CN220835645U - Rotary glass distiller with uniform heating - Google Patents

Abstract

The utility model relates to the field of glass distillation apparatuses, in particular to a rotary glass distillation apparatus with uniform heating, which solves the technical problems: the distillation appearance heating direction is single, is difficult to the flask even heating, technical scheme: a rotary glass distiller with uniform heating comprises a distiller body, a plurality of flasks and steam bottles on the distiller body, a bracket component, a rotary heating component, an air cooling component, a heat preservation cover component, an assembly connecting piece and a locking component; the utility model discloses a distillation device, which is characterized in that a rotary heating component sleeved outside a flask is arranged at the front end of a bracket component, a heat-preserving cover component is arranged outside the rotary heating component, an air cooling and cooling component is arranged on the heat-preserving cover component, and an assembly connecting piece which is fixedly clamped with the bracket component is arranged at the upper end of the heat-preserving cover component.

Description

Rotary glass distiller with uniform heating

Technical Field

The utility model relates to the field of glass distillation apparatuses, in particular to a rotary glass distillation apparatus with uniform heating.

Background

In the fields of food inspection, medicine, chemical inspection and analysis, a distillation apparatus is often used as a basic device for separation and purification, and the distillation apparatus heats the bottom of a flask made of glass through a base having a heating function, so that a solvent in the medicine is evaporated into a vapor bottle corresponding to the flask.

However, the existing distillation apparatus can only heat the bottom of the flask when heating, and the medicine solvent is generally water, so that the specific heat capacity is large, the temperature rise is slow, the medicine in the flask is difficult to uniformly heat, and the conditions of high bottom temperature and low top temperature often occur.

Therefore, aiming at the condition that the heating direction of the distillation apparatus is single, the flask is difficult to be uniformly heated and the distillation work is not easy to be carried out, the novel distillation apparatus can be designed, and the uniform heating of the flask body of the flask is realized by rotating the heating pipes distributed outside the flask.

Disclosure of utility model

In order to solve the problem that the heating direction of the distiller is single, the flask is difficult to uniformly heat.

The technical scheme of the utility model is as follows: a rotary glass distiller with uniform heating comprises a distiller body, a plurality of flasks and steam bottles on the distiller body, a bracket component, a rotary heating component, an air cooling component, a heat preservation cover component, an assembly connecting piece and a locking component; the support assembly is installed in the mesa upper end of distillation appearance body, and the rotatory heating element of cup jointing outside the flask is installed to support assembly front end, is provided with the heat preservation cover subassembly outward to rotatory heating element, installs forced air cooling subassembly on the heat preservation cover subassembly, and the assembly connection piece fixed with support assembly joint is installed to heat preservation cover subassembly upper end, and heat preservation cover subassembly front end is provided with locking component.

Preferably, the support assembly is assembled the rotary heating assembly on the distillation appearance body, the annular heating can be carried out to the rotary heating assembly of distribution outside the flask body, the forced air cooling subassembly can cool down the processing to flask and rotary heating assembly earlier after distillation work is finished, prevent that operating personnel from scalding, the heat preservation cover subassembly surrounds outside flask and rotary heating assembly, prevent heat loss, reduce equipment energy consumption, the heat preservation cover subassembly passes through assembly connection spare and support assembly joint, it is simple and convenient to install and remove, the locking component is used for with support assembly location.

Preferably, the bracket component comprises a sleeve, a spring, a lifting column, an end plate, a handle and a through hole; sleeve fixed mounting is provided with two sets of in mesa upper end and bilateral symmetry of distillation appearance body, and the spring is installed to the sleeve inboard, peg graft in the sleeve have lifting column and spring fixed connection, fixed mounting has the end plate between the lifting column upper end, and the handle is installed to the end plate upper end, and rotatory heating element fixed mounting is provided with the opening in end plate front end and tie point department, and the spring has vertical extension characteristic, after releasing the locking effect of locking element to bracket component and heat preservation cover subassembly, spring elastic extension can upwards jack up lifting column, makes things convenient for rotatory heating element and flask to break away from, is favorable to getting fast to put the flask.

