CN112896642B - Glue processing system and glue processing technology - Google Patents

Abstract

The utility model relates to glue processing, in particular to a glue processing system and a glue processing technology, comprising a canning mechanism, a pressing mechanism, a device bracket, a bottom bracket, a conveying mechanism and a containing mechanism, and a glue processing method, wherein the method comprises the following steps: step one: the transport mechanism drives the containing mechanism to move forwards, and the containing mechanism moves to be in contact with the canning mechanism; step two: the holding mechanism and the canning mechanism move relatively at the same speed, and the material pressing mechanism presses the canning mechanism; step three: the canning mechanism carries out canning on the accommodating mechanism; the storage mechanism can be driven to move forwards through the conveying mechanism, the storage mechanism moves and is in contact with the canning mechanism, the storage mechanism pushes the canning mechanism to move forwards, the material pressing mechanism is arranged in an inclined mode, the material pressing mechanism extrudes the canning mechanism, the storage mechanism and the canning mechanism are relatively motionless, the storage mechanism and the canning mechanism move at the same speed, and the canning mechanism is extruded by the material pressing mechanism to carry out canning on the storage mechanism.

Description

Glue processing system and glue processing technology

Technical Field

The utility model relates to glue processing, in particular to a glue processing system and a glue processing technology.

Background

For example, publication number CN210174267U is a glue extruder for processing solid glue, which comprises a glue extruder housing, a heat transfer plate is embedded on the side wall of the glue extruder housing, a water-cooling box body is arranged at the position corresponding to the heat transfer plate on the outer side of the glue extruder housing, the bottom end of the water-cooling box body is connected to the bottom end of a water storage tank through a pipeline, the water storage tank is fixedly arranged on one side of the glue extruder housing, the top end of the water storage tank is connected with a water return pump through a pipeline, the water inlet end of the water return pump is connected to the top end of the water-cooling box body through a water inlet pipeline, a feeding cylinder is arranged on one side of the glue extruder housing, and a feeding screw is arranged on the inner side of the feeding cylinder; the utility model has the defects of incapability of filling containers without stopping, and low filling efficiency.

Disclosure of Invention

The utility model aims to provide a glue processing system and a glue processing technology, which can be used for canning a container without stopping, so that the canning efficiency is improved.

The aim of the utility model is achieved by the following technical scheme:

the glue processing system comprises a containing mechanism and a canning mechanism, wherein the containing mechanism and the canning mechanism move relatively at equal speed, and the canning mechanism is used for canning the containing mechanism.

The canning mechanism comprises a canning bracket and a canning cylinder, wherein the canning bracket is fixedly connected with the canning cylinder, and the canning cylinder is provided with a discharging pipe and a feeding pipe.

And a one-way mechanism I and a one-way mechanism II are respectively arranged in the discharging pipe and the feeding pipe.

A glue processing method, the method comprising the steps of:

step one: the transport mechanism drives the containing mechanism to move forwards, and the containing mechanism moves to be in contact with the canning mechanism;

step two: the holding mechanism and the canning mechanism move relatively at the same speed, and the material pressing mechanism presses the canning mechanism;

step three: the canning mechanism is used for canning the accommodating mechanism.

The glue processing system and the glue processing technology have the beneficial effects that:

according to the glue processing system and the glue processing technology, the containing mechanism can be driven to move forwards through the conveying mechanism, the containing mechanism moves and contacts with the canning mechanism, the containing mechanism pushes the canning mechanism to move forwards, the pressing mechanism is obliquely arranged, the pressing mechanism extrudes the canning mechanism, the containing mechanism and the canning mechanism are relatively motionless, the containing mechanism and the canning mechanism move at equal speed, and the canning mechanism is extruded by the pressing mechanism to pot the containing mechanism; the ship plate is separated from the holding mechanism and the canning mechanism, the canning mechanism is reset, the next holding mechanism is ready for canning, the device repeatedly moves, and the holding vessel can be rapidly canned.

