CN204932283U - Dip in glue groove and capsule production line - Google Patents

Abstract

The utility model discloses one and dip in glue groove, and a kind of there is the capsule production line that this dips in glue groove.Dip in glue groove to comprise: reservoir, this reservoir is provided with liquid storage cylinder and heating chamber; Overflow launder, this overflow launder is fixedly installed in liquid storage cylinder; Beat glue hole, the center of isopipe root is located in this dozen of glue holes, for being communicated with reservoir and overflow launder; Gluing device, for squeezing into overflow launder by glue by liquid storage cylinder; Constant-current stabilizer, the cavity of overflow launder inside is divided into high pressure chest and dips in glue chamber by this constant-current stabilizer, this constant-current stabilizer is provided with and is communicated with high pressure chest and dips in the stable chute in glue chamber, and the two ends to stable chute in the middle part of the stable chute that the groove width of this stable chute is from corresponding directly over glue hole evenly broaden gradually.The liquid level that constant-current stabilizer makes to dip in glue in glue chamber is comparatively steady, and after same offset plate gluing capsule-core rod dips in glue, better, the grain method of double differences is different less for the enable wall uniformity of the capsule on medium position capsule plug and capsule on edge placement capsule plug.

Description

Dip in glue groove and capsule production line

Technical field

This utility model relates to capsule manufacture field, is specifically related to a kind ofly dip in glue groove for capsule production line, and a kind ofly has the capsule production line that this dips in glue groove.

Background technology

Usually comprise offset plate gluing capsule-core rod brush oil in capsule production line, dip in glue, dry, pull out the operations such as glue, wherein dipping in glue is a vital ring in capsule manufacture, and dipping in the temperature of glue in glue groove, flow velocity, all to affect the wall thickness of capsule, top thickness, the uniformity and the grain method of double differences different.

Notification number is a kind of for Chinese invention patent that the Chinese utility model patent of " CN202105191U " and publication number are " CN102241097A " discloses dips in glue groove for capsule manufacture, it comprises inside groove and water jacket, certain intervals is maintained with outer slot bottom bottom inside groove, be provided with bottom inside groove and make inside groove, the opening that water jacket is connected, horizontally disposed puddler is provided with at opening part, the end of puddler connects motor by belt pulley, under puddler effect, glue overflows to water jacket by routing up bottom inside groove from bottom to top, inside groove bottom reversed is entered into again by water jacket, move in circles, reach mixing effect.

Although glue groove makes in interior water jacket glue reciprocation cycle by puddler is dipped in above-mentioned, but under the effect of puddler, the middle part of inside groove glue upper surface (puddler corresponding directly over) differs greatly with the flow velocity of edge, the defect so caused is, after same offset plate gluing capsule-core rod dips in glue, on capsule on medium position capsule plug and edge placement capsule plug, the wall thickness of capsule is inconsistent, and the grain method of double differences opposite sex is larger.

Summary of the invention

The technical problems to be solved in the utility model is to provide a kind of glue temperature and glue flow velocity dips in glue groove all more uniformly.

In order to solve the problems of the technologies described above, the technical scheme that this utility model provides is as follows: one dips in glue groove, at least comprises:

Reservoir, this reservoir is provided with liquid storage cylinder and heating chamber;

Overflow launder, this overflow launder is fixedly installed in liquid storage cylinder;

Beat glue hole, the center of isopipe root is located in this dozen of glue holes, for being communicated with reservoir and overflow launder;

Gluing device, for squeezing into overflow launder by glue by liquid storage cylinder;

Constant-current stabilizer, the cavity of overflow launder inside is divided into high pressure chest and dips in glue chamber by this constant-current stabilizer, this constant-current stabilizer is provided with and is communicated with high pressure chest and dips in the stable chute in glue chamber, and the two ends to stable chute in the middle part of the stable chute that the groove width of this stable chute is from corresponding directly over glue hole evenly broaden gradually.

Further, described gluing device is water pump.

Further, the position of described stable chute in the middle part of stable chute is provided with one group of symmetrical crosspiece, and this crosspiece is across stable chute both sides and be fixedly connected with constant-current stabilizer.

Further, flow velocity adjusting device is also provided with directly over described stable chute, described flow velocity adjusting device comprises a pair symmetrical cowling panel, rectifier tank is formed between cowling panel described in a pair, the groove width of described rectifier tank evenly broadens to two ends gradually from middle part, and at same cross section, the groove width of described rectifier tank is less than the groove width of stable chute.

Further, described cowling panel is rotationally connected by rotating shaft and constant-current stabilizer, and under described cowling panel and constant-current stabilizer parastate, on same cross section, the groove width of rectifier tank is less than the groove width of stable chute.

Further, the adjusting device for driving cowling panel to rotate around the shaft is also comprised.

Further, described adjusting device comprises the connecting portion, the transmission lever be connected with connecting portion and the driving device driving transmission lever to be elevated that are connected with a pair cowling panel.

