CN220883073U - Anti-sedimentation latex dipping tank - Google Patents

Anti-sedimentation latex dipping tank Download PDF

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Publication number
CN220883073U
CN220883073U CN202322393556.9U CN202322393556U CN220883073U CN 220883073 U CN220883073 U CN 220883073U CN 202322393556 U CN202322393556 U CN 202322393556U CN 220883073 U CN220883073 U CN 220883073U
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China
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latex
stirring
sedimentation
tank
circulating
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CN202322393556.9U
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Chinese (zh)
Inventor
王永庆
兰黄鲜
李竟峰
刘延方
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Guilin Hengbao Health Protection Co ltd
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Guilin Hengbao Health Protection Co ltd
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Abstract

The utility model provides an anti-sedimentation latex dipping tank, which relates to the technical field of latex products and comprises the following components: the device comprises a main tank, an auxiliary tank, a circulating stirring device, a sedimentation-preventing stirring device and an intermediate layer; the main groove is arranged along the direction of the dipping operation of the mould and is used for dipping the latex into the mould; two ends of the auxiliary groove are respectively communicated with two ends of the main groove; the circulating stirring device is longitudinally arranged in the auxiliary tank and is used for enabling latex to circularly flow between the main tank and the auxiliary tank; the anti-sedimentation stirring device is transversely arranged on the side surface of the main tank and is used for upwards stirring the precipitated filler in the latex to uniformly stir the latex; the middle interlayer is arranged between the main tank and the auxiliary tank, and cooling water is filled in the middle interlayer for preventing the temperature of the emulsion from rising. The anti-sedimentation latex dipping tank provided by the utility model can enable latex to horizontally circulate in the tank and not to sink; the filler and the latex can be uniformly stirred, so that the product quality is ensured; and the condition of latex flocculation caused by the temperature rise of the latex in the tank can be avoided.