Drawings

The utility model will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic diagram of a first embodiment of a glue processing system according to the present utility model;

FIG. 2 is a schematic diagram of a first embodiment of a glue processing system according to the present utility model;

FIG. 3 is a schematic diagram of a first embodiment of a glue processing system according to the present utility model;

FIG. 4 is a schematic structural view of a second embodiment of the glue processing system of the present utility model;

FIG. 5 is a schematic structural view of a third embodiment of the glue processing system of the present utility model;

FIG. 6 is a schematic structural view of a fourth embodiment of the glue processing system of the present utility model;

FIG. 7 is a schematic view of a fifth embodiment of a glue processing system according to the present utility model;

FIG. 8 is a schematic diagram of a fifth embodiment of a glue processing system according to the present utility model;

FIG. 9 is a schematic diagram of a sixth embodiment of a glue processing system according to the present utility model;

fig. 10 is a schematic structural diagram of a sixth embodiment of the glue processing system according to the present utility model.

In the figure:

a canning rack 101;

a canister 102;

a discharge pipe 103;

a feed tube 104;

unidirectional mechanism I105;

unidirectional mechanism II 106;

a canning press plate 107;

a circular arc push plate 108;

a slide cylinder 109;

a disengagement column 110;

a pressing bottom plate 201;

a positioning rod 202;

a lock nut 203;

a sliding bracket 301;

a circular arc bracket 302;

disengaging the bracket 303;

adjusting the screw 304;

disengaging the boat deck 305;

a slide rail 401;

a sliding base 402;

clamping a threaded rod 403;

a transport rack 501;

a belt transport mechanism 502;

a transport bracket 601;

pushing the lever 602;

a housing cavity 603;

a holding vessel 604.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

A first embodiment of the glue processing system is described below in connection with fig. 1 to 3:

the glue processing system comprises a canning mechanism, a pressing mechanism, a device support, a bottom support, a conveying mechanism and a holding mechanism, wherein the holding mechanism and the canning mechanism move relatively at equal speed, and the canning mechanism can pot the holding mechanism; the canning mechanism comprises a canning bracket 101, a canning cylinder 102, a discharging pipe 103, a feeding pipe 104, a unidirectional mechanism I105, a unidirectional mechanism II 106, a canning pressing plate 107, an arc push plate 108, a sliding cylinder 109 and a disengaging column 110, wherein the canning cylinder 102 is fixedly connected to the canning bracket 101, the discharging pipe 103 and the feeding pipe 104 are fixedly connected to the canning cylinder 102, the unidirectional mechanism I105 and the unidirectional mechanism II 106 are respectively arranged on the discharging pipe 103 and the feeding pipe 104, the canning pressing plate 107 is slidably connected to the canning bracket 101, the arc push plate 108 is fixedly connected to the canning pressing plate 107, a compression spring I is fixedly connected between the arc push plate 108 and the canning cylinder 102, the sliding cylinder 109 is fixedly connected to the sliding cylinder 109, the disengaging column 110 is slidably connected to the sliding cylinder 109, and the compression spring II is fixedly connected between the disengaging column 110 and the sliding cylinder 109;

when the glue filling machine is used, a glue pipeline is connected to the feeding pipe 104, a one-way mechanism I105 and a one-way mechanism II 106 are respectively arranged in the discharging pipe 103 and the feeding pipe 104, the one-way mechanism I105 controls the glue to be fed into the feeding pipe 104 from the glue pipeline, the one-way mechanism II 106 controls the glue to flow out of the discharging pipe 103 only, when the circular arc push plate 108 moves downwards under pressure, the circular arc push plate 108 presses the compression spring I, the circular arc push plate 108 drives the canning press plate 107 to move downwards, the canning press plate 107 presses the glue in the canning cylinder 102, the glue in the canning cylinder 102 flows out through the discharging pipe 103, when the circular arc push plate 108 does not press under pressure, the compression spring I resets, the compression spring I pushes the circular arc push plate 108 to move upwards, the circular arc push plate 108 drives the canning press plate 107 to move upwards, the space in the canning cylinder 102 increases, and the glue is fed into the feeding pipe 104 from the glue pipeline, so that the filling of the glue in the canning cylinder 102 is completed; the storage mechanism can be driven to move forwards through the conveying mechanism, the storage mechanism moves and contacts with the canning mechanism, the canning mechanism is pushed to move forwards by the storage mechanism, the material pressing mechanism is obliquely arranged, the material pressing mechanism presses the canning mechanism, the storage mechanism and the canning mechanism are relatively motionless, the storage mechanism and the canning mechanism move at the same speed, and the canning mechanism is extruded by the material pressing mechanism to pot the storage mechanism; the ship plate is separated from the holding mechanism and the canning mechanism, the canning mechanism is reset, the next holding mechanism is ready for canning, the device repeatedly moves, and the holding vessel can be rapidly canned.

