CN220425757U - Inclined type glue discharging mechanism - Google Patents

Abstract

The utility model discloses an inclined glue outlet mechanism, which comprises a base, wherein a glue spreader is arranged on the base, and the base and the glue spreader are both arranged in an inclined manner; the base is provided with a glue inlet flow passage, the glue inlet flow passage comprises at least one inlet, each glue inlet flow passage is provided with a glue inlet joint, and the glue inlet flow passage inlet and the glue inlet joint are arranged at the lower part of the base; the outlet of the glue inlet flow channel is arranged near the upper part of the glue spreader, and the outlet of the glue inlet flow channel faces the glue spreader. According to the utility model, the special-shaped plate with the inclined angle can be subjected to gluing processing through the inclined base and the inclined glue spreader.

Description

Inclined type glue discharging mechanism

Technical Field

The utility model relates to the technical field of gluing, in particular to an inclined glue outlet mechanism.

Background

A spreading machine, also called a coater, is a mechanical device mainly used for applying liquid glue on the surface of a board, textile, paper box or leather.

The current spreading machine is generally vertical or horizontal, and vertical spreading machine generally adopts the vertical state to use, and horizontal spreading machine generally adopts the horizontality to use, and for the special-shaped panel that has inclination, vertical or horizontal spreading machine is difficult to process it.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides the inclined glue discharging mechanism which can be used for gluing the special-shaped plate with the inclined angle.

The utility model is realized by adopting the following technical scheme:

the inclined glue outlet mechanism comprises a base, wherein a glue spreader is arranged on the base, and the base and the glue spreader are obliquely arranged;

the base is provided with a glue inlet flow passage, the glue inlet flow passage comprises at least one inlet, each glue inlet flow passage is provided with a glue inlet joint, and the glue inlet flow passage inlet and the glue inlet joint are arranged at the lower part of the base;

the outlet of the glue inlet flow channel is arranged near the upper part of the glue spreader, and the outlet of the glue inlet flow channel faces the glue spreader.

In a preferred implementation, the inclined glue discharging mechanism further comprises a frame, wherein the frame is provided with a first connecting end which is transversely arranged and a second connecting end which is obliquely arranged, and the second connecting end is connected with the base.

In a preferred embodiment, the outlet of the glue inlet channel is arranged at a higher position than the inlet of the glue inlet channel.

In a preferred embodiment, the base is provided with a striker plate, which is arranged outside the glue roller.

In a preferred embodiment, the base is rotatably coupled to the applicator, which is driven in rotation by a first drive mechanism comprising a motor or cylinder.

In a preferred implementation, an adjusting shaft is rotationally connected between the outlet of the glue inlet flow channel and the glue spreader, and the adjusting shaft is driven to rotate by a second driving mechanism, wherein the second driving mechanism comprises a motor or a cylinder;

one side of the adjusting shaft is provided with a bulge, and the adjusting shaft is rotated to enable the bulge to be close to or far away from the glue spreader, so that the distance between the adjusting shaft and the glue spreader is adjusted;

glue outlet cavities are formed among the base, the adjusting shafts and the glue spreading rollers, glue is contained in the glue outlet cavities, the glue enters the glue outlet cavities through outlets of the glue inlet flow channels, and the glue in the glue outlet cavities is coated on the surfaces of the glue spreading rollers through gaps between the adjusting shafts and the glue spreading rollers.

In a preferred implementation, a switch valve is arranged between the glue inlet flow channel and the glue inlet joint, the switch valve is arranged at the lower part of the base, and the switch valve is used for opening and closing a channel between the glue inlet flow channel and the glue inlet joint.

In a preferred implementation, the base is provided with a receiving groove, the receiving groove is arranged at the lower part of the glue spreader, the receiving groove is connected with the guide plate, a guide port is arranged between the receiving groove and the guide plate, the receiving groove is used for receiving redundant glue, and the redundant glue overflows out through the receiving groove, the guide port and the guide plate.

