CN221046462U - Gluing module and edge bonding machine glue pot device - Google Patents

Abstract

The utility model relates to the technical field of edge sealing machines, in particular to a gluing module and an edge sealing machine glue pot device, wherein the gluing module comprises a gluing seat component, a gluing shaft component, a glue returning cutter shaft component, a glue outlet cutter shaft component, a guide plate component and a controller, the gluing shaft component, the glue returning cutter shaft component and the glue outlet cutter shaft component are movably arranged in the gluing seat component in a penetrating mode, the glue returning cutter shaft component and the glue outlet cutter shaft component are located beside the gluing shaft component, the glue sealing machine further comprises a limiting component for limiting a gap between the glue outlet cutter shaft component and the gluing shaft component, one end of the limiting component is connected with the glue returning cutter shaft component, the other end of the limiting component is connected with the glue outlet cutter shaft component, the guide plate component is arranged on the side of the gluing seat component and located beside the gluing shaft component, and the gluing shaft component, the glue returning cutter shaft component and the glue outlet cutter shaft component are all in communication connection with the controller. The gluing module can be used for a glue pot device, can realize a glue throwing function by combining a conventional single-stroke cylinder, and has a compact overall structure and lower cost.

Description

Gluing module and edge bonding machine glue pot device

Technical Field

The utility model relates to the technical field of edge banding machines, in particular to a gluing module and an edge banding machine glue pot device.

Background

The edge sealing operation is an important procedure in the manufacturing process of the plate furniture, and the quality of the edge sealing directly influences the quality, price and grade of the product. The edge sealing operation process of the plate comprises a series of working procedures of pre-milling, preheating, gluing and edge pasting, front and back trimming, rough trimming, finishing, edge scraping, slotting, polishing and the like. The edge of the plate is glued by the glue pot device, and then the edge sealing band and the edge of the plate are pressed together, so that the edge sealing band and the edge of the plate are firmly adhered together. As shown in fig. 18, the glue spreading shaft assembly 2 of the glue pot device rotates anticlockwise, the glue in the glue cavity 106 goes out through a preset glue outlet gap a of the glue outlet shaft 41 to form a uniform glue layer 105 on the outer surface of the glue spreading shaft 21, then returns to the glue cavity 106 again through a preset glue return gap b of the glue return shaft 31, circulates repeatedly, and rolls on the glue spreading shaft after the plate to be sealed is conveyed through the guide plate by the conveying belt, so that the plate edge is glued and then bonded with the edge sealing belt. In the gluing process, wood residues on the surfaces of part of boards can be adhered to the gluing shaft to be brought into the glue cavity, and in the circulating process, the wood residues can be clamped in a gap between the glue doors on the glue outlet shaft occasionally, so that a circle of glue-free state appears on the outer surface of the gluing shaft, and when the wood residues are accumulated more, the outer surface of the gluing shaft can be in a plurality of circles of glue-free states, and the gluing effect of the boards is affected. The problem is solved in the industry by adding the whirl coating function through the glue pot device, namely after a certain number of plates are subjected to edge sealing, the glue outlet cutter shaft is controlled to be opened in a short time, the glue outlet door gap is increased, wood residues are removed by the melt adhesive tape, and the glue outlet cutter shaft is reset to the previous glue door gap.

However, for the glue pot device with a pre-stored glue melting cavity, most of the glue pot devices at present only can realize the functions of automatic glue spreading, glue closing and manual glue discharging, but do not have the function of glue throwing. For the reason, to realize the above 4 functions, the glue outlet cutter shaft must have three-angle stay points, that is, the cylinder for controlling the glue outlet cutter shaft must have three position points, and the glue pot device with the glue melting device currently having the glue throwing function uses a double-stroke cylinder to realize the function, but the cylinder currently used conventionally is of a single stroke, that is, only can control the stroke positions of extending and retracting two limits, and the cylinder cannot stay at the middle position point, so that the glue throwing function cannot be realized in the existing glue pot device conveniently. The double-stroke cylinder can cause the large occupied space of the glue pot device, the whole structure is not compact enough, and meanwhile, the cost of the double-stroke cylinder is higher.

