CN110860233B

CN110860233B - Self-cleaning stirring device

Info

Publication number: CN110860233B
Application number: CN201911208621.8A
Authority: CN
Inventors: 曹玉; 毛潞
Original assignee: Chongqing Ruiting Plastic Co Ltd
Current assignee: Chongqing Ruiting Plastic Co Ltd
Priority date: 2019-11-30
Filing date: 2019-11-30
Publication date: 2021-11-09
Anticipated expiration: 2039-11-30
Also published as: CN110860233A

Abstract

The invention relates to the technical field of film production equipment, and discloses a self-cleaning stirring device which comprises a material containing barrel, wherein a stirring shaft is rotationally connected in the material containing barrel, a stirring rod is fixedly arranged on the stirring shaft, a telescopic mechanism is fixedly arranged on the circumferential surface of the stirring shaft, and a scraper plate is fixedly arranged at the free end of the telescopic mechanism. This scheme of adoption can solve prior art and can not carry out clear technical problem to flourishing feed cylinder automatically.

Description

Self-cleaning stirring device

Technical Field

The invention relates to the technical field of film production equipment, in particular to a self-cleaning stirring device.

Background

The process for producing the composite film relates to a plurality of devices such as a batcher, an extruder, a filter, a die head, a foam stabilizing frame, a winding mechanism and the like. The material proportioning device basically comprises three functions of feeding, stirring and mixing and discharging, but after the raw materials are stirred and mixed by the conventional material proportioning device, the inner peripheral wall of the material containing barrel needs to be cleaned manually by using a scraper, so that the manual labor intensity is high, and the technical problem of excessive raw material waste is easily caused; moreover, the performance of the composite film is greatly affected by the proportion of the raw material components, so that the material containing cylinder is often required to be cleaned, which further aggravates the above problems.

Disclosure of Invention

The invention aims to provide a self-cleaning stirring device to solve the technical problem that a material containing barrel cannot be automatically cleaned in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides an agitating unit of automatically cleaning, includes the flourishing feed cylinder, and flourishing feed cylinder internal rotation is connected with the (mixing) shaft, is fixed on the (mixing) shaft to be equipped with the puddler, and the fixed telescopic machanism that is equipped with on the global of (mixing) shaft, telescopic machanism's free end is fixed and is equipped with the scraper blade.

The principle and the advantages of the scheme are as follows: the stirring shaft is provided with the stirring rod, so that the materials in the material containing barrel can be stirred, and the purpose of batching is realized; according to the scheme, the scraper blade is connected with the stirring shaft through the telescopic mechanism, so that when the stirring shaft drives the stirring rod to stir, the telescopic mechanism can be driven to rotate together, the telescopic mechanism can drive the scraper blade to rotate together, the scraper blade can scrape the raw materials on the inner peripheral wall of the material containing barrel, and the situation that the raw materials are adhered to the inner peripheral wall of the material containing barrel to cause uneven mixing of the raw materials is avoided; simultaneously, telescopic machanism and the scraper blade of this scheme also can stir the raw materials in the flourishing feed cylinder, have further improved stirring efficiency and stirring quality, make the raw materials stirring more even.

Preferably, as an improvement, the telescopic mechanism comprises a plurality of connecting blocks hinged end to end, and the side walls of adjacent connecting blocks are in contact with each other.

The telescopic mechanism of the scheme has a simple structure, and the contact area between the connecting block and the raw materials is larger, so that the raw materials can be stirred more uniformly; simultaneously, when telescopic machanism draws in, can strike off each other between the adjacent connecting block, clear up the lateral wall of connecting block to the condition of the too much raw materials of adhesion on the telescopic machanism has been avoided.

Preferably, as an improvement, be equipped with the holding tank that is used for holding the connecting block on the (mixing) shaft, telescopic machanism is close to the articulated holding tank of locating of one end of (mixing) shaft.

When the telescopic machanism of this scheme draws in, can take in the holding tank to avoided telescopic machanism to lead to the condition that the holding cylinder inner structure is complicated, simultaneously, telescopic machanism take in holding tank in-process, the lateral wall of holding tank can also strike off the raw materials of telescopic machanism surface, makes unloading of raw materials more thorough.