Description

Anti-sedimentation latex dipping tank
Technical Field
The utility model relates to the technical field of latex products, in particular to an anti-sedimentation latex dipping tank.
Background
At present, latex gloves are generally produced by an impregnation method at home and abroad. The dipping method for producing the latex glove requires that the latex solution is dipped by sequentially arranged molds through a latex dipping tank, and the process is a key link for producing the latex glove by the dipping method. The latex dipping tank is a place for providing latex for mold dipping, a stirring device is needed to be arranged in the latex dipping tank, the latex can be driven to circularly flow in the latex dipping tank by matching with the mold dipping operation, the latex is uniformly stirred, and the product quality is ensured.
The latex dipping tank on glove production line for producing latex products at home and abroad is generally larger in volume, thin and long in shape. The upper and lower circulation latex dipping tanks are latex dipping tanks commonly used for producing latex gloves, and mainly depend on a stirring device arranged below a cover plate to stir latex, and the latex is driven to circulate up and down in the latex dipping tanks by pushing action of a dark flow channel and matching with the dipping operation of a die. However, when the upper and lower circulation latex dipping tanks are used to produce gloves containing a high filler level of filler in the latex (40% filler addition in the latex); or to produce functional gloves, such as radiation-proof gloves (adding to the latex an alloy powder or oxide of lead oxide or bismuth oxide or tungsten alloy having a density much greater than that of the latex); or when producing gloves containing highly filled inorganic fillers (calcium bicarbonate, modified nano calcium carbonate, or other functional fillers) in the latex, the fillers in the latex are easy to settle on the cover plate, and seriously affect the product quality. And the upper and lower circulation latex dipping tanks are only provided with a stirring device at the bottom of one end of the latex tank to stir the latex, so that the latex in the upper and lower circulation latex dipping tanks has poor circulation effect and poor stirring effect.
Disclosure of utility model
The utility model aims to provide an anti-sedimentation latex dipping tank, which solves at least one of the technical problems in the prior art.
In order to solve the technical problems, the utility model provides an anti-sedimentation latex dipping tank, which comprises: the device comprises a main tank, an auxiliary tank, a circulating stirring device, a sedimentation-preventing stirring device and an intermediate layer;
The main groove is arranged along the direction of the dipping operation of the mould and is used for dipping the latex into the mould;
Two ends of the auxiliary groove are respectively communicated with two ends of the main groove;
the circulating stirring device is longitudinally arranged in the auxiliary tank and is used for enabling latex to circularly flow between the main tank and the auxiliary tank;
The anti-sedimentation stirring device is transversely arranged on the side surface of the main tank and is used for upwards stirring the precipitated filler in the latex to uniformly stir the latex;
The middle interlayer is arranged between the main tank and the auxiliary tank, and cooling water is filled in the middle interlayer and used for preventing latex from rising in temperature, so that latex in the anti-sedimentation latex dipping tank is prevented from rising in temperature when stirring speed is increased, and latex flocculation is caused.
Further, the circulation stirring device includes: a circulation stirring part and a driving mechanism;
the circulating stirring component is longitudinally arranged in the auxiliary groove;
The circulating stirring component is arranged at the middle part of the auxiliary tank in the direction of the circulating flow of the latex;
The driving mechanism is longitudinally fixed on the outer side of the anti-sedimentation latex dipping tank and connected with the circulating stirring component, and is used for driving the circulating stirring component to rotate, so that latex in the auxiliary tank is pushed to flow forwards in a turnover mode, and the latex does not sink downwards.
Preferably, the driving mechanism is a motor reducer or a hydraulic motor.
Preferably, the top end of the circulating stirring component and the top end of the driving mechanism are both provided with belt pulleys, and the driving mechanism is connected with the circulating stirring component through the belt pulleys.
Further, the circulation stirring part includes: a circulating stirring shaft and a circulating stirring blade;
The circulating stirring shaft is longitudinally arranged in the auxiliary groove, and the bottom of the circulating stirring shaft is fixedly provided with the circulating stirring blades;
The circulating stirring blade is arranged at the bottom of the auxiliary groove.
Preferably, the circulating stirring blade is of a propelling blade type structure.
Further, the circulating stirring device further comprises a stirring barrel, wherein the stirring barrel is arranged in the auxiliary groove and used for placing the circulating stirring component.
Further, the stirring barrel is provided with an inlet and an outlet;
in the height direction, the inlet of the stirring barrel is close to the liquid level of the emulsion, and the outlet of the stirring barrel is close to the bottom of the auxiliary groove.
