CN215197972U - Upper and lower double glue supply mechanism - Google Patents

Abstract

The utility model particularly discloses an upper and lower double glue supply mechanism, which comprises a frame; the frame is sequentially provided with an upper glue supply mechanism, a lower glue supply mechanism and a pressing mechanism from a feeding end to a discharging end; the glue feeding mechanism comprises a first driving motor and a glue feeding assembly; the upper glue supply assembly is controlled by a first driving motor; the lower glue supply mechanism comprises a second driving motor and a lower glue supply assembly; the lower glue supply assembly is controlled by a second driving motor; the first driving motor and the second driving motor are both arranged in the rack; go up and supply gluey subassembly down and all set up in the surface of frame. The utility model discloses for traditional confession gluey mechanism, can supply gluey subassembly and supply gluey subassembly down simultaneously or in alternate use, not only practice thrift the cost, adjust the convenience to it is sufficient to glue the volume, need not frequently to add gluey, and is with low costs, efficient.

Description

Upper and lower double glue supply mechanism

Technical Field

The utility model relates to a bag sealer technical field, concretely relates to upper and lower dual-supply gluey mechanism.

Background

The edge bonding machine is a common woodworking machine, and can realize the mechanized edge bonding operation, wherein molten glue is heated and melted firstly, then is coated on the edge of a plate, and finally, an edge bonding belt is fixed on the edge of the plate. The existing edge bonding machine is large in workload, high in cost and low in efficiency because hot melt adhesive overflows, and the production quality cannot be guaranteed because the glue is continuously added during working. Therefore, the glue supply mechanism of the existing edge bonding machine is improved to solve the problems.

SUMMERY OF THE UTILITY MODEL

The work load that exists to the current bag sealer rubber coating of above-mentioned existence is big, with high costs, inefficiency, the inhomogeneous defect of rubber coating, the utility model provides an upper and lower two glue supply mechanism is used for overcoming above-mentioned defect.

An upper and lower double glue supply mechanism comprises a frame; the frame is sequentially provided with an upper glue supply mechanism, a lower glue supply mechanism and a pressing mechanism from a feeding end to a discharging end; the glue feeding mechanism comprises a first driving motor and a glue feeding assembly; the upper glue supply assembly is controlled by a first driving motor; the lower glue supply mechanism comprises a second driving motor and a lower glue supply assembly; the lower glue supply assembly is controlled by a second driving motor; the first driving motor and the second driving motor are both arranged in the rack; go up and supply gluey subassembly down and all set up in the surface of frame.

Preferably, the upper glue supply assembly comprises a first support frame arranged on the upper surface of the frame; a first fixing block is symmetrically arranged on one side of the first support frame; a first sliding shaft is arranged on the first fixed block; a first sliding piece is arranged on the first sliding shaft in a sliding manner; and a first reset pressure spring for resetting the first sliding part is arranged on the first fixed block.

As a preferred scheme, an adjusting cylinder is further arranged on the first support frame; a linkage plate is arranged at the piston end of the adjusting cylinder; and a connecting rod connected with the first sliding piece is arranged on the linkage plate.

Preferably, a first right-angle connecting piece is mounted on the first sliding piece; the first right-angle connecting piece is connected with a second right-angle connecting piece; a first gluing box is arranged on the second right-angle connecting piece; a first glue storage box is arranged at the top of the first glue coating box; the first glue storage box is provided with a first glue inlet; a liquid level sensor for detecting the glue amount is arranged beside the first glue inlet; and the first glue storage box and the first glue coating box are both provided with a first heating pipe set for heating glue coating.

As a preferred scheme, a first gluing window is formed in the first gluing box; a first gluing shaft is rotatably arranged on the first gluing window; the first glue coating shaft is controlled by the first driving motor; the first gluing box is also provided with a first glue door shaft for controlling glue outlet amount and a second glue door shaft for scraping glue.

