JP6765621B1 - drying furnace - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a drying furnace capable of efficiently drying an object to be dried. SOLUTION: The drying furnace is provided with a furnace main body for supplying hot air to the object to be dried to dry the object to be dried, and is arranged inside the furnace main body, and the upper side of the furnace main body is a drying chamber and the lower side is a chamber chamber. A partition floor portion, a transport device arranged in the drying chamber to convey an object to be dried, and a plurality of hot air supplies provided in the partition floor portion to supply hot air supplied to the chamber chamber to the drying chamber. The direction of the hot air, which is provided above the hot air supply port of at least one of the plurality of hot air supply ports and is supplied upward through the chamber chamber and the hot air supply port. A drying furnace characterized in that it is provided with an auxiliary means for blowing hot air toward an object to be dried. [Selection diagram] Fig. 2

Description

The present invention relates to a drying oven.

A drying furnace for drying a coating film by supplying hot air to a coated object to be dried has been conventionally known. Such a drying furnace is configured to include, for example, a furnace body 101 and a transfer device 102 arranged inside the furnace body 101, as shown in the schematic cross-sectional view of FIG.

The furnace body 101 has a structure including an internal space surrounded by a ceiling portion, a side wall portion, and a bottom portion, and inside the structure, a partition floor portion 105 that divides the internal space into an upper space 103 and a lower space 104 is provided. It is provided. A transport device 102 is arranged in the upper space 103, and the lower space 104 is configured as a space into which hot air supplied via a heating device and a circulation fan (not shown) is introduced, and is formed in the partition floor portion 105. Hot air is supplied from the lower space 104 to the upper space 103 through the plurality of hot air supply ports 106 formed, and the object to be dried Z conveyed by the transfer device 102 is heated and dried. The hot air supplied to the upper space 103 is returned to a heating device (not shown) via an exhaust duct 107 provided in the ceiling portion, and is heated again by the heating device and supplied to the lower space 104.

The drying furnace having the above configuration heats the object to be dried by convection with hot air supplied from the lower space to the upper space, and can heat and dry the object to be dried relatively efficiently. It has been desired to develop a drying furnace capable of heating and drying the object to be dried more efficiently.

The present invention has been made to solve such a problem, and an object of the present invention is to provide a drying furnace capable of efficiently drying an object to be dried.

The object of the present invention is a drying furnace provided with a furnace body for supplying hot air to the object to be dried to dry the object to be dried. A partition floor portion for partitioning into a chamber chamber, a transport device arranged in the drying chamber for transporting an object to be dried, and a plurality of hot air provided in the partition floor portion for supplying hot air supplied to the chamber chamber to the drying chamber. The hot air supply port is provided, and is arranged above the hot air supply port of at least one or more of the plurality of hot air supply ports, and is supplied upward through the chamber chamber and the hot air supply port. This is achieved by a drying oven characterized by providing a blowing aid for blowing hot air toward the object to be dried by changing the direction of the hot air.

Further, regarding the drying furnace, a first guide plate for guiding hot air in the chamber chamber toward the hot air supply port in the chamber chamber below the hot air supply port in which the blowout assisting means is arranged. Is preferably provided.

Further, it is preferable that the first guide plate is curved in the flow direction of hot air flowing in the width direction of the chamber chamber in the chamber chamber.

Further, the blowing assisting means is formed on a casing having an internal space for receiving hot air supplied from the hot air supply port, which is arranged on the partition floor, and is formed on the side surface of the casing and opens to the side to be dried. It is preferable to provide an air outlet.

Further, it is preferable to provide a second guide plate which is arranged inside the casing and changes the flow direction of the hot air supplied through the hot air supply port toward the air outlet side.

Further, the outlet may be provided with a blowout direction changing portion for changing the blowout direction of the hot air blown out from the outlet.

According to the present invention, it is possible to provide a drying furnace capable of efficiently drying an object to be dried.