Further, described driving device is telescopic cylinder or linear electric machine.

A kind of capsule production line, comprises and dips in glue groove described in any one of claim 1-8.

A kind of capsule production line, comprise and dip in glue groove described in claim 7 or 8, the control system of capsule production line controls described driving device collaborative work.

Of the present utility modelly dip in glue groove, glue in reservoir is squeezed into by the glue hole of beating at isopipe root center, the glue initially entering overflow launder is with flow velocity faster, larger pressure rushes at the middle part of constant-current stabilizer, because the groove width in the middle part of stable chute is less, can only pass through by holding portion glue, unsanctioned glue can be shunted to two ends from the middle part of stable chute, in the process, reduce gradually away from the glue liquid flowing speed in the middle part of stable chute and pressure, hold the stable chute that its glue flows through to broaden gradually, so enter eventually through stable chute the glue dipping in glue chamber, along the length direction of stable chute, flow velocity and pressure are all comparatively close, cause the liquid level dipping in glue in glue chamber comparatively steady, after same offset plate gluing capsule-core rod dips in glue, on capsule on medium position capsule plug and edge placement capsule plug, the enable wall uniformity of capsule is better, the grain method of double differences is different less.

Accompanying drawing explanation

Fig. 1 is the structural representation that the present embodiment dips in glue groove;

Fig. 2 is the generalized section that the present embodiment dips in glue groove;

Fig. 3 is the close-up schematic view in the portion of A shown in Fig. 2;

Fig. 4 is the structural representation of the present embodiment overflow launder;

Fig. 5 is the scheme of installation of the present embodiment overflow launder and constant-current stabilizer;

Fig. 6 is the structural representation of this enforcement constant-current stabilizer;

Fig. 7 is the structural representation of the present embodiment flow velocity adjusting device.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, this utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain this utility model, and be not used in restriction this utility model.

In description of the present utility model, it will be appreciated that, term " on ", D score, "front", "rear", " interior ", the orientation of the instruction such as " outward " or position relationship be based on orientation shown in the drawings or position relationship, only this utility model and simplified characterization for convenience of description, instead of the device of instruction or hint indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, connect integratedly, also can be removably connect; It can be the connection of two element internals; Can be directly be connected, also indirectly can be connected by intermediary, for the ordinary skill in the art, concrete condition can understand the concrete meaning of above-mentioned term in this utility model.

As shown in Figure 1 and Figure 2, the one of the present embodiment dips in glue groove, and comprise reservoir 10, overflow launder 20 and constant-current stabilizer 30, overflow launder 20 is fixedly installed in reservoir 10.Wherein reservoir 10 is provided with liquid storage cylinder 11 and heating chamber 12, stored hot water in this heating chamber 12, and its heating chamber 12 is provided with hot water inlet and hot water outlet.As the special feature of the present embodiment, as shown in Figure 4, the center bottom overflow launder 20 is provided with beats glue hole 23 for what be communicated with reservoir 10 and overflow launder 20, and the glue namely in reservoir 10 enters overflow launder 20 from the center of overflow launder 20 bottom land.Do not limit at this as the gluing device making glue enter overflow launder 20, such as water pump.In order to its in the middle part of play glue mode adapt, the present embodiment is provided with constant-current stabilizer 30, as shown in Figure 2, the cavity of overflow launder 20 inside is divided into high pressure chest 22 and dips in glue chamber 21 by this constant-current stabilizer 30, this constant-current stabilizer 30 is provided with the stable chute 31 being communicated with high pressure chest 22 and dipping in glue chamber 21, as shown in Figure 5, and the groove width of this stable chute 31 evenly broaden gradually to two ends from middle part.In order to prevent stable chute 31 to be out of shape, as shown in Figure 6, be provided with one group of symmetrical crosspiece 32 in its stable chute 31 position in the middle part of stable chute, this crosspiece 32 is across stable chute both sides and be fixedly connected with constant-current stabilizer.

Dip in glue groove structure above-mentioned, glue in reservoir is squeezed into by the glue hole of beating at isopipe root center, the glue initially entering overflow launder is with flow velocity faster, larger pressure rushes at the middle part of constant-current stabilizer, because the groove width in the middle part of stable chute is less, can only pass through by holding portion glue, unsanctioned glue can be shunted to two ends from the middle part of stable chute, in the process, reduce gradually away from the glue liquid flowing speed in the middle part of stable chute and pressure, hold the stable chute that its glue flows through to broaden gradually, so enter eventually through stable chute the glue dipping in glue chamber, along the length direction of stable chute, flow velocity and pressure are all comparatively close, cause the liquid level dipping in glue in glue chamber comparatively steady, after same offset plate gluing capsule-core rod dips in glue, on capsule on medium position capsule plug and edge placement capsule plug, the enable wall uniformity of capsule is better, the grain method of double differences is different less.

