CN214288068U - Multi-flux closed microwave chemical workstation - Google Patents

Abstract

The utility model belongs to the technical field of the technique of pharmaceutical instrumentation equipment and specifically relates to a relate to airtight microwave chemistry workstation of many flux, it includes the instrument body, the inner wall rigid coupling of instrument body has the multiunit condenser pipe, the splendid attire has the coolant liquid in the condenser pipe, the common intercommunication of multiunit condenser pipe has two to be responsible for, two one ends of being responsible for all communicate has same water pump, the instrument body has the condensing box at the outer wall rigid coupling at its self back, the splendid attire has the coolant liquid in the condensing box, the water pump is located the inside bottom plate rigid coupling with the condensing box of condensing box, the inner wall multiturn that is located the person in charge of condensing box is encircleed along the condensing box and is extended, this application has when opening the furnace gate of the airtight microwave chemistry workstation of many flux, reduce the inside high temperature steam that effluses of the airtight microwave chemistry workstation of many flux, reduce the effect of the risk that the operator was scalded.

Description

Multi-flux closed microwave chemical workstation

Technical Field

The application relates to the technical field of pharmaceutical instruments and equipment, in particular to a multi-flux closed microwave chemical workstation.

Background

The multi-flux closed microwave chemical workstation is a heating instrument device applied to the pharmaceutical industry, and meanwhile, the device can meet various application requirements such as microwave digestion, microwave extraction and microwave synthesis.

The related operation process is that the medicinal materials are placed in frame type closed high-pressure reaction tanks, and then a plurality of frame type closed high-pressure reaction tanks are placed in a multi-flux closed microwave chemical workstation for microwave heating, so that the medicinal materials can reach the required performance.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: after the multi-flux closed microwave chemical workstation completes heating of the frame-type closed high-pressure reaction tank, when the oven door of the multi-flux closed microwave chemical workstation is opened, high-temperature steam can be emitted from the interior of the multi-flux closed microwave chemical workstation, and an operator is easily scalded.

SUMMERY OF THE UTILITY MODEL

In order to reduce the high-temperature steam that the inside of airtight microwave chemical workstation of multi-throughput effluvized when opening the furnace door of airtight microwave chemical workstation of multi-throughput, reduce the risk that the operator is scalded, this application provides airtight microwave chemical workstation of multi-throughput.

The multi-flux closed microwave chemical workstation adopts the following technical scheme: the utility model provides an airtight microwave chemistry workstation of many flux, includes the instrument body, the inner wall rigid coupling of instrument body has the multiunit condenser pipe, and the splendid attire has the coolant liquid in the condenser pipe, and the common intercommunication of multiunit condenser pipe has two to be responsible for, and the one end of two being responsible for all communicates there is same water pump, and the instrument body has the condensing box at the outer wall rigid coupling at its self back, and the splendid attire has the coolant liquid in the condensing box, and the water pump is located the inside bottom plate rigid coupling with the condensing box of condensing box, and the inner wall that is located the inside person in charge of condensing box along the condensing box encircles the extension many rings.

By adopting the technical scheme, before the oven door of the multi-flux closed microwave chemical workstation is opened, the water pump is started, the water pump applies positive pressure to the inside of one main tube and applies negative pressure to the inside of the other main tube, so that the main tube and the cooling liquid in the condensation tube flow, the cooling liquid in the condensation tube takes away the heat in the multi-flux closed microwave chemical workstation to cool the inside of the multi-flux closed microwave chemical workstation, the cooling liquid in the condensation box cools the cooling liquid in the main tube, the cooling liquid in the condensation tube can continuously cool the inside of the multi-flux closed microwave chemical workstation, the main tube in the condensation box extends along the inner wall of the condensation box in a multi-circle mode to increase the contact area between the main tube and the cooling liquid in the condensation box, the cooling effect of the cooling liquid in the main tube is improved, and the cooling system is formed by the condensation tube and the main tube, the high-temperature steam that the inside of can reducing the airtight microwave chemical workstation of many flux was effluvium reduces the risk that the operator was scalded.

Optionally, the condensation pipe far away from the furnace mouth of the instrument body is communicated with a plurality of mutually crossed and communicated branch pipes.