It is explanatory drawing which shows the drying furnace which concerns on one Embodiment of this invention. It is a schematic cross-sectional view which shows the main part of FIG. It is a schematic plan view which shows the main part of FIG. It is explanatory drawing for demonstrating the outlet provided with the blowout assisting means. It is a schematic cross-sectional view which shows the modification of the drying oven which concerns on this invention. It is a schematic cross-sectional view which shows the modification of the drying oven which concerns on this invention. It is a schematic cross-sectional view which shows the modification of the drying oven which concerns on this invention. It is a schematic cross-sectional view which shows the modification of the drying oven which concerns on this invention. It is a schematic cross-sectional view for demonstrating the conventional drying furnace.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. It should be noted that each figure is partially enlarged / reduced / omitted to facilitate understanding of the configuration. FIG. 1 is an explanatory view showing a drying oven 1 according to an embodiment of the present invention, and FIG. 2 is a schematic cross-sectional view showing a main part. Further, FIG. 3 is a schematic plan view showing a main part. The drying oven 1 according to the present invention is, for example, a drying oven that can be used to dry a coating film by supplying hot air to a coated object to be dried, and is shown in FIGS. 1 to 3. As described above, the furnace body 2 is provided with the transfer device 3 arranged inside the furnace body 2, the heating device 4 arranged outside the furnace body 2, and the circulation fan 5.

As shown in the schematic cross-sectional view of FIG. 2, the furnace main body 2 includes a ceiling portion 21, a side wall portion 22, and a bottom portion 23, and has an internal space 24 surrounded by the ceiling portion 21, the side wall portion 22, and the bottom portion 23. It has a structure to be provided. Further, inside the furnace main body 2, a partition floor portion 25 for partitioning the internal space 24 into an upper space 241 and a lower space 242 is provided. The upper side of the internal space 24 partitioned by the partition floor portion 25 constitutes a drying chamber, and the transport device 3 is arranged in this drying chamber (inside the upper space 241). Further, the space below the partition floor portion 25 (lower space 242) is a chamber chamber 242, which is a space into which hot air supplied via the heating device 4 and the circulation fan 5 is introduced. The partition floor portion 25 is configured to connect a pair of side wall portions 22 facing each other.

Further, the partition floor portion 25 is formed with a plurality of hot air supply ports 26 provided at predetermined intervals. Each hot air supply port 26 is provided along the longitudinal direction of the furnace body 2 (the transport direction of the transport device 3). In the present embodiment, the hot air supply ports 26 are provided at positions near the pair of side wall portions 22 facing each other and near both sides of the transport device 3 arranged in the furnace body 2. The hot air supply port 26 is for supplying the hot air guided to the chamber chamber 242 to the drying chamber (upper space 241) of the furnace main body 2, and is guided to the upper space 241 via the hot air supply port 26. The hot air is blown toward the ceiling portion 21 of the furnace main body 2, and the hot air convects in the drying chamber of the furnace main body 2 to heat and dry the object to be dried Z in the upper space 241.

An exhaust duct 27 is provided on the ceiling portion 21, and the hot air guided to the drying chamber of the furnace main body 2 is guided to the heating device 4 through the exhaust duct 27, and is again determined by the heating device 4. After being heated to a temperature, hot air is supplied (circulated and supplied) to the furnace body 2 via the circulation fan 5.

The transport device 3 is a means for mounting the object to be dried Z and transporting it from the inlet to the outlet of the furnace main body 2, and a so-called conveyor can be preferably used.

The heating device 4 is a device that directly heats the introduced air with a burner or indirectly heats it with a heat exchanger to raise the temperature, and various heating devices 4 conventionally used in a drying furnace can be used. it can.

Further, the drying oven 1 according to the present invention includes a blowing assisting means 6. The blowing assisting means 6 is arranged on the upper side of at least one of the hot air supply ports 26 among the plurality of hot air supply ports 26, and the hot air supplied upward through the chamber chamber 242 and the hot air supply port 26. It is configured so that the hot air can be blown directly toward the object to be dried Z by changing the direction.