A second embodiment of the glue processing system is described below in connection with fig. 4:

the pressing mechanism comprises a pressing bottom plate 201, a positioning rod 202 and a lock nut 203, wherein the positioning rod 202 is fixedly connected to the pressing bottom plate 201, the lock nut 203 is connected to the positioning rod 202 through threads, and the arc push plate 108 is in contact with the pressing bottom plate 201;

in the forward movement process of the circular arc push plate 108, the material pressing bottom plate 201 is in contact with the circular arc push plate 108, the material pressing bottom plate 201 is obliquely arranged, the sliding position of the positioning rod 202 between the two circular arc brackets 302 is adjusted in advance, the inclination degree of the material pressing bottom plate 201 is adjusted according to the required material pressing amount, the lock nut 203 is rotated, the lock nut 203 transversely moves on the positioning rod 202 through threads when rotating, the lock nut 203 extrudes the circular arc push plate 108, the inclined position of the material pressing bottom plate 201 is fixed, the material pressing bottom plate 201 gradually extrudes the circular arc push plate 108, the circular arc push plate 108 moves downwards, the circular arc push plate 108 drives the canning press plate 107 to move downwards, and the canning press plate 107 extrudes glue in the canning barrel 102 into a containing vessel 604 through the discharge pipe 103.

A third embodiment of the glue processing system is described below in connection with fig. 5:

the device bracket comprises a sliding bracket 301, an arc bracket 302, a disengaging bracket 303, an adjusting screw 304 and a disengaging ship plate 305, wherein the arc bracket 302 is fixedly connected to the sliding bracket 301, the disengaging bracket 303 is fixedly connected to the sliding bracket 301, the adjusting screw 304 is rotatably connected to the disengaging bracket 303, the disengaging ship plate 305 is connected to the disengaging bracket 303 in a sliding manner through a threaded connection on the adjusting screw 304, the canning bracket 101 is connected to the sliding bracket 301 in a sliding manner, a reset spring is fixedly connected between the canning bracket 101 and the sliding bracket 301, one end of the material pressing bottom plate 201 is hinged to the sliding bracket 301, the positioning rod 202 is connected between the two arc brackets 302 in a sliding manner, the disengaging column 110 can be contacted with the disengaging ship plate 305, and the disengaging ship plate 305 pushes the disengaging column 110 to move upwards;

the push rod 602 moves forward to contact with the separation column 110, the push rod 602 pushes the separation column 110 to move forward, the separation column 110 drives the canning bracket 101 to move forward, the reset spring is stretched, the canning bracket 101 drives the canning barrel 102 to move forward, the canning barrel 102 drives the circular arc push plate 108 to move forward, the movement speeds of the push rod 602 and the separation column 110 are the same, so that the transportation speeds of the canning mechanism and the transportation mechanism are the same, and further, no relative movement exists between the canning mechanism and the transportation mechanism;

when the specified amount is filled into the container 604, the detachment column 110 is in contact with the detachment boat plate 305, the detachment boat plate 305 pushes the detachment column 110 to move upwards, the detachment column 110 presses the compression spring II, the detachment column 110 moves upwards, the detachment column 110 and the push rod 602 are detached, the push rod 602 does not push the detachment column 110 to move any more, the return spring pulls the canning support 101 to reset, meanwhile, the circular arc push plate 108 moves upwards, the canning barrel 102 is filled with glue, the adjusting screw 304 is rotated, the detachment boat plate 305 is driven to move through threads when the adjusting screw 304 rotates, the position of the detachment boat plate 305 is adjusted, the contactable positions of the detachment boat plate 305 and the detachment column 110 are adjusted, and the detachment time of the detachment column 110 and the push rod 602 is adjusted.

