CN202494614U - Full automatic viscosity tester - Google Patents

Abstract

The utility model discloses a full automatic viscosity tester. The full automatic viscosity tester is characterized by comprising a chassis, an electromagnetic valve control box, a constant temperature device, a testing frame, a main control box as well as a washing bottle and a waste liquid bottle, wherein a control panel is also arranged in the chassis; the electromagnetic valve control box is placed in a first layer of the chassis and connected to the control panel; the constant temperature device is placed in a second layer of the chassis and connected to the control panel; the testing frame is placed in a constant temperature groove; the main control box is placed in a third layer of the chassis and connected to the control panel; and the washing bottle and the waste liquid bottle are placed in a fourth layer of the chassis. The full automatic viscosity tester disclosed by the utility model is mainly used in detecting viscosities of chemical fiber products and high polymer materials as well as viscosities of oil products, and has the advantages of full automatic measuring process and high testing accuracy.

Description

Full-automatic viscosity tester

Technical field

The utility model relates to a kind of viscosity test instrument, particularly a kind of full-automatic viscosity tester.

Background technology

In the art, viscosity tester designs for the limiting viscosity of measuring fiber product and macromolecular material thereof, also is suitable for the viscosity test of oil product simultaneously.In practical application; Usually can viscosity meter be combined with sensor and control device, constitute automatic testing equipment, its principle of work is under a certain steady temperature; Through measuring the liquid time of flowing through the capillary motion viscosity meter under gravity, calculate the viscosity of liquid under this temperature.

Yet will inevitably there be the process of artificial judgement therebetween in traditional viscosity tester owing to be not full-automation; Thereby tend to exist personal error in measuring, lack the cleaning device of testing tube, need artificially to clean; And the high labour intensity of oven dry glass capillary causes production efficiency low.

The utility model content

To the technical matters of above-mentioned existence, the utility model purpose is: propose a kind of full-automatic viscosity tester, overcome the problems referred to above.

The utility model solves the technical scheme that its technical matters adopted:

Full-automatic viscosity tester is characterized in that, comprising:

One cabinet is divided into 4 layers from top to bottom;

Also be provided with a control panel in the said cabinet;

One solenoid control case places said cabinet ground floor, and is connected to said control panel;

One thermostat places the said cabinet second layer, and is connected to said control panel;

Said thermostat comprises: calibration cell, stirring machine, well heater and refrigerating plant;

One testing jig is positioned in the said calibration cell;

Said testing jig is made up of glass capillary, photoelectric control circuit plate, nine core plugs and aluminium alloy clamping plate;

Said glass capillary is divided into the person in charge, side pipe and arm, and said side pipe is connected with said solenoid valve, and the said person in charge and said arm are connected to waste liquid bottle respectively;

One Main Control Tank places the 3rd layer of said cabinet, and is connected to said control panel;

Said Main Control Tank comprises: master control system and temperature control system, and master control system is connected with control panel, the various instructions that the processing controls panel transmits; Temperature control system is connected with thermostat with master control system respectively, and it receives the signal instruction that master control system transmits, and instructions is issued to each different in thermostat ingredients, thereby reaches the purpose of constant temperature;

One washer bottle and four waste liquid bottles, said washer bottle and said waste liquid bottle are positioned over the 4th layer of said cabinet;

Said washer bottle connects said solenoid valve;

Said waste liquid bottle divides two groups, is respectively to be responsible for waste liquid bottle and arm waste liquid bottle, is responsible for waste liquid bottle and is connected with the person in charge of said glass capillary, and the arm waste liquid bottle is connected with the arm of said glass capillary.

As preferred version, the utility model also is provided with a liquid crystal touch screen, is arranged on the 3rd layer of said cabinet, and connects in said control panel.

As preferred version, the utility model also is provided with a printer, is arranged on the 3rd layer of said cabinet, and connects in said control panel.

As preferred version, the utility model also is provided with a control pressurer system, is arranged on the 4th layer of said cabinet, and is connected with control panel with solenoid valve.

Said control pressurer system comprises: tensimeter, pressure-regulating valve and vacuum pump, said vacuum pump are positioned over the waste liquid bottle back.

As preferred version, the utility model is provided with a visual windows in the waste liquid bottle place on cabinet panel, and convenient operating position of watching waste liquid bottle at any time prevents the waste liquid suck-back, damages suction pump.

As preferred version, the utility model is installed the knocker lock on the second layer of said cabinet and the 4th deck panels, maintain easily and install.

