CN216987492U - Liquid glue mixing device - Google Patents

Abstract

A liquid glue mixing device comprises a first container, a first pressure sensing module, a second container, a second pressure sensing module, a first feeding module, a second feeding module, a glue mixing module, a control module and an operation module. The first container can store a first colloid, the first pressure sensing module detects weight information of the first container, the second container can store a second colloid, and the second pressure sensing module detects weight information of the second container. The first feeding module is fluidly connected to the first container, the second feeding module is fluidly connected to the second container, and the glue mixing module is fluidly connected to the first feeding module and the second feeding module. The control module is electrically connected to the first container, the first feeding module, the second container and the second feeding module, and the operation module is electrically connected to the control module, the first pressure sensing module and the second pressure sensing module. The liquid glue mixing device provided by the utility model can replace manual glue mixing in an automatic operation mode.

Description

Liquid glue mixing device

Technical Field

The present invention relates to a mixing device, and more particularly, to a liquid glue mixing device.

Background

In the past, when glue mixing operation is carried out, the glue mixing operation is carried out by manual mixing and blending, two kinds of glue are proportionally distributed by a weigher, then the glue is put into a stirrer or is stirred uniformly by a manual mode, and data such as operation time, actual subpackage weight and the like are recorded at the same time. However, this method does not ensure precise control of the ratio charge each time and has low productivity. Moreover, the working hours are increased, which may cause the data recording to be inconsistent with the actual data. And along with the increase of demand, labour cost rises gradually to the mode of artifical thoughtlessly gluing can not satisfy the requirement of enterprise, and also can not satisfy customer's demand to quality control.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a liquid glue mixing device. The glue mixing is carried out in an automatic operation mode instead of the manual mode in the prior art.

In order to achieve the above object, the present invention provides a liquid glue mixing device, which includes a first container, a first pressure sensing module, a second container, a second pressure sensing module, a first feeding module, a second feeding module, a glue mixing module, a control module, and an operation module. The first pressure sensing module detects weight information of the first container. The second pressure sensing module detects weight information of the second container. The first feeding module is fluidly connected to the first container. The second feeding module is fluidly connected to the second container. The glue mixing module is in fluid connection with the first feeding module and the second feeding module. The control module is electrically connected to the first container, the first feeding module, the second container and the second feeding module. The operation module is electrically connected to the control module, the first pressure sensing module and the second pressure sensing module.

The first feeding module and the second feeding module are metering pumps.

The glue mixing device comprises a glue mixing module, a first accommodating device, a second accommodating device and a glue mixing module, wherein the glue mixing module comprises a first glue inlet and a second glue inlet, the first glue inlet is connected with the output end of the first accommodating device through a first pipeline, and the second glue inlet is connected with the output end of the second accommodating device through a second pipeline.

The first feeding module is positioned on the first pipeline, and the second feeding module is positioned on the second pipeline.

Wherein, mix gluey module still includes out gluey mouth.

The first pressure sensing module and the second pressure sensing module are weighing meters.

Wherein, the first container and the second container are pressure barrels.

The operation module is also electrically connected with the printing module and prints the printing information output by the operation module.

In order to better understand the above and other aspects of the present invention, the following detailed description is given with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic view of a liquid glue mixing apparatus according to an embodiment of the present invention.

Detailed Description

The following detailed description of the embodiments of the utility model is provided in connection with the accompanying drawings. Aside from the detailed description, the utility model is capable of general implementation in other embodiments and its several details are capable of modifications in various obvious respects, all without departing from the scope of the utility model, as set forth in the claims below. In the description, numerous specific details and embodiments are provided for the reader to provide a more thorough understanding of the present invention; however, these specific details and implementation examples should not be construed as limiting the utility model. In other instances, well-known steps or elements have not been described in detail so as not to unnecessarily obscure the present invention.

