CN201140277Y - Apparatus for producing blue pills - Google Patents

Abstract

The utility model relates to a blue pill preparing device, which belongs to the blue pill preparing technical field. The device is mainly characterized in that the device is composed of a tower body, an electrical heating sleeve, a vibration exciter, a signal generator, a nozzle and the like. The device obtains the vibration wave length lambda which is demanded for forming blue pill liquid drops with consistent size under certain alloy liquid current velocity through changing the height of melting alloy liquid and controlling the current velocity and vibration of the melding liquid on the nozzle according to the demands of production technique, blue pill granules are prepared through cooling the blue pill liquid drops, the evenness of the granules can be known through measuring the diameter of the blue pill granules, the blue pill granules with ideal size can be obtained through adopting the device, the production cost is greatly lowered, the rate of primary acceptable quality product in existing blue pill manufacture is only about 30%, the rate of primary acceptable quality product of the device can be increased to 85% to 95%, and the technical benefits are very prominent.

Description

The pilulae hydrargyri preparation facilities

Technical field

The utility model relates to a kind of pilulae hydrargyri preparation facilities, belongs to the pilulae hydrargyri preparing technical field.

Background technology

All fluorescent lamps all contain mercury, and mercury can be converted into electric energy the ultraviolet ray of 253.7nm wavelength, and ultraviolet ray is absorbed by the fluorescent material of tube inner wall conversely, change visible light into, therefore, mercury is to make the necessary element of fluorescent lamp, yet in traditional fluorescent lamp is made, use be liquid mercury.

And pilulae hydrargyri is mercurous alloy, is solid state under the normal temperature, and is easy to use and can accurately control the content of mercury, very helps environmental protection, and therefore, using pilulae hydrargyri to replace liquid mercury is the trend of fluorescent lighting.

The pilulae hydrargyri prior preparation method is that mercury alloy at high temperature is fused into liquid condition, relies on the gravity effect, falls naturally, relies on surface tension and forms the mercury alloy drop, makes the pilulae hydrargyri particle through cooling again.

Yet, existing pilulae hydrargyri manufacturing has weak point, at first, the mercury alloy drop size that relies on surface tension formation is very inconsistent, cause the mercury content of single pilulae hydrargyri to differ greatly, and the pilulae hydrargyri that fluorescent lamp manufacturer needs requires the mercury content basically identical, the pilulae hydrargyri that the second existing method makes, in order to satisfy the instructions for use of fluorescent lamp manufacturer, need to increase by one screening process, to guarantee the mercury content of single pilulae hydrargyri, this has not only increased the complexity of technology, has also increased the manufacturing cost of pilulae hydrargyri greatly.

Summary of the invention

The purpose of this utility model provides a kind of pilulae hydrargyri preparation facilities, solve existing pilulae hydrargyri manufacturing process and cause the inconsistent deficiency of pilulae hydrargyri granular size because of relying on surface tension formation mercury alloy drop, realize preparation size pilulae hydrargyri particle of the same size, satisfy the instructions for use of fluorescent lamp manufacturer, in order to the complexity that reduces technology, reduce the manufacturing cost of pilulae hydrargyri.

The purpose of this utility model is achieved through the following technical solutions, a kind of pilulae hydrargyri preparation facilities, it is characterized in that described device is by tower body, the electrical heating cover, vibrator, signal generator, nozzle, liquid level sensor, cooler, gatherer and alloy feed device are formed, electrical heating cover parcel tower body, nozzle is fixed on the lower end of tower body cone portion, and the luffing bar that is fixed on the vibrator of tower body top inserts in the tower body, the lower end of luffing bar and nozzle connect solid, cooler and gatherer place the below of nozzle successively, and liquid level sensor is arranged in the tower body, and the alloy feed device places the tower body upper end, the signal output of signal generator connects vibrator, and the signal of liquid level sensor connects the electric control valve on the alloy feed device.

Device described in the utility model will produce drop of uniform size according to what Britain physicist Rayleigh pointed out in his thetheory of sound, need apply the theory of certain vibration, and design by tower body for this reason, the electrical heating cover, vibrator, signal generator, the device that nozzle etc. constitute, the height and control melt liquid flow velocity and vibration at nozzle place of the utility model by changing molten alloy liquid, obtain under certain alloy flow velocity, to form the needed vibration wavelength λ of pilulae hydrargyri drop of the same size according to manufacturing technique requirent, the pilulae hydrargyri particle is that the cooling of pilulae hydrargyri drop makes, by measuring the diameter of pilulae hydrargyri particle, just know the uniformity of pilulae hydrargyri particle, adopt the utility model can obtain the pilulae hydrargyri particle of desirable amount, reduce production costs greatly, existing pilulae hydrargyri is made its product qualified rate and is had only about 30%, and the utility model one-pass finished qualification rate can be brought up to 85%-95%, and its technical benefits is very remarkable.

