CN221287782U - Glue adding and adjusting device - Google Patents

Abstract

The utility model discloses a glue adding and adjusting device which comprises a feeder, a lifting mechanism, an X-axis conveying mechanism, a Y-axis conveying mechanism, a Z-axis conveying mechanism and a machine base, wherein the X-axis conveying mechanism is arranged on the machine base, the Y-axis conveying mechanism is arranged on the X-axis conveying mechanism, the Z-axis conveying mechanism is arranged on the Y-axis conveying mechanism, the feeder and the lifting mechanism are all in a plurality, the lifting mechanism is connected with the Z-axis conveying mechanism, and the lifting mechanisms are connected with the feeders in a one-to-one correspondence. The utility model can be used for adjusting the glue, each feeder can be used for adding different glue raw materials, the adding proportion of each raw material can be conveniently adjusted, and the positions of the feeders are correspondingly adjusted by arranging the X-axis conveying mechanism, the Y-axis conveying mechanism and the Z-axis conveying mechanism, so that the positions of the feeders can be effectively matched with subsequent processing devices such as a reaction kettle and the like at fixed positions.

Description

Glue adding and adjusting device

Technical Field

The utility model relates to the field of adhesive performance, in particular to an adhesive adding adjusting device.

Background

The existing adhesive such as white latex, glass adhesive and foaming adhesive in the market is widely applied to various fields, and along with the expansion of application scenes, the thinning requirements of people on the performance of the adhesive are more varied, and in order to meet different requirements, even for the same adhesive, the dosage proportion of raw materials such as auxiliary agents and auxiliary materials for adhesive production is always required to be adjusted so as to effectively adjust the performance of the adhesive.

But the current proportion adjustment of the raw materials of the adhesive is troublesome, the whole process depends on manual implementation, time and labor are wasted, the controllability of the adding sequence and the time is weak, and the memory of operators and the proficiency requirement are high.

In order to solve the above problems, mechanical equipment is used for adjusting raw material addition, but on one hand, the common mechanical equipment is difficult to adapt to follow-up processing devices such as a reaction kettle at a fixed position for use, and on the other hand, after raw material addition, the follow-up processing devices such as the reaction kettle cannot be effectively and rapidly kept away from, so that the follow-up processing devices are unfavorable for working and inconvenient for use.

Disclosure of utility model

The present utility model aims to provide a glue adding adjustment device which can solve one or more of the above problems.

According to one aspect of the utility model, a glue adding and adjusting device is provided, which comprises a feeder, a lifting mechanism, an X-axis conveying mechanism, a Y-axis conveying mechanism, a Z-axis conveying mechanism and a base, wherein the X-axis conveying mechanism is arranged on the base, the Y-axis conveying mechanism is arranged on the X-axis conveying mechanism, the Z-axis conveying mechanism is arranged on the Y-axis conveying mechanism, the feeder and the lifting mechanism are both in a plurality, the lifting mechanism is connected with the Z-axis conveying mechanism, and the lifting mechanism is connected with the feeders in a one-to-one correspondence.

The beneficial effects of the utility model are as follows: the utility model can be used for adjusting glue, each feeder can be used for adding different glue raw materials, the adding proportion of each raw material can be conveniently adjusted, and the positions of the feeders are correspondingly adjusted by the X-axis conveying mechanism, the Y-axis conveying mechanism and the Z-axis conveying mechanism, so that the positions of the feeders can be effectively matched with subsequent processing devices such as a reaction kettle which is positioned at a fixed position, the feeders can be conveniently and effectively far away from the subsequent processing devices after the feeding is finished, and the lifting mechanism can conveniently and accurately approach to the position needing feeding when the feeding is finished, and the feeders can be conveniently avoided among a plurality of feeders so as to avoid interference among the feeders.

In some embodiments, the feeder comprises a feed head connected to the body, a feed tube connected to the body, a body, and a flow valve mounted on the feed tube. The flow valve can be convenient for control the raw material outflow of the feeding head, so as to effectively adjust the raw material outflow.