Further, prevent deposiing stirring device that turns over material includes: anti-sedimentation stirring component and transverse driving mechanism;
The anti-sedimentation stirring component is transversely arranged on the side surface of the main groove;
In the direction of the latex circulation flow, the anti-sedimentation stirring component is arranged at one side of the inlet of the stirring barrel;
The horizontal driving mechanism is fixed on the outer side of the anti-sedimentation latex dipping tank and connected with the anti-sedimentation stirring component, and is used for driving the anti-sedimentation stirring component to rotate so as to uniformly stir the latex, so that fillers in the latex do not sediment downwards.
Preferably, the transverse driving mechanism is a motor speed reducer or a hydraulic motor.
Further, prevent deposiing stirring part of stirring of turning over material includes: a sedimentation-preventing stirring shaft and a sedimentation-preventing stirring blade;
The anti-sedimentation stirring shaft is transversely arranged on the side surface of the main groove, and one end of the anti-sedimentation stirring shaft is provided with a connecting hole for connecting the transverse driving mechanism;
the anti-sedimentation stirring blade is arranged on the side face of the main groove and is fixed on the anti-sedimentation stirring shaft.
Preferably, the anti-sedimentation stirring blade has a spiral blade structure.
Further, the anti-sedimentation stirring device further comprises a stirring inclined plane, wherein the stirring inclined plane is arranged below the anti-sedimentation stirring part and is used for upwards stirring the filler precipitated in the emulsion along the stirring inclined plane in cooperation with the anti-sedimentation stirring part.
Further, the anti-sedimentation latex dipping tank further comprises an external jacket, the external jacket is arranged on the outer surface of the anti-sedimentation latex dipping tank, cooling water is filled in the external jacket and used for preventing the temperature of latex from rising, so that the latex in the anti-sedimentation latex dipping tank is prevented from rising in temperature when the stirring speed is increased, and latex flocculation is caused.
Further, the external jacket is provided with a cooling water inlet and a cooling water outlet;
The cooling water inlet is arranged at the bottom of the outer surface of the anti-sedimentation latex dipping tank and is used for introducing cooling water into the externally-added jacket;
The cooling water outlet is arranged at the top of the outer surface of the anti-sedimentation latex dipping tank and is used for discharging cooling water in the externally-added jacket;
In the externally-added jacket, cooling water is introduced from a cooling water inlet and discharged from a cooling water outlet along the direction of the impregnation operation of the mold.
Further, the anti-sedimentation latex dipping tank further comprises a discharge hole, wherein the discharge hole is arranged on the bottom surface of the anti-sedimentation latex dipping tank and is arranged on the same side with the cooling water outlet and used for discharging latex in the anti-sedimentation latex dipping tank.
By adopting the technical scheme, the utility model has the following beneficial effects:
The anti-sedimentation latex dipping tank provided by the utility model can enable latex to horizontally circulate in the tank and not to sink; the filler at the bottom of the tank can be turned upwards to be uniformly stirred with the latex, so that the product quality is ensured; and the condition of latex flocculation caused by the rising of the temperature of the latex in the tank when the stirring speed is increased can be effectively avoided.
Drawings
In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.
FIG. 1 is a top view of an anti-settling latex dip tank provided in example 1 of the utility model;
FIG. 2 is a front view of the anti-settling latex dip tank shown in FIG. 1;
FIG. 3 is a cross-sectional view of the anti-settling latex dip tank shown in FIG. 1;
FIG. 4 is a schematic view of a circulation stirring shaft of the anti-settling latex dip tank shown in FIG. 1;
FIG. 5 is a schematic view of the circulating stirring vane of the anti-settling latex dip tank shown in FIG. 1;
FIG. 6 is a schematic view of a stirring barrel of the anti-settling latex dip tank shown in FIG. 1;
FIG. 7 is a schematic view of an anti-settling, material-turning stirring shaft of the anti-settling latex dip tank shown in FIG. 1;
FIG. 8 is a schematic view of an anti-settling, material-turning stirring blade of the anti-settling latex dip tank shown in FIG. 1;
FIG. 9 is a top view of the anti-settling latex dip tank provided in example 2 of the utility model;
FIG. 10 is a front view of the anti-settling latex dip tank shown in FIG. 9;
FIG. 11 is a cross-sectional view of the anti-settling latex dip tank shown in FIG. 9.
Reference numerals:
1-a main tank; 2-an auxiliary groove; 3-a circulating stirring device; 301-a stirring shaft support plate; 302-a motor reducer fixing plate; 31-a circulation stirring part; 311-a circulating stirring shaft; 312-circularly stirring the leaves; 313-stirring shaft pulley; 32-a driving mechanism; 321-a motor reducer belt pulley; 33-stirring barrel; 331-a stirring barrel inlet; 332-a stirring barrel outlet; 4-a sedimentation-preventing stirring device; 401-supporting plates; 402-reducer fixing plate; 41-a precipitation-preventing stirring component; 411-a sedimentation-preventing stirring shaft; 412-anti-sedimentation stirring blades; 413-connecting holes; 42-a transverse driving mechanism; 43-turning inclined plane; 5-an intermediate layer; 6, a discharge hole; 7-externally adding a jacket; 71-cooling water inlet; 72-cooling water outlet.
