CN113181817A - Mixing equipment capable of switching material supply direction - Google Patents

Abstract

A switchable feed-direction mixing apparatus comprising: the device comprises two box bodies, a feeding device and a material guide platform capable of automatically switching the direction of feeding; the discharge port of the feeding device is arranged above the two box bodies, and the material guide table is positioned between the discharge port of the feeding device and the two box bodies; the material guide platform swings left and right under the driving of a driving device, so that the material guide platform completely receives materials discharged from a discharge port of the feeding device and guides the materials to point to one of the two box bodies in turn. The invention provides a mixing device which is low in cost, accurate in feeding and capable of switching feeding directions, can be used for a medicine soaking machine and can also be used for a flocculation mixing device. The invention serves switchable double stirring devices, can ensure the stable concentration of mixing, and can improve the stirring effect and efficiency by increasing continuous stirring time.

Description

Mixing equipment capable of switching material supply direction

[ technical field ] A method for producing a semiconductor device

The invention belongs to the technical field of mixing equipment, and particularly relates to mixing equipment capable of switching material supply directions.

[ background of the invention ]

The medicine soaking machine is a device which adds powder and water into a mixing device according to a certain proportion for stirring and mixing and forms liquid medicine with a certain concentration. The polymer powder is insoluble and easy to agglomerate due to the long molecular chain, needs to be stably supplied with water and material according to a certain proportion during preparation, and needs a certain stirring strength and curing time. Most of the existing medicine soaking machines are three-tank medicine soaking machines, the first tank is used for stirring, the second tank is used for curing, the third tank is used for storing, three medicine boxes are required to be connected in sequence, stirring devices are arranged in the three boxes, medicine liquid sequentially passes through the three boxes and is continuously subjected to relay stirring through the three boxes, and finally stable and homogeneous solution is prepared by soaking. The three-groove medicine soaking machine is used for feeding medicine through a spiral or spiral-disk type feeding device, water is fed through another pipeline, and when the flow of water is unstable, the concentration of a soaked solution fluctuates. Also have on the existing market to adopt two independent boxes to carry out the bubble medicine machine of bubble medicine, two boxes are independent separately and are steeped the medicine, and when a box bubble medicine finished supplying medicine, another box was steeped the medicine, and two boxes supply medicine in turn. The mode can realize that the same amount of medicament is added in certain water, the concentration of the infused medicament is more uniform, but manual feeding is often adopted, the influence of human factors is larger, and if automatic feeding is adopted, two sets of feeding devices are needed, so the cost is higher.

Flocculation mixing arrangement, the main function lets material and flocculating agent intensive mixing, forms the wadding group, and prior art is usually pours into same flocculation mixing tank with material and flocculating agent into, and the wadding group that forms after the stirring then flows into the hydroextractor body. In order to ensure stable flocculation effect and continuous sludge dewatering, the materials and the flocculating agent must be continuously and proportionally added, and stirring for a long enough time is ensured, however, in the adding process of the materials and the flocculating agent, the flow of the material delivery pump or the flocculating agent delivery pump fluctuates, which affects the effect of the flocculating agent, and continuous operation also needs to make the volume of the flocculation mixing tank large, otherwise, the stirring for a long enough time is not enough, which affects the flocculation effect, resulting in material running phenomenon of the solid-liquid separation device.

[ summary of the invention ]

The invention aims to provide a mixing device which is low in cost, accurate in feeding and capable of switching feeding directions, can be used for a medicine soaking machine and can also be used for a flocculation mixing device.

The invention is realized by the following steps:

a switchable feed-direction mixing apparatus comprising: the device comprises two box bodies, a feeding device and a material guide platform capable of automatically switching the direction of feeding;

the discharge port of the feeding device is arranged above the two box bodies, and the material guide table is positioned between the discharge port of the feeding device and the two box bodies;

the guide platform swings left and right under the driving of a driving device, so that the guide platform completely receives materials discharged from a discharge port of the feeding device and guides the materials to point to one of the two box bodies in turn.

Furthermore, the side of the guide platform is fixedly connected with a rotating shaft, the rotating shaft is erected on a supporting frame, a rotating shaft driving sheet is arranged on the rotating shaft, and the driving device drives the rotating shaft driving sheet to rotate clockwise and anticlockwise so as to drive the guide platform to swing left and right.