In a preferred implementation, a gluing station is arranged on the base, the gluing station is used for placing plates, an adjusting plate is arranged on one side of the gluing station, a linear rail is arranged on the base, and the adjusting plate is arranged in the linear rail;

the adjusting plate is driven by a third driving mechanism to do linear motion, the third driving mechanism comprises a feed screw, a threaded hole for being matched with the feed screw is formed in the base, an annular flange is arranged at the end part of the feed screw, a groove is formed in the end part of the adjusting plate, and the feed screw is rotationally connected with the adjusting plate through the annular flange and the groove;

the adjusting plate is driven by the third driving mechanism to approach or separate from the glue spreading roller along the linear track.

In a preferred embodiment, the base is provided with at least one heating tube for indirectly heating the glue;

and/or at least one heating pipe is arranged on the glue spreading roller and used for indirectly heating the glue.

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

1. according to the utility model, the special-shaped plate with the inclined angle can be subjected to gluing processing through the inclined base, the inclined glue spreader and the rack with the inclined second connecting end.

2. The glue inlet connector is arranged at the lower part of the base, so that the glue inlet connector is prevented from protruding out of the upper part of the base, the connection between the upper part of the base and other parts is facilitated, and mutual interference is avoided.

3. The setting position of the outlet of the glue inlet flow channel is higher than that of the inlet of the glue inlet flow channel, so that the glue outlet speed of the glue inlet flow channel is controlled, and the waste of glue is prevented.

4. According to the utility model, the adjusting shaft is rotated to enable the protrusions to be close to or far away from the glue spreader, so that the distance between the adjusting shaft and the glue spreader is adjusted, the thickness of glue coated on the surface of the glue spreader can be adjusted, and the plate with different glue coating requirements is adapted.

5. According to the utility model, the heating pipe is arranged to heat the base, so that the glue in the glue inlet flow channel is indirectly heated, or the heating pipe is arranged to heat the glue spreader, so that the glue coated on the surface of the glue spreader is indirectly heated, and the glue is prevented from being solidified.

6. According to the utility model, the dam plate is arranged outside the glue spreading roller, so that glue can be prevented from splashing.

Drawings

FIG. 1 is a schematic view of the present utility model in use.

Fig. 2 is a schematic structural view of the first view angle of the present utility model.

Fig. 3 is a schematic structural view of the second view angle of the present utility model.

Fig. 4 is an exploded view of the present utility model.

Fig. 5 is a schematic structural view of the adjusting shaft of the present utility model.

Fig. 6 is a schematic view of the internal structure of the present utility model.

Fig. 7 is a schematic view of the internal structure of the present utility model.

In the figure:

the device comprises a base, a 2-glue applicator, a 3-glue inlet channel, a 31-inlet, a 32-outlet, a 4-glue inlet joint, a 5-frame, a 51-first connecting end, a 52-second connecting end, a 6-baffle plate, a 7-first driving mechanism, an 8-adjusting shaft, a 9-second driving mechanism, a 10-glue outlet cavity, an 11-switching valve, a 12-receiving groove, a 13-guide plate, a 14-guide opening, a 15-glue application station, a 16-adjusting plate, a 17-linear rail, a 18-third driving mechanism, a 181-feed screw, a 182-annular flange, a 19-groove, a 20-heating pipe and an a-plate.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and detailed description below:

in the description of the present utility model, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

As shown in fig. 1-7, the utility model provides an inclined glue outlet mechanism, which comprises a base 1, wherein a glue spreader 2 is arranged on the base 1, and the base 1 and the glue spreader 2 are both arranged in an inclined manner;

the base 1 is provided with a glue inlet flow channel 3, the glue inlet flow channel 3 comprises at least one inlet 31, the inlet 31 of each glue inlet flow channel 3 is provided with a glue inlet joint 4, and the inlet 31 of the glue inlet flow channel 3 and the glue inlet joint 4 are arranged at the lower part of the base 1; the outlet 32 of the glue inlet channel 3 is arranged near the upper position of the glue spreader 2, and the outlet 32 of the glue inlet channel 3 faces the glue spreader 2; the upper part, the middle part and the lower part of the glue spreader 2 are coated with glue.