Detailed Description
The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.
In order to facilitate understanding of the embodiments of the present application, the following description is given first to the main inventive concept of the present application:
Aiming at the problems that the latex circularly flows up and down in the latex dipping tank and filler in the latex is easy to subside due to the action of gravity in the prior art, the latex dipping tank is divided into a main tank and an auxiliary tank with two ends communicated, so that the latex horizontally circularly flows in the latex dipping tank, and the influence of the action of gravity on the latex circularly flows is reduced;
Aiming at the problems of poor latex circulation effect and easy sedimentation in the prior art, the application arranges a circulation stirring device in the auxiliary tank, which is matched with the mold dipping operation to provide acting force to drive latex to circulate in the latex dipping tank, thereby reducing the sedimentation phenomenon;
Aiming at the problems that the stirring of latex and filler is not uniform enough and the product quality is easy to occur in the prior art, the side surface of the main tank is provided with the anti-sedimentation stirring device, so that the filler settled at the bottom of the latex dipping tank can be turned upwards, the filler and the latex are uniformly stirred, and the product quality problem is reduced;
Aiming at the condition that latex in a latex dipping tank is easy to flocculate as the temperature of the latex rises along with the acceleration of stirring speed in the production process in the prior art, interlayers with cooling water are arranged in the middle and the periphery of the latex dipping tank, so that the condition that the latex flocculates due to the rising of the temperature of the latex is avoided when the stirring speed is increased.
The utility model is further illustrated with reference to specific embodiments.
Example 1
As shown in fig. 1 to 8, the anti-sedimentation latex dipping tank provided in this embodiment includes: a main tank 1, an auxiliary tank 2, a circulating stirring device 3, an anti-sedimentation stirring device 4 and an intermediate layer 5; the main tank 1 is arranged along the direction of the dipping operation of the mould and is used for dipping the mould into emulsion; two ends of the auxiliary groove 2 are respectively communicated with two ends of the main groove 1; the circulating stirring device 3 is longitudinally arranged in the auxiliary tank 2 and is used for circulating latex between the main tank 1 and the auxiliary tank 2; the anti-sedimentation stirring device 4 is transversely arranged on the side surface of the main tank 1 and is used for upwards stirring the precipitated filler in the latex to uniformly stir the latex; the middle interlayer 5 is arranged between the main tank 1 and the auxiliary tank 2, and cooling water is filled in the middle interlayer for preventing the latex from rising in temperature, so that the latex in the anti-sedimentation latex dipping tank is prevented from rising in temperature when the stirring speed is increased, and latex flocculation is caused.
Further, the circulation stirring device 3 includes: a circulation stirring member 31 and a driving mechanism 32; the circulating stirring member 31 is longitudinally disposed in the sub tank 2; the circulating stirring member 31 is provided at the middle portion of the sub tank 2 in the direction of the circulating flow of the latex; the driving mechanism 32 is longitudinally fixed at the outer side of the anti-sedimentation latex dipping tank and connected with the circulating stirring component 31, and is used for driving the circulating stirring component 31 to rotate, so that latex in the auxiliary tank 2 is pushed to flow forwards in a turnover manner, and the latex is prevented from sinking downwards. The drive mechanism 32 is typically a motor reducer or a hydraulic motor. In this embodiment, the driving mechanism 32 is a motor reducer, and the motor reducer is assembled with a motor reducer fixing plate 302, and is longitudinally fixed outside the anti-sedimentation latex dipping tank by the motor reducer fixing plate 302. More preferably, the top end of the circulation stirring member 31 and the top end of the driving mechanism 32 are both provided with pulleys, and the driving mechanism 32 is connected to the circulation stirring member 31 via the pulleys. In this embodiment, the top end of the circulation stirring member 31 is provided with a stirring shaft pulley 313; the top end of the driving mechanism 32 is provided with a motor reducer pulley 321.
Further, the circulation stirring member 31 includes: a circulation stirring shaft 311 and a circulation stirring blade 312; in this embodiment, the circulating stirring shaft 311 is assembled with the stirring shaft supporting plate 301, and the circulating stirring shaft 311 is longitudinally arranged in the auxiliary tank 2 through the stirring shaft supporting plate 301, and the bottom is fixed with the circulating stirring vane 312; the circulating stirring vane 312 is disposed at the bottom of the sub tank 2. In this embodiment, the circulating stirring vane 312 has a propelling vane type structure.