Furthermore, the material guiding platform is erected on a central shaft, a material guiding platform driving point is arranged at a position, away from the central shaft, of the material guiding platform, and the driving device directly drives the material guiding platform driving point, so that the material guiding platform swings left and right around the central shaft.

Furthermore, the material guiding platform is a straight plate, the front surface or the back surface of the straight plate completely receives the materials discharged from the discharge hole of the feeding device, and the materials are guided to point to one of the two box bodies in turn.

Furthermore, the two sides of the straight plate are provided with the surrounding plates, the bottom of the straight plate is connected with two splayed sliding plates, and each sliding plate points to one of the two box bodies respectively, so that materials are guided into the box bodies more effectively.

Furthermore, the material guide platform is a bucket body, the bucket body receives the materials discharged from the discharge port of the feeding device, and the materials are guided to point to one of the two box bodies in turn through the left-right swinging of the bucket body.

Furthermore, the driving device is a pneumatic automatic telescopic rod mechanism, an electric automatic telescopic rod mechanism or a push-pull electromagnet; the telescopic rod of the driving device drives the material guide platform to swing left and right by pushing and pulling the rotating shaft driving sheet.

Furthermore, the driving device is a pneumatic automatic telescopic rod mechanism, an electric automatic telescopic rod mechanism or a push-pull electromagnet; the telescopic rod of the driving device drives the material guiding platform to swing left and right around the central shaft by pushing and pulling the driving sheet of the material guiding platform.

Furthermore, the driving device is a common electromagnet; and a weight is arranged on one side of the rotating shaft, and the material guide platform can swing left and right through the suction force when the common electromagnet is electrified and the gravity of the weight when the common electromagnet is not electrified.

Furthermore, the driving device is a common electromagnet; and a heavy object is arranged on one side of the material guide table, and the material guide table can swing left and right around the central shaft through the suction force when the common electromagnet is electrified and the gravity of the heavy object when the common electromagnet is not electrified.

The invention has the advantages that: 1. space can be saved. 2. The accurate feeding can be realized. 3. Simple structure and convenient operation. 4. The double-stirring device with the switchable function is served, the stable concentration of the mixed materials can be ensured, and the stirring effect and efficiency can be improved by increasing the continuous stirring time. 5. The cost is saved, the failure rate is low, and the maintenance is convenient.

[ description of the drawings ]

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

Fig. 1 is a front view of a first embodiment of the present invention.

Fig. 2 is a top view of a first embodiment of the present invention.

Fig. 3 is a schematic structural diagram of the first embodiment of the present invention.

Fig. 4 is an exploded view of the guide table and the driving device in the first embodiment of the present invention.

Fig. 5 is an exploded view of the guide table and the driving device in the second embodiment of the present invention.

Fig. 6 is a schematic view of the assembly structure of the guide table and the driving device in the second embodiment of the invention.

Fig. 7 is an exploded view of the guide table and the driving device in the third embodiment of the present invention.

Fig. 8 is a schematic view showing an assembly structure of a guide table and a driving device in a third embodiment of the present invention.

[ detailed description ] embodiments

The first embodiment:

as shown in fig. 1 to 4, a mixing apparatus capable of switching feeding directions, which can be used for a medicine soaking machine or a flocculation mixing device for adding solid medicines, comprises: two boxes 101, 102, a material guiding platform 200 capable of automatically switching material feeding direction, and a material feeding device 300.

The two cases 101 and 102 are formed by dividing a large case into two cases by a partition 100 in the middle. Stirring devices 103 are arranged in the two box bodies 101 and 102, and stirring motors 104 for driving the stirring devices 103 are arranged at the tops of the two box bodies 101 and 102.

The discharge port 301 of the feeding device 300 is disposed above the partition 100 between the two boxes 101, 102, and the material guiding platform 200 is disposed between the discharge port 301 of the feeding device 300 and the two boxes 101, 102.

The material guiding platform 200 swings left and right under the driving of a driving device (the automatic telescopic rod 400), so that the material guiding platform 200 completely receives the material coming out of the material outlet 301 of the material feeding device 300 and guides the material to one of the two box bodies 101 and 102 in turn.

