CN208687974U - A kind of device quantifying High-temperature Digestion in batches to chemical reagent automatically using solar energy - Google Patents

Abstract

The utility model discloses a kind of using solar energy automatically to the device of the quantitative High-temperature Digestion in batches of chemical reagent, including agent bin to be heated, the agent bin upper end to be heated is equipped with feed inlet, the agent bin side to be heated is equipped with chemical reaction storehouse, the chemical reaction storehouse is equipped with discharge nozzle far from the side wall of agent bin to be heated, the discharge nozzle is equipped with the first valve, the chemical reaction storehouse is connected to by connecting tube with agent bin to be heated, the connecting tube is equipped with the first miniature peristaltic pump, first miniature peristaltic pump is fixedly connected with agent bin to be heated, the connecting tube is equipped with circulating-heating mechanism, check valve is equipped between the circulating-heating mechanism and the first miniature peristaltic pump, the check valve is fixedly connected with connecting tube.The utility model is structurally reasonable, using the quantitative High-temperature Digestion chemical reagent in batches of solar energy, while heating more uniform.

Description

A kind of device quantifying High-temperature Digestion in batches to chemical reagent automatically using solar energy

Technical field

The utility model relates to technical field of chemistry more particularly to a kind of utilization solar energy quantitatively to divide to chemical reagent automatically Criticize the device of High-temperature Digestion.

Background technique

Chemical reagent (chemical reagent) is the relative standard's substance for carrying out chemical research, constituent analysis, is section The essential condition of skill progress is widely used in the synthesis, separation, qualitative and quantitative analysis of substance, it may be said that be chemist Eyes all be unable to do without chemical reagent in the routine work of factory, school, hospital and research institute.Sometimes for chemical reagent It is heated in large quantity, but is needed that the energy is more, while the manual operation that existing heating device needs is more, it cannot It is quantitative to be heated in batches.

For this purpose, it is proposed that it is a kind of using solar energy automatically to the device of the quantitative High-temperature Digestion in batches of chemical reagent come It solves the above problems.

Utility model content

Purpose of the utility model is to solve disadvantages existing in the prior art, and a kind of of proposition utilizes solar energy Automatically to the device of the quantitative High-temperature Digestion in batches of chemical reagent.

To achieve the goals above, the utility model adopts the technical scheme that

A kind of device quantifying High-temperature Digestion in batches to chemical reagent automatically using solar energy, including agent bin to be heated, The agent bin upper end to be heated is equipped with feed inlet, and the agent bin side to be heated is equipped with chemical reaction storehouse, and the chemistry is anti- Storehouse is answered to be equipped with discharge nozzle far from the side wall of agent bin to be heated, the discharge nozzle is equipped with the first valve, the chemical reaction Storehouse is connected to by connecting tube with agent bin to be heated, and the connecting tube is equipped with the first miniature peristaltic pump, and described first is miniature compacted Dynamic pump is fixedly connected with agent bin to be heated, and the connecting tube is equipped with circulating-heating mechanism, the circulating-heating mechanism and the Connecting tube between one miniature peristaltic pump is equipped with check valve.

Preferably, it being equipped with glass funnel on the upside of the agent bin to be heated, the glass funnel is fixedly connected with feed inlet, And glass funnel is equipped with the second valve.

Preferably, the glass funnel is equipped with scale label.

Preferably, the circulating-heating mechanism includes the fixed heat conducting pipe being set in connecting tube, note in the heat conducting pipe There is thermal conducting agent, the heat conducting pipe fixed sleeves are equipped with outer glass tube, and the outer glass tube upper half is evenly equipped with multiple convex lens, institute It states convex lens to be embedded on outer glass tube, the connecting tube side is equipped with circulation pipe, and the circulation pipe both ends are run through outside glass Pipe and heat conducting pipe are simultaneously fixedly connected with connecting tube, and the circulation pipe is equipped with the second miniature peristaltic pump.

Preferably, temperature sensor is fixedly connected in the connecting tube.

Preferably, the connecting tube uses PVC material.

