CN210256933U - Glue liquid homodisperse device - Google Patents

Abstract

A glue solution uniform dispersion device belongs to the technical field of hollow capsule production equipment and comprises a glue injection splitter box, wherein the glue injection splitter box comprises a guide notch, a slot separating plate and a plurality of guide pieces, and the slot separating plate divides the guide notch into two parallel notches with equal size to form a right notch and a left notch; the left notch and the right notch are formed into a plurality of parallel inclined guide outlets in opposite directions by the guide sheet; when in use, the glue injection shunting groove is arranged on the upper surface of the bottom of the overflow groove; the glue solution can be injected into the upper part of the bottom of the overflow groove from the lower part of the bottom of the overflow groove in the liquid storage tank through the strip-shaped glue injection port and then enters the glue injection shunting groove, the glue solution flows along with the direction of the guide sheet, and the flow rate and the temperature of the glue solution tend to be uniform due to the resistance of a plurality of parallel inclined shapes, so that the wall thickness, the top thickness, the uniformity and the grain weight of the hollow capsule can meet the requirements when the glue is dipped, and the quality is effectively ensured.

Description

Glue liquid homodisperse device

Technical Field

The utility model relates to an empty capsule production facility technical field, especially a glue liquid homodisperse device.

Background

The hollow capsule is formed by sleeving a body and a cap. The capsule production process comprises the procedures of glue making, production, lamp picking, printing, sterilization, packaging and the like. Wherein the capsule production process generally comprises: the core rod brushing oil, dipping glue, drying, demoulding, cutting, nesting and other processes, wherein the glue dipping is a key process in capsule production, and the temperature and the flow rate of the glue solution in the glue dipping tank can influence the wall thickness, the top thickness, the uniformity and the grain weight difference of the capsule.

The glue dipping is that a glue dipping device is utilized on a capsule production line to enable a capsule mould to be slowly immersed into glue solution and then to be slowly separated from the glue solution, and a layer of glue film is formed on the mould. In dipping glue, the glue solution is usually placed in a glue dipping tank, and continuous stirring is required to keep the temperature and flow rate of the glue solution uniform. In order to keep the temperature and the flow rate of glue solution in the glue dipping tank stable and uniform, the existing glue dipping tank generally adopts the following structure. As shown in fig. 4 and 5, the glue dipping tank includes a heat preservation cavity 21, a liquid storage tank 22 and an overflow tank 23, the overflow tank 23 is fixedly disposed in the liquid storage tank 22, an upper opening edge of the overflow tank 23 is lower than an upper opening edge of the liquid storage tank 22, the liquid storage tank 22 is fixedly disposed in the heat preservation cavity 21, the upper opening edge of the liquid storage tank 22 is overlapped with and seamlessly attached to the upper opening edge of the heat preservation cavity 21, hot water is stored in the heat preservation cavity 21, and both the tank bottom and the tank wall of the liquid storage tank 22 are immersed in the hot water, the hot water in the heat preservation cavity 21 is in a flowing state, that is, the heat preservation cavity is provided with a hot water; a long strip-shaped glue injection port 26 for communicating the liquid storage tank 22 and the overflow tank 23 is arranged at the center of the bottom of the overflow tank 23, and a long square frame 27 is arranged above the long strip-shaped glue injection port 26 so as to guide glue solution to enable the glue solution to be simultaneously injected into the overflow tank 23 on the same plane; two spiral rods are arranged in a liquid storage tank below the glue injection port, the spiral line directions of the two spiral rods are opposite, gears 28 meshed with each other are respectively installed at the head ends of the two spiral rods, and one gear 28 is externally connected with a speed reduction motor. When dipping glue, firstly filling hot water into the heat preservation cavity 21 through the water inlet pipe 24, then continuously filling the hot water and opening the water outlet pipe 25, and enabling the heat preservation cavity 21 to keep constant set temperature through the flowing hot water with constant temperature; then, glue solution is injected into the liquid storage tank 22, the speed reducing motor is started simultaneously, the two spiral rods are turned over oppositely, the glue solution is pushed upwards towards the direction of the strip-shaped glue injection port 26, the glue solution is injected into the rectangular frame 27 in the overflow groove 23 from the strip-shaped glue injection port 26 at the bottom, then the glue solution overflows into the overflow groove 23 until the glue solution submerges the edge of the upper opening of the overflow groove 23, the speed of injecting the glue solution into the liquid storage tank 22 is reduced at the moment, the glue solution is enabled to slowly flow in the glue dipping groove, the purpose of doing the above is to enable the temperature of the glue solution at each position in the groove to be uniform, the flow speed is slow and uniform, and the wall thickness, the top.

However, the glue dipping tank with the structure still has the phenomena of uneven temperature and uneven flow rate, and mainly the flow rate of the glue solution which is blown out of the liquid surface at the position of the strip-shaped glue injection port is relatively higher than that of the glue solution at the two sides because the glue solution at the position of the strip-shaped glue injection port is relatively closer under the influence of the spiral rod; because of the hot water in the bottom heat-insulating cavity, the relative temperature of the glue solution at the bottom in the liquid storage tank is higher, and the temperature of the glue solution injected from the glue injection port is also higher, so that the temperature of the glue solution which is blown out to the center of the surface of the overflow groove is slightly higher than that of the glue solution at the two sides, and the production quality of the capsule is influenced.