Preferably, the rotary heating assembly comprises a panel and a rotary heating ring; the panel is fixedly connected to the front end of the end plate, a plurality of rotary heating rings which are in one-to-one correspondence with the flasks are arranged at the lower end of the panel, the rotary heating rings are provided with a plurality of annular heating pipes which are longitudinally distributed, the rotary heating rings are arranged outside the flasks in a surrounding mode, heating resistance wires are arranged in the annular heating pipes, and a plurality of heating areas which are vertically distributed on the body of the flasks are formed in a heat conduction mode, so that the flasks are heated uniformly.

Preferably, the heat-insulating cover assembly comprises a heat-insulating box, a notch and a partition plate; the upper end of the heat insulation box is provided with an embedded opening matched with the panel, a partition plate is arranged in the embedded opening, the partition plate is matched with the through opening, the heat insulation box seals the rotary heating ring in the rotary heating assembly and the flask together, a sealed heating space is formed, and heat loss and energy consumption of the distiller are reduced.

Preferably, the air cooling component comprises a blower and a tuyere; the air blower is installed in the baffle upper end, and the tuyere that communicates with the air supply channel of air blower is installed to the baffle lower extreme, and after the distillation work, the air blower passes through the tuyere and blows air current to the interior blast of heat-insulating box, accelerates the temperature dissipation of flask and rotatory heating ring, makes things convenient for operating personnel to get in time to put the flask, reduces the risk of scalding.

Preferably, the assembly connecting piece comprises a clamping column, a movable shaft and a clamping hook; two groups of clamping posts are symmetrically arranged at the left and right of the upper end of the end plate, two groups of movable shafts are symmetrically arranged at the left and right of the upper end of the heat insulation box, clamping hooks which horizontally rotate are sleeved outside the movable shafts, the clamping hooks horizontally rotate along the movable shafts, and the heat insulation box is fixed with the end plate through clamping openings at the edges of the clamping hooks on the clamping posts.

Preferably, the locking component comprises a bedplate, an upright post, a screwing hand, a screw head and a screw socket; the front end of the heat insulation box is fixedly connected with a bedplate, an upright post is inserted in the bedplate, a screwing hand is fixedly arranged at the upper end of the upright post, a screw head is fixedly arranged at the lower end of the upright post, a screw port matched with the screw head is formed at the upper end of the distiller body, during distillation, the heat insulation box and the distiller body are fixed in a mode that the screw head is connected into the screw port by rotating the screwing hand, and then the bracket component is stabilized, so that the bracket component is prevented from being jacked up upwards due to the elastic extension action of a spring.

The utility model has the beneficial effects that:

1. The bracket component and the rotary heating component are matched for use and are assembled on the distiller body, so that the external annular heating can be carried out on the bottle bodies of all flasks, the heating areas are uniformly distributed, the uniform heating of medicine distillation is facilitated, the bracket component and the heat preservation cover component can carry out surrounding type heat insulation protection on the heating areas of the distiller after being assembled, and the heat loss is reduced;

2. The heat insulation box is locked with the bracket component through the rotary clamping connection of the clamping hooks and the clamping columns, so that the heat insulation box is quick and simple to install and detach and flexible to use;

3. The air blower can timely cool the flask and the rotary heating assembly after the distillation work is finished, so that other operations on equipment can be conveniently and quickly performed, and scalding of operators is prevented.

Drawings

FIG. 1 shows a schematic view of a first perspective configuration of a uniformly heated rotary glass distiller of the present utility model;

FIG. 2 shows a schematic view of a second perspective configuration of a uniformly heated rotary glass distiller of the present utility model;

FIG. 3 shows a third perspective view of a heated uniform rotary glass distiller of the present utility model;

FIG. 4 shows a schematic perspective view of a uniformly heated rotary glass distiller body according to the present utility model;

FIG. 5 shows a schematic perspective view of a uniformly heated rotary glass distiller rotary heating assembly of the present utility model;

FIG. 6 shows a schematic perspective view of a heated uniformly rotating glass distiller insulation cover assembly of the present utility model.