As a preferred scheme, a glue cleaning opening is formed in one side, away from the first glue application window, of the first glue application box; a cover plate is hermetically arranged at the glue cleaning opening; a first gluing channel is formed in the first gluing box corresponding to the first gluing window; a glue guide plate is arranged at the tail end of the first glue channel; and an adjustable first gluing guide plate is arranged on one side of the first gluing box, which is provided with the first gluing window.

Preferably, the lower glue supply assembly comprises a second support frame; the second support frame is symmetrically provided with second fixed blocks; a second sliding shaft is arranged on the second fixed block symmetrically; a second sliding part is arranged on the second sliding shaft in a sliding manner; a second reset pressure spring for resetting the second sliding part is arranged on the second fixed block; a second glue storage box is arranged on the second sliding part; and a second heating pipe set is arranged on the second glue storage box.

As a preferred scheme, a gluing shield is arranged at the tail part of the second glue storage box; a glue feeding cylinder is arranged inside the second glue storage box; the bottom of the upper rubber cylinder is provided with a second rubber inlet; the head part of the second glue storage box is provided with a second glue coating box; a second gluing shaft is arranged on the second gluing box; the second glue coating shaft penetrates through the gluing barrel and is controlled by a second driving motor; and a glue outlet is arranged on the upper cover plate of the second glue storage box corresponding to the upper glue cylinder.

As a preferred scheme, a glue scraping shaft parallel to the second glue coating shaft is further arranged on the second glue coating box; a top plate is arranged at the top of the second gluing box; one end of the glue scraping shaft penetrates through the top plate, and a rotating block is arranged at one end of the glue scraping shaft penetrating through the top plate; an adjusting handle is arranged on the top plate; the adjusting handle is connected with the rotating block.

As a preferred scheme, a second gluing window is formed in the second gluing box; a rubber scraping sheet is arranged on one end, corresponding to the second rubber coating window, of the rubber scraping shaft; the second gluing box is provided with an adjustable second gluing guide plate corresponding to the second gluing window; a second glue channel is arranged on the second glue spreading box; the upper cover plate of the second glue storage box is provided with a glue return opening; the glue return opening is communicated with the second glue channel and the second glue storage box.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, concretely speaking, according to the technical scheme, the edge sealing machine firstly heats and melts the melt adhesive through the upper adhesive supply mechanism or the lower adhesive supply mechanism, then coats the melt adhesive on the edge of the plate, and finally fixes the edge sealing belt at the edge of the plate through the pressing mechanism to complete the edge sealing of the plate; specifically, when the glue feeding assembly works, firstly, the molten glue is heated and melted through the first heating pipe set, the molten glue is fully contacted with the first glue coating shaft in the first glue coating box at the moment, the first driving motor is started to drive the first glue coating shaft to rotate, the side wall of the first glue coating shaft drives the molten glue to be coated on the edge of a plate, the glue outlet amount is controlled through the first glue door shaft, the glue amount on the first glue coating shaft is ensured to be uniform, glue scraping is realized when the first glue coating shaft rotates to the second glue door shaft, the molten glue enters the first glue channel after the glue scraping, and redundant glue is collected through the glue guide plate for recycling, so that the cost is saved; the distance between the gluing surface of the plate and the first gluing shaft is adjusted through the first gluing guide plate, the gluing amount of the plate can be controlled, the gluing is more comprehensive and uniform, the glue storage amount in the first glue storage box can be detected through the liquid level sensor, and when the glue storage amount is lower than a set value, a signal can be fed back to the alarm system to remind people; when the lower glue supply assembly works, firstly, the melt glue in the second glue storage box is heated and melted through the second heating pipe set, the second driving motor is started to drive the second gluing shaft to rotate, the melt glue in the second glue storage box can enter the gluing cylinder through the second glue inlet and can overflow from the glue outlet to be fully contacted with the side wall of the second gluing shaft, at the moment, the glue scraping shaft is adjusted through the adjusting handle, the glue scraping shaft rotates to drive the glue scraping sheet to control the glue outlet amount, the glue amount on the second gluing shaft is ensured to be uniform, the distance between the gluing surface of the plate and the second gluing shaft is controlled through adjusting the second gluing guide plate, the glue spreading amount of the plate can be controlled, the glue is ensured to be more comprehensive and uniform, the redundant melt glue flows into the second glue channel after being glued and returns to the second glue storage box through the glue returning opening, compared with the traditional glue supply mechanism, the upper glue supply assembly and the lower glue supply assembly can be simultaneously or alternately used, the glue adding device has the advantages of saving cost, being convenient to adjust, being sufficient in glue amount, not needing frequent glue adding, being low in cost and high in efficiency.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the upper and lower glue supply mechanisms of the present invention.

