TWI392540B - Vacuum defoaming mixer with dustproof function - Google Patents

Description

Vacuum defoaming mixer with dustproof function

The invention relates to a vacuum defoaming mixer, in particular to a vacuum defoaming mixer with dustproof function.

The vacuum stirring deaerator is a liquid defoaming device. Some defoaming devices use only vacuum to draw gas molecules from the vessel liquid. When the viscosity of the liquid is low, it is possible to evacuate all the gas molecules in the liquid when the vacuum is applied. When the viscosity of the liquid is increased, the vacuum can only take away the bubbles on the surface of the liquid, so a stir bar designed with a spiral curve must be used. The stirring action generates the effect of the lower layer fluid flowing to the upper liquid level, so that the lower layer air bubbles are taken to the upper layer and are separated.
The existing vacuum defoaming mixer rotates with a stirring rod to drive the liquid in the container to form a swirling rotation, and the liquid rises from the bottom of the container by turning. During the ascent, the bubbles in the liquid are brought to the outside of the machine by vacuuming. The existing design is agitated by rotating a stir bar disposed above the container to agitate the liquid in the container. When the stirring rod rotates, the screw that drives the stirring rod to rotate will rub against the sleeve to generate dust, and the dust will fall into the lower container and pollute the liquid in the container.

It is an object of the present invention to provide a vacuum defoaming mixer which rotates a carrier tray to drive a container disposed on a carrier tray to rotate, thereby generating a stirring action with a stirring rod in the container, and providing a dust jacket at a joint between the carrier tray and the rotating shaft. In order to collect the dust generated by the rotating shaft to drive the carrier disk to rotate.
Based on the above object, the present invention provides a vacuum defoaming mixer having a dustproof function, comprising a vacuum chamber, a screw, a stirring rod, a rotating shaft, a carrier tray and a first dust jacket. The screw is disposed at the top of the vacuum chamber. The stirring rod is disposed in the vacuum chamber and connected to one end of the screw, and the screw is used to drive the stirring rod to move up and down in the vacuum chamber. The rotating shaft is disposed at a bottom of the vacuum chamber. The carrier disk is disposed in the vacuum cavity and connected to one end of the rotating shaft, and the rotating shaft is configured to drive the carrier disk to rotate in the vacuum cavity. The first dust jacket is disposed at a joint of the rotating shaft and the carrier tray, and the first dust jacket is configured to collect dust generated when the rotating shaft drives the carrier tray to rotate. The vacuum defoaming mixer may further include a second dust jacket disposed at a joint of the screw and the vacuum chamber, and the second dust jacket is configured to collect the screw to drive the stirring rod to move up and down The dust produced. The air outlet of the vacuum chamber is located at the bottom of the vacuum chamber. A container is disposed on the carrier tray, and a height of the air outlet of the vacuum chamber is not higher than a height of the opening of the container. The vacuum defoaming mixer may further comprise a vacuuming device connected to the air outlet of the vacuum chamber. The vacuum defoaming mixer may further include a filter disposed at an inlet of the vacuum chamber.
According to the above technical solution, the vacuum defoaming mixer of the present invention has at least the following advantages and beneficial effects: the stirring mode of the vacuum defoaming mixer of the present invention is changed from a rotating stirring rod to a rotating carrier, and the stirring rod is only used when the container is taken and placed. The adjustment action can avoid the friction between the screw and the sleeve which rotates the stirring rod to generate dust when the stirring rod in the prior art rotates. In addition, the present invention provides a dust jacket at the joint of the carrier plate and the rotating shaft to collect the dust generated when the rotating shaft drives the bearing tray to rotate, and a dust jacket can also be arranged at the joint between the screw and the vacuum chamber to collect the screw to drive the stirring. The dust generated when the rod moves up and down. Furthermore, the present invention can provide a filter at the vacuum inlet to prevent dust from being introduced during vacuum breaking. The vacuum outlet port of the invention is arranged at the bottom of the hollow cavity, and in addition to not causing dust flying, the dust can be taken away by the airflow.
The above description is only an overview of the technical solutions of the present invention, and can be implemented in accordance with the contents of the specification in order to make the technical means of the present invention more clear, and to make the above and other objects, features and advantages of the present invention more obvious. It is to be understood that the following specific embodiments are described in detail below with reference to the accompanying drawings.

