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KR-20260062395-A - CREMATOR

KR20260062395AKR 20260062395 AKR20260062395 AKR 20260062395AKR-20260062395-A

Abstract

The present invention relates to an improved cremation device that combines the advantages of a trolley-type cremation furnace and a cabinet-type cremation furnace, thereby addressing the problems of both types and enabling effective cremation to shorten cremation time. The present invention provides a cremation device comprising: a main body; a cremation furnace provided at the rear of the main body, wherein cremation is performed by a high-temperature flame and the lower part has an open opening formed therein; a lifting device installed at the lower part of the cremation furnace to be vertically movable and supporting the main body; a burial member that is raised by the lifting device, on which a body is placed, which is provided to be accessible from the cremation furnace, and which is provided so that cremated remains are collected from outside the cremation furnace after the cremation is completed; and a burner installed through the rear of the cremation furnace to radiate a high-temperature flame into the interior of the cremation furnace.

Inventors

  • 배소정

Assignees

  • 배소정

Dates

Publication Date
20260507
Application Date
20241029

Claims (20)

  1. main body and; A crematorium provided at the rear of the main body, where cremation is performed by a high-temperature flame, and having an open opening formed at the bottom; A lifting device installed to be vertically movable at the lower part of the above-mentioned crematorium and supporting the main body; A burial member that is raised by the above-mentioned lifting device, on which a body is placed, is configured to allow access to the above-mentioned crematorium, and is configured to collect remains outside the crematorium after cremation is completed; A crematorium characterized by including a burner installed through the rear of the crematorium and radiating a high-temperature flame into the interior of the crematorium.
  2. In paragraph 1, The above main body is, The outer wall layer and; An insulation layer provided on the inside of the above-mentioned outer wall layer to provide insulation of the main body; A high-temperature refractory layer formed inside the above-mentioned insulation layer to enable the main body to withstand high temperatures; comprising, A cremation device characterized by having multiple electric heating elements installed at regular intervals inside the high-temperature refractory layer, which generate heat at a high temperature when power is supplied to enable cremation, thereby maintaining the internal temperature of the crematorium at 400℃ to 1600℃.
  3. In paragraph 2, A crematorium characterized in that each corner of the high-temperature refractory layer is formed in a round (R) shape to allow flame circulation.
  4. In paragraph 1, A crematorium characterized by using LNG, LPG, diesel, heavy oil, or synthetic gas fuel as the fuel of the burner, and oxygen as a retardant oxidizer.
  5. In paragraph 1, A cosmetic device characterized by having a compressed air nozzle provided in the center of the burner to spray compressed air, and an air compressor connected to the compressed air nozzle.
  6. In paragraph 1, A cremation device characterized by having an oxygen generator that supplies oxygen to the burner.
  7. In paragraph 1, A cosmetic device characterized by the fact that the burner is equipped with a cooling device capable of cooling the burner.
  8. In paragraph 1, A cremation device characterized by having a cover member installed in the opening of the lower part of the cremation furnace so as to be slidable left and right to open and close the opening.
  9. In paragraph 8, A cosmetic device characterized in that the above-mentioned shielding member is of the bellows type.
  10. In paragraph 1, A cosmetic device characterized by having a cooling water flow line equipped with a cooler installed within the outer wall to allow cooling water to flow.
  11. In paragraph 1, The above high-temperature refractory layer is composed of refractory bricks and refractory panels made of silicon carbide (SiC) and magnesium oxide (MgO) as main materials, and the repair coating agent for repairing the refractory bricks and refractory panels during use is composed of silicon carbide as the main material.
  12. In paragraph 1, The above-mentioned burner is characterized by being installed to be able to move forward and backward, and to move up and down and left and right and rotate.
  13. In paragraph 1, A cremation device characterized by having a bone collection member provided at the lower part of the lifting device to receive and collect the remains of the burial member.
  14. In paragraph 1, A cremation device characterized in that the bottom of the above-mentioned burial member is formed with a 'V'-shaped V-groove lower than the bottom, wherein the V-groove is deepest at the rear and gradually decreases in depth toward the front and left and right edges.
  15. In paragraph 1, A support plate is installed on the upper part of the lifting device to support and interlock with the above-mentioned seating member, and A cosmetic device characterized in that the support plate rotates together with the seating member by means of a driving motor.
  16. In paragraph 1, A crematorium characterized by the above lifting device being equipped with a pressurizing means that pressurizes the lower part of the crematorium to seal the lower part of the crematorium.
  17. In Paragraph 16, The above-mentioned pressurizing means comprises a plurality of compression springs installed within the support plate.
  18. In paragraph 1, A cremation device characterized by the above-mentioned burial member being equipped with a cooling device for cooling.
  19. In Paragraph 18, The above cooling device is characterized by being composed of a cooling water flow pipe through which cooling water can flow, wherein the cross-section of the cooling water flow pipe is formed in the shape of a '┗' and a '┓'.
  20. In paragraph 1, A cremation device characterized by collecting the cremated remains after the cremation is completed using a cremation cooling device equipped with a movable cooling airbrush.

