JPH0523554Y2 - - Google Patents

Description

[Detailed description of the invention] (a) Industrial application field The present invention relates to an automatic temperature measuring device in a fermenter of a composting apparatus.

(B) Prior Art A composting device is a device in which composting material and waste water are put into a fermentation tank and fermented to produce compost. The quality of the compost obtained depends on how the temperature and moisture of the raw materials in the fermenter are controlled. For this reason, it is necessary to measure the temperature of the composting raw material in the fermenter, but if the worker were to insert a thermometer into the composting raw material from the top or side of the fermenter, the work efficiency would be reduced. This is bad and also not desirable from a safety and health standpoint. In order to solve these problems, Japanese Utility Model Application No. 60-37038 discloses an automatic temperature measuring device in a fermenter in which a thermometer can be inserted and removed from a through hole provided in the side wall of the fermenter. There is. The thermometer protrudes into the composting material when the agitator that stirs the composting material is stopped, and is pulled out of the fermenter when the agitator is operating. This makes it possible to continuously measure the temperature of the composting raw material in the fermenter.

(c) Problems to be solved by the invention However, the conventional automatic temperature measuring device in the fermenter of a composting apparatus as described above has the following problems. In other words, since the temperature sensor is inserted and removed through the through hole provided in the side wall of the fermenter, the vertical measurement position is always constant, and the surface position of the compostable material changes as the amount of compostable material in the fermenter changes. Even if there is a change, the measurement position cannot be changed accordingly. The measurement position is 30 meters from the surface of the composting material.
The depth is preferably about cm. Furthermore, since the temperature measuring element is inserted into and removed from a through hole provided in the side wall of the fermenter, it is possible to measure only a portion relatively close to the wall. Furthermore, it is not easy to change the measurement position in the longitudinal direction of the fermenter because it is necessary to provide a through hole. The present invention aims to solve these problems.

(d) Means for solving the problem The present invention solves the above problem by suspending a stopper to which a temperature measuring element is attached from the top of the fermenter. That is, the automatic temperature measuring device in a fermenter of a composting apparatus according to the present invention has a stopper with a shape and weight that does not sink into the composting material when installed on the surface of the composting material, and a stopper that protrudes downward from the stopper. a rope connected to a stopper at one end and a winding drum at the other end; a pulley for guiding the rope so that the stopper is suspended from the top of the fermenter; It has an electric motor that drives the drum.

(E) Action When the stopper is lowered onto the surface of the compostable material, the stopper stops on the surface of the compostable material.
In this state, the temperature sensing element attached to the stopper has sunk into the compostable material by a predetermined distance from the surface of the compostable material. This allows the temperature of the composting material to be measured continuously. The measurement position is always at the same depth from the surface of the composted material. If it is desired to lift the temperature sensor when the stirrer is activated, the stopper and the temperature sensor can be lifted upward by activating the electric motor and winding the rope around the take-up drum. Note that the hanging position of the stopper and temperature sensor can be changed relatively easily by changing the mounting position of the pulley on the ceiling. Furthermore, by linking the operation of the stirrer with the operation of the electric motor that winds up the stopper, it is possible to automatically raise the stopper and the temperature sensing element upward when the stirrer is operated.

(F) Embodiments Hereinafter, embodiments of the present invention will be described based on FIGS. 1 to 4 of the accompanying drawings.

A fermentation tank 14 is installed in a fermentation chamber 13 formed by a wall 10 and a ceiling 12. Fermenter 1
4 is a rectangular box with an open top. A stirrer 16 is provided on the upper end surface of the fermenter 14 and is movable in the longitudinal direction of the fermenter 14 . The upper part of the fermenter 14 is covered with a hood 17. A pulley 18 is attached to the ceiling 12 above the center of the fermenter 14, and a pulley 20 is attached at a position slightly away from the pulley 18. A rope 22 is wound around the pulley 18 and the pulley 20. In addition, there is a rope 22 on the ceiling 12.
Rope guides 24 and 26 are also provided for guiding. A stopper 28 is attached to the end of the rope 22 that hangs downward from the pulley 18, and a temperature measuring element 30 is attached to this stopper 28. The lower surface of the stopper 28 has a relatively large area to prevent it from sinking into the compostable material 50 due to its own weight when placed on the compostable material 50. As shown in FIG. 3, the temperature measuring element 30 passes through a hole 34 provided in the center of the stopper 28 and projects below the stopper 28, and the male thread of the fixing fitting 32 can be screwed into the female thread of the stopper 28. It is fixed by. Note that since the connection position between the temperature measuring body 30 and the fixing metal fitting 32 is adjustable, the amount of downward protrusion of the temperature measuring body 30 can be freely adjusted. The capillary cord 36 of the temperature measuring body 30 is configured to move together with the rope 22. The end of the rope 22 that extends downward from the pulley 20 is connected to a winding drum 38. The winding drum 38 is connected to an electric motor 40 as shown in FIG.
It is provided so as to rotate together with a shaft 44 which is rotatably driven by a coupling ring 42. Incidentally, the capillary cord 36 provided along the rope 22 is separated in the middle and connected to an automatic temperature recorder 46 outside the fermentation chamber 13 via a fixed wiring 45. A limit switch 48 that operates when the stopper 28 rises to a predetermined position.
A limit switch 49 is provided which is activated by the tension of the capillary cord 36 when the stopper 28 is lowered to a predetermined position. A plurality of such stoppers 28, temperature sensing elements 30, ropes 22, pulleys 18, pulleys 20, etc. are provided at predetermined intervals in the longitudinal direction of the fermenter 14, as shown in FIG. A plurality of winding drums 38 are attached to the aforementioned shaft 44, as shown in FIG.