Fig. 3 is a schematic structural view of the glue supplying mechanism of the present invention.

Fig. 4 is a partial schematic view of the glue supplying mechanism of the present invention.

Fig. 5 is a partial schematic view of the glue supplying mechanism of the present invention.

Fig. 6 is a schematic structural view of the lower glue supply mechanism of the present invention.

Fig. 7 is a partial schematic view of the lower glue supply mechanism of the present invention.

Fig. 8 is a partial schematic view of the lower glue supply mechanism of the present invention.

In the figure: 1-a frame; 2-glue feeding mechanism; 3-lower glue supply mechanism; 4-a pressing mechanism; 21-a first drive motor; 22-glue supply assembly; 31-a second drive motor; 32-lower glue supply assembly; 2201-first support frame; 2202-a first fixed block; 2203-a first sliding shaft; 2204-a first slide; 2205-a first reset pressure spring; 2206-adjusting cylinder; 2207-linkage plate; 2208-connecting rod; 2209-a first right angle connector; 2210-a second right-angle connector; 2211-first gumming box; 2212-first glue axis; 2213-first glue storage box; 2214-liquid level sensor; 2215-first glue inlet; 2216-first heat generation tube set; 2217-first glue door spindle; 2218-second glue door spindle; 2219-first glue line; 2220-rubber guide plate; 2221-clear gum mouth; 2222-a first gluing guide plate; 3201-a second support; 3202-second fixed block; 3203-second sliding shaft; 3204-a second slider; 3205-a second reset pressure spring; 3206-a second glue storage box; 3207-spreading a protective cover; 3208-a second gluing box; 3209-top plate; 3210-a second glue-coated shaft; 3211-rotating block; 3212-adjusting handle; 3213-scraping the glue shaft; 3214-scraping the film; 3215-a second gluing guide plate; 3216-second glue line; 3217-a second heat transfer tube set; 3218-gluing the rubber cylinder; 3219-glue returning port; 3220-glue outlet; 3221-second glue inlet.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

In the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "far from", "close to", "head", "tail", "front end", "rear end", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention; the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "provided" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

As shown in fig. 1-2, the present embodiment provides an upper and lower dual glue supply mechanism, which includes a frame 1; the frame 1 is sequentially provided with an upper glue supply mechanism 2, a lower glue supply mechanism 3 and a pressing mechanism 4 from a feeding end to a discharging end; the glue feeding mechanism 2 comprises a first driving motor 21 and a glue feeding assembly 22; the upper glue supply assembly 22 is controlled by a first driving motor 21; the lower glue supply mechanism 3 comprises a second driving motor 31 and a lower glue supply assembly 32; the lower glue supply assembly 32 is controlled by a second driving motor 31; the first driving motor 21 and the second driving motor 31 are both arranged inside the frame 1; the upper glue supply assembly 22 and the lower glue supply assembly 32 are arranged on the outer surface of the frame 1; compared with the prior art, the utility model have obvious advantage and beneficial effect, particularly, can know by above-mentioned technical scheme, it is at first through supplying gluey mechanism 2 or supplying gluey mechanism 3 down and melting the melten gel heating, then scribble the panel edge on, fix the banding area at the edge of panel through pressing mechanism 4 at last and accomplish the banding of panel.