Preferably, as an improvement, still slide in the holding tank and be equipped with the shutoff piece that is used for sealing the holding tank, be equipped with the elastic component between shutoff piece and the telescopic machanism.

The in-process of the telescopic machanism extension of this scheme can drive the elastic component and produce deformation, makes the elastic component produce outside effect to the shutoff piece to when making telescopic machanism extension, thereby the shutoff piece can outwards slide the border position of holding tank and carry out the shutoff to the holding tank and avoided during the stirring, leads to the condition that the holding tank blockked up in the raw materials entering holding tank, has also avoided the raw materials to get into the extravagant condition that leads to in the holding tank.

Preferably, as an improvement, the telescopic mechanism comprises a first hinge rod group and a second hinge rod group which are mutually hinged, the first hinge rod group and the second hinge rod group have the same structure and respectively comprise a plurality of connecting rods which are hinged end to end; the free end of the first hinge rod group is hinged with the scraper, and the free end of the second hinge rod group is connected with the scraper in a sliding mode.

The telescopic machanism of this scheme is formed by two sets of articulated hinge bar groups of mutual articulated, and its stability is stronger, makes the rotation of scraper blade more stable.

Preferably, as an improvement, a second elastic reset piece is arranged between the scraper and the stirring shaft.

The second elasticity of this scheme resets and can produce the traction force that draws in to the (mixing) shaft to the scraper blade, so the user can be through the rotational speed of control (mixing) shaft, realize the control to the centrifugal force that the scraper blade receives, thereby the purpose of the distance of control scraper blade and axis of rotation has been realized, so during this scheme of use, the user can make the scraper blade be located flourishing feed cylinder at the stirring in-process, thereby the realization is to the stirring of raw materials, also can make the scraper blade offset with the internal perisporium of flourishing feed cylinder simultaneously, thereby avoid the raw materials adhesion to lead to the unable even condition of stirring at flourishing feed cylinder internal perisporium.

Preferably, as a refinement, the outer periphery of the second elastic restoring element is provided with a protective cuff.

The protection cover bag of this scheme can avoid the raw materials at the stirring in-process, and the embedding second elasticity resets the circumstances in the piece to guaranteed the clean state that the second elasticity resets, also avoided the raw materials embedding second elasticity to reset the condition that the piece leads to the waste.

Preferably, as an improvement, the articulated rod that is equipped with in the holding tank, and be equipped with between articulated rod and the holding tank and be used for making the first elasticity that the articulated rod deflected in to the holding tank piece that resets, the free end of articulated rod is articulated with the shutoff piece.

The hinge bar of this scheme can drive the shutoff piece and slide to the holding tank under the effect of first elasticity piece that resets to the return of shutoff piece has been realized.

Preferably, as an improvement, the upper end of shutoff piece is equipped with spacing flange, and the upper end of holding tank is equipped with and is used for the draw-in groove with spacing flange complex.

The limiting flange is matched with the clamping groove, the condition that the blocking block slips from the accommodating groove can be avoided, and the condition that the blocking block cannot normally return to cause equipment failure is further avoided.

Preferably, as an improvement, the bottom of the material containing barrel is provided with a conical transition section, and the bottom of the transition section is provided with a discharge hole.

The transition section of this scheme can play the effect of direction to the raw materials, avoids the raw materials to pile up the edge in flourishing feed cylinder bottom, so enable the raw materials and unload more thoroughly.

Drawings

FIG. 1 is a front cross-sectional view of a first embodiment of a self-cleaning stirring apparatus of the present invention.

Fig. 2 is a front sectional view of a second embodiment of the present invention.

Fig. 3 is a front sectional view of a third embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a charging barrel 1, a feeding hole 2, a stirring shaft 3, a stirring rod 4, a connecting block 5, a scraping plate 6, a containing groove 7, a blocking block 8, a first tension spring 9, a motor 10, a discharging hole 11, a first hinge rod group 12, a second hinge rod group 13, a sliding groove 14, a second tension spring 15, a hinge rod 16, a second elastic resetting piece 17 and a protective cuff 18.

