CN211411768U

CN211411768U - Stirring tank capable of automatically feeding

Info

Publication number: CN211411768U
Application number: CN201922366782.1U
Authority: CN
Inventors: 郑泽宇; 崔斌; 李美美
Original assignee: Henan Institute of Technology
Current assignee: Henan Institute of Technology
Priority date: 2019-12-25
Filing date: 2019-12-25
Publication date: 2020-09-04
Anticipated expiration: 2029-12-25

Abstract

The utility model discloses a stirring tank capable of automatically feeding materials, which comprises a tank body, wherein a hollow inner tank is arranged in the tank body, a storage spacing block and a distribution spacing block are respectively fixed on a retainer, and the retainer is fixed on the inner wall of the inner tank; a throwing roller is arranged at the mutual communication position of the storage cavity and the dispensing funnel groove, the throwing roller is sleeved and fixed on a throwing shaft, one end of the throwing shaft and the retainer can be assembled in a circumferential rotating mode, and the other end of the throwing shaft penetrates through the stirring tank and then is respectively connected with a third throwing gear; a plurality of throwing grooves distributed along the circumferential direction of the throwing roller are arranged in the circumferential direction of the throwing roller, and the bottom of the distributing funnel groove is communicated with the inner tank; the mixing drum is installed on the retainer, the bottom of the mixing drum penetrates through the retainer and then enters the inner tank and is fixedly assembled with the first blade, the top of the mixing drum penetrates through the retainer and the top cover and then enters the top cover and is fixedly assembled with the second auxiliary mixing gear, the bottom of the mixing shaft penetrates through the mixing drum and then is fixedly assembled with the second blade, and the top of the mixing shaft penetrates through the mixing drum and then is fixedly assembled with the first third mixing gear.

Description

Stirring tank capable of automatically feeding

Technical Field

The utility model relates to a chemical industry field especially relates to a but automatic material conveying's agitator tank.

Background

In the chemical field, the agitator tank is a necessary device, and is mainly used for agitating raw materials, so that the raw materials are uniformly mixed, distributed, reacted and the like, which is very important in combination of compositions. Generally, in the stirring of the composition, the raw materials of the respective components need to be charged in different periods of time, and the charging amounts are strictly controlled. The existing mode is that manual management and monitoring are adopted, and then various raw materials are manually put into a stirring tank one by one according to requirements. The mode heavily depends on manual work, particularly has strict requirements on the input time in the preparation of partial compounds, but at present, in order to reduce the labor cost, more than ten devices need to be managed by one manual work, the raw materials are difficult to input in time, and the input time is too late in many times, so that the product quality is reduced, and the qualified rate is low.

The applicant provides an automatic feeding stirring tank which can realize automatic and quantitative feeding of raw materials, so that high dependence on manpower is eliminated, and the product quality and the qualification rate can be effectively improved.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defects in the prior art, the technical problem to be solved in the utility model is to provide a but automatic material conveying's agitator tank.

In order to achieve the purpose, the utility model provides an automatic-feeding stirring tank, which comprises a support, a tank body, a stirring drum and a stirring shaft, wherein the support is fixedly assembled with the tank body through a support plate, the tank body is internally provided with a hollow inner tank, the top of the inner tank is provided with a storage spacing block and a distribution spacing block, the storage spacing block and the distribution spacing block are respectively fixed on a retainer, the retainer is fixed on the inner wall of the inner tank and a top cover, and the top cover is fixed on the top of the tank body;

the storage partition block and the distribution partition block are internally provided with a storage cavity and a distribution funnel groove which are mutually communicated respectively, the storage cavity and the distribution funnel groove are mutually communicated and provided with a throwing roller, the throwing roller is sleeved and fixed on a throwing shaft, one end of the throwing shaft and a retainer can be assembled in a circumferential rotating mode, and the other end of the throwing shaft penetrates through the stirring tank and then is respectively connected with a third discharging gear; a plurality of throwing grooves distributed along the circumferential direction of the throwing roller are arranged in the circumferential direction of the throwing roller, and the bottom of the distributing funnel groove is communicated with the inner tank;

but the churn circumferential rotation, install on the holder axially immovably, and the churn bottom pass behind the holder and get into in the inner tank and with first blade assembly fixed, the top passes in holder, top cap and get into in the overhead guard and with the vice stirring gear assembly of second fixed, the churn is worn out to the (mixing) shaft bottom after wearing out the churn fixed with the second blade assembly, the top is worn out behind churn, second top baffle and is fixed with the stirring gear assembly of first No. three.