Disclosure of utility model

The utility model aims to overcome the defects of the prior art, and provides a glue spreading module which can be used for a glue pot device and can realize a glue spreading function by combining a conventional single-stroke cylinder, and the whole structure is compact.

In order to solve the technical problems, the utility model adopts the following technical scheme:

The utility model provides a rubber coating module, including rubber coating seat subassembly, rubber coating axle subassembly, back gum arbor subassembly, play gum arbor subassembly and deflector subassembly, controller, rubber coating axle subassembly back gum arbor subassembly go out the equal activity of gum arbor subassembly and wear to establish in rubber coating seat subassembly, back gum arbor subassembly with go out the gum arbor subassembly and all be located rubber coating axle subassembly side, and back gum arbor subassembly and play gum arbor subassembly all can rotate in order to go out the regulation of gum door clearance or back gum door clearance for rubber coating axle subassembly, still include the spacing subassembly that is used for limiting out the clearance between gum arbor subassembly and the gum arbor subassembly, spacing subassembly one end is connected with back gum arbor subassembly, and the other end is connected with out the gum arbor subassembly, the deflector subassembly is installed in rubber coating seat subassembly lateral part and is located rubber coating axle subassembly side, rubber coating arbor subassembly, back gum arbor subassembly and play gum arbor subassembly all with controller communication connection.

The gluing seat assembly is used for installing and fixing the gluing shaft assembly, the glue returning cutter shaft assembly, the glue outlet cutter shaft assembly and the guide plate assembly; the glue spreading shaft assembly drives the glue to follow the glue discharging through autorotation, the glue discharging cutter shaft assembly and the glue returning cutter shaft assembly can rotate relative to the glue spreading shaft assembly, and the gap between the glue discharging door can be controlled by adjusting the relative angle between the glue discharging cutter shaft assembly and the glue spreading shaft assembly, so that the glue discharging amount is controlled; the gap of the glue return door can be controlled by adjusting the relative angle between the glue return cutter shaft assembly and the glue coating shaft assembly, so that the glue return amount is controlled; the guide plate assembly is used for guiding the plate, so that the plate is convenient to glue and seal edges; the controller is used for carrying out overall control, so that the gluing module realizes the functions of gluing and spin coating. Specifically, the spin coating function enables the glue outlet cutter shaft assembly to stably stay at a proper position of a glue outlet gap through the limiting assembly, the position is located at the middle position between the conventional glue outlet gate closing and the glue outlet gate opening, the defect that a single-stroke cylinder cannot stay at the middle of a stroke is overcome, (the single-stroke cylinder stays at the conventional glue outlet gap position when the stroke is maximum, stays at the glue outlet gap zero when the stroke is minimum, namely, the glue outlet gate closing position), and wood residues are convenient to be moved by a melt adhesive tape. The gluing module is applied to the glue pot device of the edge bonding machine, and realizes the function of throwing glue by controlling the gluing shaft assembly, the glue returning cutter shaft assembly and the glue outlet cutter shaft assembly to be mutually matched by using the controller, so that the function of stopping closing the glue door by rotating the glue opening shaft fully automatically is realized, and the problems of glue leakage, inconvenient glue cleaning and the like caused by untimely closing of the glue door of the glue pot device are solved.

Preferably, the limiting assembly comprises a first limiting part and a second limiting part, the first limiting part is arranged on the glue outlet cutter shaft assembly, the second limiting part is arranged on the glue return cutter shaft assembly, and the first limiting part can be clamped and limited with the second limiting part.

Preferably, the glue outlet cutter shaft assembly comprises a glue outlet cutter shaft, a glue outlet cutter shaft swinging rod, a glue outlet cutter shaft push rod and a first air cylinder, wherein the glue outlet cutter shaft swinging rod is arranged on the glue outlet cutter shaft, and the glue outlet cutter shaft movably penetrates through the glue coating seat assembly; the rubber outlet cutter shaft push rod is connected with the first cylinder, the rubber outlet cutter shaft push rod is also connected with the rubber outlet cutter shaft swing rod in a sliding mode, and the first limiting part is located on the rubber outlet cutter shaft push rod.