A fourth embodiment of the glue processing system is described below in connection with fig. 6:

the glue processing system further comprises a bottom bracket, the bottom bracket comprises two sliding rails 401, two sliding bottom plates 402 and clamping threaded rods 403, the two sliding rails 401 are fixedly connected with the sliding bottom plates 402 between the front end and the rear end of each sliding rail 401, the clamping threaded rods 403 are rotatably connected to the two sliding bottom plates 402, the sliding bracket 301 is fixedly connected to the two sliding rails 401, the two clamping threaded rods 403 are connected through belt transmission, and the screw threads at the two ends of the clamping threaded rods 403 are opposite in rotation direction;

the clamping threaded rod 403 is rotated according to the user demand in advance, the transmission is connected between two clamping threaded rods 403, two clamping threaded rods 403 rotate together, the threads at two ends of two clamping threaded rods 403 rotate oppositely, two clamping threaded rods 403 drive two transportation supports 501 to be close to or far away from each other through the threads respectively, two transportation supports 501 drive two belt transportation mechanisms 502 to be close to or far away from each other respectively, and then the distance between the belt transportation mechanisms 502 and the transportation supports 601 is adjusted, so that the belt transportation mechanisms 502 can drive the transportation supports 601 to move forwards.

A fifth embodiment of the glue processing system is described below in connection with fig. 7 to 8:

the conveying mechanism comprises two conveying brackets 501 and two conveying mechanisms 502, wherein the conveying brackets 501 are connected with the conveying mechanisms 502, and two ends of the two conveying brackets 501 are respectively connected with two ends of two clamping threaded rods 403 through threads;

a sixth embodiment of the glue processing system is described below in conjunction with fig. 10:

the containing mechanism comprises a transportation bracket 601, a push rod 602, a containing cavity 603 and a containing vessel 604, wherein the transportation bracket 601 is placed on two sliding rails 401, the left end and the right end of the transportation bracket 601 are respectively contacted with two belt transportation mechanisms 502, the push rod 602 is fixedly connected to the transportation bracket 601, the containing cavity 603 is fixedly connected to the push rod 602, the containing vessel 604 is placed on the containing cavity 603, the push rod 602 can be contacted with a separation column 110, and the push rod 602 pushes the separation column 110 to move forwards;

placing a containing vessel 604 on the containing cavity 603, placing a conveying support 601 between the two sliding rails 401, enabling the left side and the right side of the conveying support 601 to be respectively contacted with the two belt conveying mechanisms 502, starting the belt conveying mechanisms 502, and driving the conveying support 601 to move forwards when the belt conveying mechanisms 502 move, wherein the conveying support 601 drives the containing cavity 603 to move forwards, and the containing cavity 603 drives the containing vessel 604 to move forwards;

when one of the holding vessels 604 is completely canned, the separation ship plate 305 pushes the separation column 110 to move upwards, the push rod 602 is separated from the separation column 110, the holding vessel 604 is driven by the belt conveying mechanism 502 to move forwards, so that the conveying support 601 slides out between the two sliding rails 401, meanwhile, the canning support 101 is reset under the pulling of the reset spring, when a new conveying support 601 is placed between the two sliding rails 401 again, the conveying support 601 moves forwards again, the canning mechanism performs canning again, and the device performs repeated movement.

A glue processing method, the method comprising the steps of:

step one: the transport mechanism drives the containing mechanism to move forwards, and the containing mechanism moves to be in contact with the canning mechanism;

step two: the holding mechanism and the canning mechanism move relatively at the same speed, and the material pressing mechanism presses the canning mechanism;

step three: the canning mechanism is used for canning the accommodating mechanism.

It should be noted that the above embodiments may be spliced with each other, or may be combined together for use.

Of course, the above description is not intended to limit the utility model, but rather the utility model is not limited to the above examples, and variations, modifications, additions or substitutions within the spirit and scope of the utility model will be within the scope of the utility model.

Claims (2)

1. The utility model provides a glue processing system, includes hold mechanism and canning mechanism, its characterized in that: the holding mechanism and the canning mechanism move relatively at the same speed, and the canning mechanism carries out canning on the holding mechanism;

the canning mechanism comprises a canning bracket (101) and a canning barrel (102), the canning bracket (101) is fixedly connected with the canning barrel (102), and the canning barrel (102) is provided with a discharging pipe (103) and a feeding pipe (104);

a one-way mechanism I (105) and a one-way mechanism II (106) are respectively arranged on the discharging pipe (103) and the feeding pipe (104);

a canning pressing plate (107) is connected in a sliding manner in the canning cylinder (102), an arc pushing plate (108) is fixedly connected to the canning pressing plate (107), and a compression spring I is fixedly connected between the arc pushing plate (108) and the canning cylinder (102);