Preferably, a protective cover is fixed outside the tank body, a coil spirally distributed along the axial direction of the tank body is installed inside the protective cover, and a magnetic field is generated after the coil is electrified;

the first blade and the second blade are made of iron materials, and the stirring cylinder and the stirring shaft are made of insulating materials.

Preferably, the input shaft is further assembled and fixed with the coding disc, the coding disc is arranged in the encoder, a plurality of coding holes which are uniformly distributed along the circumferential direction of the coding disc and penetrate through the coding disc are formed in the coding disc, a signal end of the encoder is in communication connection with a signal end of the PLC, and the PLC is installed on the support.

Preferably, the support plate is further provided with a vertical plate, the vertical plate and the tank body are assembled with a first output shaft and a middle shaft in a circumferential rotation mode respectively, the first output shaft and the middle shaft are respectively fixed with a first throwing gear and a second throwing gear, the first throwing gear is in meshing transmission with the second throwing gear, the second throwing gear is in meshing transmission with the third throwing gear, and one end of the first output shaft penetrates through the vertical plate and then is installed in the first motor.

Preferably, the throwing groove is sunken towards the axis of the throwing roller, and the part of the throwing roller, which is not provided with the throwing groove, is respectively in sealing assembly with the storage partition block and the distribution partition block.

Preferably, the dispensing partition block is positioned at the bottom of the dispensing funnel groove and is also provided with a hinge groove and a detection groove respectively, the hinge groove is hinged with one end of a switch plate through a hinge pin, and the other end of the switch plate is fixed with a floating body; the floating body is made of a material with lower density.

Preferably, a microswitch is installed in the detection groove, a trigger end of the microswitch extends into the detection groove, the microswitch can be triggered after the switch board is installed in the detection groove, and a signal end of the microswitch is in communication connection with a signal end of the PLC; and the bottom of the dispensing funnel groove is sealed when the switch plate is completely arranged in the hinge groove and the detection groove.

Preferably, the dispensing partition block is further fixed with a limiting frame near the hinge groove, a limiting plate is fixed on the limiting frame, and the limiting plate is used for limiting the maximum rotation angle of the switch plate.

Preferably, the distribution partition block is further provided with a distribution connecting hole and a distribution connecting groove, the distribution connecting groove is communicated with the distribution funnel groove through the distribution connecting hole, the distribution connecting groove is communicated with the gas collecting groove through a first gas hole, the gas collecting groove is communicated with the bottom of the exhaust hole through a second gas hole, the top of the exhaust hole penetrates through the stirring shaft, the gas collecting groove is respectively arranged on the stirring shaft through the second gas hole, and the first gas hole is arranged on the stirring cylinder.

Preferably, the first third stirring gear is in meshing transmission with the first second stirring gear, the first second stirring gear is in meshing transmission with the first stirring gear, the first stirring gear is fixed on a second output shaft, a second stirring gear is further fixed on the second output shaft, the second stirring gear is in meshing transmission with a second auxiliary stirring gear, and the second output shaft penetrates through the first top partition plate and then is installed in a second motor; the first top clapboard and the second clapboard are respectively arranged in a top cover, and the top cover is fixed on the top cover.

The utility model has the advantages that: the utility model discloses simple structure, convenient to use realize automatic input raw materials through putting in the roller to realize punctual, accurate input, can improve efficiency, product quality and product percent of pass greatly. In the model machine actual measurement the utility model discloses an efficiency is higher than current artificial mode more than 4 times at least.

The utility model discloses still adopt the non-contact heating, its structure has obtained great simplification, and heating efficiency is high, effectual moreover, satisfies the technological requirement of rapid heating.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged view of fig. 1 at F1.

Fig. 3 is an enlarged view of fig. 1 at F2.

Fig. 4 is a sectional view of the end surface of the throwing roller of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-4, an automatic charging agitator tank comprises a support 110 and a tank body 130, wherein the support 110 is fixedly assembled with the tank body 130 through a support plate 111, the tank body 130 is internally provided with a hollow inner tank 131, the bottom of the inner tank 131 is communicated with an inlet of a stop valve 220 through a discharge pipe 310, and therefore the on-off of the discharge pipe 310 and the outside is controlled through the stop valve 220;