Preferably, a first waist groove is formed in the oscillating bar of the gum discharging cutter shaft, a first pin shaft is arranged at the end part of the pushing rod of the gum discharging cutter shaft, and the first pin shaft is in sliding connection with the first waist groove.

Preferably, the glue returning cutter shaft assembly comprises a glue returning cutter shaft, a glue returning cutter shaft swinging rod, a glue returning cutter shaft push rod and a second air cylinder, wherein the glue returning cutter shaft swinging rod is arranged on the glue returning cutter shaft, and the glue returning cutter shaft movably penetrates through the glue spreading seat assembly; the glue returning cutter shaft push rod is connected with the second cylinder, the glue returning cutter shaft push rod is also connected with the glue returning cutter shaft swing rod in a sliding mode, and the second limiting part is located on the glue returning cutter shaft push rod.

Preferably, a second waist groove is formed in the swing rod of the glue returning cutter shaft, a second pin shaft is arranged at the end part of the push rod of the glue returning cutter shaft, and the second pin shaft is in sliding connection with the second waist groove.

Preferably, the first limiting part is a groove, and the second limiting part is a protrusion; or the first limiting part is a bulge, and the second limiting part is a groove.

Preferably, the glue outlet cutter shaft swing rod is positioned at the top of the glue outlet cutter shaft, and the glue return cutter shaft swing rod is positioned at the top of the glue return cutter shaft.

Preferably, the glue return cutter shaft is arranged in a hollow mode, and a melt glue runner is arranged in the hollow glue return cutter shaft.

The utility model also provides an edge bonding machine glue pot device which comprises a glue melting module, the glue coating module and the connecting shaft module which are sequentially arranged from top to bottom, wherein the glue melting module is communicated with the glue coating module, and the edge bonding machine glue pot device further comprises a mounting connecting plate which is arranged on the side part of the glue coating module.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The stop piece enables the glue outlet cutter shaft assembly to stay at a proper position of a glue outlet door gap stably, so that an automatic glue throwing function is conveniently realized, and the situation that the glue is poorly coated due to the wood slag glue blocking door is greatly improved;

(2) The gluing module has compact structure and is easy and simple to install and debug.

Drawings

Fig. 1 is a schematic structural diagram of a glue module according to a first view angle of the present utility model;

FIG. 2 is a schematic structural view of the present utility model's return arbor assembly;

FIG. 3 is a schematic view of the structure of the present arbor assembly;

FIG. 4 is a schematic view of a second view of a glue module according to the present utility model;

fig. 5 is a schematic structural diagram of a glue module in a glue closing state according to the present utility model;

FIG. 6 is a cross-sectional view B-B of FIG. 4 in the adhesive off state;

Fig. 7 is a schematic structural diagram of the glue module in a glue cleaning state according to the present utility model;

FIG. 8 is a cross-sectional view B-B of FIG. 4 in a clear state;

Fig. 9 is a schematic structural diagram of a glue module in a spin-coating state according to the present utility model;

FIG. 10 is a sectional view B-B in FIG. 4 in a spin-coating state;

FIG. 11 is a schematic diagram of a glue module according to the present utility model in a glue state;

FIG. 12 is a cross-sectional view B-B of FIG. 4 in a rubberized state;

FIG. 13 is a schematic view of a glue station assembly according to the present utility model;

FIG. 14 is a C-C cross-sectional view in 13;

FIG. 15 is a cross-sectional view A-A of FIG. 1;

FIG. 16 is a schematic view of an edge banding machine cauldron apparatus according to the utility model;

FIG. 17 is a partial cross-sectional view of D-D of FIG. 16;

FIG. 18 is a schematic diagram of the operation of a prior art melt adhesive module.