Example one

As shown in figure 1: the utility model provides an agitating unit of automatically cleaning, includes flourishing feed cylinder 1, and the top of flourishing feed cylinder 1 is equipped with the feed inlet 2 that is used for the feeding, and the bottom of flourishing feed cylinder 1 is equipped with the changeover portion of frustum shape, and the bottom of changeover portion is equipped with the discharge gate 11 that is used for unloading, and the water level in discharge gate 11 is smooth to be connected with the valve plate (not shown in the figure). The stirring shaft 3 is rotatably connected to the material containing barrel 1 through a bearing, the motor 10 is fixedly connected to the material containing barrel 1 through a bolt, the stepping motor 10 is selected and used at the position, an output shaft of the motor 10 is clamped and fixed with the upper end of the stirring shaft 3, and the stirring rod 4 is fixedly clamped and connected to the peripheral wall of the stirring shaft 3.

The peripheral face of (mixing) shaft 3 still is fixed and is equipped with telescopic machanism, and telescopic machanism's free end is fixed and is equipped with scraper blade 6, and telescopic machanism and scraper blade 6 all are equipped with two, and the structure of telescopic machanism is explained here taking left telescopic machanism as an example: the telescopic mechanism comprises a plurality of connecting blocks 5 which are hinged end to end, and the side walls of the adjacent connecting blocks 5 are mutually contacted. Still be equipped with the holding tank 7 that is used for holding connecting block 5 on the lateral wall of (mixing) shaft 3, the connecting block 5 of telescopic machanism right-hand member is articulated through the pivot and is located in holding tank 7, and connecting block 5 of telescopic machanism left end is articulated through pivot and scraper blade 6.

Still articulate in the holding tank 7 and be equipped with articulated arm 16, articulated the upper end of articulated arm 16 have a shutoff piece 8 that is used for sealing holding tank 7, and the joint is fixed with the first elasticity that is used for making articulated arm 16 to deflect in the holding tank 7 between the lower extreme of articulated arm 16 and the holding tank 7 and resets, and first elasticity resets and selects for use the torsional spring. The plugging block 8 is connected with the holding tank 7 in a horizontal sliding mode through a guide rail, a limiting flange is arranged at the upper end of the plugging block 8, and a clamping groove matched with the limiting flange is formed in the upper end of the holding tank 7. Be equipped with the elastic component between shutoff piece 8 and the telescopic machanism, the extension spring is chooseed for use here, for convenient differentiation, the name is first extension spring 9 here, the left end welded fastening of first extension spring 9 is in the middle part of connecting block 5, the right-hand member welded fastening of first extension spring 9 is in the middle part of shutoff piece 8, all be equipped with the recess that is used for holding first extension spring 9 on connecting block 5 and the shutoff piece 8, thereby when making first extension spring 9 drive connecting block 5 deflect to the direction of shutoff piece 8, the right flank of connecting block 5 can be close to each other with the left surface of shutoff piece 8.

The specific implementation process is as follows: the discharge gate 11 is closed to artifical or automatic control valve plate, then starter motor 10, and motor 10 drives (mixing) shaft 3 and rotates, and (mixing) shaft 3 drives puddler 4 and rotates to the realization is to the stirring function of raw materials, treats that (mixing) shaft 3 operates stably the back, opens feed inlet 2, and the raw materials that will stir the mixing is added and is can be stirred in flourishing feed cylinder 1.