Further, in order to make the flow velocity dipping in glue in glue chamber 21 more stable, as Figure 1-3, directly over its stable chute 31, be also provided with flow velocity adjusting device 40, described flow velocity adjusting device 40 as Figure 1-3, comprise a pair symmetrical cowling panel 41, form rectifier tank 43 between a pair this cowling panel 41, it should be noted that, the groove width of this rectifier tank 43 evenly broadens to two ends gradually from middle part, and at same cross section, the groove width of this rectifier tank 43 is less than the groove width of stable chute 31.

The meaning arranging above-mentioned flow velocity adjusting device 40 is, when too fast by beating the glue flow velocity that glue hole enters, to such an extent as to after constant-current stabilizer 30, when each position glue flow velocity difference along stable chute 31 length direction is still large, the glue flow velocity further made to dip in glue chamber everywhere by this flow velocity adjusting device 40 is comparatively even, to ensure that on offset plate, each capsule plug dips in the uniformity of glue.

As preferably, above-mentioned cowling panel 41 is rotationally connected by rotating shaft 42 and constant-current stabilizer 30, and under cowling panel 41 with constant-current stabilizer 30 parastate, on same cross section, the groove width of rectifier tank is less than the groove width of stable chute.Adapting with it, as shown in Figure 2 and Figure 3, also comprising for driving cowling panel 41 42 adjusting devices rotated around the shaft.This adjusting device comprises the connecting portion 71, the transmission lever 72 be connected with connecting portion 71 and the driving device 70 driving transmission lever 72 to be elevated that are connected with a pair cowling panel 41.This driving device 70 is preferably telescopic cylinder or linear electric machine.

The meaning that flow velocity adjusting device 40 is set to bascule is, when the present embodiment dip in glue groove be located in capsule production line time, driving device collaborative work under the control of production line control system.Do not arrive at offset plate in the process of dipping in glue station, driving device orders about cowling panel 41 42 rotations around the shaft, and the groove width of rectifier tank 43 is increased, and the glue accelerated in overflow launder upgrades, to make the glue temperature in the temperature of glue in overflow launder and reservoir more close; When offset plate dips in glue station by arrival, driving device orders about rectifier tank and returns to the narrowest state (and cowling panel and constant-current stabilizer parastate), to make the glue flow velocity that dips in glue chamber more steady, ensures that on offset plate, each position capsule plug dips in the uniformity of glue.

In a word; the foregoing is only preferred embodiment of the present utility model; not in order to limit this utility model, all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. dip in a glue groove, it is characterized in that, at least comprise:

Reservoir, this reservoir is provided with liquid storage cylinder and heating chamber;

Overflow launder, this overflow launder is fixedly installed in liquid storage cylinder;

Beat glue hole, the center of isopipe root is located in this dozen of glue holes, for being communicated with reservoir and overflow launder;

Gluing device, for squeezing into overflow launder by glue by liquid storage cylinder;

Constant-current stabilizer, the cavity of overflow launder inside is divided into high pressure chest and dips in glue chamber by this constant-current stabilizer, this constant-current stabilizer is provided with and is communicated with high pressure chest and dips in the stable chute in glue chamber, and the two ends to stable chute in the middle part of the stable chute that the groove width of this stable chute is from corresponding directly over glue hole evenly broaden gradually.

2. dip in glue groove according to according to claim 1, it is characterized in that, described gluing device is water pump.

3. dip in glue groove according to according to claim 1, it is characterized in that, the position of described stable chute in the middle part of stable chute is provided with one group of symmetrical crosspiece, and this crosspiece is across stable chute both sides and be fixedly connected with constant-current stabilizer.

4. according to dipping in glue groove described in any one of claim 1-3, it is characterized in that, flow velocity adjusting device is also provided with directly over described stable chute, described flow velocity adjusting device comprises a pair symmetrical cowling panel, rectifier tank is formed between cowling panel described in a pair, the groove width of described rectifier tank evenly broadens to two ends gradually from middle part, and at same cross section, the groove width of described rectifier tank is less than the groove width of stable chute.

5. dip in glue groove according to according to claim 4, it is characterized in that, described cowling panel is rotationally connected by rotating shaft and constant-current stabilizer, and under described cowling panel and constant-current stabilizer parastate, on same cross section, the groove width of rectifier tank is less than the groove width of stable chute.

6. dipping in glue groove according to according to claim 5, it is characterized in that, also comprising the adjusting device for driving cowling panel to rotate around the shaft.

7. dip in glue groove according to according to claim 6, it is characterized in that, described adjusting device comprises the connecting portion, the transmission lever be connected with connecting portion and the driving device driving transmission lever to be elevated that are connected with a pair cowling panel.

8. dip in glue groove according to according to claim 7, it is characterized in that, described driving device is telescopic cylinder or linear electric machine.

9. a capsule production line, is characterized in that, comprises dipping in glue groove described in any one of claim 1-8.

10. a capsule production line, is characterized in that, comprises dipping in glue groove described in claim 7 or 8, and the control system of capsule production line controls described driving device collaborative work.