The graphic indicia are illustrated as follows:

1. A glue spreading seat assembly; 11. a transition mounting plate; 12. a gluing seat; 2. a glue spreading shaft assembly; 21. a gluing shaft; 22. a copper sleeve is arranged; 23. an upper sealing ring; 24. a lower sealing ring; 25. a lower copper sleeve; 26. a bearing; 3. a glue return cutter shaft assembly; 31. a glue return cutter shaft; 311. a melt adhesive flow passage; 32. a glue return cutter shaft swing rod; 321. a second waist groove; 33. a rubber return cutter shaft push rod; 331. a second pin; 34. a second cylinder; 4. a glue outlet cutter shaft assembly; 41. a glue outlet cutter shaft; 42. a glue outlet cutter shaft swing rod; 421. a first waist groove; 43. a rubber cutter shaft push rod; 431. a first pin; 44. a first cylinder; 45. a glue outlet gap adjusting screw; 46. pre-tightening the nut; 47. a disc spring set; 48. rotation limiting screws; 5. a guide plate assembly; 6. a limit component; 61. a first limit part; 62. a second limit part; 101. a melt adhesive module; 102. a gluing module; 103. a connecting shaft module; 104. installing a connecting plate; 105. a melt adhesive layer; 106. a glue cavity; 107. a sheet material; a is a glue outlet gap; and b is the gap between the glue return doors.

Detailed Description

The utility model is further described below in connection with the following detailed description. Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the utility model, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numbers in the drawings of embodiments of the utility model correspond to the same or similar components; in the description of the present utility model, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present utility model and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

Example 1

Referring to fig. 1 to 14, a first embodiment of a glue module according to the present utility model includes a glue base assembly 1, a glue shaft assembly 2, a glue returning cutter shaft assembly 3, a glue outlet cutter shaft assembly 4, a guide plate assembly 5, and a controller, wherein the glue shaft assembly 2, the glue returning cutter shaft assembly 3, and the glue outlet cutter shaft assembly 4 are movably disposed in the glue base assembly 1, the glue returning cutter shaft assembly 3 and the glue outlet cutter shaft assembly 4 are disposed beside the glue shaft assembly 2, the glue returning cutter shaft assembly 3 and the glue outlet cutter shaft assembly 4 can rotate relative to the glue shaft assembly 2 to adjust a glue outlet door gap a or a glue returning door gap b, and the glue module further includes a limiting assembly 6 for limiting a gap between the glue outlet cutter shaft assembly 4 and the glue shaft assembly 2, one end of the limiting assembly 6 is connected with the glue returning cutter shaft assembly 3, the other end of the limiting assembly 6 is connected with the glue outlet cutter shaft assembly 4, the guide plate assembly 5 is disposed beside the glue base assembly 1 and beside the glue outlet cutter shaft assembly 2, and the glue returning cutter shaft assembly 3 and the glue outlet cutter shaft assembly 4 are all connected with the controller in communication.

At present, almost all glue pot devices realize gluing, throwing, closing and cleaning by controlling a glue return door gap b and a glue outlet door gap a. The gap of the glue outlet door in the preset gluing state is a constant A, and the gap of the glue return door in the gluing state is a constant B. When the glue outlet gap is a=0 and the glue return gap is b=0, the glue pot device is in a glue closing state; when the glue outlet gap a is more than A and the glue return knife gap b=B, the glue pot device is in a spin-coating state; when the glue outlet gap a is more than or equal to A, the glue return knife gap is b=0, and the glue pot device is in a glue cleaning state.

As an embodiment of the present utility model, the limiting assembly 6 includes a first limiting portion 61 and a second limiting portion 62, the first limiting portion 61 is disposed on the glue outlet arbor assembly 4, the second limiting portion 62 is disposed on the glue return arbor assembly 3, and the first limiting portion 61 and the second limiting portion 62 can be clamped and limited.

The first limiting part 61 and the second limiting part 62 are clamped and limited, so that the glue outlet cutter shaft assembly 4 stably stays at a proper position of a glue outlet door gap a, a is larger than A, an automatic glue throwing function is conveniently realized, and the situation that the glue coating is poor due to the wood slag glue blocking door is greatly improved. Preferably, the first limiting portion 61 is a groove, and the second limiting portion 62 is a protrusion; or the first limiting part 61 is a protrusion, and the second limiting part 62 is a groove.