The angle of the base 1 and the glue spreader 2 which are obliquely arranged relative to the horizontal plane can be 0 degree to 90 degrees, not including 0 degree and 90 degrees, but can be 30 degrees, 45 degrees and 60 degrees, preferably 45 degrees, and of course, the mechanism can be used at 0 degree and 90 degrees, and is selected according to practical application scenes, and is not limited to the above.

Based on the structure, the special-shaped plate with the inclination angle can be subjected to gluing processing.

The base 1 can be formed by splicing a plurality of base bodies, and the base 1 can also be integrally manufactured according to actual application scenes and requirements; for the base 1 formed by splicing a plurality of base bodies, the glue inlet flow channel 3 is formed by a plurality of mutually communicated flow channels, the mutually communicated flow channels can be arranged on the base bodies, and the glue inlet connector 4 can also be arranged on the base body positioned at the lowest part, so that the glue inlet connector is not limited.

The surface of the glue spreader 2 is provided with a sliding surface area and a concave surface area, and the sliding surface area and the concave surface area are provided with at least one section, so that the glue spreader 2 can glue the board according to different glue amounts adhered on the sliding surface area and the concave surface area, and different glue amount requirements of different positions of the board are met.

In this embodiment, an inclined glue discharging mechanism further includes a frame 5, where the frame 5 has a first connection end 51 disposed transversely and a second connection end 52 disposed obliquely, and the second connection end 52 is connected to the base 1; thereby, the frame 5 is connected with the obliquely arranged base 1 and the obliquely arranged glue spreader 2, the support is provided for the base 1 and the glue spreader 2, and the frame 5 is connected with a glue outlet machine or other equipment through the first connecting end 51.

In this embodiment, the setting position of the outlet 32 of the glue inlet channel 3 is higher than the setting position of the inlet 31 of the glue inlet channel 3, which is beneficial to controlling the glue outlet speed of the glue inlet channel 3 and preventing waste of glue.

In this embodiment, the glue inlet flow channel 3 is formed by mutually communicating multiple sections of flow channels, the flow channels communicated with the outlet 32 of the glue inlet flow channel 3 are transversely arranged or obliquely arranged, and the rest flow channels can be transversely arranged, longitudinally arranged or obliquely arranged.

In this embodiment, be provided with striker plate 6 on the base 1, striker plate 6 sets up in the outside of glue spreader 2, and striker plate 6 is whole to be "L" style of calligraphy, or striker plate 6 wholly is "U" style of calligraphy, and striker plate 6's setting is in order not to interfere other parts, and striker plate 6 can avoid glue to splash in the outside.

In this embodiment, the base 1 is rotatably connected to the applicator 2, and the applicator 2 is driven to rotate by a first driving mechanism 7, the first driving mechanism 7 comprising a motor or a cylinder.

In this embodiment, taking the first driving mechanism 7 as an example, the output shaft of the motor is connected with the shaft part of the glue spreader 2, and the glue spreader 2 is driven to rotate by the rotation of the motor; the glue spreader 2 is rotatably connected with the base 1 through a bearing, so that the base 1 provides supporting force for the glue spreader 2 and does not influence the relative rotation of the glue spreader 2.

Specifically, the whole base 1 is approximately ㄈ -shaped, the gluing shaft is rotatably arranged at the opening of the base 1, and the base 1 can provide supporting force for the gluing roller 2 and avoid interference with the gluing roller 2.