a protective cover 120 is fixed outside the tank body 130, a coil 210 which is spirally distributed along the axial direction of the tank body 130 is arranged inside the protective cover 120, and a magnetic field is generated after the coil is electrified; the top of the inner tank 131 is provided with a storage spacing block 170 and a distribution spacing block 180, the storage spacing block 170 and the distribution spacing block 180 are respectively fixed on a retainer 190, the retainer 190 is fixed on the inner wall of the inner tank 131 and a top cover 150, and the top cover 150 is fixed on the top of the tank body 130;

the storage partition block 170 and the dispensing partition block 180 are internally provided with a storage cavity 171 and a dispensing funnel groove 181 which are communicated with each other, the storage cavity 171 and the dispensing funnel groove 181 are communicated with each other and provided with a dispensing roller 540, the dispensing roller 540 is fixedly sleeved on a dispensing shaft 420, one end of the dispensing shaft 420 is rotatably assembled with the holder 190 in a circumferential direction, the other end of the dispensing shaft penetrates through the stirring tank 110 and is fixedly assembled with a third dispensing gear 513 and a coding disc 251, the coding disc 251 is arranged in the encoder 250, the coding disc 250 is provided with a plurality of coding holes which are uniformly distributed and penetrate along the circumferential direction of the coding disc, when the coding disc 250 rotates in a circumferential direction, the encoder calculates the rotation angle of the coding disc by detecting the passing frequency of the coding holes, the signal end of the encoder is in communication connection with the signal end of the PLC, and the PLC is;

the supporting plate 111 is further provided with a vertical plate 140, the vertical plate 140 and the tank body 130 are respectively assembled with a first output shaft 241 and a middle shaft 410 in a circumferential rotating manner, the first output shaft 241 and the middle shaft 410 are respectively fixed with a first releasing gear 511 and a second releasing gear 512, the first releasing gear 511 is in meshing transmission with the second releasing gear 512, the second releasing gear 512 is in meshing transmission with a third releasing gear 513, one end of the first output shaft 241 penetrates through the vertical plate 140 and then is loaded into the first motor 240, the first motor 240 can drive the first output shaft 241 to rotate circumferentially after being electrified, and the first motor 240 is fixed on the supporting plate 111;

a plurality of throwing grooves 541 distributed along the circumferential direction of the throwing roller 540 are arranged in the circumferential direction of the throwing roller 540, the throwing grooves 541 are sunken towards the axis of the throwing roller 540, so that raw materials in the storage cavity 171 can be carried into the dispensing funnel groove 181 when the throwing roller 540 rotates circumferentially, and the bottom of the dispensing funnel groove 181 is communicated with the inner tank 131, so that the component raw materials fall into the inner tank 131 from the dispensing funnel groove 181 through the action of gravity;

the portions of the feeding rollers 540 not provided with the feeding grooves 541 are hermetically fitted with the storage and dispensing

partitions

170 and 180, respectively, thereby preventing the undesired feeding of the raw materials. The dispensing partition block 180 is also provided with a hinge slot 184 and a detection slot 185 at the bottom of the dispensing funnel slot 181, the hinge slot 184 is hinged with one end of a switch plate 720 through a hinge pin 740, and the other end of the switch plate 720 is fixed with a floating body 730; the floating body 730 is made of a material with a relatively low density, such as foam, a hollow air bag and the like, and is mainly used for floating on the liquid level of the inner tank 131;

a microswitch 270 is installed in the detection groove 185, the trigger end of the microswitch 270 extends into the detection groove 185, the microswitch 270 can be triggered after the switch plate 720 is installed in the detection groove 185, and the signal end of the microswitch 270 is in communication connection with the signal end of the PLC; the switch plate 720 is capable of sealing the bottom of the dispensing funnel 181 when fully seated in the hinge 184 and detection 185 slots.

The dispensing partition block 180 is further fixed with a limiting frame 710 near the hinge groove, a limiting plate 711 is fixed on the limiting frame 710, and the limiting plate 711 is used for limiting the maximum rotation angle of the switch plate 720. In the initial state, the switch plate rotates downward under its own weight until it contacts and abuts against the limit plate 711. During the use, in case liquid level rises to floating body 730 in the inner tank, floating body 730 can float on the liquid level, and along with the rising of liquid level, floating body 730 passes through the buoyancy drive switch board and rotates to detecting groove 185 gradually until detecting groove 185 is packed into completely, and micro-gap switch is triggered this moment, and PLC obtains the signal, judges that the liquid level is too high, and because the switch board will distribute funnel groove 181 bottom sealed, can prevent that the liquid in the inner tank from flowing backwards and getting into and distributing funnel groove 181.

