CN214582167U - Gypsum model drying mechanism for architectural design - Google Patents

Abstract

The utility model discloses a gypsum model stoving mechanism for architectural design, including the stoving case, stoving incasement fixed mounting has vertical crown plate, and the crown plate separates the stoving case for drying chamber and ring road from inside to outside, and fixed mounting has a plurality of heat-conducting plate on it, and in the both ends of heat-conducting plate extended to drying chamber and ring road respectively, the top of stoving case articulates there is the case lid, and the case lid closes at the top of drying chamber, and seted up the scavenge port on it, and fixed mounting has the heater block in the ring road, the utility model discloses the advantage compared with prior art lies in: the cooperation through parts such as heat-conducting plates makes the heat in the ring channel conduct the drying chamber fast to the realization is dried the heating of the indoor gypsum model of drying, has avoided hot-blast direct action to the gypsum model, thereby the deformation of the gypsum model that significantly reduces, fracture scheduling problem improve the yield of gypsum model.

Description

Gypsum model drying mechanism for architectural design

Technical Field

The utility model relates to a gypsum model preparation technical field specifically indicates a gypsum model stoving mechanism for architectural design among the architectural design.

Background

In the building design, a gypsum model is often required to be manufactured according to a drawing so as to be convenient for displaying, perfecting and the like of a designed building, and after the gypsum model is manufactured, the gypsum model needs to be dried, so that improvement is needed. Patent No. CN201897377U discloses a natural gas hot-blast furnace for gypsum drying kiln, by the furnace body, a set of circuitous wind wall, a set of bocca, heat conduction tuber pipe and air exhauster constitute, be equipped with bocca on the furnace body, air intake and play hot wind gap, the heat conduction tuber pipe communicates with each other with the play hot wind gap of furnace body, the air exhauster is installed on the heat conduction tuber pipe, the furnace chamber at the furnace body is installed respectively to a set of circuitous wind wall, but this kind of design is unfavorable for the discharge of the inside vapor of furnace body, and hot-blast direct action is on the gypsum model, be through hot-blast to gypsum model direct heating, this kind of drying method is efficiency is higher, but its velocity of flow that makes the air around the gypsum model great, make the gypsum model appear warping easily, fracture scheduling problem.

Disclosure of Invention

The utility model provides a gypsum model stoving mechanism for architectural design makes the heat in the ring channel conduct the drying chamber fast through the cooperation of parts such as heat-conducting plate to the realization is dried the heating of the indoor gypsum model of drying, has avoided hot-blast direct effect to the gypsum model, thereby the deformation of the gypsum model that significantly reduces, the yield of fracture improves the gypsum model.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: the utility model provides a gypsum model stoving mechanism for architectural design, includes the stoving case, stoving incasement fixed mounting has vertical crown plate, the crown plate will the stoving case separates for drying chamber and ring road from inside to outside, and fixed mounting has a plurality of heat-conducting plate on it, the both ends of heat-conducting plate extend to respectively the drying chamber reaches in the ring road, the top of stoving case articulates there is the case lid, the case lid closes the top of drying chamber, and seted up the scavenge hole on it, fixed mounting has the heater block in the ring road.

Furthermore, an extension plate is slidably mounted at one end of the heat conducting plate, which is positioned in the drying chamber.

Furthermore, a heat conduction pipe is fixedly mounted at one end of the heat conduction plate, which is located in the loop, and the heat conduction pipe extends along the circumferential direction of the loop.

Further, an air blowing part is fixedly installed in the loop, and the air blowing part blows air along the circumferential direction of the loop.

Further, the air blowing part is a fan.

Further, the heating component is a refrigerating sheet, and a heating end of the refrigerating sheet faces the inside of the loop.

Compared with the prior art, the utility model the advantage that has is: this device provides including the stoving case, the crown plate, the drying chamber, the ring way, the heat-conducting plate, parts such as case lid, the scavenge port can be convenient for the discharge of steam in the drying chamber, improve drying efficiency, extension fixture life, the blast air part is that it makes the interior circulated air of ring way formation, thereby make the heat distribution in the ring way more even, the cooperation through parts such as heat-conducting plate makes the heat in the ring way can conduct the drying chamber fast, can prolong the heat conduction distance of heat-conducting plate through removing the extension plate on the heat-conducting plate, so that the gypsum model can the thermally equivalent in the drying chamber, thereby realize the heating and drying to the indoor gypsum model of drying, hot-blast direct action to the gypsum model has been avoided, thereby the deformation of the gypsum model that significantly reduces, the scheduling problem that ftractures, improve the yield of gypsum model.

Drawings

Fig. 1 is the utility model relates to a gypsum model stoving mechanism's for architectural design schematic diagram.

As shown in the figure: 1. drying box, 2, ring plate, 3, drying chamber, 4, loop, 5, heat-conducting plate, 6, box cover, 7, scavenge port, 8, extension plate, 9, heat-conducting pipe, 10, fan, 11, refrigeration piece.

Detailed Description

The following description is only for the preferred embodiment of the present invention, and the protection scope of the present invention is not limited thereby, the present invention will be further explained with reference to the drawings and the embodiments.