The beneficial effect of the utility model is: adopt the utility model to test simultaneously by two-way, thereby improved work efficiency, whole-course automation in the test process; And measuring accuracy is high, has thoroughly solved the personal error in measuring, the artificial cleaning; The high labour intensity of oven dry glass capillary; Poor efficiency and damage problem capillaceous, and thermostat is more stable to temperature controlling, measures more accurate.

Description of drawings

Fig. 1 is the utility model system architecture diagram;

Fig. 2 is a solenoid valve workflow synoptic diagram.

Embodiment

Below in conjunction with accompanying drawing, the utility model is further specified.

As shown in Figure 1: full-automatic viscosity tester comprises: cabinet 1, be divided into 4 layers from top to bottom; Also be provided with a control panel 2 in the said cabinet; Solenoid control case 3 places said cabinet 1 ground floor, and is connected to said control panel 2; Thermostat 4 places the said cabinet second layer, and is connected to said control panel; Said thermostat 4 comprises: calibration cell, stirring machine, well heater and refrigerating plant; Main Control Tank 6 places the 3rd layer of said cabinet, and is connected to said control panel 2; Said Main Control Tank 6 comprises: master control system and temperature control system, and master control system is connected with control panel 2, the various instructions that the processing controls panel transmits; Temperature control system is connected with thermostat 4 with master control system respectively, and it receives the signal instruction that master control system transmits, and instructions is issued to each different in thermostat ingredients, thereby reaches the purpose of constant temperature; Washer bottle and waste liquid bottle 8 are positioned over the 4th layer of said cabinet; Said washer bottle connects said solenoid valve; Said waste liquid bottle divides two groups, is respectively to be responsible for waste liquid bottle and arm waste liquid bottle, is responsible for waste liquid bottle and is connected with the person in charge of said glass capillary, and the arm waste liquid bottle is connected with the arm of said glass capillary.

As preferred version, the utility model also is provided with a liquid crystal touch screen 5, is arranged on the 3rd layer of said cabinet, and connects in said control panel 2.

As preferred version, the utility model also is provided with a printer 6, is arranged on the 3rd layer of said cabinet, and connects in said control panel 2.

As preferred version, the utility model also is provided with a control pressurer system 7, is arranged on the 4th layer of said cabinet, and is connected with control panel 2 with solenoid valve.

Said control pressurer system 7 comprises: tensimeter, pressure-regulating valve and vacuum pump, said vacuum pump are positioned over the waste liquid bottle back.

As preferred version, the utility model is provided with a visual windows in the waste liquid bottle place on cabinet panel, and convenient operating position of watching waste liquid bottle at any time prevents the waste liquid suck-back, damages suction pump.

As preferred version, the utility model is installed the knocker lock on the second layer of said cabinet and the 4th deck panels, maintain easily and install.

Like Fig. 2; The solenoid valve job order and the course of work; Wherein, comprise testing jig 9, the person in charge 10, arm 11, side pipe 12, pressure-regulating valve 13, tensimeter 14, vacuum pump 15, arm waste liquid bottle 16, be responsible for waste liquid bottle 17, washer bottle 18, F1, F2, F3, F4, F5, F6 are solenoid valve.

The course of work:

1. the course of work when instrument gets into test.

When instrument got into test, each test loop had 5 course of action, representes its process with truth table below, was failure to actuate with " 0 " expression, with " 1 " expression action.

The first process sample introduction

F1	F2	F3	F4	F5	F6	Pump
							0	1	0	0	1	1	1

During sampling, F6 moves (tensimeter is designated as 0.8), has replaced manual adjustments, and the action of variable valve makes 10mm place on the supreme photoelectricity bubble of its vacuum pump draw samples under certain pressure.

This moment, F5 also moved air inlet

F2 action is drawn to the photoelectricity bubble with sample in the storage bubble and goes up 10mm, and during sampling, sample is taken out at the uniform velocity in managing.

Second process begins test

F1	F2	F3	F4	F5	F6	Pump
							0	0	0	0	0	0	0

This moment, instrument got into test mode, and sample stream picks up counting when last photoelectricity, and when wandering about as a refugee down photoelectricity, timing ends, spent for ten seconds after, instrument is evacuated to 10mm on the photoelectricity vesicle with sample for the second time in the storage bubble, truth table at this moment is the same with first process.Second process is also the same with its corresponding truth table, and the two times result that records is as in the error range that allows, and instrument stops test, otherwise continues test, in allowed band, just stops test up to twice result.

2. instrument gets into the progress of work when cleaning.