More preferably, the circulation stirring device 3 further comprises a stirring barrel 33, and the stirring barrel 33 is arranged in the auxiliary tank 2 and is used for placing the circulation stirring component 31. The stirring barrel 33 is provided with an inlet 331 and an outlet 332; in the height direction, the stirring tank inlet 331 is disposed near the liquid level of the emulsion, and the stirring tank outlet 332 is disposed near the bottom of the auxiliary tank 2.
Further, the anti-sedimentation stirring device 4 comprises: a sedimentation-preventing stirring part 41 and a transverse driving mechanism 42; the anti-sedimentation stirring component 41 is transversely arranged on the side surface of the main tank 1; the anti-sedimentation stirring part 41 is arranged at one side of the inlet 331 of the stirring barrel in the direction of the latex circulation flow; the horizontal driving mechanism 42 is fixed at the outer side of the anti-sedimentation latex dipping tank, is connected with the anti-sedimentation stirring component 41, and is used for driving the anti-sedimentation stirring component 41 to rotate, so that the latex is uniformly stirred, and the filler in the latex is prevented from sedimentation downwards. The transverse driving mechanism 42 is usually a motor reducer or a hydraulic motor. In this embodiment, the transverse driving mechanism 42 is a transverse motor reducer. The motor reducer is assembled with the reducer fixing plate 402, and the transverse motor reducer is fixed on the outer side of the anti-sedimentation latex dipping tank through the reducer fixing plate 402.
Further, the anti-sedimentation stirring part 41 includes: a sedimentation-preventing stirring shaft 411 and a sedimentation-preventing stirring blade 412; in this embodiment, the anti-sedimentation stirring shaft 411 is assembled with the support plate 401, and the anti-sedimentation stirring shaft 411 is transversely disposed on the side surface of the main tank 1 through the support plate 401, and a connection hole 413 is disposed at one end for connecting with the transverse driving mechanism 42; the anti-sedimentation stirring blade 412 is disposed on the side surface of the main tank 1, and is fixed on the anti-sedimentation stirring shaft 411. In this embodiment, the anti-settling stirring blade 412 has a spiral blade structure.
More preferably, the anti-sedimentation stirring device 4 further includes a stirring inclined plane 43, where the stirring inclined plane 43 is disposed below the anti-sedimentation stirring component 41, and is used to cooperate with the anti-sedimentation stirring component 41 to upwards turn the filler precipitated in the latex along the stirring inclined plane 43.
And the anti-sedimentation latex dipping tank further comprises a discharge hole 6, wherein the discharge hole 6 is arranged on the bottom surface of the anti-sedimentation latex dipping tank, is close to one side of the die, away from the anti-sedimentation latex dipping tank, and is used for discharging latex in the anti-sedimentation latex dipping tank.
The invention has the positive significance that:
(1) The design of the anti-sedimentation latex dipping tank is divided into a main tank and an auxiliary tank with two ends communicated, so that the latex horizontally circularly flows in the anti-sedimentation latex dipping tank, and the sedimentation of the filler in the latex due to the action of gravity is reduced;
(2) The auxiliary tank is internally provided with a circulating stirring device, and the auxiliary tank is matched with the mold dipping operation to provide acting force to drive the latex to circularly flow in the anti-sedimentation latex dipping tank without sinking;
(3) The anti-sedimentation stirring device is arranged on the side surface of the main tank, so that the filler settled at the bottom of the anti-sedimentation latex dipping tank is turned upwards and is uniformly stirred with the latex, and the product quality is ensured;
(4) Through the interlayer that is provided with the cooling water in the subsidence prevention latex dipping tank, the condition that the latex flocculates due to the rising of the latex temperature in the subsidence prevention latex dipping tank when the stirring speed is accelerated is avoided.
Example 2
This embodiment is substantially the same as embodiment 1 except that:
As shown in fig. 9-11, in this embodiment, the anti-sedimentation latex dipping tank further includes an external jacket 7, the external jacket 7 is disposed on the outer surface of the anti-sedimentation latex dipping tank, and cooling water is filled in the external jacket for preventing the temperature of the latex from rising, so that the latex in the anti-sedimentation latex dipping tank is prevented from rising when the stirring speed is increased, resulting in flocculation of the latex.
More preferably, the external jacket 7 is provided with a cooling water inlet 71 and a cooling water outlet 72; the cooling water inlet 71 is arranged at the bottom of the outer surface of the anti-sedimentation latex dipping tank and is used for introducing cooling water into the externally-added jacket 7; the cooling water outlet 72 is arranged at the top of the outer surface of the anti-sedimentation latex dipping tank and is used for discharging the cooling water in the external jacket 7; in the jacket 7, cooling water is introduced from a cooling water inlet 71 and discharged from a cooling water outlet 72 in the direction of the mold dipping operation.
Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model.