From this, patent document CN 204977199U has disclosed a dip in gluey groove with steady flow rate mechanism, including current stabilizer, current stabilizer divide into the inside cavity of overflow launder high-pressure chamber and dip in gluey chamber, be equipped with the intercommunication high-pressure chamber on this current stabilizer and dip in the steady flow groove in gluey chamber, the groove width in this steady flow groove is from the steady flow groove middle part that corresponds directly over the hole of beating glue and evenly widen gradually to the both ends in steady flow groove, get into the glue solution that dips in gluey chamber through the steady flow groove, along the length direction in steady flow groove, the velocity of flow is all comparatively close with pressure, cause the liquid level that dips in gluey chamber glue solution comparatively steady, dip in gluey back on the same offset plate capsule plug, the capsule on the capsule plug of mid position and border position capsule plug wall thickness uniformity of capsule is better, the grain weight difference is less. However, through tests, the wall thickness, the top thickness, the uniformity and the grain weight of the hollow capsule produced by the device still have a lot of unsatisfactory requirements.

Therefore, the glue dipping tank of the company technology research and development team is comprehensively analyzed and researched, a series of improvements are made, and a good effect is achieved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to above-mentioned defect, provide a device that two direction of multi-outlet were glued to can be in order to the glue solution that emerges from the overflow tank bottom with the homodisperse, thereby make the temperature and the velocity of flow of glue solution tend to evenly more, with the production quality that further improves hollow capsule.

In order to solve the technical problem, the technical scheme adopted by the utility model is a glue solution uniform dispersion device, which comprises a glue injection splitter box and is characterized in that the glue injection splitter box comprises a guide notch, a slot separating plate and a plurality of guide pieces, wherein the guide notch is a structure body which is formed by sequentially fixedly connecting a front short slot wall, a right long slot wall, a rear short slot wall and a left long slot wall and is open up and down; the groove separating plate is fixedly connected to the front short groove wall and the rear short groove wall in a vertical shape, and the guide groove opening is divided into two parallel groove openings with the same size to form a right groove opening and a left groove opening; half of the number of the guide pieces are uniformly distributed and fixedly connected in the right notch in an inclined manner, the upper end edge line of each guide piece is deviated to the rear and is flush with the upper opening of the right notch, and the lower end edge line of each guide piece is deviated to the front and is flush with the lower opening of the right notch, so that a plurality of parallel inclined guide outlets are formed; the other half of the number of the guide pieces are uniformly distributed and fixedly connected in an inclined manner in the left notch, the edge line of the upper end of each guide piece is deviated to the front and is flush with the upper opening of the left notch, and the edge line of the lower end of each guide piece is deviated to the rear and is flush with the lower opening of the left notch, so that a plurality of parallel inclined guide outlets are formed; the inclined directions of the guide outlets in the left and right notches are opposite.

The width of the guide piece is half of the width of the short groove wall, and the length of the guide piece is 1.2-2 times, preferably 1.5 times of the length, namely the height, of the short groove wall.

The glue injection shunting groove is arranged above the strip-shaped glue injection opening in the middle of the bottom of the overflow groove in the glue dipping groove and is used for dispersing glue solution which is blown out from the liquid storage groove.

The height of the short groove wall is 0.2-0.5 times of the height of the overflow groove.

The width of the short slot wall is 1-1.3 times of the width of the strip-shaped glue injection opening at the center of the bottom of the overflow slot.

The glue injection splitter box is movably arranged on the upper surface of the bottom of the overflow trough.

The glue injection splitter box is fixedly arranged on the upper surface of the bottom of the overflow box.

The beneficial effects of the utility model are that during the use, install the injecting glue splitter box in the top of the rectangular form injecting glue mouth at the bottom middle part of the overflow launder of dipping in the gluey inslot, after being full of the glue solution, the glue solution is under the rotation of hob, can follow the top that the overflow launder tank bottom in the reservoir was injected into through rectangular form injecting glue mouth in the below of overflow launder tank bottom, enter into the injecting glue splitter box, because be equipped with the direction piece that a plurality of is the two-way slope of slope form in the injecting glue splitter box, the glue solution is along with the direction flow of direction piece, and make the velocity of flow and the temperature of glue solution all tend to evenly because of the resistance of a plurality of slope forms side by side, can make hollow capsule's wall thickness like this when dipping in the glue, the top is thick, degree.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is the position structure schematic diagram of the utility model installed in the glue dipping groove.

FIG. 3 is a schematic cross-sectional view of the dipping tank of FIG. 2.

FIG. 4 is a schematic structural diagram of a dipping tank in the prior art.

FIG. 5 is a schematic cross-sectional view of a dipping tank in the prior art.