In a specific example of the present invention, as shown in fig. 3 to 5, the upper glue supply assembly 22 includes a first support frame 2201 mounted on the upper surface of the frame 1; a first fixed block 2202 is symmetrically arranged on one side of the first support frame 2201; a first sliding shaft 2203 is arranged on the first fixed block 2202; a first sliding piece 2204 is arranged on the first sliding shaft 2203 in a sliding manner; a first reset pressure spring 2205 for resetting the first sliding part 2204 is arranged on the first fixed block 2202; an adjusting cylinder 2206 is further arranged on the first support frame 2201; a linkage plate 2207 is arranged at the piston end of the adjusting cylinder 2206; a connecting rod 2208 connected with a first sliding piece 2204 is arranged on the linkage plate 2207; a first right-angle connecting piece 2209 is arranged on the first sliding piece 2204; a second right-angle connecting piece 2210 is connected to the first right-angle connecting piece 2209; a first gluing box 2211 is arranged on the second right-angle connecting piece 2210; a first glue storage box 2213 is arranged at the top of the first glue coating box 2211; the first glue storage box 2213 is provided with a first glue inlet 2215; a liquid level sensor 2214 for detecting the glue amount is arranged beside the first glue inlet 2215; the first glue storage box 2213 and the first glue spreading box 2211 are both provided with a first heating pipe group 2216 for heating glue spreading; a first gluing window is formed in the first gluing box 2211; a first glue spreading shaft 2212 is rotatably arranged on the first glue spreading window; the first glue coating shaft 2212 is controlled by the first driving motor 21; the first gluing box 2211 is further provided with a first glue door shaft 2217 for controlling glue discharging amount and a second glue door shaft 2218 for scraping glue; a glue cleaning opening 2221 is formed in one side, away from the first gluing window, of the first gluing box 2211; a cover plate is hermetically arranged at the glue cleaning port 2221; a first glue channel 2219 is arranged on the first glue spreading box 2211 corresponding to the first glue spreading window; a glue guide plate 2220 is arranged at the tail end of the first glue passage 2219; an adjustable first gluing guide plate 2222 is further arranged at one side of the first gluing box 2211, which is provided with the first gluing window.

In a specific example of the present invention, as shown in fig. 6 to 8, the lower glue supply assembly 32 includes a second support frame 3201; a second fixed block 3202 is symmetrically arranged on the second supporting frame 3201; a second sliding shaft 3203 is arranged on the second fixed block 3202; a second sliding member 3204 is slidably disposed on the second sliding shaft 3203; a second return pressure spring 3205 for returning the second sliding member 3204 is arranged on the second fixed block 3202; a second glue storage box 3206 is mounted on the second sliding member 3204; a second heating tube group 3217 is arranged on the second glue storage box 3206; a gluing shield 3207 is mounted at the tail part of the second glue storage box 3206; an upper rubber cylinder 3218 is arranged inside the second rubber storage box 3206; a second glue inlet 3221 is formed in the bottom of the gluing cylinder 3218; a second glue storage box 3208 is mounted at the head of the second glue storage box 3206; a second gluing shaft 3210 is mounted on the second gluing box 3208; the second glue coating shaft 3210 penetrates through the gluing cylinder 3218, and the second glue coating shaft 3210 is controlled by a second driving motor 31; a glue outlet 3220 is arranged on the upper cover plate of the second glue storage box 3206 corresponding to the upper glue cylinder 3218; a glue scraping shaft 3213 parallel to the second glue spreading shaft 3210 is further arranged on the second glue spreading box 3208; a top plate 3209 is arranged at the top of the second gluing box 3208; one end of the glue scraping shaft 3213 penetrates through the top plate 3209, and one end of the glue scraping shaft 3213 penetrates through the top plate 3209 and is provided with a rotating block 3211; an adjusting handle 3212 is arranged on the top plate 3209; the adjusting handle 3212 is connected with the rotating block 3211; a second gluing window is formed in the second gluing box 3208; a rubber scraping sheet 3214 is arranged at one end of the rubber scraping shaft 3213 corresponding to the second rubber coating window; an adjustable second gluing guide plate 3215 is arranged at the second gluing box 3208 corresponding to the second gluing window; a second glue channel 3216 is arranged on the second glue spreading box 3208; an upper cover plate of the second glue storage box 3206 is provided with a glue return port 3219; the glue return port 3219 communicates the second glue passage 3216 with the second glue storage box 3206.