In the embodiment, an adjusting shaft 8 is rotatably connected between an outlet 32 of the glue inlet flow channel 3 and the glue spreader 2, the adjusting shaft 8 is driven to rotate by a second driving mechanism 9, and the second driving mechanism 9 comprises a motor or a cylinder; a protrusion is arranged on one side of the adjusting shaft 8, and the adjusting shaft 8 rotates to enable the protrusion to be close to or far away from the glue spreader 2, so that the distance between the adjusting shaft 8 and the glue spreader 2 is adjusted; glue outlet cavity 10 is formed among base 1, adjusting shaft 8 and glue spreader 2, glue is contained in glue outlet cavity 10, glue enters glue outlet cavity 10 through outlet 32 of glue inlet runner 3, and glue in glue outlet cavity 10 coats the surface of glue spreader 2 through the gap between adjusting shaft 8 and glue spreader 2.

Wherein the outlet 32 of the glue inlet channel 3 is arranged outside the rotation range of the adjusting shaft 8, that is, the rotation of the adjusting shaft 8 does not affect the size of the outlet 32 of the glue inlet channel 3.

The adjusting shaft 8 is rotatably connected with the base 1 through a bearing, so that the base 1 provides supporting force for the adjusting shaft 8 and does not influence the relative rotation of the glue spreader 2; the adjusting shaft 8 is rotatably arranged at the opening of the adjusting shaft, and the structure of the base 1 can provide supporting force for the adjusting shaft 8 and avoid interference with the adjusting shaft 8.

In this embodiment, taking the second driving mechanism 9 as an example, the tail of the cylinder body of the cylinder is rotationally connected with the base 1 through a hinge, the telescopic rod of the cylinder is rotationally connected with one end of the rotating rod through a hinge, the other end of the rotating rod is fixedly connected with the shaft part of the adjusting shaft 8, the cylinder can rotate, the telescopic rod of the cylinder stretches out, the rotating rod rotates positively, so as to drive the adjusting shaft 8 to rotate positively, the telescopic rod of the cylinder retracts, the rotating rod rotates reversely, so as to drive the adjusting shaft 8 to rotate reversely, the rotating angle of the adjusting shaft 8 is determined according to the stroke of the telescopic rod of the cylinder, and the rotating angle of the adjusting shaft 8 is limited by limiting the stroke of the telescopic rod of the cylinder.

In other embodiments, the second driving mechanism 9 comprises a motor, in particular a reversible motor; when the motor is adopted, an output shaft of the motor is connected with a shaft part of the adjusting shaft 8, the adjusting shaft 8 is driven to rotate forward or reversely through forward rotation and reverse rotation of the motor, the rotation angle of the adjusting shaft 8 is determined by the angle of the forward rotation and reverse rotation of the motor, and the rotation angle of the adjusting shaft 8 is defined by limiting the angle of the forward rotation and the reverse rotation of the motor.

Based on the structure, in the forward rotation process of the adjusting shaft 8, the bulge on the adjusting shaft 8 is gradually far away from the glue spreader 2, so that the gap between the adjusting shaft 8 and the glue spreader 2 is gradually increased, and the thickness of the glue coated on the surface of the glue spreader 2 is also gradually increased; in the process of reversely rotating the adjusting shaft 8, the bulges on the adjusting shaft 8 are gradually close to the glue spreader 2, so that the gap between the adjusting shaft 8 and the glue spreader 2 is gradually reduced, and the thickness of the glue coated on the surface of the glue spreader 2 is also gradually reduced; when the bulge on the adjusting shaft 8 is completely abutted against the glue spreader 2, the glue coated on the surface of the glue spreader 2 is at a minimum state; the adjusting process realizes the adjustment of the thickness of the glue coated on the surface of the glue spreader 2, and adapts to the boards with different glue coating amount requirements.

As shown in fig. 6 to 7, in the present embodiment, an on-off valve 11 is disposed between the glue inlet flow channel 3 and the glue inlet joint 4, the on-off valve 11 is disposed at the lower part of the base 1, and the on-off valve 11 is used for opening and closing a channel between the glue inlet flow channel 3 and the glue inlet joint 4.

