CN221016940U - Gluing mechanism for upper lead core slot plate - Google Patents

Abstract

The utility model relates to a gluing mechanism for an upper lead core slot plate, which is characterized in that: the glue spreading mechanism of the upper lead core groove plate comprises a machine body and a glue spreading mechanism arranged on the machine body, wherein the glue spreading mechanism comprises a groove type glue storage cavity and a glue spreading shaft which is arranged in the groove type glue storage cavity and is axially perpendicular to the advancing direction of the upper lead core groove plate, a plurality of groups of detachably connected brush assemblies are uniformly distributed on the glue spreading shaft along the circumferential direction, bristles are arranged on the brush assemblies, the length direction of the brush assemblies and the arranged bristles faces to the axial direction of the glue spreading shaft, two sides of a notch part of the groove type glue storage cavity are provided with glue overflow prevention pressing plates, and the distance between the two sides of the glue overflow prevention pressing plates is smaller than the width of the notch part of the groove type glue storage cavity and the length of the bristles which are axially arranged along the glue spreading shaft. The glue thickness can be controlled by adjusting the bristle height of the second brush assembly.

Description

Gluing mechanism for upper lead core slot plate

Technical field:

The utility model relates to a gluing mechanism for an upper lead core slot plate.

The background technology is as follows:

The pencil is a special pencil for writing and drawing sketch, which has been four hundred years old, and the pencil is usually manufactured by the following steps: 1. and (3) gluing, covering and fixing the upper and lower groove plates, 4, cutting and fixing the upper and lower groove plates to form a bar, and 5, rounding the bar to form a pencil.

The applicant applied for the application number 2023209087575 of the "upper lead core trough plate gluing mechanism" in month 4 of 2023, the glue coating mechanism needs to fully coat the trough plate with glue, and glue is applied to the trough plate by a brush dipped with glue, so that on one hand, glue overflow can be avoided or less when the height of the adjusting channel is equal to the thickness of the trough plate, but when the upper lead core trough plate with larger bending is bumped, the upper lead core trough plate is blocked by the cover plate and cannot pass through, thus equipment shutdown is caused, in order to avoid equipment shutdown from time to time, the cover plate is usually adjusted higher, so that the height of the channel is larger to adapt to the upper lead core trough plate with larger bending, but the increase of the height of the channel can cause glue overflow from a gap (a gap between the cover plate and a brush mounting notch), thereby causing serious glue overflow on the equipment, causing glue waste and increase of manufacturing cost, solving the problem that when the glue (the height of the channel is reduced), the equipment is not influenced, the equipment is shut down when the equipment is not always caused, and the equipment is shut down is avoided, and the channel overflow is often caused.

The invention comprises the following steps:

in view of the above problems, the utility model provides a gluing mechanism for an upper lead core trough plate, which is reasonable in design, is beneficial to reducing glue overflow and can be suitable for gluing an upper lead core trough plate with larger warping.

The utility model is realized by adopting the following scheme,

The utility model relates to a gluing mechanism for an upper lead core slot plate, which is characterized in that: including organism and the rubberizing mechanism of establishing on the organism, rubberizing mechanism includes that the cell type stores up gluey chamber and establishes at the cell type stores up gluey intracavity and axial and last lead core frid advancing direction vertically rubberizing axle, and the equipartition has a plurality of brush subassemblies of group's detachable connection along circumferencial direction on the rubberizing axle, is equipped with the brush hair on the brush subassembly, and the brush subassembly with arrange the length direction of brush hair towards the axial of rubberizing axle, the notch portion of cell type stores up gluey chamber and be located the both sides that go up lead core frid advancing the orbit and be equipped with anti-overflow clamp plate, and anti-overflow clamp plate installs in the brush hair top and can be when the brush hair rotates anti-overflow clamp plate with the glue of brush hair both sides portion strike off, and the interval of both sides anti-overflow clamp plate is less than the width of cell type store up gluey chamber mouth and also is less than the length that the brush hair was arranged along the rubberizing axle axial, the top of anti-overflow clamp plate all is equipped with the side shield that is used for spacing guide to lead core frid both sides limit, and the interval that is greater than two anti-overflow clamp plate's the lead core frid, and the top is equipped with the anti-overflow clamp plate that is used for coating the lead core of the upper side frid and the upper cover plate that the anti-overflow clamp plate is formed.