Fig. 1 is a schematic diagram of a liquid glue mixing apparatus 100 according to an embodiment of the utility model. Referring to fig. 1, the liquid glue mixing device 100 includes a first container 110, a second container 120, a first feeding module 150, a second feeding module 160, a control module 171, and a glue mixing module 180. When the liquid glue mixing device 100 is actually implemented, the first glue M1 can be stored in the first container 110, and the second glue M2 can be stored in the second container 120. Specifically, the first colloid M1 may be a main colloid with an adhesive component, and the second colloid M2 may be a hardener of the main colloid of the first colloid M1, but is not limited to the utility model. Generally, the first colloid M1 and the second colloid M2 can be mixed according to a certain ratio to form a mixed colloid, and the ratio can be different according to different application requirements of the mixed colloid. In batch manufacturing, the mixed colloid of each batch is produced in a predetermined proportion and can be subpackaged into a plurality of subpackaging containers CT.

As shown in fig. 1, the first feeding module 150 is fluidly connected to the first container 110, and the second feeding module 160 is fluidly connected to the second container 120. The glue mixing module 180 is fluidly connected to the first feeding module 150 and the second feeding module 160. In one embodiment, the liquid glue mixing apparatus 100 may further include a first pipe T1 and a second pipe T2. The first pipeline T1 is a channel for the first colloid M1 to flow from the first container 110 to the glue mixing module 180, and the second pipeline T2 is a channel for the second colloid M2 to flow from the second container 120 to the glue mixing module 180. The first container 110 has an output end 111, and the second container 120 has an output end 121. The glue mixing module 180 may have a glue mixer 184, a first glue inlet 181, a second glue inlet 182, and a glue outlet 183, wherein the first glue inlet 181, the second glue inlet 182, and the glue outlet 183 are respectively disposed on the glue mixer 184. The first glue inlet 181 and the second glue inlet 182 are respectively a glue inlet passage through which the first glue M1 and the second glue M2 flow into the glue mixer 184, and the glue outlet 183 is a glue outlet passage through which the glue in the glue mixer 184 flows out of the glue mixer 184. Specifically, the output end 111 of the first container 110 is connected to the first glue inlet 181 of the glue mixing module 180 through a first pipeline T1, so that the first glue M1 can flow into the glue mixing device 184 of the glue mixing module 180 through the first pipeline T1. The output end 121 of the second container 120 is connected to the second glue inlet 182 of the glue mixing module 180 through a second pipeline T2, so that the second glue M2 can flow into the glue mixing device 184 of the glue mixing module 180 through the second pipeline T2. In addition, the first feeding module 150 is disposed on the first pipeline T1, and can adjust the throughput of the first glue body M1 conveyed to the glue mixing module 180; the second feeding module 160 is disposed on the second pipeline T2, and can adjust the throughput of the second glue body M2 to the glue mixing module 180.

The control module 171 is electrically connected to the first container 110, the first feeding module 150, the second container 120 and the second feeding module 160. In one embodiment, the first container 110 and the second container 120 may be pressure barrels; the control module 171 can control the actuation of the cylinder of the pressure barrel and the opening and closing of the electromagnetic valve, so that the first colloid M1 in the first container 110 and the second colloid M2 in the second container 120 can flow out from the output end 111 of the first container 110 and the output end 121 of the second container 120, respectively.

In one embodiment, the first feeding module 150 and the second feeding module 160 may be metering pumps, such as single screw pumps; the control module 171 can control the pulse generator to output a pulse signal, and the pulse signal can drive the stepping motor to drive the screw metering pump, so as to respectively convey the first colloid M1 and the second colloid M2 from the first container 110 and the second container 120 to the colloid mixing module 180 according to a predetermined volume ratio, thereby achieving the purpose of performing high-precision metering and conveying.

After the first colloid M1 and the second colloid M2 enter the glue mixer 184 through the first glue inlet 181 and the second glue inlet 182, respectively, in a predetermined ratio, the glue mixer 184 stirs and mixes the first colloid M1 and the second colloid M2 at a predetermined rotation speed to form a uniformly mixed colloid, and the uniformly mixed colloid is extruded into each sub-packaging container CT through the glue outlet 183. The preset rotation speed may be set to a fixed rotation speed or a variable rotation speed according to physical or chemical characteristics of the first colloid M1 and/or the second colloid M2, and is not limited in the present invention.

In addition, the glue mixing module 180 may further have a cleaning port (not shown), and the cleaning port may be used to connect a cleaning device (not shown). Further, the cleaning device may be controlled and operated by the control module 171 to provide cleaning with a cleaning solution or air after each or a plurality of times of dispensing of the dispensing containers CT, wherein the cleaning frequency may be set to a fixed rotation speed or a variable rotation speed according to the physical or chemical characteristics of the first colloid M1 and/or the second colloid M2, without limiting the present invention.