The dispensing partition block 180 is further provided with a dispensing connecting hole 182 and a dispensing connecting groove 183, the dispensing connecting groove 183 is communicated with the dispensing funnel groove 181 through the dispensing connecting hole 182, the dispensing connecting groove 183 is communicated with a gas collecting groove 622 through a first gas hole 611, the gas collecting groove 622 is communicated with the bottom of a gas exhaust hole 621 through a second gas hole 623, the top of the gas exhaust hole 621 penetrates through the stirring shaft 620, the gas collecting groove 622 is respectively arranged on the stirring shaft 620 through the second gas hole 623, and the first gas hole 611 is arranged on the stirring barrel 610. This design is mainly to facilitate the gas in the inner vessel 131 to enter the discharge hole 621 through the dispensing funnel groove 181, the first air hole 611, the air collecting groove 622, and the second air hole 623 and to be discharged, and to prevent the liquid in the inner vessel from flowing into the dispensing connection hole 182 to cause the clogging of the dispensing connection hole 182 due to the high position of the dispensing connection hole 182.

The mixing drum 610 can rotate circumferentially and is mounted on the retainer 190 in a non-axial-movable manner, the bottom of the mixing drum 610 penetrates through the retainer 190 and then enters the inner tank 131 and is fixedly assembled with the first blade 630, the top of the mixing drum passes through the retainer 190 and the top cover 150 and then enters the top cover 160 and is fixedly assembled with the second auxiliary mixing gear 532, the bottom of the mixing shaft 620 penetrates through the mixing drum 610 and then is fixedly assembled with the second blade 640, the top of the mixing shaft 610 penetrates through the mixing drum 610 and the second top partition plate 162 and then is fixedly assembled with the first third mixing gear 523, the first third mixing gear 523 is in meshing transmission with the first second mixing gear 522, the first second mixing gear 522 is in meshing transmission with the first mixing gear 521, the first mixing gear 521 is fixed on the second output shaft 261, the second mixing gear 531 is further fixed on the second output shaft 261, and the second mixing gear 531 is in meshing transmission with the first auxiliary mixing gear 532, the second output shaft 261 passes through the first top partition 161 and is loaded into the second motor 260, and the second motor 260 is powered on to drive the second output shaft 261 to rotate circumferentially, so that the mixing drum and the mixing shaft are driven to rotate circumferentially in opposite directions. The design is mainly to enable the first blade and the second blade to rotate reversely to stir so as to break inertia formed by liquid and increase stirring effect.

The first top partition 161 and the second partition 162 are respectively installed in the top cover 160, and the top cover 160 is fixed to the top cover 150. The first blade and the second blade are made of ferrous materials, and the stirring cylinder and the stirring shaft are made of insulating and heat-insulating materials, such as heat-insulating ceramics, heat-insulating plastics, polytetrafluoroethylene and the like.

When the heating device is used, alternating direct current is introduced into the coil 210, so that the first blade and the second blade generate current through the alternating magnetic field, and the current generates heat through the resistors of the first blade and the second blade, so that the inner tank is heated. In addition, the first blade and the second blade also cut the magnetic induction lines during circumferential rotation to form more current, so that the heating value of the first blade and the second blade is increased. When needing to heat, the heat that produces through first blade, second blade directly heats the liquid in the inner tank, can obtain better heating effect and need not install the heating spare part again in the inner tank to simplify the structure, with reduce cost, be convenient for later stage washing, maintenance.

Preferably, a probe 230 of a temperature sensor is further installed in the inner tank 131, the temperature sensor 230 is installed on the bracket 110, and a signal end of the temperature sensor is in communication connection with a signal end of the PLC.

Preferably, the first motor is a stepping motor or a servo motor, and is driven by a motor driver, a control end of the motor driver is in communication connection with a signal end of the PLC, and the motor driver can control the running state of the first motor, such as start-stop, power, and forward and reverse rotation.

The power connection end of the second motor is in conductive connection with a movable contact of the contactor, a fixed contact of the contactor is in conductive connection with a power supply, and the control end of the contactor is in communication connection with a signal end of the PLC. Therefore, the PLC controls the start and stop of the second motor by controlling the opening and closing of the contactor.

Preferably, the storage chamber 171 is plural and distributed in a circumferential direction of the inner vessel 131. To facilitate the introduction of the liquid material, one of the storage chambers 171 is not provided at the bottom with introduction rollers 540, so that the material can be introduced directly into the inner vessel.

