IES86731B2 - Method of production of a sampling unit for a concentrates preparation device - Google Patents

Abstract

The invention relates to a design method for the sampling unit. The method comprises providing the movable rod with a refreshing passage; arranging for the head end of the passage to extend to the bottom portion of the sampling bore, arranging for the tail end of the refreshing passage to extend away from the handle and to extend to the exterior cylindrical surface of the movable rod; arranging the tail end of the refreshing passage inside the sampling chamber when the sampling bore is inside the sampling chamber; arranging the tail end of the passage inside the axle sleeve and near to the back surface of the axle sleeve when the sampling bore is inside the axle sleeve and near to the front surface of the axle sleeve. Because concentrates in the sampling bore is refreshing in real time, it is no need to fast rotate the hand firstly when taking samples of concentrates, it is convenient and time-saving. <Figure 8>

Description

Method of production of a sampling unit for a concentrates preparation device Field of the Invention The invention relates to a design method for the concentrates preparation device, especially to a design method for the sampling unit for the concentrates preparation device using low pressure and low boiling point.

Description of prior art The boiling point of water decreases with the pressure, so water can be boiling with low temperature under low pressure, the boiling water changes liquid water into water vapor, mist water vapor condenses on the interface between cool and hot, a lot of mist collects together to form water drop, and a lot of water drop collects together to form water flow, whether we can use the above principle to lower the moisture content of the mixture so as to increase the concentration. 50, there is provided with a device which can remove water from mixture using above principle, the device is a concentrates preparation device, which condenses hot water steam into liquid water, which is transformed to the container latter, thereby water content is reduced, so the concentrating function is achieved. it is a problem to take samples of the concentrates in the boiler when it is need to detect the density of the concentrates in the boiler.

Summary of the present invention The object of the invention is to provide a design method for the sampling 2/8 unit for the concentrates preparation device so as to solve the above problem.

Therefore, the invention provide a design method for the sampling unit for the concentrates preparation device, the sampling unit comprises providing a base body, a movable rod, a limiting pin, a sampling chamber, a sampling bore, an axle sleeve and an isobaric chamber; arranging for the sampling chamber to pass through the upper and lower surfaces of the base body; arranging for the isobaric chamber to be a cylindrical blind bore; arranging for the isobaric chamber to pass through the front surface of the base body and to pass through the front and back surfaces of the sampling chamber; arranging for the axle sleeve to have an interference fitting with the isobaric chamber; arranging for the movable rod to hermetically slidingly mate with the axle sleeve; arranging for the limiting pin fastened on the movable rod to mate with the front surface or the back surface of the sampling chamber; arranging a gas permeable passage inside the base body; arranging for the head and tail ends of the gas permeable passage to respectively communicate with the isobaric chamber and the outside.

Profitably, arranging the movable rod at thewithdraw position and the sampling bore outside the base body when the limiting pin mates with the front surface of the sampling chamber; arranging the movable rod at the insertion position and the sampling 3/8 bore inside the sampling chamber when the limiting pin mates with the back surface of the sampling chamber.

Profitably, arranging for the gas permeable passage to extend to the front surface of the base body; arranging the sampling chamber of the sampling unit inside the boiler and arranging the handle outside the boiler.

Profitably, arranging the sampling unit near to the bottom portion of the sidewall of the boiler unit.

Advantageous Effects When the sampling unit takes samples of concentrates from the boiler, it is no necessary to stop concentration process or to open the upper cover of the boiler. Concentrates in the boiler can be taken out through the sampling bore of the sampling unit, the movable rod can take samples freely with the help of gas permeable passage for keeping the pressure balance of ends of the movable rod.

Brief description of the drawing In the following, the invention will be described in greater detail by means of some embodiments with reference to the accompanying drawings, in which Fig.1 is a 3d-drawing of the boiler; Fig.2—6 are 3d—drawings of the sampling unit, wherein the movable rod is at different positions; Fig.7 is an exploded 3d-drawing of the samplinngllunit; 4/8 Fig.8 is a sectional 3d-drawing of the sampling unit; Fig.9—11 are sectional front drawings of the sampling unit, wherein the movable rod is at different positions. 14. the sampling unit; 1401. the base body; 1402. the limiting pin; 1403. the movable rod; 1404. the sampling bore; 1405. the sampling chamber; 1406. the handle; 1407. the shaft sleeve; 1408. the gas permeable passage; 1409. the isobaric chamber; Detailed description of the preferred embodiment Referring to Fig.1, it is a boiler unit suitable for the concentrates preparation device of the invention. A sampling unit 14 is arranged near to the bottom portion of the sidewall of the boiler unit, referring to Fig.7 and Fig.8, the sampling unit 14 is provided with a movable rod 1403, a limiting pin 1402, a sampling chamber 1405, a sampling bore 1404, an axle sleeve 1407 and an isobaric chamber 1409.