In the embodiment, the main body of the material guiding platform 200 is a straight plate 201 for receiving solid materials; both sides of the front and back surfaces of the straight plate 201 are provided with surrounding plates 202 for preventing solid materials from scattering from both sides.

A pair of material guiding limit plates 203 are respectively arranged on two sides of the straight plate 201 and fixed on the partition plate 100, and limit pins 204 are fixed on the material guiding limit plates 203; the enclosing plates 202 on two sides of the straight plate 201 are respectively provided with a limiting hole 205 corresponding to the limiting pin 204 (the limiting pin 204 is inserted into the limiting hole 205), and the rotating range of the straight plate 201 is limited within the range limited by the limiting hole 205.

In this embodiment, the driving device is an automatic retractable rod 400, which is disposed on the device near the material guiding table 200. One end of the material guide platform 200 close to the automatic telescopic rod 400 is fixedly connected with a driving sheet 206; the automatic telescopic rod 400 pushes and pulls the driving plate 206 to drive the material guiding platform 200 to swing left and right, so that the material guiding platform 200 supplies medicine to the two box bodies 101 and 102 in turn.

In this embodiment, the bottom of the straight plate 201 is further connected to two splayed material sliding plates 2011, and each material sliding plate 2011 points to one of the two box bodies 101 and 102, so that the solid material is more effectively guided into the box bodies. The intersection of the two slip plates 2011 defines a central axis 2012.

The straight plate 201 swings left and right around the central shaft 2012 by the driving of the automatic telescopic rod 400, so that the front surface or the back surface of the straight plate 201 completely receives the material coming out of the material outlet 301 of the feeding device 300 and guides the material to one of the two boxes 101 and 102 in turn.

In specific practice, the driving device can also be realized by adopting a common electromagnet and a material guide table weighting mode or a push-pull electromagnet.

In summary, the type of the driving device and the way of driving the guide table by the driving device can be realized in various ways, and are not limited to the method mentioned in the embodiment.

The working process is as follows:

when the two boxes 101, 102 are at the low liquid level at the same time, the feeding device 300 is started to feed through the material guiding table 200 in one box and add water (realized by directly connecting a tap water pipe or a pump for pumping water), when one box is full, the feeding and water inlet valves are closed, the water inlet valve of the other box is automatically started, the material guiding table 200 is also switched to the other box, water inlet is opened, feeding is started after the water inlet process or the water inlet process is finished, when the water inlet reaches the designated high liquid level, the water inlet is automatically stopped, and when the feeding reaches the designated dosage, the dosage is automatically stopped.

In the using process, when the liquid level of a certain tank body is at a low liquid level, the electromagnetic valve or the electric valve starts to be automatically opened, water starts to enter, the feeding device 300 is opened during reaching the high liquid level, or during the whole period of reaching the high liquid level, the direction of the material sliding plate 2011 is also automatically switched to the tank, the water stops entering until reaching the high liquid level, and the feeding device 300 stops feeding after quantitative feeding is carried out according to a certain time. When the liquid level of the box body of the other box is at a low liquid level, the electromagnetic valve or the electric valve is automatically opened to start water inflow, the feeding device is opened during reaching the high liquid level and simultaneously or in the whole period of reaching the high liquid level, the direction of the sliding plate is automatically switched to the other box, the water inflow is stopped until reaching the high liquid level, and the feeding device stops feeding after quantitative feeding is carried out according to a certain time.

Second embodiment:

as shown in fig. 5 to fig. 6, the present embodiment is different from the first embodiment in that one end of a rotating shaft 402 is fixedly connected to a side enclosing plate 202 of a straight plate 201 (without a material sliding plate) of the material guiding table 200, the rotating shaft 402 is inserted into a hole of a support frame 403 with holes through a shaft sleeve 2014, the support frame 403 with holes is fixed to a device close to the material guiding table 200, and the other end of the rotating shaft 402 is connected to a driving plate 206. The automatic telescopic rod 400 drives the material guiding table 200 to swing left and right by pushing and pulling the driving sheet 206, so that the straight plate 201 supplies medicine to the two boxes 101 and 102 in turn.