Preferably, the glue reflux groove is arranged on the discharging side of the groove of the glue storage cavity, the glue reflux groove is lower than the glue overflow prevention pressing plate, a second brush assembly detachably connected with the machine body and second bristles arranged on the second brush assembly are adjacently arranged on the side of the glue reflux groove, the second brush assembly faces the axial direction of the glue rolling shaft in the length direction, and redundant glue on the lower surface of the upper lead core groove plate is scraped by the second bristles.

Preferably, the anti-overflow glue pressing plate and the side baffle are provided with strip-shaped slotted holes, bolts which are connected and fastened with the machine body are connected to the strip-shaped slotted holes in a penetrating mode, the bolts also penetrate through the bolt holes in the coating cover plate, the bolts are sleeved with compression springs, and two ends of each compression spring are propped between the head of each bolt and the upper surface of the coating cover plate.

Preferably, a through hole for penetrating the glue rolling shaft is formed in the wall body of the groove type glue storage cavity, and a sealing ring is arranged between the through hole and the glue rolling shaft.

Preferably, the brush assembly and the second brush assembly are both rectangular blocks and bristles fixed on the surfaces of the rectangular blocks and arranged in a rectangular shape.

Preferably, a liquid level sensor is arranged in the groove type glue storage cavity, and a glue inlet and a glue discharging opening are arranged on the groove type glue storage cavity.

Preferably, the above-mentioned organism upper loop rotation has first chain, equidistant fixed a plurality of push rod that is equipped with in the length direction of first chain, be equipped with the pay-off apron that is located first chain top and be located the pay-off apron on and the U-shaped guide slot of vertical setting on the organism, the U-shaped guide slot is used for the spacing multi-disc superimposed last plumbous core frid of direction, be equipped with on the pay-off apron in order to do benefit to the channel that the push rod stretches out, the push rod promotes on the piece plumbous core frid in the U-shaped guide slot and moves along first chain advancing direction to carry last plumbous core frid to the slot part in groove type gum storage chamber.

Preferably, the push rod is T-shaped, and the lower part of the T-shaped push rod is fixed on the chain link; the channel is arranged along the length direction of the first chain, the width of the channel is larger than that of the T-shaped push rod, a through groove is formed in the feeding cover plate and positioned at the end part of the channel, and the through groove is used for the upper part of the T-shaped push rod to pass through; a guide limiting plate piece is vertically arranged on the feeding cover plate and opposite to the notch part of the U-shaped guide groove, and the upper lead core groove plate is limited by the U-shaped guide groove and the guide limiting plate piece to realize limiting in the front-back left-right direction; the feeding cover plate is hinged with a supporting plate in a rotating mode, the supporting plate is provided with a horizontal station and an inclined station, the supporting plate is arranged on one side far away from the channel in a flat mode when the horizontal station is used for avoiding the push rod to push the upper lead core groove plate to move, and the supporting plate is turned over to be inclined when the inclined station is used for supporting all the upper lead core groove plates located in the U-shaped guide groove.

Preferably, the rotation direction of the first chain is opposite to the rotation direction of the glue rolling shaft, and the first chain and the glue rolling shaft are driven to rotate by the same power shaft and power source; specifically, the both sides of first chain have two first sprockets that drive first chain pivoted, and the sprocket shaft tip of one of them first sprocket is equipped with first gear, first gear and second gear engagement, second gear coaxial coupling have the second pivot and establish the second sprocket at the other end of second pivot, the end connection of rubberizing axle has the third sprocket, winds between second sprocket and the third sprocket to be connected with the chain, the sprocket shaft is as the input shaft of power supply.