The stirring shaft 3 of the scheme can drive the stirring rod 4 to rotate and simultaneously drive the telescopic mechanism to rotate, the telescopic mechanism drives the scraper 6 to rotate, so that a centrifugal effect is generated, the scraper 6 is thrown away in the direction away from the stirring shaft 3, the telescopic mechanism is expanded and extended, and when the rotating speed of the stirring shaft 3 reaches a certain speed, the scraper 6 can be thrown out of the position of the inner peripheral wall of the material containing barrel 1 under the centrifugal effect, so that in the process that the scraper 6 and the telescopic mechanism rotate along with the stirring shaft 3, the scraper 6 can clean the inner peripheral wall of the material containing barrel 1 and scrape raw materials on the inner peripheral wall of the material containing barrel 1, and the condition that partial raw materials are adhered to the inner peripheral wall of the material containing barrel 1 to cause uneven stirring is avoided; therefore, in the stirring process, the rotating speed of the stirring shaft 3 can be reduced, and the centrifugal force applied to the scraper 6 is reduced, so that the scraper 6 rotates in the material containing barrel 1, and the raw materials can be stirred and uniformly mixed by the scraper 6. Can also make the rotational speed of (mixing) shaft 3 be periodic variation to when making puddler 4 stir along 3 circumferential direction of (mixing) shaft, scraper blade 6 can be followed the radial emergence of (mixing) shaft 3 and slided, thereby make the stirring efficiency of raw materials higher, the stirring quality is better.

Meanwhile, when the telescopic mechanism is expanded and extended, the connecting block 5 at the right end of the telescopic mechanism can swing anticlockwise, the connecting block 5 can drive the first tension spring 9 to extend and deform when swinging, and the first tension spring 9 can drive the blocking block 8 to slide out leftwards when extending, so that the accommodating tank 7 is blocked, and the situation that raw materials enter the accommodating tank 7 in the stirring process to cause waste is avoided; the recess of this scheme can carry on spacingly to blocking piece 8, avoids the condition that blocking piece 8 was thrown away from holding groove 7.

After the stirring is accomplished, open the valve plate and can begin to unload, this scheme is equipped with conical changeover portion in the bottom of flourishing feed cylinder 1, makes the raw materials more easily flow the position of discharge gate 11 and unloads to it is more thorough to make the unloading. After the motor 10 is turned off, the hinge rod 16 can deflect clockwise under the action of the torsion spring, so that the blocking block 8 is driven to slide into the accommodating groove 7, and the telescopic mechanism can be accommodated into the accommodating groove 7; after the centrifugal action is lost, the telescopic mechanism is folded rightwards under the action of the first tension spring 9, so that the telescopic mechanism can be retracted rightwards into the accommodating groove 7; the in-process that telescopic machanism draws in can be clean each other between the adjacent connecting block 5, also scrapes the raw materials of adhesion on connecting block 5 lateral wall, and when connecting block 5 at telescopic machanism both ends got into holding tank 7, also can with the lateral wall relative motion of holding tank 7 to make the raw materials of telescopic machanism both sides also can be scraped. In addition, in the process of folding the telescopic mechanism, the scraped raw materials are at the position close to the stirring shaft 3, so that the scraped raw materials can directly flow out from the position of the discharge port 11 to realize discharging. So this scheme can avoid holding the unable by the stirring's of raw materials of adhesion on the perisporium in feed cylinder 1 the condition, can also make the raw materials in the feed cylinder 1 unload more thoroughly simultaneously.

Example two

As shown in fig. 2, the present embodiment is different from the first embodiment in that the telescopic mechanism includes a first hinge rod group 12 and a second hinge rod group 13 that are hinged to each other, the first hinge rod group 12 and the second hinge rod group 13 are identical in structure and each includes a plurality of connecting rods that are hinged end to end, and four connecting rods that are hinged end to end are shown as an example in the figure. Taking the left telescopic mechanism as an example, the concrete structure of the telescopic mechanism is described, a chute 14 is axially arranged on the circumferential wall of the stirring shaft 3, the left end of the first hinge rod group 12 is hinged with the scraper 6 through a shaft pin, and the right end of the first hinge rod group 12 is hinged with the inside of the chute 14 through the shaft pin; the left end of second articulated rod group 13 articulates through the pivot has first slider, and first slider passes through spout 14 and the vertical sliding connection of scraper blade 6, and the right-hand member of second articulated rod group 13 articulates through the pivot has the second slider, and the second slider passes through spout 14 and (mixing) shaft 3 sliding connection, and the upper end welded fastening of second slider has second extension spring 15, and the upper end of second extension spring 15 and the top welding of spout 14.