The third embodiment:

as shown in fig. 7 and 8, a switchable feed direction mixing device, which can be used for a medicine brewing machine or a flocculation mixing device for adding liquid medicament, is different from the second embodiment in that: the material guide platform is a hopper-shaped body 500, so that liquid medicaments can be added conveniently; one end of the rotation shaft 402 is fixedly connected to a side surface of the bucket 500. The driving device is used for driving the bucket body 500 to swing left and right by the automatic telescopic rod 400 rotating clockwise and anticlockwise through the driving rotating shaft 402.

When the guide table is the hopper 500, the type of the driving device and the manner of driving the guide table by the driving device may also adopt the various manners mentioned in the first embodiment, and may also adopt other various implementations, and are not limited to the methods mentioned in the embodiment.

The above description is only an example of the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A switchable feed-direction mixing apparatus, characterized by: the method comprises the following steps: the device comprises two box bodies, a feeding device and a material guide platform capable of automatically switching the direction of feeding;

the discharge port of the feeding device is arranged above the two box bodies, and the material guide table is positioned between the discharge port of the feeding device and the two box bodies;

the guide platform swings left and right under the driving of a driving device, so that the guide platform completely receives materials discharged from a discharge port of the feeding device and guides the materials to point to one of the two box bodies in turn.

2. A switchable feed-direction mixing apparatus as claimed in claim 1, wherein: the side of the guide platform is fixedly connected with a rotating shaft, the rotating shaft is erected on a supporting frame, a rotating shaft driving sheet is arranged on the rotating shaft, and the driving device drives the rotating shaft driving sheet to rotate clockwise and anticlockwise so as to drive the guide platform to swing leftwards and rightwards.

3. A switchable feed-direction mixing apparatus as claimed in claim 1, wherein: the material guide platform is erected on a central shaft, a material guide platform driving point is arranged at a position, away from the central shaft, of the material guide platform, and the driving device directly drives the material guide platform driving point to enable the material guide platform to swing left and right around the central shaft.

4. A switchable feed-direction mixing apparatus as claimed in claim 1, wherein: the material guide platform is a straight plate, the front surface or the back surface of the straight plate completely receives materials discharged from a discharge port of the feeding device, and the materials are guided to point to one of the two box bodies in turn.

5. A switchable feed-direction mixing apparatus as claimed in claim 4, wherein: the two sides of the straight plate are provided with the surrounding plates, the bottom of the straight plate is connected with two splayed sliding plates, and each sliding plate points to one of the two box bodies respectively, so that materials are more effectively guided into the box bodies.

6. A switchable feed-direction mixing apparatus as claimed in claim 1, wherein: the material guide platform is a bucket-shaped body, the bucket-shaped body receives materials discharged from a discharge port of the feeding device, and the materials are guided to point to one of the two box bodies in turn through the left-right swinging of the bucket-shaped body.

7. A switchable feed-direction mixing apparatus as claimed in claim 2, wherein: the driving device is a pneumatic automatic telescopic rod mechanism, an electric automatic telescopic rod mechanism or a push-pull electromagnet; the telescopic rod of the driving device drives the material guide platform to swing left and right by pushing and pulling the rotating shaft driving sheet.

8. A switchable feed-direction mixing apparatus as claimed in claim 3, wherein: the driving device is a pneumatic automatic telescopic rod mechanism, an electric automatic telescopic rod mechanism or a push-pull electromagnet; the telescopic rod of the driving device drives the material guiding platform to swing left and right around the central shaft by pushing and pulling the driving sheet of the material guiding platform.

9. A switchable feed-direction mixing apparatus as claimed in claim 2, wherein: the driving device is a common electromagnet; and a weight is arranged on one side of the rotating shaft, and the material guide platform can swing left and right through the suction force when the common electromagnet is electrified and the gravity of the weight when the common electromagnet is not electrified.

10. A switchable feed-direction mixing apparatus as claimed in claim 3, wherein: the driving device is a common electromagnet; and a heavy object is arranged on one side of the material guide table, and the material guide table can swing left and right around the central shaft through the suction force when the common electromagnet is electrified and the gravity of the heavy object when the common electromagnet is not electrified.

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