The utility model relates to a working method of an upper lead core groove plate gluing mechanism, wherein the upper lead core groove plate gluing mechanism comprises a machine body and a glue rolling mechanism arranged on the machine body, the glue rolling mechanism comprises a groove type glue storage cavity and glue rolling shafts which are arranged in the groove type glue storage cavity and are axially perpendicular to the advancing direction of the upper lead core groove plate, a plurality of groups of brush assemblies which are detachably connected are uniformly distributed on the glue rolling shafts along the circumferential direction, brush bristles are arranged on the brush assemblies, the length direction of the brush assemblies and the arranged brush bristles face the axial direction of the glue rolling shafts, anti-overflow pressing plates are arranged on two sides of a notch part of the groove type glue storage cavity, the distance between the two anti-overflow pressing plates is smaller than the width of a notch part of the groove type glue storage cavity and the distance between the brush bristles along the axial direction of the glue rolling shafts, side baffle plates for limiting and guiding the two sides of the upper lead core groove plate are arranged above the anti-overflow pressing plates, and the distance between the two side baffle plates is equal to the width of the upper lead core groove plate and is larger than the distance between the two anti-overflow pressing plates; during operation, the upper lead core groove plate is conveyed to the notch position of the groove type glue storage cavity by the conveying mechanism, under the action of the rotating glue rolling shaft, the brush assembly and the brush hair, the brush hair dips in glue in the groove type glue storage cavity and is uniformly coated on the groove plate, side baffles used for limiting and guiding the two sides of the upper lead core groove plate are arranged above the glue overflow prevention pressing plates, the distance between the two side baffles is equal to the width of the upper lead core groove plate and is larger than the distance between the two glue overflow prevention pressing plates, so that the glue overflow prevention pressing plates can scrape the glue on the two sides of the brush hair when the brush hair rotates, and the glue is prevented from overflowing from gaps of the two side baffles; be equipped with the glue reflux groove on the ejection of compact side of groove type glue storage cavity notch, the glue reflux groove is less than anti-overflow glue clamp plate, and the side in glue reflux groove is adjoined and is equipped with the second brush subassembly of being connected with the organism detachable and establishes the second brush hair on the second brush subassembly, can control glue thickness through adjusting the brush hair height of second brush subassembly.

According to the working mechanism of the upper lead core groove plate gluing mechanism, when the upper lead core groove plate moves to the notch position of the groove type glue storage cavity, under the action of the rotating glue rolling shaft, the brush component and the brush hair, the brush hair dips in the groove type glue storage cavity and is uniformly coated on the lower surface of the upper lead core groove plate, and due to the arrangement of the glue overflow prevention pressing plate, the glue on the two sides of the brush hair is blocked by the glue overflow prevention pressing plate, the glue on the two sides of the brush hair can be scraped, the glue is prevented from overflowing from the gaps of the baffle plates on the two sides, and in this case, even if the coating cover plate is adjusted to be higher (namely the height of the channel is increased) so as to adapt to the upper lead core groove plate with larger bending, the glue overflow condition can not be caused.

Therefore, the utility model is beneficial to reducing or avoiding glue overflow and simultaneously can be suitable for gluing the upper lead core groove plate with larger bending through ingenious structural design.

Description of the drawings:

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

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of the partial isometric construction of FIG. 1;

FIG. 3 is a schematic view of an elevation cross-sectional configuration of the center line of the over-roll glue shaft of FIG. 2 (showing the positional relationship of the glue overflow prevention pressure plate, side baffle plate and coating cover plate);

FIG. 4 is an elevational cross-sectional view perpendicular to the axis of the glue roll axis;

FIG. 5 is a schematic perspective view of the coated cover plate, spill-resistant pressure plate and side dams of FIG. 2 removed;

FIG. 6 is a schematic perspective view of a first chain and push rod;

FIG. 7 is a schematic perspective view of a pushrod and coated cover plate;

fig. 8 is a schematic perspective view of the upper lead-core fluted plate.