When the glue feeding assembly 22 works, firstly, the molten glue is heated and melted through the first heating pipe set 2216, at the moment, the molten glue is fully contacted with the first glue spreading shaft 2212 in the first glue spreading box 2211, the first driving motor 21 is started to drive the first glue spreading shaft 2212 to rotate, the side wall of the first glue spreading shaft 2212 carries the molten glue to be spread on the edge of a plate, the glue discharging amount is controlled through the first glue door shaft 2217, the glue amount on the first glue spreading shaft 2212 is ensured to be uniform, glue scraping is realized when the first glue spreading shaft 2212 rotates to the second glue door shaft 2218, the molten glue enters the first glue channel 2219 after glue scraping, and redundant glue is collected through the glue guide plate 2220 for recycling, so that the cost is saved; the distance between the gluing surface of the plate and the first gluing shaft 2212 is adjusted through the first gluing guide plate 2222, the gluing amount of the plate can be controlled, the gluing is more comprehensive and uniform, the glue storage amount in the first glue storage box 2213 can be detected through the liquid level sensor 2214, and when the glue storage amount is lower than a set value, a signal can be fed back to an alarm system to remind people; when the lower glue supply assembly 32 works, firstly, the molten glue in the second glue storage box 3206 is heated and melted through the second heating tube group 3217, the second driving motor 31 is started to drive the second glue spreading shaft 3210 to rotate, the second glue spreading shaft 3210 rotates to enable the molten glue in the second glue storage box 3206 to enter the upper glue cylinder 3218 through the second glue inlet 3221 and overflow from the glue outlet 3220 to be fully contacted with the side wall of the second glue spreading shaft 3210, at this time, the glue spreading shaft 3213 is adjusted through the adjusting handle 3212, the glue spreading shaft 3213 rotates to drive the glue spreading sheet 3214 to control the glue outlet amount, and simultaneously, the glue amount on the second glue spreading shaft 3210 is ensured to be uniform, the distance between the glue spreading surface of the sheet and the second glue spreading shaft 3210 is controlled through adjusting the second glue spreading guide plate 3215, the glue spreading amount of the sheet can be controlled, comprehensive and uniform glue spreading is ensured, and redundant glue flows into the second glue melting channel 3216 and returns to the second glue storage box 3206 through the glue return opening 3219; the utility model discloses for traditional confession gluey mechanism, can supply gluey subassembly 22 and supply gluey subassembly 32 down simultaneously or in alternate use, not only practice thrift the cost, adjust the convenience to glue the volume enough, do not need frequently to add gluey, with low costs, efficient.

Example 2

As shown in fig. 1 to 5, the present embodiment provides a glue supply mechanism, which includes a frame 1; the frame 1 is sequentially provided with an upper glue supply mechanism 2 and a pressing mechanism 4 from a feeding end to a discharging end; the glue feeding mechanism 2 comprises a first driving motor 21 and a glue feeding assembly 22; the upper glue supply assembly 22 is controlled by a first driving motor 21; the first driving motor 21 is arranged inside the frame 1; the upper glue supply assembly 22 is arranged on the outer surface of the frame 1. This embodiment is through last supplying gluey mechanism 2 to heat the melten gel and melt, then scribble on the panel edge, fixes the banding area at the edge of panel and accomplishes the banding of panel through pressing mechanism 4 at last, adopts this structure not only to practice thrift the cost, adjust the convenience to glue the volume sufficient, need not frequently add gluey, with low costs, efficient.

Specifically, the upper glue supply assembly 22 includes a first support frame 2201 mounted on the upper surface of the frame 1; a first fixed block 2202 is symmetrically arranged on one side of the first support frame 2201; a first sliding shaft 2203 is arranged on the second fixed block 2202; a first sliding piece 2204 is arranged on the first sliding shaft 2203 in a sliding manner; a first restoring pressure spring 2205 for restoring the first sliding member 2204 is arranged on the first fixed block 2202.

