JPS59220130A - Flower pot - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a flower pot that can heat, cool, or keep the soil warm for use in seedbeds and the like.

Conventionally, when the roots of a potted plant needed to be heated or kept warm, an electric heater was installed in the fungus bed, or the whole pot was housed in a vinyl frame and heated using a heater, but this method was not effective in heating or keeping warm. It had some disadvantages. On the other hand, the gas inside the hollow chamber is forcibly sucked in by the rotating action of the rotating body and exhausted to the outside, reducing the pressure in the chamber and keeping the pressure difference between the inside and outside in a substantially constant equilibrium state, and while maintaining this equilibrium state. ,
The rotating action of the rotating body is continued to promote the frictional action with the gas to generate frictional heat, and this frictional heat heats the inside of the hollow chamber to heat the material to be processed inside the hollow chamber under reduced pressure. The inventor found that the machine 'JR has a heating effect and has good heating efficiency even when using a small motor.

In addition, it was also discovered that in this mechanism, the temperature is highest on the exhaust side. Based on these findings, the present invention is characterized in that a heater consisting of a hollow chamber formed in a cylindrical shape having an outside air inlet and a reduced pressure equilibrium frictional heat generation mechanism installed in the hollow chamber is installed inside the flowerpot body. A heater consisting of a hollow chamber having a flower pot and an outside air inlet, a reduced pressure equilibrium friction heat generation mechanism installed in the hollow chamber, and an exhaust pipe formed on the exhaust side of the mechanism is installed within the flower pot body. The purpose of the present invention is to eliminate the above drawbacks by providing a flowerpot that does the following:

1, 2 and 1 showing perspective views of embodiments of the first invention
The explanation will be made according to FIG. 3, which is a cross-sectional view of the parts shown in the figure. (1) The flower pot body is made of plastic, etc., with a rust-proofed surface, and an appropriate number of drainage holes are drilled in the bottom.

In this embodiment, the flower pot body has a box shape, but it may have a cylindrical shape or other shapes. (2) is a heater, whose surface is waterproofed and horizontally hung at the bottom of the flowerpot body (1).
Both ends protrude from the outer wall of the flowerpot body (1). In this embodiment, the heater (2) has a generally cylindrical shape as a whole, but as shown in FIG. good. (3) is a hollow chamber formed in a cylindrical shape in the heater (2). Hollow chamber (3
) is formed with an outside air inlet (4) that communicates the hollow chamber (3) with outside air and has pulp. (5) is a decompression equilibrium friction heat generation mechanism, and the outside air inlet (4) of the hollow chamber (3)
Install the VC on the opposite end. Decompression equilibrium friction heat generation mechanism (
5) is a fan (61) such as a sirocco fan, a fan (6
) and a motor (8) that rotates a cylindrical intake cylinder (71 fan (6) and exhausts the air in the hollow chamber (3)).The decompression equilibrium friction heat generation mechanism (5) is In this embodiment, it consists of one mechanism, but two or more of the same mechanism may be stacked. (9) is an exhaust port, and a damper for adjusting the amount of air outflow.
-αQ. (II) is a heat storage material, and in this embodiment, it is formed by combining a large number of heat storage materials filled with water having a large specific heat. Therefore, the present invention will be explained in detail.

energize the 7-terminal (8) with an AC power supply or battery,
When the motor (8) is rotated, the air in the hollow chamber (3) is gradually exhausted in the direction of the arrow by the suction and exhaust action of the fan (6), and the pressure inside the hollow chamber (3) is reduced. Then, the pressure difference between the inside and outside of the hollow chamber (3) gradually increases, and when it reaches a pressure difference of 1 yen, it reaches an almost equilibrium state due to the relationship with the air flowing in from the outside air inlet (4), and this equilibrium is reached. maintain the condition.

In this equilibrium state, the pressure difference between the inside and outside of the hollow chamber (3) is determined by the magnitude of the rotation suction force of the fan (6), the number of cylinders of the fan (6),
This equilibrium state is maintained as long as the fan (6) continues to rotate, depending on the size of the gap between the diameter of the intake pipe (7) and the fan (6).

In this equilibrium state, a phenomenon of air stagnation occurs in the frictional heat generating part within the rotation area of the fan (6).
) as the frictional action continues, frictional heat is generated and the temperature gradually rises. This frictional heat is transmitted into the hollow chamber (3) and heats the interior to a desired temperature. The heat in the hollow chamber (3) heats the soil in the flowerpot body (1) through the outer wall of the hollow chamber (32). Since it is possible to continue heating, the motor operating time can be shortened, and the operating efficiency is improved.

FIG. 4 is a central sectional view of a parts diagram of the embodiment of the second invention.

In this invention, an exhaust pipe α is formed on the exhaust side of the reduced pressure equilibrium frictional heat generation mechanism (5) in the heater (2). That is, an outside air inlet (5) having a valve is formed in the hollow chamber (3) of the heater (2), and a '1' is formed at the other end of the hollow chamber (3).
Fan (6) and fan (6) consisting of 07 Cohuan etc.
) A motor (8) that rotates a cylindrical intake cylinder (7) and a fan (6) installed externally in the hollow chamber (3) to exhaust air from the hollow chamber (3).
A decompression equilibrium friction heat generation mechanism (51) consisting of:

a and a are continuously formed in a cylindrical shape on the exhaust side of the exhaust pipe tI and the reduced pressure equilibrium friction heat generation mechanism (5i). (9) is an exhaust port, and the reduced pressure equilibrium friction heat generation mechanism (5 ) At the end opposite to the forming end, there is a Danno e-(In
). (11) is the heat storage material formed in the exhaust section α2. 1 Therefore, when the decompression equilibrium friction heat generation mechanism (5) is operated, friction heat is generated in the friction heat generation part within the rotation area of the fan (6) due to the action of the mechanism, but the temperature is highest on the exhaust side of the mechanism. The exhaust pipe (1'
The IJ effectively uses the heat generated by the mechanism to reach a high temperature. The heat in the hollow chamber (3) heats the soil within the pot body (1) through the outer wall. Since heat storage material 01) is installed, the motor (
Heating is possible even if the operation in step 8) is stopped.

Therefore, with these inventions, it is possible to provide a flower pot with excellent heating efficiency.

[Brief explanation of the drawing]

1 and 2 are perspective views of an embodiment of the first invention, FIG. 3 is a central sectional view of the same parts diagram, and FIG. 4 is a central sectional view of the parts diagram of the embodiment of the second invention. (1)... Flowerpot body, (2)... Heater, (3)
...Hollow chamber, (11)・Outside air inlet, (5)...Decompression equilibrium friction heat generation mechanism, (6) Puff fan, (7)...
Intake cylinder, (8)...Motor, (9)...Exhaust port, (
10)...Dan connection -10υ...heat storage material, α...
Exhaust stack patent applicant Nobuyoshi Kuboyama Representative patent attorney Masayuki Yasuhara

Claims (2)

[Claims] (1) A flowerpot characterized in that a heater is installed inside the flowerpot body, and includes a hollow chamber formed in a cylindrical shape having an outside air inlet, and a reduced pressure equilibrium friction heat generating mechanism installed in the hollow chamber. (2) A heater consisting of a hollow chamber having an outside air inlet, a depressurized equilibrium frictional heat generating S structure installed in the hollow chamber, and an exhaust pipe formed on the exhaust side of the mechanism is installed inside the flowerpot body. Features a flowerpot.