Claims (10)

1. An anti-settling latex dip tank, comprising: the device comprises a main tank, an auxiliary tank, a circulating stirring device, a sedimentation-preventing stirring device and an intermediate layer;
The main groove is arranged along the direction of the dipping operation of the mould and is used for dipping the latex into the mould;
Two ends of the auxiliary groove are respectively communicated with two ends of the main groove;
the circulating stirring device is longitudinally arranged in the auxiliary tank and is used for enabling latex to circularly flow between the main tank and the auxiliary tank;
The anti-sedimentation stirring device is transversely arranged on the side surface of the main tank and is used for upwards stirring the precipitated filler in the latex to uniformly stir the latex;
the middle interlayer is arranged between the main tank and the auxiliary tank, and cooling water is filled in the middle interlayer and used for preventing the temperature of the emulsion from rising.
2. The anti-settling latex dip tank of claim 1 wherein the circulation stirring device comprises: a circulation stirring part and a driving mechanism;
the circulating stirring component is longitudinally arranged in the auxiliary groove;
The driving mechanism is longitudinally fixed on the outer side of the anti-sedimentation latex dipping tank and connected with the circulating stirring component, and is used for driving the circulating stirring component to rotate, so that latex in the auxiliary tank is pushed to flow forwards in a turnover mode, and the latex does not sink downwards.
3. The anti-settling latex dip tank of claim 2, wherein the circulation stirring means comprises: a circulating stirring shaft and a circulating stirring blade;
The circulating stirring shaft is longitudinally arranged in the auxiliary groove, and the bottom of the circulating stirring shaft is fixedly provided with the circulating stirring blades;
The circulating stirring blade is arranged at the bottom of the auxiliary groove.
4. The anti-settling latex dip tank of claim 3 wherein the circulating stirring vanes are of a push vane type construction.
5. The sedimentation prevention latex dip tank of claim 2 wherein the circulation stirring device further comprises a stirring tank disposed in the secondary tank for placing the circulation stirring member.
6. The anti-settling latex dip tank of claim 5 wherein the agitator is provided with an inlet and an outlet;
in the height direction, the inlet of the stirring barrel is close to the liquid level of the emulsion, and the outlet of the stirring barrel is close to the bottom of the auxiliary groove.
7. The anti-settling latex dip tank of claim 1, wherein the anti-settling and stirring device comprises: anti-sedimentation stirring component and transverse driving mechanism;
The anti-sedimentation stirring component is transversely arranged on the side surface of the main groove;
The horizontal driving mechanism is fixed on the outer side of the anti-sedimentation latex dipping tank and connected with the anti-sedimentation stirring component, and is used for driving the anti-sedimentation stirring component to rotate so as to uniformly stir the latex, so that fillers in the latex do not sediment downwards.
8. The sedimentation-resistant latex dip tank of claim 7 wherein the sedimentation-resistant material agitation means comprises: a sedimentation-preventing stirring shaft and a sedimentation-preventing stirring blade;
The anti-sedimentation stirring shaft is transversely arranged on the side surface of the main groove, and one end of the anti-sedimentation stirring shaft is provided with a connecting hole for connecting the transverse driving mechanism;
the anti-sedimentation stirring blade is arranged on the side face of the main groove and is fixed on the anti-sedimentation stirring shaft.
9. The anti-settling latex dip tank of claim 8, wherein the anti-settling stirring blade is a helical blade structure.
10. The sedimentation-resistant latex dip tank of claim 7 wherein the sedimentation-resistant stirring device further comprises a stirring ramp disposed below the sedimentation-resistant stirring member for cooperating with the sedimentation-resistant stirring member to turn up filler deposited in the latex along the stirring ramp.
CN202322393556.9U 2023-09-04 2023-09-04 Anti-sedimentation latex dipping tank Active CN220883073U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202322393556.9U CN220883073U (en) 2023-09-04 2023-09-04 Anti-sedimentation latex dipping tank

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202322393556.9U CN220883073U (en) 2023-09-04 2023-09-04 Anti-sedimentation latex dipping tank

Publications (1)

Publication Number Publication Date
CN220883073U true CN220883073U (en) 2024-05-03

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202322393556.9U Active CN220883073U (en) 2023-09-04 2023-09-04 Anti-sedimentation latex dipping tank

Country Status (1)

Country Link
CN (1) CN220883073U (en)

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