The specific embodiment is as follows:

The utility model is further described below with reference to the drawings and the detailed description.

The utility model relates to a glue spreading mechanism of an upper lead groove plate, which comprises a machine body 1 and a glue spreading mechanism arranged on the machine body, wherein the glue spreading mechanism comprises a groove type glue storage cavity 2 and a glue spreading shaft 3 which is arranged in the groove type glue storage cavity 2 and is axially perpendicular to the advancing direction of the upper lead groove plate, the groove type glue storage cavity 2 can be formed by a groove type shell or a groove-shaped cavity is processed on the machine body, glue is loaded in the groove type glue storage cavity 2, the advancing direction of the upper lead groove plate is in a horizontal direction, the glue spreading shaft 3 is also horizontally arranged, and the advancing direction of the upper lead groove plate is mutually perpendicular to the glue spreading shaft 3 in different horizontal planes.

A plurality of groups of brush components 4 which are detachably connected are uniformly distributed on the glue rolling shaft 3 along the circumferential direction, one embodiment is provided with three groups, four groups, five groups or six groups of brush components 4 in the circumferential direction, brush components 4 are provided with brush hairs 5, the length direction of the brush components 4 and the brush hairs 5 arranged face the axial direction of the glue rolling shaft 3, the brush components 4 comprise cuboid blocks and brush hairs which are fixedly arranged on the surfaces of the cuboid blocks and are in rectangular shapes, bolt holes are formed in the cuboid blocks, bolts are penetrated in the bolt holes to be locked with the glue rolling shaft 3, the detachable connection of the brush components 4 and the glue rolling shaft 3 can be conveniently realized through the bolt locking, and the brush components 4 need to be sealed when penetrating into the wall body of the groove type glue storage cavity 2, so that the brush components 4 are replaced through the detachable connection of the brush components 4 and the glue rolling shaft 3, on one hand, the disassembly and the replacement are convenient, and on the other hand, the tightness and the sealing durability of the glue rolling shaft 3 can be ensured.

The notch portion of the groove type glue storage cavity and the two sides located on the advancing track of the upper lead core groove plate are provided with glue overflow prevention pressing plates 6, the glue overflow prevention pressing plates 6 are arranged above the bristles and can scrape off glue on two sides of the bristles when the bristles rotate, the scraped glue is still remained in the groove type glue storage cavity, the distance between the glue overflow prevention pressing plates on the two sides is smaller than the width of the notch portion of the groove type glue storage cavity and the length of the bristles along the axial direction of the glue rolling shaft, and due to the fact that the glue overflow prevention pressing plates (the distance between the glue overflow prevention pressing plates on the two sides is smaller than the width of the notch portion of the groove type glue storage cavity and the length of the bristles along the axial direction of the glue rolling shaft) are arranged, the glue on the two sides of the bristles is blocked by the glue overflow prevention pressing plates, the glue on the two sides of the bristles can be scraped off, and the glue is prevented from overflowing from gaps of baffle plates on the two sides.

The top of anti-overflow adhesive clamp plate 6 all is equipped with the side shield 7 that is used for spacing guide to lead core frid both sides limit, and the interval of two side shields equals the width of last lead core frid and is greater than the interval of two anti-overflow adhesive clamp plates, and the top of two side shields is equipped with the coating apron 8 that is used for the pressure to put the lead core frid, and the width of this coating apron 8 is greater than the interval of two anti-overflow adhesive clamp plates, go up lead core frid both sides portion and march in the passageway that coating apron 8 and anti-overflow adhesive clamp plate 6 formed, this lead core frid is driven by actuating mechanism and is march, and its concrete actuating mechanism is detailed below.