Description of drawings

Fig. 1 is the utility model structural representation;

Among the figure, 1 nozzle, 2 vibrators, 3 luffing bars, 4 liquid level sensors, 5 electrical heating covers, 6 gatherers, 7 pilulae hydrargyri particles, 8 heat-conduction mediums, 9 coolers, 10 mercury alloy bodies, 11 tower bodies, 12 signal generators, 13 electric control valves, 14 alloy feed devices.

The specific embodiment

Further specify the utility model in conjunction with the accompanying drawings and embodiments, as shown in Figure 1, device described in the utility model is by tower body 11, electrical heating cover 5, vibrator 2, signal generator 12, nozzle 1, liquid level sensor 4, cooler 9, gatherer 6 and alloy feed device 14 are formed, electrical heating cover 5 parcel tower bodies 11, nozzle 1 is fixed on the lower end of tower body 11 cone portion, and the luffing bar 3 that is fixed on the vibrator 2 of tower body 11 tops inserts in the tower body 11, the lower end of luffing bar 3 and nozzle 1 connect solid, cooler 9 and gatherer 6 place the below of nozzle 1 successively, and liquid level sensor 4 is arranged in the tower body 11, and alloy feed device 14 places tower body 11 upper ends, the signal output of signal generator 12 connects vibrator 2, and the signal of liquid level sensor 4 connects the electric control valve 13 on the alloy feed device 14.

When pilulae hydrargyri is produced, mercury alloy body 10 and heat-conduction medium 8 are equipped with in tower body 11 the insides, by heat-conduction medium 8 heating in 5 pairs of tower bodies of electrical heating cover 11, heat-conduction medium 8 makes mercury alloy body 10 be molten into the mercury alloy liquid of fusion, mercury alloy liquid passes through nozzle 1 naturally under the gravity effect, vibrator 2 is implemented extensional vibration by 3 pairs of nozzles of luffing bar 1, the frequency of vibration and amplitude are adjustable by vibrator 2, according to producing needs, adjust the frequency size and the Oscillation Amplitude of nozzle 1 vibration, to obtain desirable pilulae hydrargyri drop of uniform size, the vibration frequency that acts on the nozzle 1 is 150Hz-650Hz, amplitude is 0.1mm-2.0mm, and the direction of vibration that acts on the nozzle 1 is vertical or horizontal.Liquid level sensor 4 is the height that are used for controlling the mercury alloy liquid of fusion, and with the flow velocity of the melt liquid at control nozzle 1 place, gatherer 6 is used for collecting the pilulae hydrargyri particle of cooling, and heating jacket 5 is used for making solid mercury alloy 10 to be molten into liquid condition.

Heat-conduction medium 8 is high temperature oil or gas in the utility model, and the high temperature oil heat-conduction medium is glycerine or biphenyl biphenyl ether, and the gas heat-conduction medium is nitrogen or argon gas.

Vibrator 2 and signal generator 12 all can be buied from market in the utility model.

Mercury alloy body 10 can be a zinc amalgam in the utility model, bismuth indium mercury alloy, silver-bearing copper tin mercury, bismuth slicker solder mercury alloy, the weight percent variable ratio of the single composition of pilulae hydrargyri that makes.

Claims (1)

1, a kind of pilulae hydrargyri preparation facilities, it is characterized in that described device is by tower body, the electrical heating cover, vibrator, signal generator, nozzle, liquid level sensor, cooler, gatherer and alloy feed device are formed, electrical heating cover parcel tower body, nozzle is fixed on the lower end of tower body cone portion, the luffing bar that is fixed on the vibrator of tower body top inserts in the tower body, and the lower end of luffing bar and nozzle connect solid, and cooler and gatherer place the below of nozzle successively, liquid level sensor is arranged in the tower body, the alloy feed device places the tower body upper end, and the signal output of signal generator connects vibrator, and the signal of liquid level sensor connects the electric control valve on the alloy feed device.

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