a sliding cylinder (109) is fixedly connected to the canning support (101), a disengaging column (110) is slidably connected to the sliding cylinder (109), and a compression spring II is fixedly connected between the sliding cylinder (109) and the disengaging column (110);

the canning mechanism moves forwards to be in contact with the separation column (110), and the canning mechanism drives the separation column (110) to move forwards;

the glue processing system further comprises a conveying mechanism for driving the containing mechanism to move forwards;

the glue processing system further comprises a material pressing mechanism for extruding the canning mechanism;

the glue processing system further comprises a device bracket for supporting the canning mechanism to slide, and a reset spring is fixedly connected between the device bracket and the canning mechanism;

the pressing mechanism comprises a pressing bottom plate (201), a positioning rod (202) and a locking nut (203), wherein the positioning rod (202) is fixedly connected to the pressing bottom plate (201), the locking nut (203) is connected to the positioning rod (202) through threads, and the arc pushing plate (108) is contacted with the pressing bottom plate (201);

the device support comprises a sliding support (301), an arc support (302), a separation support (303), an adjusting screw (304) and a separation ship plate (305), wherein the arc support (302) is fixedly connected to the sliding support (301), the separation support (303) is fixedly connected to the sliding support (301), the adjusting screw (304) is rotatably connected to the separation support (303), the separation ship plate (305) is connected to the adjusting screw (304) through threads, the separation ship plate (305) is connected to the separation support (303) in a sliding mode, the canning support (101) is connected to the sliding support (301) in a sliding mode, a reset spring is fixedly connected between the canning support (101) and the sliding support (301), one end of the material pressing bottom plate (201) is hinged to the sliding support (301), the positioning rod (202) is connected between the two arc supports (302), the separation column (110) can be contacted with the separation ship plate (305), and the separation ship plate (305) pushes the separation column (110) to move upwards;

the glue processing system further comprises a bottom bracket, the bottom bracket comprises two sliding rails (401), two sliding bottom plates (402) and clamping threaded rods (403), the two sliding rails (401) are fixedly connected with the sliding bottom plates (402) between the front end and the rear end of each sliding rail (401), the clamping threaded rods (403) are rotatably connected to the two sliding bottom plates (402), the sliding bracket (301) is fixedly connected to the two sliding rails (401), the two clamping threaded rods (403) are in transmission connection through a belt, and threads at the two ends of the clamping threaded rods (403) are opposite in rotation direction;

the conveying mechanism comprises two conveying brackets (501) and two conveying mechanisms (502), wherein the two conveying brackets (501) are connected with the conveying mechanisms (502), and two ends of the two conveying brackets (501) are respectively connected with two ends of two clamping threaded rods (403) through threads;

the holding mechanism comprises a conveying support (601), a pushing rod (602), a holding cavity (603) and holding vessels (604), wherein the conveying support (601) is placed on two sliding rails (401), the left end and the right end of the conveying support (601) are respectively in contact with the two belt conveying mechanisms (502), the pushing rod (602) is fixedly connected to the conveying support (601), the holding cavity (603) is fixedly connected to the pushing rod (602), the holding vessels (604) are placed on the holding cavity (603), the pushing rod (602) can be in contact with a separation column (110), and the pushing rod (602) pushes the separation column (110) to move forwards;

the separation column (110) is contacted with the separation ship plate (305), the separation ship plate (305) pushes the separation column (110) to move upwards, the separation column (110) extrudes the compression spring II, the separation column (110) moves upwards, the separation column (110) and the pushing rod (602) are separated, the pushing rod (602) does not push the separation column (110) to move any more, the return spring pulls the canning support (101) to reset, meanwhile, the circular arc push plate (108) moves upwards, glue is filled in the canning barrel (102), the adjusting screw (304) is rotated, the adjusting screw (304) drives the separation ship plate (305) to move through threads when rotating, the separation ship plate (305) is adjusted, the contactable positions of the separation ship plate (305) and the separation column (110) are adjusted, and the separation time of the separation column (110) and the pushing rod (602) is adjusted.

2. A method of processing glue using a glue processing system of claim 1, wherein: the method comprises the following steps:

step one: the transport mechanism drives the containing mechanism to move forwards, and the containing mechanism moves to be in contact with the canning mechanism;

step two: the holding mechanism and the canning mechanism move relatively at the same speed, and the material pressing mechanism presses the canning mechanism;

step three: the canning mechanism is used for canning the accommodating mechanism.

Images