Preferably, the glue reflux groove 9 is arranged on the discharging side of the notch of the groove type glue storage cavity, the glue reflux groove is lower than the glue overflow prevention pressing plate 6, a second brush assembly 10 detachably connected with the machine body and second bristles 11 arranged on the second brush assembly are adjacently arranged on the side of the glue reflux groove, the second brush assembly and the length direction of the second bristles are arranged towards the axial direction of the glue rolling shaft, the second bristles 11 scrape off redundant glue on the lower surface of the upper lead groove plate, the second brush assembly 10 also comprises a cuboid block and bristles fixed on the surface of the cuboid block and arranged in a cuboid shape, and the redundant glue on the lower surface of the upper lead groove plate is scraped off through the second bristles 11 and flows back into the groove type glue storage cavity along the glue reflux groove 9.

For the convenience of regulation, be equipped with bar slotted hole 12 on above-mentioned anti-overflow adhesive clamp plate 6 and the side shield 7, the cross-under has the bolt 13 of fastening with the organism connection on the bar slotted hole 12, and the bolt also passes the bolt hole on the coating apron 8, the cover is equipped with compression spring 14 on the bolt 13, compression spring's both ends are supported and are pressed between the upper surface of bolt head and coating apron 8, and the pan feeding end side of coating apron 8 is the inclined plane, because the cover is equipped with compression spring 14 on the bolt 13, compression spring's both ends are supported and are pressed between the upper surface of bolt head and coating apron 8 to the coating apron 8 can realize the adaptation in order to adapt to the rubber coating of the big upper lead core frid of warp, if do not set up compression spring 14, the direct locking of bolt 13 head is supported and is pressed at the upper surface of coating apron 8, and the thickness of passageway is fixed value, can not be passed through by coating apron 8 when the big upper lead frid, and can not be stopped by coating apron 8 when will produce time, through setting up between the upper surface of bolt 13 head and coating apron 8 and the upper surface of coating apron 8 and the thickness of the upper surface of lead frid, can avoid the phenomenon that the lead core is difficult to be passed through by the big lead frid, and the side is passed through the upper lead frid.

The wall body of the groove type glue storage cavity is provided with the through hole for penetrating the glue rolling shaft, a sealing ring or a sealing structure is arranged between the through hole and the glue rolling shaft, sealing of the groove type glue storage cavity can be achieved through the sealing ring, overflow of glue is avoided, and the brush assembly is detachably connected with the glue rolling shaft, so that replacement of the brush assembly is facilitated, repeated detachment of a sealing part is avoided, and sealing performance and sealing durability are guaranteed.

In order to control the glue amount in the groove type glue storage cavity, the groove type glue storage cavity is provided with a liquid level sensor 15, the groove type glue storage cavity is provided with a glue inlet 16 and a glue outlet 17, the glue inlet 16 and the glue outlet 17 are respectively connected with a glue inlet pipeline and a glue outlet pipeline, the glue inlet pipeline and the glue outlet pipeline are connected with an electric control valve, the electric control valve and the liquid level sensor are electrically connected with a controller, the glue amount in the groove type glue storage cavity is detected through the liquid level sensor 15, then the electric control valve of the glue inlet pipeline or the glue outlet pipeline is selectively opened and closed, and the glue amount in the groove type glue storage cavity can be kept lower than a glue rolling shaft generally but higher than the lower end of a bristle.

The driving mechanism for specifically driving the upper lead-core groove plate to move is characterized in that a first chain 18 is circularly rotated on a machine body, a plurality of push rods 19 are fixedly arranged at equal intervals in the length direction of the first chain, a feeding cover plate 20 (the feeding cover plate 20 extends to the position of the second hairbrush assembly 10), which is positioned above the first chain, and a U-shaped guide groove 21, which is positioned on the feeding cover plate and is vertically arranged, are arranged on the feeding cover plate, the U-shaped guide groove is used for guiding and limiting a plurality of superposed upper lead-core groove plates, a groove 22 which is beneficial to the extension of the push rods 19 is formed in the feeding cover plate, and the push rods push a lead-core groove plate on a sheet of the U-shaped guide groove to move along the advancing direction of the first chain so as to convey the upper lead-core groove plate to the groove part of the groove-type glue storage cavity.