In the present embodiment, the blowout assisting means 6 is arranged on the upper side of a part of the hot air supply ports 26 among the plurality of hot air supply ports 26 provided in the vicinity of the side wall portion 22. The hot air supply port 26 is configured to include a casing 61 arranged on the partition floor portion 25, and an air outlet 62 formed on the side surface of the casing 61 and opening on the Z side of the object to be dried. The casing 61 is configured to have an opening at the bottom and an internal space 63 for receiving the hot air supplied from the hot air supply port 26 and the opening at the bottom. Further, it is preferable that the casing 61 is configured to be detachable from the partition floor portion 25. The air outlet 62 communicates the internal space 63 of the casing 61 with the outside (drying chamber) so that the hot air guided to the internal space 63 of the casing 61 can be blown out toward the object to be dried Z. Is formed in.

As the shape of the air outlet 62, for example, as shown in the explanatory views of FIGS. 4A to 4C, various shapes such as a circular shape and a quadrangular shape can be adopted when viewed from the front. Further, the number of outlets 62 is not particularly limited, and as shown in FIG. 4A, a single outlet 62 having a rectangular shape in a front view whose longitudinal direction is along the transport direction of the transport device 3. Or, as shown in FIGS. 4 (b) and 4 (c), the front-view rectangular or circular air outlets 62 are provided at predetermined intervals in the direction along the transport direction of the transport device 3. It may be configured to provide a plurality of spaces. Further, a plurality of outlets 62 may be formed along the height direction of the casing 61.

The formation position of the air outlet 62 is not particularly limited as long as the hot air guided to the internal space 63 of the casing 61 can be blown toward the object to be dried Z, but the position is obliquely above the object to be dried Z. It is preferable to form the blowing assisting means 6 so that hot air can be blown down from the object Z to be dried. As an example of the specific configuration, as shown in the schematic cross-sectional view of FIG. 5, the casing 61 is configured so that the outlet 62 is provided at a position higher than the height of the object to be dried Z on the transport device 3, and the casing 61 is blown. It is preferable that the blowout direction regulating portion 64 arranged around the outlet 62 is provided so that hot air can be blown down to the object to be dried Z from the diagonally upper side of the object to be dried Z. .. The blowing direction regulating unit 64 can be configured by using, for example, a tubular member. Specifically, one end of the tubular member is cut diagonally, the other end of the tubular member is directed diagonally downward, and the diagonally cut one end is placed on the outer surface of the casing 61. Therefore, by installing it around the air outlet 62, it is possible to form a blowout direction regulating unit 64 capable of blowing down hot air from the obliquely upper side of the object to be dried Z to the object to be dried Z. Further, in addition to the tubular member, a pair of flat plate-shaped members can be arranged above and below the outlet 62 so as to face diagonally downward to form the outlet direction regulating unit 64.

Further, as shown in the schematic cross-sectional view of FIG. 6, the hot air in the chamber chamber 242 is sent to the hot air supply port 26 at a position below the hot air supply port 26 in which the blowout assisting means 6 is arranged in the chamber chamber 242. It is preferable that the first guide plate 28 for guiding toward the vehicle is provided. The first guide plate 28 has a function of changing the flow direction of hot air flowing in the width direction of the chamber chamber 242 by 90 ° in the chamber chamber 242. The shape of the first guide plate 28 is not particularly limited, and for example, a flat plate shape or a curved shape can be adopted, but in order to smoothly change the flow direction of hot air in the chamber chamber 242, As shown in FIG. 6, it is preferable to set the shape of the first guide plate 28 so as to be curved in the chamber chamber 242 in the direction of the flow of hot air flowing in the width direction of the chamber chamber 242. In addition, in the configuration of FIG. 6, the blowout direction regulation unit 64 may be provided.