In some embodiments, the movable trajectories of the feed heads of several of the feeders can intersect at the same point. Therefore, the feeding devices can be fed at the same position by means of the lifting mechanism, and feeding precision is guaranteed.

In some embodiments, the feed pipe is a plurality of feed pipes, and a plurality of feed pipes are connected with the main body. Thus, for certain materials, the materials can be conveniently output from the feeding head after being mixed in the same main body.

In some embodiments, the lifting mechanism comprises a cylinder, a sliding rail and a connecting plate, wherein the connecting plate is slidably arranged on the sliding rail, the cylinder is connected with the connecting plate, and the main body is connected on the connecting plate.

In some embodiments, the X-axis conveying mechanism includes a first motor, a first lead screw, a first slider and a first bracket, the first bracket is mounted on the stand, the first lead screw is rotatably mounted on the first bracket and connected with the first motor, the first bracket is provided with a first accommodating cavity, and the first slider is slidably disposed in the first accommodating cavity and is sleeved on the first lead screw through threaded fit.

In some embodiments, the Y-axis conveying mechanism includes a second motor, a second lead screw, a second slider and a second support, where the second lead screw is rotatably mounted on the second support and connected with the second motor, the second support is provided with a second accommodating cavity, and the second slider is slidably disposed in the second accommodating cavity and sleeved on the second lead screw through screw fit.

In some embodiments, the Z-axis conveying mechanism includes a third motor, a third screw, a third slider and a third support, where the third screw is rotatably mounted on the third support and connected to the third motor, the third support is provided with a third accommodating cavity, and the third slider is slidably disposed in the third accommodating cavity and sleeved on the third screw through screw fit.

Drawings

Fig. 1 is a schematic structural diagram of a glue adding adjusting device according to an embodiment of the present utility model.

Fig. 2 is a schematic structural view of a feeder of a glue adding and adjusting device according to an embodiment of the present utility model.

Fig. 3 is a schematic structural view of an X-axis conveying mechanism of the glue adding adjusting device according to an embodiment of the present utility model.

Fig. 4 is a schematic structural view of a Y-axis conveying mechanism of the glue adding and adjusting device according to an embodiment of the present utility model.

Fig. 5 is a schematic structural view of a Z-axis conveying mechanism of the glue adding adjustment device according to an embodiment of the present utility model.

In the figure: 1. feeder, 2. Lifting mechanism, 3.X shaft conveying mechanism, 4.Y shaft conveying mechanism, 5.Z shaft conveying mechanism, 6. Stand, 11. Feeding head, 12. Feeding pipe, 13. Main body, 14. Flow valve, 22. Slide rail, 23. Connecting plate, 31. First motor, 32. First screw, 33. First slide block, 34. First support, 341. First accommodation cavity, 41. Second motor, 42. Second screw, 43. Second slide block, 44. Second support, 441. Second accommodation cavity, 51. Third motor, 52. Third screw, 53. Third slide block, 54. Third support, 541. Third accommodation cavity.

Detailed Description

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

Referring to fig. 1, 2, 3, 4 and 5, a glue adding and adjusting device of the present utility model includes a feeder 1, a lifting mechanism 2, an X-axis conveying mechanism 3, a Y-axis conveying mechanism 4, a Z-axis conveying mechanism 5 and a base 6.

The X-axis transport mechanism 3 includes a first motor 31, a first lead screw 32, a first slider 33, and a first bracket 34. The first bracket 34 is fixedly arranged on the stand 6 through a bolt, the first lead screw 32 is rotatably arranged on the first bracket 34 through a bearing, the body of the first motor 31 is fixedly connected with the first bracket 34 through a bolt, the rotating shaft of the first motor 31 is fixedly connected with the first lead screw 32, the first bracket 34 is provided with a first accommodating cavity 341, the side part of the first accommodating cavity 341 is provided with a guide rail, the first slider 33 is arranged in the first accommodating cavity 341 and is slidably connected to the guide rail of the first accommodating cavity 341, and the first slider 33 is also sleeved on the first lead screw 32 through a threaded fit. When the first motor 31 is in operation, the first lead screw 32 can be driven to rotate, and the first slider 33 can slide along the guide rail in the first accommodating groove 341 along with the rotation of the first lead screw 32, so that the transverse movement of other mechanisms connected to the first slider 33 in the X-axis direction is realized.