Wherein, the switch valve 11 can adopt the cylinder, and the telescopic link of this cylinder inserts into gluey runner 3, and when the telescopic link of this cylinder stretches out and inserts into gluey runner 3 completely, the gluey runner 3 of advance of this position department closes, and when the telescopic link of this cylinder is retracted and is kept away from gluey runner 3 completely, the gluey runner 3 of advance of this position department opens to the biggest, and the gluey runner 3 size of advance of this position department is controlled according to the degree that the telescopic link of this cylinder inserted into gluey runner 3 to realize controlling the volume of advancing of glue.

In this embodiment, the base 1 is provided with a receiving groove 12, the receiving groove 12 is disposed at the lower part of the glue spreader 2, the receiving groove 12 is connected with a guide plate 13, a guide opening 14 is disposed between the receiving groove 12 and the guide plate 13, the receiving groove 12 is used for receiving the excessive glue, and the excessive glue overflows out through the receiving groove 12, the guide opening 14 and the guide plate 13.

In the embodiment, a gluing station 15 is arranged on a base 1, the gluing station 15 is used for placing a plate, an adjusting plate 16 is arranged on one side of the gluing station 15, a linear rail 17 is arranged on the base 1, and the adjusting plate 16 is arranged in the linear rail 17; the adjusting plate 16 is driven by a third driving mechanism 18 to do linear motion, the third driving mechanism 18 comprises a feed screw 181, a threaded hole for matching the feed screw 181 is arranged on the base 1, an annular flange 182 is arranged at the end part of the feed screw 181, a groove 19 is arranged at the end part of the adjusting plate 16, and the feed screw 181 and the adjusting plate 16 are rotationally connected together through the annular flange 182 and the groove 19; the adjusting plate 16 is driven by a third driving mechanism 18 along a rectilinear track 17 towards or away from the applicator roll 2.

Based on the above structure, the plate to be glued can be placed on the gluing station 15, and the plate is abutted on the adjusting plate 16, and the adjusting plate 16 can be driven to advance or retreat by manually rotating the feed screw 181 forward or manually rotating the feed screw 181 backward, so that plates with different sizes are suitable.

In this embodiment, at least one heating tube 20 is disposed on the base 1, and the heating tube 20 is used for indirectly heating the glue; and/or at least one heating tube 20 is arranged on the glue spreader 2, and the heating tube 20 is used for indirectly heating the glue.

Wherein, the heating tube 20 adopts an electric heating tube 20, and an electric heating wire is arranged in the electric heating tube 20.

Based on the above structure, the heating pipe 20 is arranged to heat the base 1 or the glue spreader 2, so that the glue in the glue inlet flow channel 3 is indirectly heated, or the glue coated on the surface of the glue spreader 2 is indirectly heated, and the glue is prevented from being solidified.

The working process of the inclined glue discharging mechanism is as follows: the plate to be glued is placed in a gluing station 15, a switch valve 11 is opened, glue enters a glue inlet runner 3 from a glue inlet joint 4, the glue passes through an outlet 32 of the glue inlet runner 3 and an adjusting shaft 8 and then is coated on the surface of a glue spreader 2, and the glue spreader 2 rotates to glue the surface of the plate.

It will be apparent to those skilled in the art from this disclosure that various other changes and modifications can be made which are within the scope of the utility model as defined in the appended claims.

Claims (10)

1. An inclined type glue outlet mechanism is characterized in that: the glue spreading device comprises a base (1), wherein a glue spreading roller (2) is arranged on the base (1), and the base (1) and the glue spreading roller (2) are obliquely arranged;

the base (1) is provided with a glue inlet runner (3), the glue inlet runner (3) comprises at least one inlet (31), each inlet (31) of the glue inlet runner (3) is provided with a glue inlet joint (4), and the inlet (31) of the glue inlet runner and the glue inlet joints (4) are all arranged at the lower part of the base (1);

the outlet (32) of the glue inlet flow channel (3) is arranged close to the upper position of the glue spreader (2), and the outlet (32) of the glue inlet flow channel (3) faces the glue spreader (2).

