DE102021205079A1 - AMBIENT SETTING DEVICE - Google Patents

Abstract

An object of the present invention is to provide an environment setting device comprising a humidifier with which humidification is easily controlled and / or regulated in a suitable manner while abrupt discharge of steam is suppressed during humidification. An environmental testing device 1 comprises a humidity sensor which is designed to measure the humidity in a test chamber, a humidifying device 24 which comprises a storage tank 24a and a heating device 24b, a second temperature sensor 24c which is designed to measure the temperature of water in the storage tank 24a , and a control and / or regulating device. The control device comprises a humidity calculation unit 51, which is configured to calculate a humidity output on the basis of a humidity setting value and a measured value of the humidity sensor, a preheating calculation unit 52 which is configured to calculate a preheating output on the basis of a preheating temperature setting value and a measured value of the second temperature sensor 24c is formed, and a discharge switching unit 53. The discharge switching unit 53 controls or regulates a discharge of the heating device 24b such that the output of the heating device 24b is the humidification output when the humidification output is greater than the predetermined value, and the Output of the heating device 24b is the preheating output when the humidification output is identical to or less than the predetermined value.

Description

BACKGROUND OF THE INVENTION

The present invention relates to an environment setting device comprising a steam type humidifier that humidifies the interior of a test chamber.

[State of the art]

A known environment setting device comprises a steam type humidifier which is used for setting the humidity in a test chamber in which a sample is provided to a predetermined humidity. After receiving a humidity control signal, the steam type humidifier performs humidification such that steam is generated by heating and boiling water stored in a storage tank by a heater and the steam is supplied into the test chamber.

The humidifier described above may not be able to perform quick humidity control because the humidifier cannot generate sufficient steam within a period between the supply of the humidity control signal and the boiling of the water in the storage tank. Furthermore, in the above-described case, even if the humidity control signal has been supplied, humidification may not be carried out inside the test chamber and the output of the heater may continue to increase, with the result that an excess of steam (sudden discharge of steam) occurs when the water in the storage tank reaches boiling point and the inside of the test chamber becomes excessively humid.

In order to prevent this problem from occurring, Patent Document 1 (Japanese Utility Model Publication No. H5-96701) discloses a steam generator (steam type humidifier) configured to have a preheater by which water in a water tank (storage tank) is preheated is provided, and the temperature of the water in the water tank is always kept close to the evaporation point by the operation of the preheating device regardless of the input of the humidity control signal.

SUMMARY OF THE INVENTION

In the humidifier of Patent Document 1, a humidifier heater that performs humidification by generating steam and the preheater are independently controlled. When the humidity control signal is supplied and the temperature of the water in the water tank becomes equal to the evaporation point by means of the humidifying heater, the preheater is switched off. As a result, it becomes necessary to restart the output of the humidifying heater because the water in the water tank is no longer heated by the preheater. Therefore, humidification cannot easily be performed in an appropriate manner.

An object of the present invention is to provide an environment setting device with which the humidification is easily controlled and / or regulated in a suitable manner, while a sudden release of steam during the humidification is prevented.

According to a first aspect of the invention, an environment setting device sets an environment (environmental conditions) in a test chamber in which a sample is provided, the environment setting device comprising: a humidity sensor configured to measure humidity in the test chamber; a steam type humidifier configured to humidify the interior of the test chamber by generating steam, the humidifier including a storage tank in which water is stored and a heater which heats the water in the storage tank; a temperature sensor configured to directly or indirectly measure the temperature of the water in the storage tank; and a control and / or regulating unit, wherein the control or regulating unit comprises: a humidity calculation unit which is designed to calculate, on the basis of a predetermined humidity setting value and a measured value of the humidity sensor, a humidity output which is output by the heating device, when the humidity inside the test chamber is adjusted to the humidity set point; a preheat calculating unit configured to calculate, on the basis of a preheat temperature set value that is a temperature lower than a boiling point and the measured value of the temperature sensor, a preheat output provided by the heater for heating the water in is delivered to the storage tank to the preheat temperature set point; and an output switching unit configured to control an output of the heating device so that the output of the heating device is the humidification output when the humidification output is greater than a predetermined value, the output of the heating device is the preheating output when the humidification output is smaller than the predetermined value, and the output of the heater is either the Humidification output or preheating output is when the humidification output is identical to the specified value.

According to the first aspect of the invention, the heater performs either the humidification output or the preheat output based on the comparison between the humidification output and the predetermined value. In this regard, the water in the storage tank is preheated at least when the humidification output is lower than the predetermined value, with the result that a sudden release of steam during the humidification is prevented. Furthermore, the humidification is performed by switching the output of the heater from the preheat output to the humidification output when the humidification output becomes greater than the predetermined value. Therefore, the humidification control can be easily performed.