As shown in fig. 1, the liquid glue mixing apparatus 100 may further include a first pressure sensing module 130, a second pressure sensing module 140, a calculation module 172, and a printing module 190. The first pressure sensing module 130 may detect first weight information of the first container 110, where the first weight information includes a net weight of the first container 110 and a weight of the first glue M1 contained in the first container 110; the second pressure sensing module 140 may detect second weight information of the second container 120, where the second weight information includes a net weight of the second container 120 and a weight of the second glue M2 contained in the second container 120. In one embodiment, the first pressure sensing module 130 and the second pressure sensing module 140 can be weighing meters, and the first pressure sensing module 130 and the second pressure sensing module 140 can be disposed below the first container 110 and the second container 120, respectively.

The operation module 172 is electrically connected to the control module 171, the printing module 190, the first pressure sensing module 130 and the second pressure sensing module 140. After each dispensing of the dispensing container CT, the operation module 172 obtains the weight information of the first pressure sensing module 130 and the second pressure sensing module 140, and records the weight difference between the first colloid M1 and the second colloid M2 before and after dispensing, so as to obtain the weight ratio between the first colloid M1 and the second colloid M2 dispensed each time. Further, the operation module 172 can compare the calculated weight ratio with a predetermined ratio, and further determine whether the sub-packaging meets the requirement. When the dispensing is determined to meet the requirement, the operation module 172 may output the printing information to the printing module 190 for performing a printing operation, wherein the label data, such as an identifier, an operation time, an actual dispensing weight, and a dispensing date, may be recorded on the label. The label can be further adhered to the corresponding dispensing container CT by an automatic operation mode through a label adhering module (not shown), or adhered to the corresponding dispensing container CT by a manual operation mode.

On the other hand, if the operation module 172 determines that the dispensing is not satisfactory, that is, the calculated weight ratio does not meet the predetermined ratio, the operation module 172 may alarm and output data to the control module 171 to instruct an alarm (not shown) to send an alarm to notify an operator whether the pipe condition is good or not, or to check whether the remaining amount of the first colloid M1 in the first container 110 or the remaining amount of the second colloid M2 in the second container 120 is sufficient or to eliminate other error barriers.

In summary, although the present invention has been described with reference to the above embodiments, the present invention is not limited thereto. Various modifications and alterations may be made by those skilled in the art without departing from the spirit and scope of the utility model. Therefore, the protection scope of the present invention should be determined by the appended claims.

The present invention is capable of other embodiments, and various changes and modifications can be made by one skilled in the art without departing from the spirit and scope of the utility model.

Claims (8)

1. A liquid glue mixing device, comprising:

a first container;

a first pressure sensing module for detecting the weight information of the first container;

a second container;

a second pressure sensing module for detecting the weight information of the second container;

a first feeding module, which is connected with the first container in a fluid manner;

the second feeding module is in fluid connection with the second container;

the glue mixing module is in fluid connection with the first feeding module and the second feeding module;

the control module is electrically connected with the first container, the first feeding module, the second container and the second feeding module; and

and the operation module is electrically connected with the control module, the first pressure sensing module and the second pressure sensing module.

2. The liquid glue mixing device according to claim 1, wherein the first feeding module and the second feeding module are metering pumps.

3. The apparatus of claim 1, further comprising a first pipeline and a second pipeline, wherein the output end of the first container is connected to the first glue inlet of the glue mixing module through the first pipeline, and the output end of the second container is connected to the second glue inlet of the glue mixing module through the second pipeline.

4. The apparatus of claim 3, wherein the first feeding module is located on the first pipeline and the second feeding module is located on the second pipeline.

5. A liquid glue mixing apparatus as claimed in claim 3, wherein the glue mixing module further comprises a glue outlet.

6. The liquid glue mixing apparatus of claim 1, wherein the first pressure sensing module and the second pressure sensing module are scales.

7. The apparatus of claim 1, wherein the first container and the second container are pressure barrels.

8. The liquid glue mixing device according to claim 1, wherein the computing module is further electrically connected to a printing module for printing the printing information outputted from the computing module.

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