In the drying furnace 1 according to the present embodiment, as described above, the drying furnace 1 is arranged above at least one of the hot air supply ports 26 among the plurality of hot air supply ports 26, and is arranged via the chamber chamber 242 and the hot air supply port 26. Since the direction of the hot air supplied upward is changed to provide the blowout assisting means 6 for blowing out the hot air toward the object to be dried Z, the hot air supply without the blowout assisting means 6 is installed. Coupled with the convection heating of the hot air supplied from the mouth 26, the object to be dried Z is wrapped with the hot air, and the object to be dried Z can be heated and dried extremely efficiently.

In particular, when the blowing assisting means 6 is configured so that hot air can be blown down from the diagonally upper side of the object to be dried Z to the object to be dried Z, the entire object to be dried Z can be blown more effectively. Since it can be wrapped in, it is possible to heat the object to be dried Z more efficiently.

Further, as described above, the first unit that guides the hot air in the chamber chamber 242 toward the hot air supply port 26 at a position below the hot air supply port 26 in which the blowout assisting means 6 is arranged in the chamber chamber 242. By providing the guide plate 28, the flow direction of the hot air in the chamber chamber 242 can be smoothly changed and guided into the inside of the blowing assisting means 6, so that the chamber chamber 242, the hot air supply port 26, and the blowing air can be introduced. It is possible to effectively prevent the flow of hot air flowing into the casing 61 of the auxiliary means 6 from being disturbed. As a result, the heat transfer coefficient between the chamber chamber 242, the hot air supply port 26, and the casing 61 of the blowout assisting means 6 and the hot air is suppressed from increasing, and the amount of heat possessed by the hot air is supplied to the chamber chamber 242 and the hot air. It is possible to prevent it from being used to raise the temperature of the mouth 26, etc., to blow hot air toward the object to be dried Z, and to apply the amount of heat of the hot air to the object to be dried Z extremely efficiently. Become. In particular, by forming the first guide plate 28 in a curved shape as shown in FIG. 6, the flow of hot air guided into the chamber chamber 242, the hot air supply port 26, and the casing 61 of the blowout assisting means 6 is further further increased. It becomes possible to make it smooth, and it becomes possible to improve the heat-drying effect of the object Z to be dried.

Although the drying oven 1 according to the embodiment of the present invention has been described above, the specific configuration of the drying oven 1 is not limited to the above embodiment. For example, as shown in the schematic cross-sectional view of FIG. 7, the second guide plate 65 may be arranged inside the casing 61 provided in the blowout assisting means 6. The second guide plate 65 has a function of changing the direction of the flow direction of the hot air supplied to the internal space 63 of the casing 61 via the hot air supply port 26 by 90 ° toward the air outlet 62 side. By providing such a second guide plate 65, it is possible to make the flow of hot air flowing from the inside of the casing 61 to the outlet 62 smooth. As a result, it is possible to suppress an increase in the heat transfer coefficient between the casing 61 and the hot air, and to suppress the amount of heat contained in the hot air from being used to increase the temperature of the casing 61. As a result, the hot air can be suppressed. It is possible to apply the amount of heat possessed by the material to the object to be dried Z extremely efficiently.

The shape of the second guide plate 65 is not particularly limited, and for example, a flat plate shape or a curved shape can be adopted, but the hot air flow direction can be smoothly changed in the internal space 63 of the casing 61. For tightening, as shown in FIG. 7, it is preferable to set the shape of the second guide plate 65 so as to be curved in the flow direction of the hot air flowing upward in the casing 61. In particular, by forming the second guide plate 65 in a curved shape, it becomes possible to further smooth the flow of hot air flowing from the inside of the casing 61 to the outlet 62, and the heating and drying effect of the object to be dried Z can be further improved. Can be improved. Needless to say, in the configuration of FIG. 7, the first guide plate 28 may be provided. Further, the blowout direction regulation unit 64 may be provided.