The push rod is T-shaped, and the lower part of the T-shaped push rod is fixed on the chain link; the channel is arranged along the length direction of the first chain, the channel is in a strip shape, the width of the channel is larger than that of the T-shaped push rod, a through groove 23 is formed in the feeding cover plate and positioned at the end part of the channel, the through groove is used for the upper part of the T-shaped push rod to penetrate through, the upper part of the push rod is designed into a T shape, so that the contact area of the push rod when pushing the upper lead core trough plate can be increased, the cracking of the upper lead core trough plate caused by the excessive pressure of the push rod is avoided (when the push rod is a straight rod, the contact area of the push rod and the upper lead core trough plate is small, and the push rod is easy to extrude on the strip groove to cause the cracking); a guide limiting plate 24 is vertically arranged on the feeding cover plate and opposite to the notch part of the U-shaped guide groove, and the upper lead core groove plate is limited by the U-shaped guide groove and the guide limiting plate to realize limiting in the front-back left-right direction; the feeding cover plate is hinged with a supporting plate 25 in a rotating mode, the supporting plate is provided with a horizontal station and an inclined station, the supporting plate is arranged on one side far away from the channel in a flat mode when the horizontal station is used for avoiding pushing the upper lead core groove plate to move, and the supporting plate is turned over to be inclined when the inclined station is used for supporting all the upper lead core groove plates located in the U-shaped guide groove.

The plurality of upper lead core groove plates (the upper lead core groove plates are provided with a plurality of strip-shaped grooves for placing pencil cores, one surface with the strip-shaped grooves faces downwards) are superposed and placed in the U-shaped guide groove (the U-shaped guide groove is completed by a manual or mechanical arm), and along with the circulating rotation of the first chain, a push rod on the first chain pushes the lowest upper lead core groove plate to move towards one side of the glue rolling mechanism, and glue is applied to the strip-shaped grooves on the upper lead core groove plates through the glue rolling mechanism.

In order to realize synchronous action, the rotation direction of the first chain 18 is opposite to the rotation direction of the glue rolling shaft 3 (the first chain 18 rotates clockwise in the figure, the glue rolling shaft 3 rotates anticlockwise), and the first chain 18 and the glue rolling shaft 3 are driven to rotate by the same power shaft and power source; specifically, two sides of the first chain are provided with two first chain wheels 26 for driving the first chain 18 to rotate, the end part of a chain wheel shaft of one first chain wheel is provided with a first gear 27, the first gear 27 is meshed with a second gear 28, the second gear 28 is coaxially connected with a second rotating shaft 29 and a second chain wheel 30 arranged at the other end of the second rotating shaft, the end part of the rubber rolling shaft is connected with a third chain wheel 31, a chain 32 is wound between the second chain wheel and the third chain wheel, and the chain wheel shaft is used as an input shaft of a power source.

The power source transmits power to the glue rolling mechanism through gears, chain wheels and the like, and the glue rolling shaft 3 of the glue rolling mechanism rotates in the opposite direction to the plate feeding direction (the rotation direction of the first chain 18), so that glue can be uniformly coated on an upper lead core groove plate, the first chain 18 and the glue rolling shaft 3 are driven to rotate by the same power shaft and power source, the plate feeding speed and the glue rolling speed are ensured to be consistent, when the plate feeding speed is reduced/lifted, the glue rolling speed is matched with the same, and the situation that uneven glue brushing is caused by speed mismatch during processing can be ensured because of the consistent power source is ensured.