Reference numerals illustrate: 1. a distiller body; 2. a bracket assembly; 3. a rotary heating assembly; 4. an air cooling assembly; 5. a thermal shield assembly; 6. assembling a connecting piece; 7. a locking assembly; 8. a flask; 9. a steam bottle; 201. a sleeve; 202. a spring; 203. lifting columns; 204. an end plate; 205. a handle; 206. a through port; 301. a panel; 302. rotating the heating ring; 401. a blower; 402. a tuyere; 501. a heat insulation box; 502. a notch is formed; 503. a partition plate; 601. clamping and fixing the column; 602. a movable shaft; 603. a clamping hook; 701. a platen; 702. a column; 703. screwing the hand; 704. a screw head; 705. and (5) a screw.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1-3, the present utility model provides an embodiment: a rotary glass distiller with uniform heating comprises a distiller body 1, a plurality of flasks 8 and steam bottles 9 which are arranged on the distiller body 1, a bracket component 2, a rotary heating component 3, an air cooling component 4, a heat preservation cover component 5, an assembly connecting piece 6 and a locking component 7; the support subassembly 2 is installed in the mesa upper end of distillation appearance body 1, support subassembly 2 front end installs cup joints the rotatory heating element 3 outside flask 8, rotatory heating element 3 is provided with heat preservation cover subassembly 5 outward, install forced air cooling subassembly 4 on the heat preservation cover subassembly 5, heat preservation cover subassembly 5 upper end install with the fixed assembly connection piece 6 of support subassembly 2 joint, heat preservation cover subassembly 5 front end is provided with locking Assembly 7, support subassembly 2 assembles rotatory heating element 3 on distillation appearance body 1, the rotatory heating element 3 of distribution outside flask 8 body can carry out annular heating, forced air cooling subassembly 4 can carry out the cooling to flask 8 and rotatory heating element 3 earlier after distillation work, prevent that the operating personnel from scalding, heat preservation cover subassembly 5 surrounds outside flask 8 and rotatory heating element 3, prevent the heat loss, reduce equipment energy consumption, heat preservation cover subassembly 5 passes through assembly connection piece 6 and support subassembly 2 joint, it is simple and convenient to install and tear open, locking Assembly 7 is used for locating support subassembly 2.

Referring to fig. 4-5, in the present embodiment, the bracket assembly 2 includes a sleeve 201, a spring 202, a lifting column 203, an end plate 204, a handle 205, and a through opening 206; the sleeve 201 is fixedly arranged at the upper end of a table top of the distiller body 1, two groups of springs 202 are symmetrically arranged left and right, a lifting column 203 is inserted into the sleeve 201, the lifting column 203 is fixedly connected with the springs 202, an end plate 204 is fixedly arranged between the upper ends of the lifting columns 203, a handle 205 is arranged at the upper end of the end plate 204, a rotary heating assembly 3 is fixedly arranged at the front end of the end plate 204, a through hole 206 is formed at a connecting point, and the rotary heating assembly 3 comprises a panel 301 and a rotary heating ring 302; the panel 301 is fixedly connected to the front end of the end plate 204, a plurality of rotary heating rings 302 corresponding to the flasks 8 one by one are installed at the lower end of the panel 301, the rotary heating rings 302 are provided with a plurality of annular heating pipes which are longitudinally distributed, the springs 202 are provided with longitudinal extension characteristics, after the locking effect of the locking assembly 7 on the bracket assembly 2 and the heat preservation cover assembly 5 is released, the lifting columns 203 can be lifted upwards through elastic extension of the springs 202, the rotary heating assemblies 3 and the flasks 8 are conveniently separated, the flasks 8 are conveniently and rapidly taken and placed, the rotary heating rings 302 are arranged outside the flasks 8 in a surrounding mode, heating resistance wires are arranged in the annular heating pipes, and a plurality of heating areas which are vertically distributed on the bottle bodies of the flasks 8 are formed in a heat conduction mode, so that the flasks 8 are uniformly heated.