2. The tilting glue dispensing mechanism of claim 1, wherein: the device also comprises a frame (5), wherein the frame (5) is provided with a first connecting end (51) which is transversely arranged and a second connecting end (52) which is obliquely arranged, and the second connecting end (52) is connected with the base (1).

3. The tilting glue dispensing mechanism of claim 1, wherein: the setting position of the outlet (32) of the glue inlet flow channel (3) is higher than the setting position of the inlet (31) of the glue inlet flow channel (3).

4. The tilting glue dispensing mechanism of claim 1, wherein: the base (1) is provided with a striker plate (6), and the striker plate (6) is arranged on the outer side of the glue spreading roller (2).

5. The tilting glue dispensing mechanism according to any one of claims 1-4, wherein: the base (1) is rotationally connected with the glue spreader (2), the glue spreader (2) is driven to rotate by a first driving mechanism (7), and the first driving mechanism (7) comprises a motor or an air cylinder.

6. The tilting glue dispensing mechanism according to any one of claims 1-4, wherein: an adjusting shaft (8) is rotationally connected between an outlet (32) of the glue inlet flow channel (3) and the glue spreading roller (2), the adjusting shaft (8) is driven to rotate by a second driving mechanism (9), and the second driving mechanism (9) comprises a motor or an air cylinder;

a protrusion (81) is arranged on one side of the adjusting shaft (8), and the adjusting shaft (8) is rotated to enable the protrusion (81) to be close to or far away from the glue spreading roller (2), so that the distance between the adjusting shaft (8) and the glue spreading roller (2) is adjusted;

glue outlet cavities (10) are formed between the base (1) and the adjusting shafts (8) and between the glue spreading rollers (2), glue is contained in the glue outlet cavities (10), the glue enters the glue outlet cavities (10) through outlets (32) of the glue inlet flow channels (3), and the glue in the glue outlet cavities (10) is coated on the surfaces of the glue spreading rollers (2) through gaps between the adjusting shafts (8) and the glue spreading rollers (2).

7. The tilting glue dispensing mechanism according to any one of claims 1-4, wherein: the glue inlet flow passage (3) and the glue inlet joint (4) are provided with a switch valve (11), the switch valve (11) is arranged at the lower part of the base (1), and the switch valve (11) is used for opening and closing a passage between the glue inlet flow passage (3) and the glue inlet joint (4).

8. The tilting glue dispensing mechanism according to any one of claims 1-4, wherein: the base (1) is provided with a receiving groove (12), the receiving groove (12) is arranged at the lower part of the glue spreader (2), the receiving groove (12) is connected with a guide plate (13), a guide opening (14) is arranged between the receiving groove (12) and the guide plate (13), and the receiving groove (12) is used for receiving redundant glue, and the redundant glue overflows out through the receiving groove (12), the guide opening (14) and the guide plate (13).

9. The tilting glue dispensing mechanism according to any one of claims 1-4, wherein: the base (1) is provided with a gluing station (15), the gluing station (15) is used for placing plates, one side of the gluing station (15) is provided with an adjusting plate (16), the base (1) is provided with a linear rail (17), and the adjusting plate (16) is arranged in the linear rail (17);

the adjusting plate (16) is driven by a third driving mechanism (18) to perform linear motion, the third driving mechanism (18) comprises a feed screw (181), a threaded hole for being matched with the feed screw (181) is formed in the base (1), an annular flange (182) is arranged at the end part of the feed screw (181), a groove (19) is formed in the end part of the adjusting plate (16), and the feed screw (181) and the adjusting plate (16) are rotationally connected together through the annular flange (182) and the groove (19);

the adjusting plate (16) is driven by the third driving mechanism (18) to move towards or away from the glue spreading roller (2) along the linear track (17).

10. The tilting glue dispensing mechanism according to any one of claims 1-4, wherein: at least one heating pipe (20) is arranged on the base (1), and the heating pipe (20) is used for indirectly heating the glue;

and/or at least one heating pipe (20) is arranged on the glue spreading roller (2), and the heating pipe (20) is used for indirectly heating the glue.