The utility model relates to a working method of an upper lead core groove plate gluing mechanism, wherein the upper lead core groove plate gluing mechanism comprises a machine body and a glue rolling mechanism arranged on the machine body, the glue rolling mechanism comprises a groove type glue storage cavity and glue rolling shafts which are arranged in the groove type glue storage cavity and are axially perpendicular to the advancing direction of the upper lead core groove plate, a plurality of groups of brush assemblies which are detachably connected are uniformly distributed on the glue rolling shafts along the circumferential direction, brush bristles are arranged on the brush assemblies, the length direction of the brush assemblies and the arranged brush bristles face the axial direction of the glue rolling shafts, anti-overflow pressing plates are arranged on two sides of a notch part of the groove type glue storage cavity, the distance between the two anti-overflow pressing plates is smaller than the width of a notch part of the groove type glue storage cavity and the distance between the brush bristles along the axial direction of the glue rolling shafts, side baffle plates for limiting and guiding the two sides of the upper lead core groove plate are arranged above the anti-overflow pressing plates, and the distance between the two side baffle plates is equal to the width of the upper lead core groove plate and is larger than the distance between the two anti-overflow pressing plates; during operation, the upper lead core groove plate is conveyed to the notch position of the groove type glue storage cavity by the conveying mechanism, under the action of the rotating glue rolling shaft, the brush assembly and the brush hair, the brush hair dips in glue in the groove type glue storage cavity and is uniformly coated on the groove plate, side baffles used for limiting and guiding the two sides of the upper lead core groove plate are arranged above the glue overflow prevention pressing plates, the distance between the two side baffles is equal to the width of the upper lead core groove plate and is larger than the distance between the two glue overflow prevention pressing plates, so that the glue overflow prevention pressing plates can scrape the glue on the two sides of the brush hair when the brush hair rotates, and the glue is prevented from overflowing from gaps of the two side baffles; be equipped with the glue reflux groove on the ejection of compact side of groove type glue storage cavity notch, the glue reflux groove is less than anti-overflow glue clamp plate, and the side in glue reflux groove is adjoined and is equipped with the second brush subassembly of being connected with the organism detachable and establishes the second brush hair on the second brush subassembly, can control glue thickness through adjusting the brush hair height of second brush subassembly.

Therefore, the utility model is beneficial to reducing or avoiding glue overflow and simultaneously can be suitable for gluing the upper lead core groove plate with larger bending through ingenious structural design.

Finally, it should be noted that the above-mentioned embodiments are only for illustrating the technical scheme of the present utility model and are not limiting; while the utility model has been described in detail with reference to the preferred embodiments, those skilled in the art will appreciate that: modifications may be made to the specific embodiments of the present utility model or equivalents may be substituted for part of the technical features thereof; without departing from the spirit of the utility model, it is intended to cover the scope of the utility model as claimed.

Claims (10)

1. An upward plumbous core frid rubber coating mechanism, its characterized in that: including organism and the rubberizing mechanism of establishing on the organism, rubberizing mechanism includes that the cell type stores up gluey chamber and establishes at the cell type stores up gluey intracavity and axial and last lead core frid advancing direction vertically rubberizing axle, and the equipartition has a plurality of brush subassemblies of group's detachable connection along circumferencial direction on the rubberizing axle, is equipped with the brush hair on the brush subassembly, and the brush subassembly with arrange the length direction of brush hair towards the axial of rubberizing axle, the notch portion of cell type stores up gluey chamber and be located the both sides that go up lead core frid advancing the orbit and be equipped with anti-overflow clamp plate, and anti-overflow clamp plate installs in the brush hair top and can be when the brush hair rotates anti-overflow clamp plate with the glue of brush hair both sides portion strike off, and the interval of both sides anti-overflow clamp plate is less than the width of cell type store up gluey chamber mouth and also is less than the length that the brush hair was arranged along the rubberizing axle axial, the top of anti-overflow clamp plate all is equipped with the side shield that is used for spacing guide to lead core frid both sides limit, and the interval that is greater than two anti-overflow clamp plate's the lead core frid, and the top is equipped with the anti-overflow clamp plate that is used for coating the lead core of the upper side frid and the upper cover plate that the anti-overflow clamp plate is formed.