The Y-axis transport mechanism 4 includes a second motor 41, a second lead screw 42, a second slider 43, and a second bracket 44. The second bracket 44 is fixedly arranged on the first sliding block 33 of the X-axis conveying mechanism 3 through a connecting block, the second lead screw 42 is rotatably arranged on the second bracket 44 through a bearing, the machine body of the second motor 41 is fixedly connected with the second bracket 44 through a bolt, the rotating shaft of the second motor 41 is fixedly connected with the second lead screw 42, the second bracket 44 is provided with a second accommodating cavity 441, the side part of the second accommodating cavity 441 is provided with a guide rail, the second sliding block 43 is arranged in the second accommodating cavity 441 and is slidably connected to the guide rail of the second accommodating cavity 341, and the second sliding block 43 is also sleeved on the second lead screw 42 through a threaded fit. When the second motor 41 is in operation, the second screw rod 42 can be driven to rotate, and the second slider 43 can slide along the guide rail in the second accommodating groove 441 along with the rotation of the second screw rod 42, so that the transverse movement in the Y-axis direction of other mechanisms connected to the second slider 43 is realized.

The Z-axis transportation mechanism 5 includes a third motor 51, a third screw 52, a third slider 53, and a third bracket 54. The third bracket 54 is fixedly arranged on the second slider 43 through a connecting plate group, the third lead screw 52 is rotatably arranged on the third bracket 54 through a bearing, the machine body of the third motor 51 is fixedly connected with the third bracket 54 through a bolt, the rotating shaft of the third motor 51 is fixedly connected with the third lead screw 52, the third bracket 54 is provided with a third accommodating cavity 541, the side part of the third accommodating cavity 541 is provided with a guide rail, the third slider 53 is arranged in the third accommodating cavity 541 and is slidably connected to the guide rail of the third accommodating cavity 541, and the third slider 53 is also sleeved on the third lead screw 52 through a threaded fit. When the third motor 51 is operated, the third screw rod 52 can be driven to rotate, and the third slider 53 can slide along the guide rail in the third accommodating groove 541 along with the rotation of the third screw rod 52, so as to realize the transverse movement in the Z-axis direction of other mechanisms connected to the third slider 53.

The number of the feeder 1 can be several, in this embodiment, the feeder 1 is preferably two, the feeder 1 includes a feeding head 11, a feeding pipe 12, a main body 13 and a flow valve 14, in the same feeder 1, the feeding pipe 12 can be set to be plural as required, in this embodiment, the feeding pipe 12 of one feeder 1 is preferably two, the feeding pipe 12 of another feeder 1 is preferably one, in the same feeder 1, all the feeding pipes 12 are connected and communicated with the main body 13, the feeding head 11 is fixedly connected and communicated with the main body 13 through screw-fit, the number of the flow valves 14 can be adapted to the number of the feeding pipes 12, the flow valves 14 of the same number can be respectively installed on different feeding pipes 12, the flow valves 14 can be used for controlling the flow rate of the corresponding feeding pipe 12 into the main body 13, in addition, the flow valves 14 can be selected electrically controlled or manually as required.

The number of the lifting mechanisms 2 is equal to the number of the feeders 1, in this embodiment, the number of the lifting mechanisms 2 is preferably two, each lifting mechanism 2 comprises an air cylinder (not shown in the drawing), a sliding rail 22 and a connecting plate 23, the connecting plate 23 is slidably arranged on the sliding rail 22, a piston rod of the air cylinder is fixedly connected with the connecting plate 23, the main bodies 13 of the two feeders 1 are fixedly connected with the connecting plates of the two lifting mechanisms 2 through bolts, and then each lifting mechanism 2 can drive the feeders 1 connected with the lifting mechanisms to move in a one-to-one correspondence manner.