Referring to fig. 5-6, in the present embodiment, the heat insulation cover assembly 5 includes a heat insulation box 501, a fitting 502, and a partition 503; the upper end of the heat insulation box 501 is provided with an embedding opening 502 matched with the panel 301, a partition plate 503 is arranged in the embedding opening 502, the partition plate 503 is matched with the through opening 206, and the air cooling assembly 4 comprises an air blower 401 and an air nozzle 402; the blower 401 is arranged at the upper end of the partition plate 503, the lower end of the partition plate 503 is provided with a tuyere 402 communicated with an air supply channel of the blower 401, and the assembly connecting piece 6 comprises a clamping column 601, a movable shaft 602 and a clamping hook 603; two groups of clamping posts 601 are symmetrically arranged at the upper end of the end plate 204 in a left-right manner, two groups of movable shafts 602 are symmetrically arranged at the upper end of the heat insulation box 501 in a left-right manner, a clamping hook 603 which moves horizontally and rotationally is sleeved outside the movable shafts 602, and the locking assembly 7 comprises a platen 701, an upright post 702, a screwing hand 703, a screw head 704 and a screw port 705; the front end of the heat insulation box 501 is fixedly connected with the platen 701, the stand column 702 is inserted in the platen 701, the screwing hand 703 is fixedly arranged at the upper end of the stand column 702, the screw head 704 is fixedly arranged at the lower end of the stand column 702, the screw port 705 which is matched with the screw head 704 is formed at the upper end of the distiller body 1, the heat insulation box 501 seals the rotary heating ring 302 and the flask 8 in the rotary heating assembly 3 together to form a sealed heating space, heat loss and energy consumption of the distiller are reduced, after the distillation work is finished, the air blower 401 blows air flow into the heat insulation box 501 through the air nozzle 402, the temperature loss of the flask 8 and the rotary heating ring 302 is accelerated, an operator can conveniently take and put the flask 8 in time, the risk of scalding is reduced, the clamping hook 603 horizontally rotates along the movable shaft 602, the bayonet at the edge of the clamping hook 603 is clamped on the clamping column 601, the heat insulation box 501 is fixed with the end plate 204, the heat insulation box 501 and the distiller body 1 are fixed in a mode that the screw head 704 is connected into the screw port 705 through the rotation screwing hand 703 during distillation, and then the bracket assembly 2 is stabilized, and the elastic extension of the bracket assembly 2 is prevented from upwards due to the elastic extension effect of the spring 202.

When in work, a user puts the flask 8 filled with medicines on the heating base of the distiller body 1, then aligns the embedded opening 502 on the heat insulation box 501 with the panel 301 and is sleeved on the outer side of the panel, then rotates the clamping hooks 603, clamps the heat insulation box 501 and the end plate 204 on the clamping posts 601 through the bayonets at the edges of the clamping hooks 603, presses down the hands by hands and screws the hands 703, and fixes the heat insulation box 501 and the distiller body 1 in a way that the screws 704 are connected into the screws 705, and then stabilizes the bracket assembly 2, and then the rotary heating ring 302 surrounds the outside of the flask 8;

Then, starting an electrifying module of the rotary heating ring 302, heating by heating resistance wires in the rotary heating ring 302, and enabling the flask 8 to be heated uniformly in a plurality of heating areas vertically distributed on the body of the flask 8 in a heat conduction mode, and simultaneously enabling a heating base on the distiller body 1 to work together to heat the bottom of the flask 8, wherein steam generated by medicines in the flask 8 is conveyed into a steam bottle 9 through a gas conveying pipeline passing through the distiller body 1;

Finally, after the distillation operation is completed, the blower 401 is started, the air flow is blown into the heat insulation box 501 through the tuyere 402, the temperature loss of the flask 8 and the rotary heating ring 302 is accelerated, then the screwing hand 703 is screwed again, the screw head 704 is separated from the screw hole 705, the locking effect on the bracket assembly 2 and the heat insulation cover assembly 5 is released, the lifting column 203 is lifted upwards under the elastic extension effect of the spring 202, the rotary heating assembly 3 is separated from the flask 8, and the flask 8 is taken out.