Compared with prior art, the utility model has the following beneficial effects: the utility model will be to be added by setting connecting tube Thermal agent storehouse is fixedly connected with chemical reaction storehouse, and connecting tube is equipped with the first miniature peristaltic pump, so as to quantitatively will in batches Chemical reagent is transported in connecting tube, and connecting tube is equipped with circulating-heating mechanism, and it is thermally conductive to assemble sunlight raising by convex lens The temperature of thermal conducting agent, to heat to the chemical reagent in connecting tube, while being arranged circulation pipe in managing, miniature by second Peristaltic pump drive chemical reagent circulation, realize circulating-heating, make to heat it is more uniform, using solar energy play environmental protection, save energy The effect in source, while miniature peristaltic pump is realized and is quantitatively heated in batches.

Detailed description of the invention

Fig. 1 be the utility model proposes it is a kind of using solar energy automatically to the dress of the quantitative High-temperature Digestion in batches of chemical reagent The structural schematic diagram set；

Fig. 2 be the utility model proposes it is a kind of using solar energy automatically to the dress of the quantitative High-temperature Digestion in batches of chemical reagent Set the schematic cross-sectional view of middle connecting tube and its connecting component.

In figure: 1 agent bin to be heated, 2 chemical reaction storehouses, 3 discharge nozzles, 4 first valves, 5 connecting tubes, 6 first miniature compacted Dynamic pump, 7 circulating-heating mechanisms, 8 check valves, 9 glass funnels, 10 second valves, 11 heat conducting pipes, 12 outer glass tubes, 13 convex lenses, 14 circulation pipes, 15 second miniature peristaltic pumps, 16 temperature sensors.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Referring to Fig.1-2, a kind of device quantifying High-temperature Digestion in batches to chemical reagent automatically using solar energy, including it is to be added Thermal agent storehouse 1,1 upper end of agent bin to be heated are equipped with feed inlet, are equipped with glass funnel 9, glass funnel on the upside of agent bin 1 to be heated 9 are equipped with scale label, and glass funnel 9 is fixedly connected with feed inlet, and glass funnel 9 is equipped with the second valve 10, glass leakage Bucket 9 facilitates addition chemical reagent, while the second valve 10 guarantees leakproofness, can control addition chemical reagent by scale label Amount, 1 side of agent bin to be heated be equipped with chemical reaction storehouse 2, chemically react side wall of the storehouse 2 far from agent bin 1 to be heated on set There is discharge nozzle 3, discharge nozzle 3 is equipped with the first valve 4, and the chemical reagent that reaction can be completed by opening the first valve 4 exports.

Chemical reaction storehouse 2 is connected to by connecting tube 5 with agent bin 1 to be heated, and connecting tube 5 uses PVC material, PVC material It is cheap, it is convenient for plastotype, while corrosion resistance is stronger, and temperature sensor 16, temperature sensor are fixedly connected in connecting tube 5 16 model WZP-230 will be seen that the temperature in connecting tube 5 by temperature sensor 16, and it is micro- that connecting tube 5 is equipped with first Type peristaltic pump 6, the first miniature peristaltic pump 6 can by importing connecting tube 5 that chemical reagent quantifies, the first miniature peristaltic pump 6 with Agent bin 1 to be heated is fixedly connected, and connecting tube 5 is equipped with circulating-heating mechanism 7.

Circulating-heating mechanism 7 includes the fixed heat conducting pipe 11 being set in connecting tube 5, is marked with thermal conducting agent in heat conducting pipe 11, 11 fixed sleeves of heat conducting pipe are equipped with outer glass tube 12, and 12 upper half of outer glass tube is evenly equipped with multiple convex lens 13, and convex lens 13 is inlayed On outer glass tube 12, the distribution of 13 semicircular in shape of convex lens, whatsoever the time can assemble sunlight and be heated, even 5 side of adapter tube is equipped with circulation pipe 14, and 14 both ends of circulation pipe are run through outer glass tube 12 and heat conducting pipe 11 and fixed with connecting tube 5 and connect It connects, circulation pipe 14 is equipped with the second miniature peristaltic pump 15, and the second miniature peristaltic pump 15 drives chemical reagent in connecting tube 5 and circulation 14 internal circulation flow of pipe, the connecting tube 5 between circulating-heating mechanism 7 and the first miniature peristaltic pump 6 are equipped with check valve 8, unidirectionally Valve 8 avoids the chemical reagent in connecting tube 5 from flowing back, to realize circulatory function.