In addition, the movable trajectories of the feed heads 11 of the two feeders 1 can intersect at the same point, i.e. the feed heads 11 of the two feeders 1 are not arranged in parallel.

When the utility model is used, the movement of the feeder 1 in the three-dimensional space can be realized by means of the combination of the X-axis conveying mechanism 3, the Y-axis conveying mechanism 4 and the Z-axis conveying mechanism 5, so that the position of the feeder 1 can be effectively positioned above equipment needing to add the adhesive raw materials, such as a reaction kettle and the like.

And each of the feed pipes 12 of the feeder 1 can be connected to an external raw material feed pipe as needed so that external raw material can be fed into the feeder 1 through each of the feed pipes 12.

When the performance of the produced adhesive is debugged, when the corresponding raw materials are required to be added, the lifting mechanism 2 connected with the feeder 1 containing the corresponding raw materials can be driven, so that the feeder 1 can be moved to the corresponding adding position, the flow valve 14 is opened, the adding amount is controlled, the proportion of the raw materials of the finished adhesive is controlled, when one raw material is added, and when the other raw material is required to be added, the lifting mechanism 2 of the feeder 1 with the finished raw materials is driven to reset, then the lifting mechanism 2 connected with the feeder 1 with the other raw materials is driven to work, the operation is repeated until the raw materials are added, the adhesive can be effectively produced, and each feeder 1 can be used for adding different raw materials of the adhesive, so that the adding proportion of each raw material can be conveniently adjusted, and the adhesive is convenient to use and strong in flexibility.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (6)

1. The adhesive adding and adjusting device is characterized by comprising a feeder, a lifting mechanism, an X-axis conveying mechanism, a Y-axis conveying mechanism, a Z-axis conveying mechanism and a machine base, wherein the X-axis conveying mechanism is arranged on the machine base, the Y-axis conveying mechanism is arranged on the X-axis conveying mechanism, the Z-axis conveying mechanism is arranged on the Y-axis conveying mechanism, the feeder and the lifting mechanism are both in a plurality, the lifting mechanism is connected with the Z-axis conveying mechanism, the lifting mechanism is connected with the feeders in a one-to-one correspondence,

The feeder comprises a feeding head, a feeding pipe, a main body and a flow valve, wherein the feeding pipe is connected with the main body, the feeding head is connected with the main body, the flow valve is arranged on the feeding pipe,

The lifting mechanism comprises an air cylinder, a sliding rail and a connecting plate, wherein the connecting plate is slidably arranged on the sliding rail, the air cylinder is connected with the connecting plate, and the main body is connected onto the connecting plate.

2. A glue adding and adjusting device according to claim 1, wherein the movable tracks of the feeding heads of several of said feeders can intersect at the same point.

3. The glue adding and adjusting device according to claim 1, wherein a plurality of the feeding pipes are connected with the main body.

4. The glue adding and adjusting device according to claim 1, wherein the X-axis conveying mechanism comprises a first motor, a first lead screw, a first sliding block and a first bracket, the first bracket is mounted on the base, the first lead screw is rotatably mounted on the first bracket and connected with the first motor, the first bracket is provided with a first accommodating cavity, and the first sliding block is slidably arranged in the first accommodating cavity and sleeved on the first lead screw through threaded fit.

5. The glue adding and adjusting device according to claim 1, wherein the Y-axis conveying mechanism comprises a second motor, a second screw rod, a second sliding block and a second support, the second screw rod is rotatably installed on the second support and connected with the second motor, the second support is provided with a second accommodating cavity, and the second sliding block is slidably arranged in the second accommodating cavity and sleeved on the second screw rod through threaded fit.

6. The glue adding and adjusting device according to claim 1, wherein the Z-axis conveying mechanism comprises a third motor, a third screw rod, a third sliding block and a third support, the third screw rod is rotatably installed on the third support and connected with the third motor, the third support is provided with a third accommodating cavity, and the third sliding block is slidably arranged in the third accommodating cavity and sleeved on the third screw rod through threaded fit.