Furnace tank discharge hole structure of novel high-viscosity material stirring furnace
A discharge port, high viscosity technology, used in mixer accessories, chemical/physical processes, mixers, etc., can solve problems such as splashing, high material viscosity, and large impact, and achieve smooth flow.
Pending Publication Date: 2019-08-20
HENAN TIANLI THERMOTECHNICAL EQUIP CO LTD
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Problems solved by technology
At present, the discharge port is generally a U-shaped groove channel, but the viscosity of the material is relatively high, and it is easy to gather at the end of the discharge port to form a ball. The ball is not easy to fall, and it is easy to flow to the outside of the U-shaped groove channel. On the wall; when the second drop, the impact is greater and it is easy to cause splashing
Method used
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[0014] The present invention will be described in detail below in conjunction with the accompanying drawings. It should be noted that the orientation terms such as left, middle, right, up, and down in the examples of the present invention are only relative concepts or refer to the normal use state of the product, and should not be considered as restrictive .
[0015] Such as figure 1 , figure 2 and image 3 As shown, a novel high-viscosity material stirring furnace retort discharge port structure includes a retort 1, and a discharge port is provided at the upper port of the retort 1, and the discharge port includes a first flow channel 2 and a second flow channel. Two flow channels 3, the outer end 2 of the first flow channel is fixedly connected and communicated with the second flow channel 3, and the inner end of the first flow channel 2 is fixed in the U-shaped gap opened at the port of the furnace tank 1 ; The width of the second flow channel 3 gradually decreases fro...
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The invention provides a furnace tank discharge hole structure of a novel high-viscosity material stirring furnace. The furnace tank discharge hole structure comprises a furnace tank; a discharge portis formed at the upper end port of the furnace tank; the discharge port comprises a first flow passage and a second flow passage; the outer end of the first flow passage is fixedly connected with thesecond flow passage and communicates with the second flow passage; the inner end of the first flow passage is fixedly arranged in a U-shaped notch formed at the port of the furnace tank; the width ofthe second flow passage is gradually reduced from the inner end to the outer end, and the cross section of the second flow passage is in an inverted isosceles trapezoid shape; and the first flow passage and the second flow passage are both obliquely arranged upwards, wherein the inclination angle of the second flow passage is larger than the inclination angle of the first flow passage. The doubleflow passages are arranged at the port of the furnace tank, and the opening degree of two side plates of the second flow passage is larger than the opening degree of two side plates of the first flowpassage, so that materials do not easily build spherical objects between the two side plates with a relatively large opening degree of the second flow passage, and the problems that materials do noteasily fall off from an existing discharge port and splashing is caused after the materials fall off are solved. The inclination degree of the second flow passage is larger than the inclination degreeof the first flow passage, so that when materials are poured by the furnace tank, the materials flow more smoothly.
Description
technical field [0001] The invention relates to the technical field of stirring furnaces, in particular to a novel high-viscosity material stirring furnace tank outlet structure. Background technique [0002] Add high-viscosity materials into the stirring furnace, and after stirring in the stirring furnace, the continuity of the materials is strong. When in use, the furnace tank of the stirring furnace needs to be tilted so that the material flows out from the discharge port provided on the side of the upper port of the furnace tank. At present, the discharge port is generally a U-shaped groove channel, but the viscosity of the material is relatively high, and it is easy to gather at the end of the discharge port to form a ball. The ball is not easy to fall, and it is easy to flow to the outside of the U-shaped groove channel. on the wall; secondly, when it is dropped, the impact is large and it is easy to cause splashing. Contents of the invention [0003] Aiming at the...
Claims
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Patent Timeline
Login to View More IPC IPC(8): B01F15/02B01F3/10B01F3/14B01F23/47B01F23/57
CPCB01F23/47B01F23/57B01F35/71B01F35/71805
Inventor 李明科王世魁孙国进
Owner HENAN TIANLI THERMOTECHNICAL EQUIP CO LTD