1 to FIG. 4, FIG. 1 is a schematic view of a vacuum defoaming mixer 1 according to an embodiment of the present invention, and FIG. 2 is a schematic view of the stirring rod 14 of FIG. 1 moving downward into the container 3, and FIG. 1 is a plan view of the vacuum chamber 10, the screw 12, and the second boot 22, and FIG. 4 is a plan view of the rotating shaft 16, the carrier 18, and the first boot 20 of FIG.
As shown in FIG. 1, the vacuum defoaming mixer 1 includes a vacuum chamber 10, a screw 12, a stirring rod 14, a rotating shaft 16, a carrier tray 18, a first dust jacket 20, a second dust jacket 22, a filter 24, and a vacuuming device. 26. The screw 12 is disposed at the top of the vacuum chamber 10. In general, a bushing (not shown) for mating with the screw 12 is provided at the junction of the screw 12 and the vacuum chamber 10. The stirring rod 14 is disposed in the vacuum chamber 10 and connected to one end of the screw 12. The screw 12 is used to drive the stirring rod 14 to move up and down in the vacuum chamber 10. The rotating shaft 16 is disposed at the bottom of the vacuum chamber 10. The carrier disk 18 is disposed in the vacuum chamber 10 and connected to one end of the rotating shaft 16. The rotating shaft 16 is used to drive the carrier disk 18 to rotate in the vacuum chamber 10. The first dust jacket 20 is disposed at a joint of the rotating shaft 16 and the carrier tray 18. The first dust jacket 20 is used to collect the dust generated when the rotating shaft 16 drives the carrier disk 18 to rotate. The second boot 22 is disposed at the junction of the screw 12 and the vacuum chamber 10. The second dust jacket 22 is used to collect the dust generated when the screw 12 drives the stirring rod 14 to move up and down. The filter 24 is disposed at the intake port 100 of the vacuum chamber 10. The filter 24 is for preventing the introduction of dust when a vacuum is broken. The vacuuming device 26 is connected to the air outlet 102 of the vacuum chamber 10.
The operation of the vacuum defoaming mixer 1 is as follows. The operator can first operate the screw 12 to move the stirring rod 14 upward to the position shown in Fig. 1, and then place the container 3 containing the liquid to be subjected to the defoaming operation on the carrier tray 18. Next, the operator operates the screw 12 to move the stir bar 14 down to the position shown in FIG. 2, that is, to move the stir bar 14 down into the container 3. Then, the operator can start the rotating shaft 16 to drive the carrier 18 to rotate, thereby driving the container 3 disposed on the carrier 18 to rotate. At this time, the stirring rod 14 located in the container 3 will agitate with the rotating container 3, thereby causing the liquid in the container 3 to swirl, so that the liquid rises by the bottom of the container 3 by the rotation. The bubbles in the liquid during the ascending process are carried to the outside of the vacuum defoaming mixer 1 through the air outlet 102 through the vacuuming device 26. After the defoaming operation is completed, the operator first operates the screw 12 to move the stirring rod 14 upward to the position shown in FIG. 1, and then moves the container 3 away from the carrier tray 18.
In other words, the stirring mode of the vacuum defoaming mixer 1 is to rotate the carrier tray 18 by the rotating shaft 16, and the stirring rod 14 is driven up and down by the screw 12 only when the container 3 is taken up and released. Since the carrier tray 18 is located below the container 3, even if the carrier tray 18 is rubbed against the rotating shaft 16 to generate dust when it is rotated, the dust does not fall into the container 3. In addition, as shown in FIG. 1 , FIG. 2 and FIG. 4 , since the first dust jacket 20 is disposed at the joint of the carrier disk 18 and the rotating shaft 16 , the first dust jacket 20 can collect the rotating shaft 16 to drive the carrier disk 18 to rotate. The generated dust is prevented from scattering due to the rotation of the carrier disk 18. Furthermore, as shown in FIG. 1 , FIG. 2 and FIG. 3 , the second dust jacket 22 is also disposed at the joint of the screw 12 and the vacuum chamber 10 , and the second dust jacket 22 can collect the screw 12 to drive the stirring rod 14 . Dust generated when moving up and down. Even if the frictional phenomenon occurs when the stirring rod 14 is moved up and down by the screw 12 to generate a slight dust, the dust will be confined inside the second dust jacket 22 without being dissipated into the container 3.
If dust is still present in the vacuum chamber 10, the dust deposits on the bottom of the vacuum chamber 10 due to gravity effects. When the vacuuming device 26 is operated to evacuate the vacuum chamber 10, since the air outlet 102 of the vacuum chamber 10 is located at the bottom of the vacuum chamber 10, in addition to not causing dust flying, the air flow can also pass through the air outlet 102. Take away the dust when you take it out. In other words, the present invention ensures that the airflow is not disturbed when the vacuum is applied, causing the dust to fly and fall into the container 3. Preferably, the height of the air outlet 102 of the vacuum chamber 10 is not higher than the height of the opening of the container 3 provided on the carrier tray 18. Further, in order to prevent dust from being introduced through the intake port 100 when the vacuum is broken, the present invention is further provided with a filter 24 at the intake port 100.
According to the above technical solution, the vacuum defoaming mixer of the present invention has at least the following advantages and beneficial effects: the stirring mode of the vacuum defoaming mixer of the present invention is changed from a rotating stirring rod to a rotating carrier, and the stirring rod is only used when the container is taken and placed. The adjustment action can avoid the friction between the screw and the sleeve which rotates the stirring rod to generate dust when the stirring rod in the prior art rotates. In addition, the present invention provides a dust jacket at the joint of the carrier plate and the rotating shaft to collect the dust generated when the rotating shaft drives the bearing tray to rotate, and a dust jacket can also be arranged at the joint between the screw and the vacuum chamber to collect the screw to drive the stirring. The dust generated when the rod moves up and down. Furthermore, the present invention can provide a filter at the vacuum inlet to prevent dust from being introduced during vacuum breaking. The vacuum outlet port of the invention is arranged at the bottom of the hollow cavity, and in addition to not causing dust flying, the dust can be taken away by the airflow.
The above are only the preferred embodiments of the present invention, and all changes and modifications made in accordance with the claims of the present invention should fall within the scope of the present invention.