When the scheme is used, basically the same as the first embodiment is adopted, and when the stirring shaft 3 rotates, the scraping plate 6 can be thrown outwards under the action of centrifugal force and is abutted against the inner circumferential wall of the material containing barrel 1, so that the inner circumferential wall of the material containing barrel 1 can be cleaned. The telescopic machanism of this scheme adopts first articulated rod group 12 and the articulated rod group 13 constitution of second of mutual articulated, makes telescopic machanism's stability stronger to make scraper blade 6 can strike off flourishing feed cylinder 1's internal perisporium more fully powerfully. When the rotational speed of (mixing) shaft 3 reduces, second extension spring 15 can upwards stimulate the second slider, makes telescopic machanism shorten a little relatively, makes scraper blade 6 can be at flourishing feed cylinder 1 internal rotation to scraper blade 6 also can stir the raw materials in the flourishing feed cylinder 1, makes the stirring more even.

EXAMPLE III

As shown in fig. 3, the difference between this embodiment and the first embodiment is that a second elastic restoring member 17 is disposed between the scraper 6 and the stirring shaft 3, the second elastic restoring member 17 is a tension spring, and is named as a third tension spring for convenience of distinguishing, a protective cuff 18 is disposed on the periphery of the second elastic restoring member 17, and the protective cuff 18 is made of an elastic rubber material with a smooth outer surface. The second elastic reset piece 17 can provide a supporting effect for the scraper 6, so that the scraper 6 can rotate more stably, and can provide power for the scraper 6 to fold the stirring shaft 3, so that a telescopic mechanism between the scraper 6 and the stirring shaft 3 can be folded more thoroughly; simultaneously, the second elasticity of this scheme piece 17 that resets rotates around (mixing) shaft 3, can also play the stirring effect, makes the stirring of raw materials more thorough.

The foregoing is merely an example of the present invention and common general knowledge in the art of designing and/or characterizing particular aspects and/or features is not described in any greater detail herein. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several variations and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. A self-cleaning stirring device is characterized in that: the stirring device comprises a material containing barrel, wherein a stirring shaft is rotationally connected in the material containing barrel, a stirring rod is fixedly arranged on the stirring shaft, a telescopic mechanism is fixedly arranged on the circumferential surface of the stirring shaft, and a scraper plate is fixedly arranged at the free end of the telescopic mechanism; the telescopic mechanism comprises a plurality of connecting blocks hinged end to end, and the side walls of adjacent connecting blocks are mutually contacted; the stirring shaft is provided with an accommodating groove for accommodating the connecting block, and one end of the telescopic mechanism close to the stirring shaft is hinged in the accommodating groove; a blocking block for sealing the accommodating groove is also arranged in the accommodating groove in a sliding manner, and an elastic part is arranged between the blocking block and the telescopic mechanism; a second elastic reset piece is arranged between the scraper and the stirring shaft; articulated in the holding tank is equipped with the articulated rod, and is equipped with between articulated rod and the holding tank and is used for making the first elasticity that the articulated rod deflected in to the holding tank piece that resets, and the free end of articulated rod is articulated with the shutoff piece.

2. A self-cleaning blending assembly according to claim 1, wherein: the telescopic mechanism comprises a first hinge rod group and a second hinge rod group which are mutually hinged, the first hinge rod group and the second hinge rod group have the same structure and respectively comprise a plurality of connecting rods which are hinged end to end; the free end of the first hinge rod group is hinged with the scraper, and the free end of the second hinge rod group is connected with the scraper in a sliding mode.

3. A self-cleaning blending assembly according to claim 2, wherein: the periphery of the second elastic reset piece is provided with a protective cuff.

4. A self-cleaning blending assembly according to claim 3, wherein: the upper end of plugging block is equipped with limit flange, and the upper end of holding tank is equipped with and is used for with limit flange complex draw-in groove.

5. A self-cleaning blending assembly according to claim 1, wherein: the bottom of the material containing barrel is provided with a conical transition section, and the bottom of the transition section is provided with a discharge hole.