During the use, put into different raw materials respectively in to a plurality of storage intracavity, then start the second motor and stir, second coil circular telegram when needing the heating can until the temperature value that temperature sensor detected reaches and predetermines the threshold value. And then setting the opening sequence of each first motor and an angle instruction for driving the throwing roller to rotate in the PLC. PLC opens first motor one by one according to preset program for put in the roller and rotate and put in the raw materials, and the volume of putting in the groove is certain, should just can calculate the raw materials volume of putting in through the quantity, the volume of putting in the groove, put in roller turned angle. Thus, the automatic feeding of the raw materials is realized, and the high dependence of manpower is eliminated.

The details of the present invention are well known to those skilled in the art.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the teachings of the present invention without undue experimentation. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims

1. The utility model provides a but automatic material conveying's agitator tank, includes support, jar body, churn, (mixing) shaft, and the support passes through the backup pad and jar body assembly is fixed, jar internal portion is hollow inner tank, characterized by: the storage partition block and the distribution partition block are arranged at the top of the inner tank and are respectively fixed on a retainer, the retainer is fixed on the inner wall of the inner tank and a top cover, and the top cover is fixed at the top of the tank body;

2. The blender jar as recited in claim 1, wherein: a protective cover is fixed outside the tank body, coils spirally distributed along the axial direction of the tank body are installed inside the protective cover, and a magnetic field is generated after the coils are electrified;

3. The blender jar as recited in claim 1, wherein: the input shaft is further assembled and fixed with the coding disc, the coding disc is arranged in the encoder, a plurality of coding holes which are uniformly distributed along the circumferential direction of the coding disc and penetrate through the coding disc are formed in the coding disc, the signal end of the encoder is in communication connection with the signal end of the PLC, and the PLC is installed on the support.

4. The blender jar as recited in claim 1, wherein: the vertical plate is further mounted on the supporting plate, the vertical plate and the tank body are assembled with the first output shaft and the middle shaft in a circumferential rotating mode respectively, a first throwing gear and a second throwing gear are fixed on the first output shaft and the middle shaft respectively, the first throwing gear and the second throwing gear are in meshing transmission, the second throwing gear and the third throwing gear are in meshing transmission, and one end of the first output shaft penetrates through the vertical plate and then is installed in the first motor.

5. The blender jar as recited in claim 1, wherein: the throwing groove is sunken towards the axis of the throwing roller, and the part of the throwing roller, which is not provided with the throwing groove, is respectively in sealing assembly with the storage partition block and the distribution partition block.

6. The blender jar as recited in claim 1, wherein: the dispensing partition block is positioned at the bottom of the dispensing funnel groove and is also provided with a hinge groove and a detection groove respectively, the hinge groove is hinged with one end of a switch plate through a hinge pin, and the other end of the switch plate is fixed with a floating body; the floating body is made of a material with lower density.

7. The blender jar as recited in claim 6, wherein: a microswitch is installed in the detection groove, the trigger end of the microswitch extends into the detection groove, the microswitch can be triggered after the switch board is installed in the detection groove, and the signal end of the microswitch is in communication connection with the signal end of the PLC; and the bottom of the dispensing funnel groove is sealed when the switch plate is completely arranged in the hinge groove and the detection groove.

8. The blender jar as recited in claim 7, wherein: the release spacing block is positioned near the hinge groove and is also fixedly provided with a limiting frame, a limiting plate is fixedly arranged on the limiting frame, and the limiting plate is used for limiting the maximum rotating angle of the switch plate.

9. The blender jar as recited in claim 1, wherein: the dispensing partition block is further provided with a dispensing connecting hole and a dispensing connecting groove, the dispensing connecting groove is communicated with the dispensing funnel groove through the dispensing connecting hole, the dispensing connecting groove is communicated with the gas collecting groove through a first gas hole, the gas collecting groove is communicated with the bottom of the exhaust hole through a second gas hole, the top of the exhaust hole penetrates through the stirring shaft, the gas collecting groove is respectively arranged on the stirring shaft through the second gas hole, and the first gas hole is arranged on the stirring cylinder.

10. The blender jar as recited in claim 1, wherein: the first third stirring gear is in meshing transmission with the first second stirring gear, the first second stirring gear is in meshing transmission with the first stirring gear, the first stirring gear is fixed on a second output shaft, a second stirring gear is also fixed on the second output shaft, the second stirring gear is in meshing transmission with a second auxiliary stirring gear, and the second output shaft penetrates through the first top partition plate and then is installed in a second motor; the first top clapboard and the second clapboard are respectively arranged in a top cover, and the top cover is fixed on the top cover.