As one embodiment of the utility model, the glue outlet cutter shaft assembly 4 comprises a glue outlet cutter shaft 41, a glue outlet cutter shaft swinging rod 42, a glue outlet cutter shaft push rod 43 and a first cylinder 44, wherein the glue outlet cutter shaft swinging rod 42 is arranged on the glue outlet cutter shaft 41, and the glue outlet cutter shaft 41 movably penetrates through the glue coating seat assembly 1; the glue outlet cutter shaft push rod 43 is connected with the first cylinder 44, specifically, the glue outlet cutter shaft push rod 43 is arranged at the movable end of the first cylinder 44, the glue outlet cutter shaft push rod 43 is also connected with the glue outlet cutter shaft swing rod 42 in a sliding manner, and the first limiting part 61 is positioned on the glue outlet cutter shaft push rod 43. Preferably, the glue outlet cutter shaft swing rod 42 is positioned at the top of the glue outlet cutter shaft 41; wherein, a first waist groove 421 is provided on the oscillating bar 42 of the glue outlet arbor, a first pin 431 is provided at the end of the push rod 43 of the glue outlet arbor, and the first pin 431 is slidably connected with the first waist groove 421.

The controller controls the first cylinder 44 to act so as to drive the rubber cutter shaft push rod 43 to extend or retract, the rubber cutter shaft push rod 43 drives the first pin shaft 431 to relatively slide in the first waist groove 421 of the rubber cutter shaft swing rod 42, the rubber cutter shaft 41 is driven to rotate, the rubber cutter shaft 41 is of an incomplete cylindrical structure, a rubber outlet door is formed between the tangent plane end of the rubber cutter shaft 41 and the rubber cutter shaft assembly 2, the rotating angle of the rubber cutter shaft 41 is controlled, and therefore the change of a rubber door gap a is realized, when the first cylinder 44 is at the maximum stroke position, the rubber cutter shaft push rod 43 is in an extending state, and the rubber outlet door is opened at the moment and is kept at a normal rubber outlet gap; when the first cylinder 44 is at the minimum stroke position, the rubber outlet cutter shaft push rod 43 is in a retracted state, and the rubber outlet door is closed at the moment.

As one embodiment of the utility model, the glue returning cutter shaft assembly 3 comprises a glue returning cutter shaft 31, a glue returning cutter shaft swinging rod 32, a glue returning cutter shaft push rod 33 and a second air cylinder 34, wherein the glue returning cutter shaft swinging rod 32 is arranged on the glue returning cutter shaft 31, and the glue returning cutter shaft 31 movably penetrates through the glue spreading seat assembly 1; the glue returning cutter shaft push rod 33 is connected with the second air cylinder 34, specifically, the glue returning cutter shaft push rod 33 is connected with the movable end of the second air cylinder 34, the glue returning cutter shaft push rod 33 is also connected with the glue returning cutter shaft swing rod 32 in a sliding manner, and the second limiting part 62 is located on the glue returning cutter shaft push rod 33. Preferably, the glue return cutter shaft swing rod 32 is positioned at the top of the glue return cutter shaft 31; wherein, a second waist groove 321 is arranged on the swing rod 32 of the glue returning cutter shaft, a second pin shaft 331 is arranged at the end part of the push rod 33 of the glue returning cutter shaft, and the second pin shaft 331 is in sliding connection with the second waist groove 321.

The structure and action principle of the back-up arbor assembly 3 are similar to those of the glue-out arbor assembly 4, specifically, the controller controls the second air cylinder 34 to act, so that the back-up arbor push rod 33 is driven to extend or retract, the back-up arbor push rod 33 drives the second pin shaft 331 to slide relatively in the second waist groove 321 of the back-up arbor swing rod 32, so that the back-up arbor 31 is driven to rotate, the back-up arbor 31 is also of an incomplete cylindrical structure, a back-up door is formed between the tangential end of the back-up arbor 31 and the glue-out arbor assembly 2, the rotation angle of the back-up arbor 31 is controlled, so that the change of the back-up door gap b is realized, when the second air cylinder 34 is at the minimum stroke position, the back-up door is opened at the moment, and kept at the normal back-up gap, meanwhile, when the first air cylinder 44 drives the back-out arbor push rod 43 to retract, the back-out arbor assembly 4 stays stably at the proper position of the back-out door gap a by means of the clamping of the first limiting part 61 and the second limiting part 62, and the position a is larger than A, the position is located between the conventional back-up door and the middle position can realize the function of throwing. When the second cylinder 34 is at the maximum stroke position, the adhesive return cutter shaft push rod 33 is in an extending state, and at the moment, the adhesive return door is closed.