Specifically, an adjusting cylinder 2206 is further arranged on the first support frame 2201; a linkage plate 2207 is arranged at the piston end of the adjusting cylinder 2206; a connecting rod 2208 connected with the first sliding piece 2204 is arranged on the linkage plate 2207.

Specifically, a first right-angle connecting piece 2209 is mounted on the first sliding piece 2204; a second right-angle connecting piece 2210 is connected to the first right-angle connecting piece 2209; a first gluing box 2211 is arranged on the second right-angle connecting piece 2210; a first glue storage box 2213 is arranged at the top of the first glue coating box 2211; the first glue storage box 2213 is provided with a first glue inlet 2215; a liquid level sensor 2214 for detecting the glue amount is arranged beside the first glue inlet 2215; the first glue storage box 2213 and the first glue storage box 2211 are both provided with a first heating pipe group 2216 for heating glue.

Specifically, a first gluing window is formed on the first gluing box 2211; a first glue spreading shaft 2212 is rotatably arranged on the first glue spreading window; the first glue coating shaft 2212 is controlled by the first driving motor 21; the first gluing box 2211 is further provided with a first glue door shaft 2217 for controlling the glue outlet amount and a second glue door shaft 2218 for scraping glue.

Specifically, a glue cleaning opening 2221 is formed in one side, away from the first glue application window, of the first glue application box 2211; a cover plate is hermetically arranged at the glue cleaning port 2221; a first glue channel 2219 is arranged on the first glue spreading box 2211 corresponding to the first glue spreading window; a glue guide plate 2220 is arranged at the tail end of the first glue passage 2219; an adjustable first gluing guide plate 2222 is further arranged at one side of the first gluing box 2211, which is provided with the first gluing window.

In this embodiment, the glue supplying assembly 22 is separately adopted, when the glue supplying assembly 22 works, firstly, the molten glue is heated and melted through the first heating pipe set 2216, at this time, the molten glue is fully contacted with the first glue applying shaft 2212 in the first glue applying box 2211, the first driving motor 21 is started to drive the first glue applying shaft 2212 to rotate, the side wall of the first glue applying shaft 2212 carries the molten glue to be applied to the edge of the plate, the glue discharging amount is controlled through the first glue door shaft 2217, the uniform glue amount on the first glue applying shaft 2212 is ensured at the same time, when the first glue applying shaft 2212 rotates to the second glue door shaft 2218, glue scraping is realized, the molten glue enters the first glue channel 2219 after glue scraping, and redundant glue is collected through the glue guiding plate 2220 for recycling, so that the cost is saved; the distance between the gluing surface of the plate and the first gluing shaft 2212 is adjusted through the first gluing guide plate 2222, the gluing amount of the plate can be controlled, the gluing is more comprehensive and uniform, the glue storage amount in the first glue storage box 2213 can be detected through the liquid level sensor 2214, and when the glue storage amount is lower than a set value, a signal can be fed back to an alarm system to remind people;

example 3

As shown in fig. 1-2 and 6-8, the present embodiment provides a glue supply mechanism, which includes a frame 1; the frame 1 is sequentially provided with a lower glue supply mechanism 3 and a pressing mechanism 4 from a feeding end to a discharging end; the lower glue supply mechanism 3 comprises a second driving motor 31 and a lower glue supply assembly 32; the lower glue supply assembly 32 is controlled by a second driving motor 31; the second driving motor 31 is arranged inside the frame 1; the lower glue supply assembly 32 is arranged on the outer surface of the frame 1; this embodiment is through supplying gluey mechanism 3 to heat the melten gel melting down, then scribble on the panel edge, fix the banding area at the edge of panel through pressing mechanism 4 at last and accomplish the banding of panel, adopt this structure not only to practice thrift the cost, adjust the convenience to glue the volume enough, do not need frequently to glue, with low costs, efficient.