Through adopting above-mentioned technical scheme, many spinal branchs pipe can increase condenser pipe and the inside area of contact of the airtight microwave chemistry workstation of multi-pass volume, improves the inside cooling effect to the airtight microwave chemistry workstation of multi-pass volume.

Optionally, the condenser pipe and the branch pipe are both made of metal raw materials.

Through adopting above-mentioned technical scheme, adopt metal raw and other materials to make condenser pipe and branch pipe can improve the heat conductivility of condenser pipe and branch pipe, improve the inside cooling effect to the airtight microwave chemistry workstation of multiple flux.

Optionally, the roof intercommunication of condensing box has notes liquid pipe, annotates the opening of liquid pipe and can dismantle and be connected with the closing cap.

Through adopting above-mentioned technical scheme, when the coolant liquid surplus in the condensing box is not enough, open the closing cap, can easily swiftly add notes coolant liquid to the condensing box inside through annotating the liquid pipe, make the coolant liquid in the condensing box resume sufficient.

Optionally, the condenser box is made of transparent raw materials.

Through adopting above-mentioned technical scheme, adopt transparent raw and other materials to make the condensing box, see through transparent condensing box and can learn the surplus of cooling liquid in the condensing box in real time, be convenient for in time annotate the coolant liquid.

Optionally, a pigment is added to the cooling liquid.

Through adopting above-mentioned technical scheme, add pigment to the coolant liquid and make the coolant liquid can take the colour, be convenient for more observe the surplus of coolant liquid in the condenser box, be convenient for in time add notes coolant liquid.

Optionally, the instrument body is fixedly provided with a cooling box on the outer wall of the back surface of the instrument body, the cooling box is filled with cooling liquid, the condenser box is located inside the cooling box, a distance is formed between the side wall of the condenser box and the inner wall of the cooling box, and the bottom plate of the condenser box is fixedly connected with the bottom plate of the cooling box.

Through adopting above-mentioned technical scheme, the coolant liquid in the cooling box can be to the coolant liquid cooling in the condenser box to the coolant liquid temperature that makes person in charge and condenser pipe descends, improves the cooling efficiency to the inside of the airtight microwave chemistry workstation of multiple-traffic.

Optionally, a liquid discharge pipe is communicated with the side wall of the cooling box near the bottom of the cooling box, and a valve is fixedly arranged in the liquid discharge pipe.

Through adopting above-mentioned technical scheme, when the inner wall or the handling instrument body of cooling box need be cleared up, open the valve and can be convenient for clear up the inner wall or the handling instrument body of cooling box with the coolant liquid of cooling box through the drain pipe evacuation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the plurality of groups of condensation pipes, the cooling liquid in the condensation pipes takes away the heat in the multi-flux closed microwave chemical workstation, and the interior of the multi-flux closed microwave chemical workstation is cooled, so that high-temperature steam emitted from the interior of the multi-flux closed microwave chemical workstation can be reduced, and the risk of scalding operators is reduced;

2. the main pipe in the condensing box is arranged to extend along the inner wall of the condensing box in a multi-circle surrounding manner, so that the contact area between the main pipe and the cooling liquid in the condensing box can be increased, and the cooling effect on the cooling liquid in the main pipe is improved;

3. through setting up the cooling box, the coolant liquid in the cooling box can be to the coolant liquid cooling in the condenser box to the coolant liquid temperature that makes person in charge and condenser pipe descends, improves the cooling efficiency to the airtight microwave chemistry workstation inside of multiple-pass.

Drawings

FIG. 1 is a schematic front view of a multi-throughput containment microwave chemical workstation in accordance with an embodiment of the present application;

FIG. 2 is a schematic diagram of a back side configuration of a multi-throughput containment microwave chemical workstation;

fig. 3 is a schematic view showing the structure of the condensation duct.