1‧‧‧Vacuum defoaming mixer

3‧‧‧ Container

10‧‧‧vacuum chamber

12‧‧‧ screw

14‧‧‧ stir bar

16‧‧‧ shaft

18‧‧‧ Carrying tray

20‧‧‧First boot

22‧‧‧Second boot

24‧‧‧Filter

26‧‧‧ Vacuuming device

100‧‧‧air inlet

102‧‧‧ outlet

1 is a schematic view of a vacuum defoaming mixer in accordance with an embodiment of the present invention.
Figure 2 is a schematic illustration of the stir bar of Figure 1 moving downwardly into the container.
3 is a top plan view of the vacuum chamber, the screw, and the second boot of FIG. 1.
4 is a top plan view of the rotating shaft, the carrier tray, and the first boot of FIG. 1.

1‧‧‧Vacuum defoaming mixer

3‧‧‧ Container

10‧‧‧vacuum chamber

12‧‧‧ screw

14‧‧‧ stir bar

16‧‧‧ shaft

18‧‧‧ Carrying tray

20‧‧‧First boot

22‧‧‧Second boot

24‧‧‧Filter

26‧‧‧ Vacuuming device

100‧‧‧air inlet

102‧‧‧ outlet

Claims (6)

A vacuum defoaming mixer with dustproof function, characterized in that the vacuum defoaming mixer comprises:
a vacuum chamber;
a screw disposed on the top of the vacuum chamber;
a stirring rod disposed in the vacuum chamber and connected to one end of the screw, the screw is used to drive the stirring rod to move up and down in the vacuum chamber;
a rotating shaft disposed at a bottom of the vacuum chamber;
a carrier disk disposed in the vacuum cavity and connected to one end of the rotating shaft, the rotating shaft is configured to drive the carrier disk to rotate in the vacuum cavity; and a first dust jacket is disposed at the Where the rotating shaft is engaged with the carrying tray, the first dust jacket is configured to collect the dust generated when the rotating shaft drives the carrying tray to rotate. The vacuum defoaming mixer according to claim 1, wherein the vacuum defoaming mixer further comprises a second dust jacket disposed at a joint of the screw and the vacuum chamber, the second The dust jacket is used to collect the dust generated when the screw rod drives the stirring rod to move up and down. The vacuum defoaming mixer of claim 1, wherein the outlet of the vacuum chamber is located at the bottom of the vacuum chamber. A vacuum defoaming mixer according to claim 3, wherein a container is disposed on the carrier tray, and a height of the air outlet of the vacuum chamber is not higher than a height of the opening of the container. The vacuum defoaming mixer according to claim 3, wherein the vacuum defoaming mixer further comprises a vacuuming device connected to an air outlet of the vacuum chamber. The vacuum defoaming mixer according to claim 1, wherein the vacuum defoaming mixer further comprises a filter disposed at an inlet of the vacuum chamber.