Instrument gets into when cleaning, and each clean cycle has 6 course of action, and we represent its process with truth table down, and " 0 " expression is failure to actuate, and then move " 1 ".

First process: advance cleaning fluid (cleaning fluid adopts 120# gasoline)

F1	F2	F3	F4	F5	F6	Pump
							1	1	1	1	1	0	1

Second process: wait for four seconds

F1	F2	F3	F4	F5	F6	Pump
							0	0	1	0	1	0	1

The 3rd process: through the arm discharge opeing

F1	F2	F3	F4	F5	F6	Pump
							1	0	1	0	0	0	1

The 4th process: feed liquor once more

F1	F2	F3	F4	F5	F6	Pump
							1	1	1	1	1	0	1

The 5th process: wait for four seconds

F1	F2	F3	F4	F5	F6	Pump
							0	0	1	0	0	0	1

The 6th process: through kapillary discharge opeing (person in charge)

F1	F2	F3	F4	F5	F6	Pump
							0	1	1	0	1	0	1

3. the course of work when instrument gets into oven-dried condition

When instrument gets into oven dry, in its circulation, four course of action are arranged, represent with truth table equally

First process: viscosity tube and pipeline negative pressure state

F1	F2	F3	F4	F5	F6	Pump
							1	1	1	0	1	0	1

Second process: atmosphere is from F1, and F5 gets into

F1	F2	F3	F4	F5	F6	Pump
							0	1	1	0	0	0	1

The 3rd process: vacuumize state

F1	F2	F3	F4	F5	F6	Pump
							1	1	1	0	1	0	1

The 4th process: atmosphere is from F2, and F5 gets into

F1	F2	F3	F4	F5	F6	Pump
							1	0	1	0	0	0	1

Claims (7)

1. full-automatic viscosity tester is characterized in that, comprising:

One cabinet is divided into 4 layers from top to bottom;

Also be provided with a control panel in the said cabinet;

One solenoid control case places said cabinet ground floor, and is connected to said control panel;

One thermostat places the said cabinet second layer, and is connected to said control panel;

Said thermostat comprises: calibration cell, stirring machine, well heater and refrigerating plant;

One testing jig is positioned in the said calibration cell;

Said testing jig is made up of glass capillary, photoelectric control circuit plate, nine core plugs and aluminium alloy clamping plate;

Said glass capillary is divided into the person in charge, side pipe and arm, and said side pipe is connected with said solenoid valve, and the said person in charge and said arm are connected to waste liquid bottle respectively;

One Main Control Tank places the 3rd layer of said cabinet, and is connected to said control panel;

Said Main Control Tank comprises: master control system and temperature control system, and master control system is connected with control panel, the various instructions that the processing controls panel transmits; Temperature control system is connected with thermostat with master control system respectively, and it receives the signal instruction that master control system transmits, and instructions is issued to each different in thermostat ingredients, thereby reaches the purpose of constant temperature;

One washer bottle and four waste liquid bottles, said washer bottle and said waste liquid bottle are positioned over the 4th layer of said cabinet;

Said washer bottle connects said solenoid valve;

Said waste liquid bottle divides two groups, is respectively to be responsible for waste liquid bottle and arm waste liquid bottle, is responsible for waste liquid bottle and is connected with the person in charge of said glass capillary, and the arm waste liquid bottle is connected with the arm of said glass capillary.

2. full-automatic viscosity tester as claimed in claim 1 is characterized in that said viscosity tester also is provided with a liquid crystal touch screen, is arranged on the 3rd layer of said cabinet, and connects in said control panel.

3. full-automatic viscosity tester as claimed in claim 1 is characterized in that said viscosity tester also is provided with a printer, is arranged on the 3rd layer of said cabinet, and connects in said control panel.

4. full-automatic viscosity tester as claimed in claim 1 is characterized in that said viscosity tester also is provided with a control pressurer system, is arranged on the 4th layer of said cabinet, and is connected with control panel with solenoid valve.

5. full-automatic viscosity tester as claimed in claim 4 is characterized in that, said control pressurer system comprises: tensimeter, pressure-regulating valve and vacuum pump, said vacuum pump are positioned over the waste liquid bottle back.

6. full-automatic viscosity tester as claimed in claim 5 is characterized in that, on cabinet panel, is provided with a visual windows in the waste liquid bottle place.

7. full-automatic viscosity tester as claimed in claim 1 is characterized in that, the knocker lock is installed on the second layer of said cabinet and the 4th deck panels.

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