Specifically, the lower glue supply assembly 32 includes a second support frame 3201; a second fixed block 3202 is symmetrically arranged on the second supporting frame 3201; a second sliding shaft 3203 is arranged on the second fixed block 3202; a second sliding member 3204 is slidably disposed on the second sliding shaft 3203; a second return pressure spring 3205 for returning the second sliding member 3204 is arranged on the second fixed block 3202; a second glue storage box 3206 is mounted on the second sliding member 3204; the second glue storage box 3206 is provided with a second heating tube group 3217.

Specifically, a gluing shield 3207 is mounted at the tail of the second glue storage box 3206; an upper rubber cylinder 3218 is arranged inside the second rubber storage box 3206; a second glue inlet 3221 is formed in the bottom of the gluing cylinder 3218; a second glue storage box 3208 is mounted at the head of the second glue storage box 3206; a second gluing shaft 3210 is mounted on the second gluing box 3208; the second glue coating shaft 3210 penetrates through the gluing cylinder 3218, and the second glue coating shaft 3210 is controlled by a second driving motor 31; a glue outlet 3220 is arranged on the upper cover plate of the second glue storage box 3206 corresponding to the upper glue cylinder 3218.

Specifically, a glue scraping shaft 3213 parallel to the second glue spreading shaft 3210 is further disposed on the second glue spreading box 3208; a top plate 3209 is arranged at the top of the second gluing box 3208; one end of the glue scraping shaft 3213 penetrates through the top plate 3209, and one end of the glue scraping shaft 3213 penetrates through the top plate 3209 and is provided with a rotating block 3211; an adjusting handle 3212 is arranged on the top plate 3209; the adjusting handle 3212 is connected to the rotating block 3211.

Specifically, a second gluing window is arranged on the second gluing box 3208; a rubber scraping sheet 3214 is arranged at one end of the rubber scraping shaft 3213 corresponding to the second rubber coating window; an adjustable second gluing guide plate 3215 is arranged at the second gluing box 3208 corresponding to the second gluing window; a second glue channel 3216 is arranged on the second glue spreading box 3208; an upper cover plate of the second glue storage box 3206 is provided with a glue return port 3219; the glue return port 3219 communicates the second glue passage 3216 with the second glue storage box 3206.

The glue supply assembly 32 is used separately in this embodiment, when the glue supply assembly 32 works, firstly, the melt glue in the second glue storage box 3206 is heated and melted through the second heating tube set 3217, the second driving motor 31 is started to drive the second glue spreading shaft 3210 to rotate, the second glue spreading shaft 3210 rotates to enable the melt glue in the second glue storage box 3206 to enter the glue spreading barrel 3218 through the second glue inlet 3221, and overflows from the glue outlet 3220 to fully contact with the side wall of the second glue coating shaft 3210, at this time, the glue scraping shaft 3213 is adjusted by the adjusting handle 3212, the glue scraping shaft 3213 rotates to drive the glue scraping sheet 3214 to control the glue outlet amount, meanwhile, the glue amount on the second glue coating shaft 3210 is ensured to be uniform, the distance between the glue coating surface of the plate and the second glue coating shaft 3210 is controlled by adjusting the second glue coating guide plate 3215, the glue spreading amount of the plate can be controlled, the glue spreading is more comprehensive and uniform, and redundant molten glue flows into the second glue channel 3216 after the glue spreading and returns to the second glue storage box 3206 through the glue returning opening 3219.

In the description herein, references to the description of the terms "one embodiment," "certain embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. An upper and lower double glue supply mechanism comprises a frame; the method is characterized in that: the frame is sequentially provided with an upper glue supply mechanism, a lower glue supply mechanism and a pressing mechanism from a feeding end to a discharging end; the glue feeding mechanism comprises a first driving motor and a glue feeding assembly; the upper glue supply assembly is controlled by a first driving motor; the lower glue supply mechanism comprises a second driving motor and a lower glue supply assembly; the lower glue supply assembly is controlled by a second driving motor; the first driving motor and the second driving motor are both arranged in the rack; go up and supply gluey subassembly down and all set up in the surface of frame.

