pressed down in place in specific use, the form of the die set to be pressed can be maintained by locking the steel ribbon before the acting force of the pressing device 2 is released.

As a more detailed technical scheme of the embodiment, the locking assembly 5 includes a plurality of locking bolts, the pressing plate includes a bottom side pressing plate and a top side pressing plate, the lower end of the locking bolt is connected with the bottom side pressing plate, a bolt hole for the locking bolt to pass through is provided on the top side pressing plate, and the inner diameter of the bolt hole is larger than the outer diameter of the locking bolt; the clamp plate is the rectangular plate, and each corner of clamp plate all disposes locking bolt, and each locking bolt all disposes the lock nut of connecting in locking bolt upper end. The present solution provides another implementation manner of the locking assembly 5, specifically: the pressing plate serving as the top plate moves downwards under the action of the pressing device 2, and at the moment, the top plate moves along the length direction of the locking bolt, after the top plate moves downwards to a proper position, the locking nut is rotated, and the pressure provided by the locking nut for the upper end face of the top plate maintains the position of the top plate along the length direction of the locking bolt so as to maintain the form of the to-be-pressed die set.

As a more detailed technical scheme of the embodiment, the locking device further comprises electric torque wrenches for completing the threaded connection of the locking nuts on the locking bolts, wherein the number of the electric torque wrenches is greater than or equal to 2. The setting aim of this scheme is: the locking nuts of each corner can be synchronously operated on one opposite corner of the pressing plate assembly 4 so as to maintain the uniformity of pressure distribution of each position of the green sheet.

The foregoing is a further detailed description of the utility model in connection with specific preferred embodiments, and it is not intended that the utility model be limited to these descriptions. Other embodiments of the utility model, which are apparent to those skilled in the art to which the utility model pertains without departing from its technical scope, shall be covered by the protection scope of the utility model.

Claims (10)

1. A capacitor plate laminating device, comprising a pressing plate assembly (4) and a pressing device (2), wherein the pressing plate assembly (4) comprises at least two pressing plates, and the pressing device (2) is used for applying pressure to a green plate lamination (9) clamped between the pressing plates;

the device is characterized by further comprising a strip-shaped track beam (1), wherein the upper end of the pressing device (2) is connected with the track beam (1), the position of the pressing device (2) in the length direction of the track beam (1) is adjustable, and the lower end of the pressing device (2) is the acting end of the pressing device (2) on the pressing plate assembly (4);

the device comprises a conveyor belt (3), wherein the conveyor belt (3) is used for conveying a pressing plate assembly (4), a section of the conveyor belt (3) for supporting the pressing plate assembly (4) is arranged right below a pressing device (2), the section extends along the extending direction of a track beam (1), and after the position of the pressing device (2) is adjusted in the length direction of the track beam (1), the pressing device (2) can act on the pressing plate assemblies (4) positioned at different positions of the conveyor belt (3);

the device also comprises a supporting table (6), wherein the paragraph is supported on the supporting table (6);

the device further comprises a locking assembly (5), wherein the locking assembly (5) is arranged on the pressing plate assembly (4), and the locking assembly (5) is used for restraining the relative position of the pressing plate.

2. The capacitor plate laminating device according to claim 1, wherein the pressing device (2) comprises a travelling mechanism and a cylinder, the travelling mechanism is mounted on the track beam (1), the cylinder is mounted on the travelling mechanism, and the acting end is the end of a piston rod of the cylinder.

3. The capacitor plate attaching device according to claim 2, further comprising a gas path for supplying gas to the cylinder, wherein a pressure adjusting device is provided on the gas path, and the pressure adjusting device is used for adjusting the gas supply pressure of the gas path to the cylinder.

4. The capacitor plate laminating device according to claim 1, wherein the conveyor belt (3) is formed by connecting a plurality of rigid sections (7) and a plurality of flexible sections (8) in series, the rigid sections (7) are arranged at intervals in the length direction of the conveyor belt (3), and two adjacent rigid sections (7) are connected in series through the flexible sections (8); on the two rigid segments (7), the connection points of the flexible segments (8) on any rigid segment (7) are located on the side of the rigid segment (7), and the side is the side of the rigid segment (7) close to the other rigid segment (7).

5. A capacitive sheet bonding apparatus according to claim 4, characterized in that grooves are provided on both rigid segments (7), on the sides of any rigid segment (7) adjacent to the other rigid segment (7), said grooves intersecting the surface of the rigid segment (7) at least at one end, the maximum groove width of said grooves being located inside the grooves; connecting rods are arranged at two ends of the flexible section (8), one connecting rod at one end of the flexible section (8) is in interference connection with a groove at the side face of one rigid section (7), and the connecting rod at the other end of the flexible section (8) is in interference connection with a groove at the side face of the other rigid section (7).

6. A capacitive sheet bonding apparatus according to claim 4, characterized in that grooves are provided on both rigid segments (7), on the sides of any rigid segment (7) adjacent to the other rigid segment (7), said grooves intersecting the surface of the rigid segment (7) at least at one end, the maximum groove width of said grooves being located inside the grooves; the two ends of the flexible section (8) are both provided with connecting rods, the outside of the connecting rods is wrapped with elastic pads and/or the groove surfaces of the grooves are embedded with the elastic pads, the connecting rods at one end of the flexible section (8) are embedded into the grooves at the side surfaces of one rigid section (7), the connecting rods at the other end of the flexible section (8) are embedded into the grooves at the side surfaces of the other rigid section (7), and after the connection is completed, the elastic pads are compressed and elastically deformed.

7. A capacitive plate fitting device according to claim 1, characterized in that the locking assembly (5) is a steel tie, the pressing plate comprises a bottom side pressing plate and a top side pressing plate, and the bottom surface of the bottom side pressing plate and/or the top surface of the top side pressing plate is provided with a containing groove capable of being embedded into the steel tie.

8. The device of claim 7, wherein the bottom surface of the bottom pressing plate and the top surface of the top pressing plate are provided with receiving grooves, the receiving grooves are through grooves, and the groove depth of the receiving grooves is greater than or equal to the thickness of the steel ribbon.

9. The capacitor plate laminating device according to claim 1, wherein the locking assembly (5) comprises a plurality of locking bolts, the pressing plate comprises a bottom side pressing plate and a top side pressing plate, the lower ends of the locking bolts are connected with the bottom side pressing plate, bolt holes for the locking bolts to pass through are formed in the top side pressing plate, and the inner diameters of the bolt holes are larger than the outer diameters of the locking bolts; the clamp plate is the rectangular plate, and each corner of clamp plate all disposes locking bolt, and each locking bolt all disposes the lock nut of connecting in locking bolt upper end.

10. The capacitive plate bonding device according to claim 9, further comprising an electric torque wrench for completing the threaded connection of the lock nut to the lock bolt, wherein the number of electric torque wrenches is greater than or equal to 2.