Description of reference numerals: 1. an instrument body; 11. a furnace mouth; 2. a cooling box; 21. a liquid discharging pipe; 22. a valve; 3. a condenser tank; 31. a liquid injection pipe; 32. sealing the cover; 4. a water pump; 5. a condenser tube; 51. a branch pipe; 52. a main pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a multi-flux closed microwave chemical workstation, referring to fig. 1 and fig. 2, the multi-flux closed microwave chemical workstation comprises an instrument body 1, a cooling box 2 is fixedly bonded on the outer wall of the back of the instrument body 1, the top of the cooling box 2 is provided with an opening, a condensing box 3 is fixedly arranged in the cooling box 2, the side wall of the condensing box 3 is spaced from the inner wall of the cooling box 2, the bottom plate of the condensing box 3 is fixedly bonded with the bottom plate of the cooling box 2, referring to fig. 3, a water pump 4 is fixedly bonded on the bottom plate in the condensing box 3, a plurality of groups of condensing pipes 5 are fixedly bonded on the inner wall of the instrument body 1, the plurality of groups of condensing pipes 5 are uniformly distributed at equal intervals from the front of the instrument body 1 to the back of the instrument body 1, the condensing pipes 5 far away from a furnace mouth 11 of the instrument body 1 are communicated with a plurality of mutually crossed and internally communicated branch pipes 51, cooling liquid is contained in the condensing pipes 5, the multiple groups of condensation pipes 5 are communicated with two main pipes 52 together, one ends of the two main pipes 52 are communicated with the water pump 4 through the back side wall of the instrument body 1, the side wall of the cooling box 2 and the side wall of the condensation box 3, the two main pipes 52 are communicated with the water outlet and the water return port of the water pump 4 respectively, and the two main pipes 52 in the condensation box 3 are in a multi-ring encircling extending shape along the inner wall of the condensation box 3.

Referring to fig. 1 and 2, before opening the oven door of the multi-flux closed microwave chemical workstation, referring to fig. 3, starting a water pump 4, applying positive pressure to the inside of one main pipe 52 by the water pump 4 through a water outlet, applying negative pressure to the inside of the other main pipe 52 through a water return port, enabling cooling liquid in the main pipe 52 and a condensation pipe 5 to flow, taking away heat in the multi-flux closed microwave chemical workstation by the cooling liquid in the condensation pipe 5, cooling the inside of the multi-flux closed microwave chemical workstation, increasing the contact area between the condensation pipe 5 and the inside of the multi-flux closed microwave chemical workstation by a plurality of branch pipes 51, and improving the cooling effect on the inside of the multi-flux closed microwave chemical workstation; the cooling liquid in the condensation box 3 cools the cooling liquid in the main pipe 52, so that the cooling liquid in the condensation pipe 5 can continuously cool the interior of the multi-flux closed microwave chemical workstation; the main pipe 52 in the condensation box 3 is arranged along the inner wall of the condensation box 3 in a multi-circle surrounding and extending mode, so that the contact area between the main pipe 52 and the cooling liquid in the condensation box 3 can be increased, the cooling effect on the cooling liquid in the main pipe 52 is improved, the cooling liquid in the cooling box 2 can cool the cooling liquid in the condensation box 3, the temperature of the cooling liquid of the main pipe 52 and the condensation pipe 5 is reduced, and the cooling efficiency on the interior of a multi-flux closed microwave chemical workstation is improved; the condenser pipe 5 and the main pipe 52 form a cooling system, high-temperature steam emitted from the inside of the multi-flux closed microwave chemical workstation can be reduced, and the risk of scalding of an operator is reduced.

Referring to fig. 2, the side wall of the cooling box 2 is communicated with a liquid discharging pipe 21 near the bottom of the side wall, the liquid discharging pipe 21 is internally and fixedly communicated with a valve 22, and when the inner wall of the cooling box 2 or the transporting instrument body 1 needs to be cleaned, the valve 22 is opened to evacuate the cooling liquid in the cooling box 2 through the liquid discharging pipe 21, so that the inner wall of the cooling box 2 or the transporting instrument body 1 can be cleaned conveniently.

Referring to fig. 2 and 3, a top plate of the condensing box 3 is communicated with a liquid injection pipe 31, an opening of the liquid injection pipe 31 is in threaded connection with a sealing cover 32, when the residual amount of the cooling liquid in the condensing box 3 is insufficient, the sealing cover 32 is opened, the cooling liquid can be easily and quickly added into the condensing box 3 through the liquid injection pipe 31, and the cooling liquid in the condensing box 3 is enabled to be sufficient; the condenser box 3 is made of transparent polycarbonate raw materials, the condenser box 3 is made of the transparent polycarbonate raw materials, and the surplus of cooling liquid in the condenser box 3 can be known in real time through the transparent condenser box 3, so that the cooling liquid can be conveniently added in time; the cooling liquid is added with the pigment, the pigment is added into the cooling liquid, so that the cooling liquid can carry colors, the surplus of the cooling liquid in the condensation box 3 can be observed more conveniently, and the cooling liquid can be added and injected in time.