According to a second aspect of the invention, an environment setting device sets an environment (environmental conditions) in a test chamber in which a sample is provided, the environment setting device comprising: a humidity sensor configured to measure humidity in the test chamber; a steam type humidifier configured to humidify the interior of the test chamber by generating steam, the humidifier including a storage tank in which water is stored and a heater which heats the water in the storage tank; a temperature sensor configured to directly or indirectly measure the temperature of the water in the storage tank; and a control and / or regulating unit, wherein the control or regulating unit comprises: a humidity calculation unit which is designed to calculate, on the basis of a predetermined humidity setting value and a measured value of the humidity sensor, a humidity output which is output by the heating device, when the humidity inside the test chamber is adjusted to the humidity set point; a preheat calculation unit configured to calculate, on the basis of a preheat temperature set value that is a temperature lower than a boiling point and the measured value of the temperature sensor, a preheat output provided by the heater for heating the water in is delivered to the storage tank to the preheat temperature set point; and an output switching unit configured to control an output of the heating device so that the output of the heating device is the humidification output when the humidification output is greater than the preheating output, the output of the heating device is the preheating output when the humidification output is less than the preheat output, and the heater output is either the humidification output or the preheat output if the humidification output is identical to the preheat output.

According to the second aspect of the invention, the heater always performs either the humidification output or the preheat output based on the comparison between the humidification output and the preheat output. In this regard, the water in the storage tank is preheated when the humidification output is smaller than the preheat output, with the result that a sudden release of steam in the subsequent humidification is prevented. Further, the humidification is performed by switching the output of the heater from the preheat output to the humidification output when the humidification output becomes larger than the preheat output. Therefore, the humidification control can be easily performed.

According to a third aspect of the invention, the environment setting device of the first or second aspect is designed so that the control unit two types of operations, a humidifying operation in which the inside of the test chamber is humidified by the humidifying device, and a non-humidifying operation are, in which the interior of the test chamber is not humidified by the humidification device, executes in a predetermined order, in the humidification mode the control or regulating unit controls the output of the heating device by the output switching unit in such a way that the output of the heating device either the Humidification output or the preheating output is, and in a predetermined period of time until the execution of the non-humidification operation, which is carried out immediately before the humidification operation, ends or should end, the control or regulating unit of the heating device supplies a current so that the output of the Hey iz device is the preheating output.

According to the third aspect of the invention, since the water in the storage tank is preheated before the humidification operation is performed, the humidity in the test chamber quickly reaches the humidity set value after the humidification operation is started.

According to a fourth aspect of the invention, the environment setting device of the third aspect is designed such that the control unit further comprises a preheating time calculating unit configured to calculate, on the basis of the preheating temperature setting value and the measured value of the temperature sensor, a preheating time that is required for heating the water in the storage tank to the preheating temperature set value, and the control unit is the sets a predetermined period of time as a period of time up to a point of time calculated by subtracting the preheating time from a point of time at which the non-humidifying operation ends or should end.

According to the fourth aspect, the temperature in the storage tank at the start of the humidifying operation can be set to the preheating temperature set value, and the heater can be prevented from performing unnecessary discharge. In this regard, the humidity of the test chamber can be allowed to quickly reach the humidity set value after the humidification operation has started, and energy saving can be achieved.

The present invention enables a humidification to be easily controlled in a suitable manner, while a sudden release of steam during the humidification is prevented.

Figure list

• 1 Fig. 3 schematically shows an environmental testing device of an embodiment of the present invention.
• 2 FIG. 13 is a schematic block diagram of the controller shown in FIG 1 is shown.
• 3 shows the arrangement of a humidification device and a humidification control and / or regulating unit.
• 4th FIG. 13 is a flow chart showing how the environment tester of FIG 1 is working.
• 5 Fig. 13 is a flowchart showing how the environmental checking apparatus of a first modification operates.

DESCRIPTION OF PREFERRED EMBODIMENTS

(Overall structure of the environmental testing device 1 )

First, the overall structure of an environment test apparatus will be described below 1 an embodiment of the present invention (ie, an environment setting device of the present invention) with reference to FIG 1 described. The following are an up-down direction and a front-back direction which are in the 1 are shown as the top-bottom direction and the front-back direction of the environment checking device 1 used.

Like it in the 1 as shown includes the environmental testing device 1 a test chamber 10 , a power supply unit 30th and a control and / or regulating device 40 (Control unit of the present invention). The environmental testing device 1 is a device for performing an environmental test for a sample M and is used, for example, to test the performance of the sample M (e.g. a component or a material) in technical fields such as electricity, electronics, motor vehicles and materials engineering.