As an embodiment of the present utility model, the glue spreading shaft assembly 2 includes a glue spreading shaft 21, the glue spreading shaft 21 movably penetrates through the glue spreading seat assembly 1, an upper copper sleeve 22 and an upper sealing ring 23 are respectively installed at the upper end of the glue spreading shaft 21, a lower sealing ring 24 and a lower copper sleeve 25 are respectively installed at the lower end of the glue spreading shaft 21, and a bearing 26 is also sleeved. The gluing seat assembly 1 comprises a transition mounting plate 11 and a gluing seat 12, wherein the transition mounting plate 11 is arranged on the gluing seat 12, the glue outlet cutter shaft assembly 4 further comprises a glue outlet gap adjusting screw 45, a pre-tightening nut 46 and a disc spring group 47 which are sleeved on the glue outlet gap adjusting screw in a penetrating mode, the glue outlet gap adjusting screw, the pre-tightening nut 46 and the disc spring group 47 are sleeved on the side portion of the transition mounting plate 11 in sequence and further comprises a rotation limiting screw 48, and the rotation limiting screw 48 penetrates into the transition mounting plate 11 and compresses the pre-tightening nut 46, so that the glue outlet gap adjusting screw 45 is kept not loose in the working process.

As an embodiment of the present utility model, the guide plate assembly 5 has a plate-shaped structure with a certain inclination angle, and the guide plate assembly 5 is mounted on the glue spreading seat 12 and located at the side of the glue spreading seat assembly 1 and located at the side of the glue spreading shaft assembly 2, and the plate material clings to the guide plate assembly 5 when being glued, so as to play a role in guiding the plate material in the glue spreading process.

Example 2

Fig. 15 is a second embodiment of a glue module according to the present utility model, which is similar to embodiment 1, except that the glue returning arbor 31 is hollow, and the glue flow channel 311 is provided in the hollow glue returning arbor 31.

The axis of the glue return cutter shaft 31 is provided with a glue flow channel 311, and the glue flow channel 311 is connected with a glue outlet of the glue melting module 101 to form a vertical glue channel, so that glue cleaning and glue changing can be facilitated.

Example 3

Fig. 16 and 17 show an embodiment of an edge bonding machine glue pot device according to the present utility model, which includes a glue module 101, a glue spreading module 102 and a connecting shaft module 103, wherein the glue module 101 is communicated with the glue spreading module 102, and further includes a mounting connection board 104, and the mounting connection board 104 is mounted on a side portion of the glue spreading module 102.

The glue melting module 101 is used for melting solid hot melt glue particles or carrying out heat preservation and heating on the poured melted glue so as to enable the glue to reach a proper working temperature; the gluing module 102 is used for smearing glue on the plate, and the connecting shaft module 103 is used for connecting the gluing module 102 and the driving motor; the mounting connection plate 104 is used for mounting and fixing the whole device, so that the edge bonding machine glue pot device is convenient to connect with the outside.

The installation connecting plate 104 is provided with an opening waist slot, when the installation connecting plate 104 is in butt joint installation with the edge bonding machine, after the installation connecting plate 104 is installed and fixed, the height adjusting screw is only required to be inserted into the opening waist slot, the main body of the adhesive pot device can be hung on the installation connecting plate 104 without supporting, and at the moment, the main body of the adhesive pot device can be easily fixed on the installation connecting plate 104 by using the fastening screw to finish installation.