Referring to fig. 2 and 3, the condensation pipe 5 and the branch pipe 51 are both made of aluminum metal raw materials, and the condensation pipe 5 and the branch pipe 51 made of aluminum metal raw materials can improve the heat conduction performance of the condensation pipe 5 and the branch pipe 51 and improve the cooling effect on the inside of the multi-flux closed microwave chemical workstation.

The implementation principle of the multi-flux closed microwave chemical workstation in the embodiment of the application is as follows: before opening a furnace door of the multi-flux closed microwave chemical workstation, starting a water pump 4, applying positive pressure to the inside of one main pipe 52 by the water pump 4 through a water outlet, applying negative pressure to the inside of the other main pipe 52 through a water return port, enabling cooling liquid in the main pipe 52, a condensation pipe 5 and a branch pipe 51 to flow, taking away heat in the multi-flux closed microwave chemical workstation by the cooling liquid in the condensation pipe 5, cooling the inside of the multi-flux closed microwave chemical workstation, reducing high-temperature steam emitted from the inside of the multi-flux closed microwave chemical workstation, and reducing the risk of scalding operators; the cooling liquid in the condensation box 3 cools the cooling liquid in the main pipe 52, so that the cooling liquid in the condensation pipe 5 can continuously cool the interior of the multi-flux closed microwave chemical workstation; the cooling liquid in the cooling box 2 can cool the cooling liquid in the condensation box 3, so that the temperature of the cooling liquid in the main pipe 52 and the condensation pipe 5 is reduced, and the cooling efficiency of the inside of the multi-flux closed microwave chemical workstation is improved.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a airtight microwave chemistry workstation of many flux, includes instrument body (1), its characterized in that: the inner wall rigid coupling of instrument body (1) has multiunit condenser pipe (5), the splendid attire has the coolant liquid in condenser pipe (5), multiunit condenser pipe (5) common intercommunication has two to be responsible for (52), the one end of two being responsible for (52) all communicates has same water pump (4), instrument body (1) has condensing box (3) at the outer wall rigid coupling at its self back, the splendid attire has the coolant liquid in condensing box (3), water pump (4) are located the inside bottom plate rigid coupling with condensing box (3) of condensing box (3), the inner wall that is located condensing box (3) and is responsible for (52) along condensing box (3) many rings of encircles extend.

2. The multi-throughput containment microwave chemical workstation of claim 1, wherein: the condensation pipe (5) far away from the furnace mouth (11) of the instrument body (1) is communicated with a plurality of mutually crossed and communicated branch pipes (51).

3. The multi-throughput containment microwave chemical workstation of claim 2, wherein: the condensation pipe (5) and the branch pipe (51) are both made of metal raw materials, and the condensation pipe (5) and the branch pipe (51) are made of metal raw materials.

4. The multi-throughput containment microwave chemical workstation of claim 1, wherein: the top plate of the condensation box (3) is communicated with a liquid injection pipe (31), and the opening of the liquid injection pipe (31) is detachably connected with a sealing cover (32).

5. The multi-throughput containment microwave chemical workstation of claim 1, wherein: the condenser box (3) is made of transparent raw materials (3).

6. The multi-throughput containment microwave chemical workstation of claim 4, wherein: and a pigment is added into the cooling liquid.

7. The multi-throughput containment microwave chemical workstation of claim 6, wherein: the instrument body (1) is fixedly provided with a cooling box (2) on the outer wall of the back surface of the instrument body, cooling liquid is contained in the cooling box (2), a condensing box (3) is located inside the cooling box (2), the side wall of the condensing box (3) is spaced from the inner wall of the cooling box (2), and the bottom plate of the condensing box (3) is fixedly connected with the bottom plate of the cooling box (2).

8. The multi-throughput containment microwave chemical workstation of claim 7, wherein: the side wall of the cooling box (2) is communicated with a liquid discharging pipe (21) near the bottom of the side wall, and a valve (22) is fixedly arranged in the liquid discharging pipe (21).

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