2. The upper lead slot plate gluing mechanism according to claim 1, wherein: the glue storage device is characterized in that a glue reflux groove is formed in the discharging side of the groove of the glue storage cavity, the glue reflux groove is lower than the glue overflow prevention pressing plate, a second brush assembly detachably connected with the machine body and second bristles arranged on the second brush assembly are adjacently arranged on the side of the glue reflux groove, the second brush assembly faces the axial direction of the glue rolling shaft in the length direction, and redundant glue on the lower surface of the upper lead groove plate is scraped by the second bristles.

3. The upper lead slot board gluing mechanism according to claim 1 or 2, wherein: the anti-overflow glue pressing plate and the side baffle are provided with strip-shaped slotted holes, bolts which are connected and fastened with the machine body are connected to the strip-shaped slotted holes in a penetrating mode, the bolts also penetrate through bolt holes in the coating cover plate, compression springs are sleeved on the bolts, and two ends of each compression spring are propped between the head of each bolt and the upper surface of the coating cover plate.

4. The upper lead slot plate gluing mechanism according to claim 1, wherein: the wall body of the groove type glue storage cavity is provided with a through hole for penetrating the glue rolling shaft, and a sealing ring is arranged between the through hole and the glue rolling shaft.

5. The upper lead slot plate gluing mechanism according to claim 2, wherein: the brush assembly and the second brush assembly are cuboid blocks and bristles which are fixed on the surfaces of the cuboid blocks and are arranged in a cuboid shape.

6. The upper lead slot board gluing mechanism according to claim 1 or 2, wherein: the groove type glue storage cavity is internally provided with a liquid level sensor, and the groove type glue storage cavity is provided with a glue inlet and a glue discharge opening.

7. The upper lead slot board gluing mechanism according to claim 1 or 2, wherein: the machine body is circularly rotated with a first chain, a plurality of push rods are fixedly arranged on the length direction of the first chain at equal intervals, a feeding cover plate positioned above the first chain and a U-shaped guide groove positioned on the feeding cover plate and vertically arranged are arranged on the machine body, the U-shaped guide groove is used for guiding and limiting a plurality of upper lead core groove plates overlapped, a groove way which is beneficial to the push rods to extend out is formed in the feeding cover plate, and the push rods push a lead core groove plate on a sheet in the U-shaped guide groove to move along the advancing direction of the first chain so as to convey the upper lead core groove plate to the groove part of the groove type glue storage cavity.

8. The upper lead slot plate gumming mechanism of claim 7, wherein: the push rod is T-shaped, and the lower part of the T-shaped push rod is fixed on the chain link; the channel is arranged along the length direction of the first chain, the width of the channel is larger than that of the T-shaped push rod, a through groove is formed in the feeding cover plate and positioned at the end part of the channel, and the through groove is used for the upper part of the T-shaped push rod to pass through; the feeding cover plate is vertically provided with a guide limiting plate piece at the notch part opposite to the U-shaped guide groove, and the upper lead core groove plate is limited by the U-shaped guide groove and the guide limiting plate piece to realize the limit in the front-back left-right direction.

9. The upper lead slot plate gumming mechanism of claim 8, wherein: the feeding cover plate is hinged with a supporting plate in a rotating mode, the supporting plate is provided with a horizontal station and an inclined station, the supporting plate is arranged on one side far away from the channel in a flat mode when the horizontal station is used for avoiding the push rod to push the upper lead core groove plate to move, and the supporting plate is turned over to be inclined when the inclined station is used for supporting all the upper lead core groove plates located in the U-shaped guide groove.

10. The upper lead slot plate gumming mechanism of claim 7, wherein: the rotating direction of the first chain is opposite to the rotating direction of the glue rolling shaft, and the first chain and the glue rolling shaft are driven to rotate by the same power shaft and power source; specifically, the both sides of first chain have two first sprockets that drive first chain pivoted, and the sprocket shaft tip of one of them first sprocket is equipped with first gear, first gear and second gear engagement, second gear coaxial coupling have the second pivot and establish the second sprocket at the other end of second pivot, the end connection of rubberizing axle has the third sprocket, winds between second sprocket and the third sprocket to be connected with the chain, the sprocket shaft is as the input shaft of power supply.