It is to be understood that the above examples of the present utility model are provided by way of illustration only and not by way of limitation of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (10)

1. The utility model provides a rubber coating module, its characterized in that includes rubber coating seat subassembly (1), rubber coating axle subassembly (2), returns gluey arbor subassembly (3), goes out gluey arbor subassembly (4) and deflector subassembly (5), controller, rubber coating axle subassembly (2) return gluey arbor subassembly (3) go out gluey arbor subassembly (4) all activity wear to establish in rubber coating seat subassembly (1), return gluey arbor subassembly (3) with go out gluey arbor subassembly (4) all are located rubber coating axle subassembly (2) side, and return gluey arbor subassembly (3) and go out gluey arbor subassembly (4) all can rotate in order to go out gluey door clearance a or return gluey door clearance b's regulation for rubber coating axle subassembly (2), still include limiting component (6) that are used for restricting the clearance between gluey arbor subassembly (4) and the rubber coating axle subassembly (2), limiting component (6) one end is connected with return gluey arbor subassembly (3), and the other end is connected with play gluey arbor subassembly (4), deflector subassembly (5) are installed in rubber coating seat subassembly (1) lateral part and glue outlet arbor subassembly (2) and are located glue applicator subassembly (2) side, all are connected with communication and glue outlet arbor subassembly (4).

2. The gluing module according to claim 1, wherein the limiting assembly (6) comprises a first limiting portion (61) and a second limiting portion (62), the first limiting portion (61) is arranged on the glue outlet cutter shaft assembly (4), the second limiting portion (62) is arranged on the glue return cutter shaft assembly (3), and the first limiting portion (61) can be clamped and limited with the second limiting portion (62).

3. The gluing module according to claim 2, wherein the glue outlet cutter shaft assembly (4) comprises a glue outlet cutter shaft (41), a glue outlet cutter shaft swinging rod (42), a glue outlet cutter shaft push rod (43) and a first cylinder (44), the glue outlet cutter shaft swinging rod (42) is arranged on the glue outlet cutter shaft (41), and the glue outlet cutter shaft (41) movably penetrates through the gluing seat assembly (1); the rubber cutter shaft pushing rod (43) is connected with the first cylinder (44), the rubber cutter shaft pushing rod (43) is further connected with the rubber cutter shaft swinging rod (42) in a sliding mode, and the first limiting part (61) is located on the rubber cutter shaft pushing rod (43).

4. A glue module according to claim 3, wherein a first waist groove (421) is provided on the glue outlet arbor swinging rod (42), a first pin shaft (431) is provided at the end of the glue outlet arbor swinging rod (43), and the first pin shaft (431) is slidably connected with the first waist groove (421).

5. The gluing module according to claim 3 or 4, wherein the glue returning cutter shaft assembly (3) comprises a glue returning cutter shaft (31), a glue returning cutter shaft swinging rod (32), a glue returning cutter shaft push rod (33) and a second cylinder (34), the glue returning cutter shaft swinging rod (32) is arranged on the glue returning cutter shaft (31), and the glue returning cutter shaft (31) movably penetrates through the gluing seat assembly (1); the glue returning cutter shaft push rod (33) is connected with the second air cylinder (34), the glue returning cutter shaft push rod (33) is further connected with the glue returning cutter shaft swing rod (32) in a sliding mode, and the second limiting part (62) is located on the glue returning cutter shaft push rod (33).

6. The gluing module according to claim 5, wherein a second waist groove (321) is arranged on the back glue cutter shaft swinging rod (32), a second pin shaft (331) is arranged at the end part of the back glue cutter shaft pushing rod (33), and the second pin shaft (331) is in sliding connection with the second waist groove (321).

7. Gluing module according to claim 6, characterized in that the first limit portion (61) is a groove and the second limit portion (62) is a protrusion; or the first limiting part (61) is a bulge, and the second limiting part (62) is a groove.

8. The gluing module according to claim 5, wherein the glue exiting arbor oscillating bar (42) is located at the top of the glue exiting arbor (41), and the glue returning arbor oscillating bar (32) is located at the top of the glue returning arbor (31).

9. Gluing module according to claim 5, characterized in that the glue return arbor (31) is arranged hollow, and that a melt glue flow channel (311) is provided in the hollow glue return arbor (31).

10. The utility model provides a bag sealer cauldron device which characterized in that includes from last melt adhesive module that sets gradually down

(101) The glue application module (102), the connecting shaft module (103) according to any one of claims 1 to 9, wherein the glue application module (101) is in communication with the glue application module (102), and further comprising a mounting connection plate (104), wherein the mounting connection plate (104) is mounted on the side of the glue application module (102).