Referring to Fig.9, the sampling chamber 1405 passes through the upper and lower surfaces of the base body 1401, the isobaric chamber 1409 is configured to be a cylindrical blind bore, the isobaric chamber 1409 passes through the front surface of the base body 1401 and passes through the front and back surfaces of the sampling chamber 1405. The axle sleeve 1407 has an interference fitting with the isobaric chamber 1409, the movable rod 1403 hermetically slidingly mates with the axle sleeve 1407, the limiting pin is fastened on the movable rod 1403.

Referring to Fig.9 and Fig.10, the movable rod 1403 is at the withdraw /8 position and the sampling bore 1404 is outside the base body 1401 when the limiting pin 1402 mates with the front surface of the sampling chamber 1405, referring to Fig.4 and Fig.5. The movable rod 1403 is at the insertion position and the sampling bore 1404 is inside the sampling chamber 1405 when the limiting pin 1402 mates with the back surface of the sampling chamber 1405, referring to Fig.2 and Fig.3.

Referring to Fig.8, inside the base body 1401 is provided with a gas permeable passage 1408, of which the head and tail ends respectively communicate with the isobaric chamber 1409 and the outside atmosphere, the air permeable passage 1408 extends to the front surface of the base body 1401, air pressure of the isobaric chamber 1409 is equal to the outside air pressure with the help of the gas permeable passage 1408 so as to make the movable rod 1403 moves more flexibly. The movable rod 1403 near to the front surface of the base body 1401 is provided with a handle 1406, of which the diameter is greater than the interior diameter of the shaft sleeve 1407, the sampling chamber 1405 of the sampling unit 14 is inside the boiler, the handle 1406 is outside the boiler.

Referring to Fig.9,l0,11, the sampling unit 14 takes samples of concentrates in the boiler during the concentrating process to make concentration detection of samples. In order to increase detecting accuracy, the handle 1406 is rotated fastly before sampling, referring to Fig.18, the remnant sample left in the sampling bore 1404 is thrown out due to the centrifugal force, then the sampling bore is upwards with the help of the direction mark on the handle 1406; the movable rod 1403 is drawn out to the withdraw position after the sampling bore 1404 is full of concentrates, detector 6/8 detects the concentration of the sample in the sampling bore, or detector detects the concentration of the sample in the glassware dropped from the sampling bore clue to the gravity force after rotating the movable rod 1403 to make the sampling bore 1404 be downwards. The movable rod 1403 is pushed back to the insertion position after sampling process.

The base body 1401 of the sampling unit 14 can be achieved by investment casting process, the cylindrical isobaric chamber can be manufactured by secondary processing like boring for an interference fitting with axle sleeve 1407.

Claims (2)

Claims

1. A method of production of a sampling unit for a concentrates preparation device, comprising providing a base body (1401); characterized by providing the sampling unit (14) with a movable rod (1403), a limiting pin (1402), a sampling chamber (1405), a sampling bore (1404), an axle sleeve (1407) and an isobaric chamber (1409); arranging for the sampling chamber (1405) to pass through the upper and lower surfaces of the base body (1401); arranging for the isobaric chamber (1409) to be a cylindrical blind bore, and arranging for the isobaric chamber (1409) to pass through the front surface of the base body (1401) and passing through the front and back surfaces of the sampling chamber (1405); arranging for the axle sleeve (1407) to have an interference fitting with the isobaric chamber (1409), and arranging the movable rod " (1403) to hermetically slidingly mate with the axle sleeve (1407); arranging for the limiting pin (1402) fastened on the movable rod (1403) to mate with the front surface or the back surface of the sampling chamber (1405); arranging a gas permeable passage (1408) inside the base body (1401), and arranging for the head and tail ends of the passage (1408) to respectively communicate with the isobaric chamber (1409) and the outside.

2. A method of production of a sampling unit for a concentrates preparation device according to claim 1, characterized by arranging the movable rod (1403) at the withdraw position and