2. The upper and lower dual glue supply mechanism of claim 1, wherein said upper glue supply assembly comprises a first support frame mounted on the upper surface of the frame; a first fixing block is symmetrically arranged on one side of the first support frame; a first sliding shaft is arranged on the first fixed block; a first sliding piece is arranged on the first sliding shaft in a sliding manner; and a first reset pressure spring for resetting the first sliding part is arranged on the first fixed block.

3. The upper and lower dual glue supply mechanism as claimed in claim 2, wherein the first support frame is further provided with an adjusting cylinder; a linkage plate is arranged at the piston end of the adjusting cylinder; and a connecting rod connected with the first sliding piece is arranged on the linkage plate.

4. An upper and lower dual glue supply mechanism as claimed in claim 3, wherein the first sliding member is provided with a first right-angle connecting member; the first right-angle connecting piece is connected with a second right-angle connecting piece; a first gluing box is arranged on the second right-angle connecting piece; a first glue storage box is arranged at the top of the first glue coating box; the first glue storage box is provided with a first glue inlet; a liquid level sensor for detecting the glue amount is arranged beside the first glue inlet; and the first glue storage box and the first glue coating box are both provided with a first heating pipe set for heating glue coating.

5. The upper and lower double glue supply mechanism according to claim 4, wherein the first glue box is provided with a first glue application window; a first gluing shaft is rotatably arranged on the first gluing window; the first glue coating shaft is controlled by the first driving motor; the first gluing box is also provided with a first glue door shaft for controlling glue outlet amount and a second glue door shaft for scraping glue.

6. The upper and lower double glue supply mechanism as claimed in claim 5, wherein a glue cleaning opening is formed in one side of the first glue box, which is far away from the first glue application window; a cover plate is hermetically arranged at the glue cleaning opening; a first gluing channel is formed in the first gluing box corresponding to the first gluing window; a glue guide plate is arranged at the tail end of the first glue channel; and an adjustable first gluing guide plate is arranged on one side of the first gluing box, which is provided with the first gluing window.

7. The upper and lower dual glue supply mechanism as claimed in claim 1, wherein said lower glue supply assembly comprises a second support frame; the second support frame is symmetrically provided with second fixed blocks; a second sliding shaft is arranged on the second fixed block symmetrically; a second sliding part is arranged on the second sliding shaft in a sliding manner; a second reset pressure spring for resetting the second sliding part is arranged on the second fixed block; a second glue storage box is arranged on the second sliding part; and a second heating pipe set is arranged on the second glue storage box.

8. The upper and lower double glue supply mechanism according to claim 7, wherein a glue spreading shield is mounted at the tail of the second glue storage box; a glue feeding cylinder is arranged inside the second glue storage box; the bottom of the upper rubber cylinder is provided with a second rubber inlet; the head part of the second glue storage box is provided with a second glue coating box; a second gluing shaft is arranged on the second gluing box; the second glue coating shaft penetrates through the gluing barrel and is controlled by a second driving motor; and a glue outlet is arranged on the upper cover plate of the second glue storage box corresponding to the upper glue cylinder.

9. The upper and lower double glue supply mechanism according to claim 8, wherein the second glue application box is further provided with a glue scraping shaft parallel to the second glue application shaft; a top plate is arranged at the top of the second gluing box; one end of the glue scraping shaft penetrates through the top plate, and a rotating block is arranged at one end of the glue scraping shaft penetrating through the top plate; an adjusting handle is arranged on the top plate; the adjusting handle is connected with the rotating block.

10. The upper and lower double glue supply mechanism of claim 9, wherein the second glue box is provided with a second glue application window; a rubber scraping sheet is arranged on one end, corresponding to the second rubber coating window, of the rubber scraping shaft; the second gluing box is provided with an adjustable second gluing guide plate corresponding to the second gluing window; a second glue channel is arranged on the second glue spreading box; the upper cover plate of the second glue storage box is provided with a glue return opening; the glue return opening is communicated with the second glue channel and the second glue storage box.

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