Through above-mentioned step, support subassembly 2 and rotary heating subassembly 3 cooperation use, assemble on distillation appearance body 1, can carry out outside ring heating to the body of all flasks 8, and heating area distributes evenly, is favorable to the even heating of medicine distillation to solve distillation appearance heating direction singleness, be difficult to the problem of the even heating of flask 8.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (7)

1. A rotary glass distiller with uniform heating comprises a distiller body (1), a plurality of flasks (8) arranged on the distiller body (1) and a steam bottle (9); the method is characterized in that: the device also comprises a bracket component (2), a rotary heating component (3), an air cooling and cooling component (4), a heat preservation cover component (5), an assembly connecting piece (6) and a locking component (7); the support assembly (2) is arranged at the upper end of a table top of the distillation apparatus body (1), the front end of the support assembly (2) is provided with a rotary heating assembly (3) sleeved outside the flask (8), the rotary heating assembly (3) is externally provided with a heat preservation cover assembly (5), the heat preservation cover assembly (5) is provided with an air cooling assembly (4), the upper end of the heat preservation cover assembly (5) is provided with an assembly connecting piece (6) which is fixedly clamped with the support assembly (2), and the front end of the heat preservation cover assembly (5) is provided with a locking assembly (7).

2. A uniformly heated rotary glass distiller as in claim 1 wherein: the bracket component (2) comprises a sleeve (201), a spring (202), a lifting column (203), an end plate (204), a handle (205) and a through hole (206); sleeve (201) fixed mounting is provided with two sets of bilateral symmetry in mesa upper end and the left and right sides of distillation appearance body (1), and spring (202) are installed to sleeve (201) inboard, has inserted lift post (203) and spring (202) fixed connection in sleeve (201), and fixed mounting has end plate (204) between lift post (203) upper end, and handle (205) are installed to end plate (204) upper end, and rotary heating assembly (3) fixed mounting is provided with through-hole (206) in end plate (204) front end and tie point department.

3. A uniformly heated rotary glass distiller as in claim 1 wherein: the rotary heating assembly (3) comprises a panel (301) and a rotary heating ring (302); the panel (301) is fixedly connected to the front end of the end plate (204), the lower end of the panel (301) is provided with a plurality of rotary heating rings (302) which are in one-to-one correspondence with the flasks (8), and the rotary heating rings (302) are provided with a plurality of annular heating pipes which are longitudinally distributed.

4. A uniformly heated rotary glass distiller as claimed in claim 3, wherein: the heat preservation cover assembly (5) comprises a heat insulation box (501), a embedding opening (502) and a partition plate (503); the upper end of the heat insulation box (501) is provided with an embedding opening (502) which is matched with the panel (301), the embedding opening (502) is internally provided with a partition plate (503), and the partition plate (503) is matched with the through opening (206).

5. The uniformly heated rotary glass distiller of claim 4, wherein: the air cooling component (4) comprises a blower (401) and a tuyere (402); the blower (401) is arranged at the upper end of the partition plate (503), and the lower end of the partition plate (503) is provided with a tuyere (402) communicated with the air supply channel of the blower (401).

6. The uniformly heated rotary glass distiller of claim 4, wherein: the assembly connecting piece (6) comprises a clamping column (601), a movable shaft (602) and a clamping hook (603); two groups of clamping posts (601) are symmetrically arranged at the left and right of the upper end of the end plate (204), two groups of movable shafts (602) are symmetrically arranged at the left and right of the upper end of the heat insulation box (501), and clamping hooks (603) which horizontally rotate are sleeved outside the movable shafts (602).

7. The uniformly heated rotary glass distiller of claim 4, wherein: the locking component (7) comprises a bedplate (701), an upright post (702), a screwing hand (703), a screw head (704) and a screw port (705); the front end of the heat insulation box (501) is fixedly connected with a bedplate (701), an upright post (702) is inserted in the bedplate (701), a screw (703) is fixedly arranged at the upper end of the upright post (702), a screw head (704) is fixedly arranged at the lower end of the upright post (702), and a screw port (705) matched with the screw head (704) is formed at the upper end of the distiller body (1).