Further, it is provided in the outlet 62 formed in the casing 61 provided in the blowout assisting means 6, and is configured to include a blowout direction changing portion capable of changing the blowout direction of the hot air blown out from the blowout outlet 62 to a desired direction. You may. The blowing direction changing portion may be formed of, for example, a bellows tubular member. By installing the opening edge of the bellows tubular member on the outer surface of the casing 61 and around the outlet 62, the blowing direction of the hot air blown from the outlet 62 can be changed in various directions. it can. Further, the blowout direction changing portion may be configured by a blowout direction variable louver arranged above the blowout port 62.

Further, as shown in the schematic plan view of FIG. 8, the length L in the width direction of the blowout assisting means 6 along the longitudinal direction (transportation direction) of the transport device 3 is the length of the object to be dried Z (conveyor device 3). It is configured to be longer than the length in the direction along the longitudinal direction), and the front end (the end on the transport direction side of the transport device 3) and the rear end (the transport direction of the transport device 3) of the object to be dried Z. The blowout assisting means 6 may be configured so that the hot air blown out from the blowout port 62 can be directly applied to the end portion on the opposite side. By adopting such a configuration, the entire object Z to be dried can be effectively wrapped with hot air, so that the object Z to be dried can be heated even more efficiently.

Further, in the present embodiment, the opening area of the outlets 62 formed on the side surface of the casing 61 (in the case where a plurality of outlets 62 are provided, the total opening area of all the outlets 62) is not particularly limited. Even if the opening area of the air outlet 62 is smaller than the opening area of the hot air supply port 26 that opens toward the bottom 23 of the casing 61 (opposing the internal space 63 of the casing 61). Good. By adopting such a configuration, the speed of the hot air blown from the outlet 62 can be increased. By increasing the flow velocity of the hot air, the heat transfer coefficient with the object to be dried Z with which the hot air collides is improved, and the object to be dried Z can be heated more effectively.

1 Drying furnace 2 Furnace body 21 Ceiling part 22 Side wall part 23 Bottom part 24 Internal space of the furnace body 241 Upper space (drying room)
242 Lower space (chamber room)
25 Partition floor 26 Hot air supply port 27 Exhaust duct 28 1st guide plate 3 Conveyor device 4 Heating device 5 Circulation fan 6 Blow-out assisting means 61 Casing 62 Blow-out port 63 Casing internal space 64 Blow-out direction regulation part 65 2nd guide plate 66 Blow-out direction change part Z Dried object

Claims (5)

A drying furnace equipped with a furnace body that supplies hot air to the object to be dried to dry it.
A partition floor that is arranged inside the furnace body and partitions the upper side of the furnace body into a drying chamber and the lower side into a chamber chamber.
A transport device arranged in the drying chamber and transporting an object to be dried,
It is provided on the partition floor portion, and is provided with a plurality of hot air supply ports for supplying hot air supplied to the chamber chamber to the drying chamber.
It is arranged above at least one of the plurality of hot air supply ports, and the direction of the hot air supplied upward through the chamber chamber and the hot air supply port is changed to be dried. for example Bei blowout auxiliary means for blowing hot air toward the object,
A first guide plate for guiding hot air in the chamber toward the hot air supply port is provided in the chamber chamber below the hot air supply port in which the blowout assisting means is arranged. A characteristic drying chamber. The drying furnace according to claim 1 , wherein the first guide plate is curved in the chamber chamber in the flow direction of hot air flowing in the width direction of the chamber chamber. The blowing assisting means includes a casing that is arranged on the partition floor and has an internal space that receives hot air supplied from the hot air supply port.
The drying furnace according to claim 1 or 2 , further comprising an air outlet formed on the side surface of the casing and opening to the side to be dried. The drying according to claim 3 , further comprising a second guide plate that is arranged inside the casing and changes the flow direction of hot air supplied through the hot air supply port toward the air outlet side. Furnace. The drying furnace according to claim 3 or 4 , wherein the drying furnace is provided at the outlet and includes a blowing direction changing portion for changing the blowing direction of hot air blown from the outlet.

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