Next, the operation of this embodiment will be explained.

When the agitator 16 is stopped at the agitator waiting area as shown in FIG.
0 indicates that the stopper 28 is the composting material 5 in the fermenter 14.
0 (the state shown in FIG. 1). Since the lower surface of the stopper 28 has a sufficient area, the stopper 28 stops in contact with the surface of the compostable material 50. Since the temperature measuring body 30 protrudes from the lower end of the stopper 28, it sinks into the compostable material 50 by a predetermined depth. Thereby, the temperature at a predetermined depth from the surface of the compostable material 50 is continuously measured by the automatic temperature recorder 46.

Next, when an electric signal is output to start moving the stirrer 16 from the standby place for stirring, the electric motor 40 starts rotating in the winding direction, and the stopper 28 and temperature sensor 30 are lifted up to the ceiling 12. It will be done. When the limit switch 48 is activated, lifting of the stopper 28 is stopped. In this state, the temperature measuring element 30 measures the atmospheric temperature of the fermentation chamber 13. With the stopper 28 and temperature sensor 30 lifted up in this way, the stirrer 1
6 moves over the fermenter 14 to stir the composting material 50. After stirring is finished, stirrer 1
6 returns to the standby position, a signal is given to the electric motor 40, and the electric motor 40 rotates the winding drum 38 in the rewinding direction. When the limit switch 49 is unwound until it is turned on, the stopper 28 will rest on the surface of the compostable material 50 as in the initial state. As a result, the agitator 16
The temperature of the composting material 50 is continuously measured while the agitator 16 is stopped, and the atmospheric temperature of the fermentation chamber 13 is measured while the agitator 16 is in operation. stoppa 28
Since the temperature sensor 30 stops on the surface of the compostable material 50, the temperature measuring element 30 measures the temperature at the same depth from the surface of the compostable material 50, and it is possible to grasp the fermentation temperature more accurately. In this embodiment, there is only one fermenter 14, but the temperature can be measured in the same way even if the fermenter is arranged in multiple rows.

(g) Effects of the invention As explained above, according to the invention, the stopper with the temperature sensor attached is suspended from the top of the fermentation tank, so the temperature at the same depth from the surface of the composting material is always measured. This prevents the measurement position from changing depending on the amount of composted material. Additionally, the temperature at approximately the center of the fermenter can be measured. Furthermore, compared to the case where a temperature measuring element is provided on the side wall of the fermenter, no space is required on the side of the fermenter and the temperature sensor is hung from the ceiling, reducing equipment costs. It is also relatively easy to change the measurement position.

[Brief explanation of the drawing]

Fig. 1 is a diagram showing an automatic temperature measuring device in a fermenter of a composting apparatus according to the present invention (a sectional view taken along line I-I in Fig. 2), Fig. 2 is a diagram of the fermenter seen from the side,
Figure 3 is an enlarged view of the stopper and temperature sensor;
FIG. 4 is a diagram showing the winding drum. 18,20...pulley, 22...rope, 28...
... Stopper, 30 ... Temperature sensing element, 38 ... Winding drum, 40 ... Electric motor, 50 ... Composting material.

Claims (1)

[Scope of Claim for Utility Model Registration] 1. A stopper with a shape and weight that does not sink into the composting material when installed on the surface of the composting material;
A temperature measuring element is attached to the stopper so as to protrude downward from the stopper, a rope is connected to the stopper at one end and the winding drum at the other end, and a rope is connected to the stopper from the top of the fermentation tank. An automatic temperature measuring device in a fermenter of a composting device, which includes a pulley that guides the winding drum, and an electric motor that drives the winding drum. 2. The electric motor is connected to the agitator in such a way that it lowers the stopper onto the surface of the composting material when the agitator is stopped, and lifts the stopper to the top of the fermentation tank when the agitator is in operation. An automatic temperature measuring device in a fermenter of a composting device according to scope 1.