In the figure: 1. the glue injection flow distribution groove comprises a glue injection flow distribution groove, 2 guide groove openings, 3 groove separating plates, 4 guide plates, 5 front short groove walls, 6 right long groove walls, 7 rear short groove walls, 8 left long groove walls, 9 right groove openings, 10 left groove openings, 21 heat preservation cavities, 22 liquid storage grooves, 23 overflow grooves, 24 water inlet pipes, 25 water outlet pipes, 26 strip-shaped glue injection openings, 27 long square frames and 28 gears.

Detailed Description

The present invention will be further described with reference to the following examples.

Example 1.

As shown in fig. 1, a glue-injection distributing chute 1 is manufactured, wherein the glue-injection distributing chute 1 comprises a guide notch 2, a partition plate 3 and a plurality of guide pieces 4, and the guide notch 2 is made into an annular structure body which is formed by sequentially fixedly connecting a front short chute wall 5, a right long chute wall 6, a rear short chute wall 7 and a left long chute wall 8 end to end and is open at the upper and lower parts; the groove separating plate 3 is vertically and fixedly connected to the front short groove wall 5 and the rear short groove wall 6, so that the guide groove opening 2 is divided into two parallel groove openings with equal size to form a right groove opening 9 and a left groove opening 10; half of the number of the guide pieces 4 are uniformly distributed and fixedly connected in the right notch 9 in an inclined manner, the edge line of the upper end of each guide piece 4 is deviated to the rear and is flush with the upper opening of the right notch, and the edge line of the lower end of each guide piece 4 is deviated to the front and is flush with the lower opening of the right notch, so that a plurality of parallel inclined guide outlets are formed; the other half of the number of the guide pieces 4 is uniformly distributed and fixedly connected in an inclined shape in the left notch, the edge line of the upper end of each guide piece 4 deviates to the front and is flush with the upper opening of the left notch, and the edge line of the lower end of each guide piece 4 deviates to the rear and is flush with the lower opening of the left notch to form a plurality of parallel inclined guide outlets; the inclined directions of the guide outlets in the left notch and the right notch are opposite.

The width of the guide piece is made to be half of the width of the short groove wall, the length of the guide piece is made to be 1.2-2 times of the length of the short groove wall, namely the height, and the length of the guide piece is made to be 1.5 times of the length of the short groove wall in the embodiment.

Example 2.

As shown in fig. 2 and 3, in use, the glue injection splitter 1 of example 1 is installed above the strip glue injection opening 26 in the middle of the bottom of the overflow trough 23 in the glue dipping trough, so as to disperse the glue solution blown out from the liquid storage trough.

And making the height of the short groove wall be 0.2-0.5 times of the height of the overflow groove.

And the width of the short tank wall is 1-1.3 times of the width of the strip-shaped glue injection opening at the center of the bottom of the overflow tank.

Placing the glue injection shunt trough on the upper surface of the bottom of the overflow trough in a movable manner; the glue injection splitter box can also be fixedly arranged on the upper surface of the bottom of the overflow tank.

Claims (6)

1. The glue solution uniform dispersion device comprises a glue injection shunting groove and is characterized in that the glue injection shunting groove comprises a guide groove opening, a partition groove plate and a plurality of guide pieces, wherein the guide groove opening is a structure body which is formed by sequentially fixedly connecting a front short groove wall, a right long groove wall, a rear short groove wall and a left long groove wall and is open up and down; the groove separating plate is fixedly connected to the front short groove wall and the rear short groove wall in a vertical shape, and the guide groove opening is divided into two parallel groove openings with the same size to form a right groove opening and a left groove opening; half of the number of the guide pieces are uniformly distributed and fixedly connected in the right notch in an inclined manner, the upper end edge line of each guide piece is deviated to the rear and is flush with the upper opening of the right notch, and the lower end edge line of each guide piece is deviated to the front and is flush with the lower opening of the right notch, so that a plurality of parallel inclined guide outlets are formed; the other half evenly distributed of the quantity of guide vane just is slope form fixed connection in left notch to make the upper end edge line of guide vane deviate from the place ahead and with the last mouthful parallel and level of left notch, make the lower extreme edge line of guide vane deviate from the rear and with the lower mouthful parallel and level of left notch, constitute the slope form direction export that a plurality of parallels.

2. The glue solution uniform-dispersing device according to claim 1, characterized in that the width of the guide piece is half of the width of the short tank wall, and the length of the guide piece is 1.2-2 times of the length of the short tank wall.

3. The glue solution uniform dispersion device according to claim 2, characterized in that the glue injection splitter box is arranged above the strip glue injection opening in the middle of the bottom of the overflow groove in the glue dipping groove, and the height of the short groove wall is 0.2-0.5 times of the height of the overflow groove.

4. The glue solution even distribution device according to claim 3, characterized in that the width of the short slot wall is 1-1.3 times of the width of the strip-shaped glue injection opening at the center of the bottom of the overflow slot.

5. The glue solution uniform-dispersing device according to claim 4, wherein the glue injection splitter box is movably disposed on the upper surface of the bottom of the overflow box.

6. The glue solution uniform dispersion device according to claim 4, wherein the glue injection splitter box is fixedly mounted on the upper surface of the bottom of the overflow tank.

Images