Description

Crematorium The present invention relates to a cremation device, and more specifically, to a cremation device improved to shorten cremation time by combining the advantages of a trolley-type cremation furnace and a cabinet-type cremation furnace, thereby improving the problems of both types of cremation furnaces and enabling effective cremation. Cremation, a burial method involving the burning of a body, is replacing traditional burial practices based on Confucian customs due to changes in the social and cultural environment. In particular, the demand for cremation is increasing sharply as the absolute area of cemeteries is shrinking due to the expansion of residential areas driven by population growth and the securing of farmland and forests. Furthermore, as incomplete combustion during cremation releases toxic gases harmful to the human body, such as carbon monoxide and dioxins, as well as foul odors and dust, the process must be carried out at a designated crematorium. Generally, bodies from the morgue and remains recovered from the burial site are transported to a crematorium operated by the relevant local government for cremation and subsequent interment in an urn. In addition, the main body of the crematorium where the cremation takes place can be of the trolley type or the cabinet type. Among these, the trolley type is a method in which a trolley carrying the body enters the crematorium, and after complete incineration, the trolley is removed from the crematorium to move for cooling and bone collection. While this trolley method has the advantage of allowing movement to a desired location to collect the remains, the entire cremation process takes a long time. Consequently, it consumes a lot of energy and requires many peripheral devices, such as cooling systems and downstream equipment for air purification, so it occupies a large amount of space. Furthermore, the aforementioned cabinet system does not require a separate trolley, and cremation and the collection of remains are carried out simultaneously. This cabinet system can significantly reduce cremation time, offers high energy efficiency by continuously utilizing the latent heat of the uncooled crematorium, and is effective for space utilization as it requires no special surrounding facilities other than the exhaust pipe. However, due to the high latent heat remaining inside the crematorium (cabinet), there is a risk of burns to workers during the process of collecting remains. Furthermore, given the narrow interior and the presence of high latent heat, there are limitations to cleanly sweeping away the remains left on the floor; consequently, the reality is that some remaining remains inevitably get mixed with the remains of subsequent bodies. The major difference between the aforementioned trolley method and the cabinet method lies in the disposal of the remains after cremation; in the trolley method, the form of the remains can be preserved almost intact, whereas this is not the case with the cabinet method. Meanwhile, due to the explosive increase in demand for makeup, it is inevitable to increase the makeup rate by shortening individual makeup time. Accordingly, in order to reduce the cremation time, the buttocks, which consist of the largest bone and a large amount of fat of the corpse, take a long time to heat with conventional heating alone (more than 2 hours for incineration alone), so the crematorium worker (fireman) is shortening the cremation time by stabbing and striking the buttocks with a metal rod. FIG. 1 is a cross-sectional view showing the configuration of a cosmetic device according to the present invention. FIG. 2 is an external perspective view showing the main body of a cosmetic device according to the present invention. FIG. 3 is a plan cross-sectional view of the main body of FIG. 2. FIGS. 4 and FIGS. 5 are operational cross-sectional views showing the operating state of a cosmetic device according to the present invention. FIG. 6 is a perspective view of the mounting member of FIG. 1. FIG. 7 is a side cross-sectional view showing the configuration of the main parts of a cosmetic device according to the present invention, showing the operating state of the burner of FIG. 3. FIG. 8 is a schematic diagram showing the configuration and function of a burner. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the attached drawings. FIG. 1 shows a cross-sectional view illustrating the configuration of a cosmetic device according to the present invention. And FIG. 2 shows an external perspective view of the main body of the cosmetic device according to the present invention. In addition, Figure 3 shows a planar cross-sectional view of the main body of Figure 2. And FIGS. 4 and FIGS. 5 show an operational cross-sectional view illustrating the operating state of a cosmetic device according to the present invention. In addition, FIG. 6 shows a perspective view of the