In the utility model, chemical reagent is added into agent bin 1 to be heated by the way that glass funnel 9 is quantitative, then beats The first miniature peristaltic pump 6 is opened, by the extraction that the chemical reagent in agent bin 1 to be heated is quantitative of connecting tube 5, in connecting tube 5 Fixing sleeve is equipped with heat conducting pipe 11, is marked with thermal conducting agent in heat conducting pipe 11, outer glass tube 12, outer glass tube 12 are arranged on heat conducting pipe 11 The upper half is evenly equipped with multiple convex lens 13, and convex lens 13 is embedded on outer glass tube 12.Convex lens 13 collects sunlight to thermally conductive The thermal conducting agent of pipe 11 is heated, to heat to chemical reagent in connecting tube 5,5 side of connecting tube is equipped with circulation pipe 14, 14 both ends of circulation pipe are run through outer glass tube 12 and heat conducting pipe 11 and are fixedly connected with connecting tube 5, and circulation pipe 14 is equipped with second Miniature peristaltic pump 15, open the second miniature peristaltic pump 15 so that chemical reagent recycle in connecting tube 5 and circulation pipe 14 add Heat closes the second miniature peristaltic pump 15, it is miniature compacted to open first after temperature sensor 16 senses chemical reagent heating sufficiently Dynamic pump 6 imports the chemical reagent in connecting tube 5 in chemical reaction storehouse 2.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of device for quantifying High-temperature Digestion in batches to chemical reagent automatically using solar energy, including agent bin to be heated (1), It is characterized by: agent bin to be heated (1) upper end is equipped with feed inlet, agent bin (1) side to be heated is equipped with chemistry Reaction warehouse (2), chemical reaction storehouse (2) are equipped with discharge nozzle (3) far from the side wall of agent bin to be heated (1), the discharging It manages (3) and is equipped with the first valve (4), the chemical reaction storehouse (2) is connected to by connecting tube (5) with agent bin to be heated (1), institute Connecting tube (5) are stated equipped with the first miniature peristaltic pump (6), first miniature peristaltic pump (6) and agent bin to be heated (1) are fixed Connection, the connecting tube (5) are equipped with circulating-heating mechanism (7), the circulating-heating mechanism (7) and the first miniature peristaltic pump (6) connecting tube (5) between is equipped with check valve (8).

2. a kind of device for quantifying High-temperature Digestion in batches to chemical reagent automatically using solar energy according to claim 1, It is characterized in that, being equipped with glass funnel (9) on the upside of the agent bin to be heated (1), the glass funnel (9) is fixed with feed inlet Connection, and glass funnel (9) is equipped with the second valve (10).

3. a kind of device for quantifying High-temperature Digestion in batches to chemical reagent automatically using solar energy according to claim 2, It is characterized in that, the glass funnel (9) is equipped with scale label.

4. a kind of device for quantifying High-temperature Digestion in batches to chemical reagent automatically using solar energy according to claim 1, It is characterized in that, the circulating-heating mechanism (7) includes the fixed heat conducting pipe (11) being set on connecting tube (5), it is described thermally conductive Thermal conducting agent is marked in pipe (11), heat conducting pipe (11) fixed sleeves are equipped with outer glass tube (12), on the outer glass tube (12) Half portion is evenly equipped with multiple convex lens (13), and the convex lens (13) is embedded on outer glass tube (12), connecting tube (5) side Equipped with circulation pipe (14), circulation pipe (14) both ends run through outer glass tube (12) and heat conducting pipe (11) and with connecting tube (5) It is fixedly connected, the circulation pipe (14) is equipped with the second miniature peristaltic pump (15).

5. a kind of device for quantifying High-temperature Digestion in batches to chemical reagent automatically using solar energy according to claim 1, It is characterized in that, being fixedly connected with temperature sensor (16) on the connecting tube (5).

6. a kind of device for quantifying High-temperature Digestion in batches to chemical reagent automatically using solar energy according to claim 1, It is characterized in that, the connecting tube (5) uses PVC material.