A gypsum model drying mechanism for architectural design comprises a drying box 1, wherein a vertical ring plate 2 is fixedly mounted in the drying box 1, the ring plate 2 divides the drying box 1 into a drying chamber 3 and a ring channel 4 from inside to outside, a plurality of heat conducting plates 5 are fixedly mounted on the drying box, two ends of each heat conducting plate 5 extend into the drying chamber 3 and the ring channel 4 respectively, the top of the drying box 1 is hinged with a box cover 6, the box cover 6 covers the top of the drying chamber 3 and is provided with a ventilating hole 7, a heating component is fixedly mounted in the ring channel 4, an extension plate 8 is slidably mounted at one end of each heat conducting plate 5 in the drying chamber 3, a heat conducting pipe 9 is fixedly mounted at one end of each heat conducting plate 5 in the ring channel 4, the heat conducting pipe 9 extends along the circumferential direction of the ring channel 4, and a blowing component is fixedly mounted in the ring channel 4, the air blowing component blows air along the circumferential direction of the loop 4, the air blowing component is a fan 10, the heating component is a refrigerating sheet 11, and the heating end of the refrigerating sheet 11 faces the interior of the loop 4.

Example, as shown in fig. 1: a gypsum model drying mechanism for architectural design comprises a drying box 1.

Drying box 1 is the box structure of cylinder type, and its internal fixation installs vertical crown plate 2, and the center pin of crown plate 2 coincides with drying box 1's center pin, and it separates drying box 1 for drying chamber 3 and loop 4 from inside to outside.

Drying chamber 3 is used for placing the gypsum model, and drying chamber 1's top has case lid 6 through hinge joint, and case lid 6 closes at drying chamber 3's top through the hasp lid, through opening of case lid 6, realizes putting into and taking out of gypsum model in drying chamber 3, has seted up scavenge port 7 on the case lid 6, and the exhaust of steam in drying chamber 3 can be convenient for to scavenge port 7.

The loop 4 is located the inboard of drying chamber 3 for heat drying chamber 3, its internal fixed mounting has the heater block, the heater block is refrigeration piece 11, refrigeration piece 11 is a plurality of, its evenly distributed is in the circumference of loop 4, refrigeration piece 11 is called thermoelectric semiconductor refrigeration subassembly, peltier etc. separately, it has the end of making heat and refrigeration end, the end of making heat of refrigeration piece 11 is towards in the loop 4, its refrigeration end is towards the outside of stoving case 1, after refrigeration piece 11 opens, heat in the loop 4 promptly, thereby make loop 4 heat drying chamber 3.

The fixed mounting has the air-blast part in the ring 4, and the air-blast part is along the circumference blast air of ring 4, and the air-blast part is fan 10, and the flabellum rotation center pin of fan 10 is located ring 4's circumference, and it forms the circulated air in making ring 4 to make the heat distribution in the ring 4 more even, wherein, fan 10 can adopt high temperature resistant fan, appears damaging in order to avoid the temperature to rise back fan 10 in ring 4.

A plurality of heat-conducting plates 5 are fixedly mounted on the ring plate 2, the heat-conducting plates 5 are uniformly distributed on the ring plate 2 and located on the radial direction of the ring plate 2, the heat-conducting plates are made of materials with good heat-conducting effects such as aluminum alloy, and two ends of the heat-conducting plates 5 extend into the drying chamber 3 and the ring channel 4 respectively so as to improve the heating efficiency of the ring channel 4 to the drying chamber 3.

The spout has been seted up along its length direction to the one end that lies in drying chamber 3 on the heat-conducting plate 5, and slidable mounting has extension plate 8 in the spout, and the material of extension plate 8 is the same with heat-conducting plate 5's material, can prolong heat-conducting distance of heat-conducting plate 5 through removing extension plate 8 to make the gypsum model can thermally equivalent in drying chamber 3, reduce the appearance of fracture problem.

One end fixed mounting that lies in loop 4 on the heat-conducting plate 5 has heat pipe 9, and heat pipe 9 is used for increasing the heated area of heat-conducting plate 5 to improve loop 4 and to drying chamber 3's heating efficiency, heat pipe 9 extends along loop 4's circumference, plays the guide effect to the circulated air in the loop 4.

When the drying box is used, firstly, the box cover 6 is opened, a gypsum model is placed into the drying chamber 3, then the positions of the extension plates 8 on the heat conduction plates 5 are adjusted, the distances from the extension plates 8 to the gypsum model tend to be the same, then, the box cover 6 is closed, the fan 10 and the refrigerating sheet 11 are started, and the gypsum model is heated and dried in the drying chamber 3 immediately.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (6)

1. The utility model provides a gypsum model stoving mechanism for architectural design, includes stoving case (1), its characterized in that: the drying box is characterized in that a vertical ring plate (2) is fixedly mounted in the drying box (1), the drying box (1) is divided into a drying chamber (3) and a ring channel (4) from inside to outside through the ring plate (2), a plurality of heat-conducting plates (5) are fixedly mounted on the drying box, two ends of each heat-conducting plate (5) extend into the drying chamber (3) and the ring channel (4) respectively, a box cover (6) is hinged to the top of the drying box (1), the box cover (6) covers the top of the drying chamber (3), ventilating holes (7) are formed in the box cover, and heating components are fixedly mounted in the ring channel (4).

2. The gypsum mold drying mechanism for building design according to claim 1, wherein: an extension plate (8) is slidably mounted at one end of the heat-conducting plate (5) positioned in the drying chamber (3).

3. The gypsum mold drying mechanism for building design according to claim 1 or 2, characterized in that: one end of the heat conducting plate (5) located in the loop (4) is fixedly provided with a heat conducting pipe (9), and the heat conducting pipe (9) extends along the circumferential direction of the loop (4).

4. The gypsum mold drying mechanism for building design according to claim 3, wherein: and an air blowing part is fixedly installed in the loop (4), and the air blowing part blows air along the circumferential direction of the loop (4).

5. The gypsum mold drying mechanism for building design according to claim 4, wherein: the air blowing part is a fan (10).

6. The gypsum mold drying mechanism for building design according to claim 1, wherein: the heating component is a refrigerating sheet (11), and the heating end of the refrigerating sheet (11) faces the inside of the loop (4).

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