The interior 10a the test chamber 10 is through a partition plate 12th divided into two rooms (a test area 10a1 and an air conditioning area 10a2 ). The test area 10a1 and the air conditioning area 10a2 stand through an upper opening 12a and a lower opening 12b the partition plate 12th in connection with each other.

The test area 10a1 is with a shelf 11 on which the sample M is arranged, a temperature sensor 13th which is used to measure the temperature of the test area 10a1 is formed, and a humidity sensor 14th which is used to measure the humidity of the test area 10a1 is formed, provided. One flap 15th , which can be opened and closed, is at a front portion of the test chamber 10 provided. When the flap 15th is open, the sample M is from the outside into the test area 10a1 introduced or from the test area 10a1 taken to the outside.

The air conditioning area 10a2 is with a blower 21 , a heating unit 22nd , a cooling dehumidifier 23 and a humidifier 24 Mistake. The heating unit 22nd is for heating the air conditioning area 10a2 and is formed, for example, from an electrothermal heating device, such as a jacketed heating device. The cooling dehumidifier 23 is for cooling and dehumidifying the air conditioning area 10a2 designed and is equipped with a cooling device 23a tied together. While in the present embodiment, a vapor compression refrigerator as the refrigerator 23a is used, a Stirling refrigerator can be used as an alternative. As a cooling dehumidifier 23 a Peltier element, a heating tube, a heating strip or the like can be used. As will be described in detail later, the humidifier humidifies 24 the air conditioning area 10a2 by generating steam.

The air in the air conditioning area 10a2 , their temperature and humidity through the heating unit 22nd , the cooling dehumidifier 23 and the humidifier 24 have been set flows from the air conditioning area 10a2 through the top opening 12a by the operation of the blower 21 to the test area 10a1 . The air that through the top opening 12a in the test area 10a1 has flowed moves from the upper section to the lower section in the inspection area 10a1 and then flows through the lower opening 12b in the air conditioning area 10a2 .

This way the air is between the test area 10a1 and the air conditioning area 10a2 circulated.

Like it in the 2 shown is the power supply unit 30th with a mains power supply, not shown, and the control or regulating device 40 connected and leads the control or regulating device 40 electrical power from the utility power supply.

Like it in the 2 is shown is the control device 40 with the blower 21 , the heating unit 22nd , the cooling unit 23a and the humidifier 24 electrically connected. The control or regulation device 40 is formed, for example, from a personal computer. The computer has hardware such as a CPU (central processing unit), a ROM (read-only memory), a RAM (random access memory), and a hard disk. The hard disk stores various types of software including a program for controlling the overall operation of the environmental testing device 1 . Combining the hardware with the software creates a humidification control and / or regulating unit 41 , a fan control and / or regulating unit 42 , a temperature control and / or regulation unit 43 , a dehumidification control and / or regulation unit 44 and a storage unit 45 educated.

The fan control unit 42 is to control or regulate the operation of the fan 21 educated. To cause the test area 10a1 has a predetermined temperature, controls or regulates the temperature control or regulating unit 43 the operations of the heating unit 22nd and the cooling device 23a based on a measured value of the temperature sensor 13th . To cause the test area 10a1 has a predetermined humidity, controls or regulates the humidification control or - regulating unit 41 the operation of the humidifier 24 based on a measured value of the humidity sensor 14th , etc., and the dehumidification control unit 44 controls the operation of the refrigerator 23a based on a measured value of the humidity sensor 14th . To create a desired environment (desired environmental conditions) in the test area 10a1 can use two or three of the heating unit 22nd , the cooling unit 23a and the humidifier 24 operated simultaneously. The storage unit 45 stores values such as a temperature setting value and a humidity setting value of the test area 10a1 that are set in advance. The structure of the humidification control unit 41 will be described later.

(Humidifier 24 )

The following is the structure of the humidifier 24 with reference to the 3 described. Like it in the 3 shown comprises the humidifying device 24 a storage tank 24a , a heater 24b and a steam dispensing unit 24d . There is water in the storage tank 24a stored. The heating device 24b is for heating the water in the storage tank 24a educated. A second temperature sensor 24c is also for measuring the temperature of the water in the storage tank 24a provided. The second temperature sensor 24c can measure the temperature of the water directly or can measure the temperature of the water by measuring the temperature of the storage tank 24a measure indirectly. The steam delivery unit 24d is part of the steam produced by boiling the water in the storage tank 24a is generated to the air conditioning area 10a2 is delivered.

(Humidification control or regulation unit 41 )

The heating device 24b is with the humidification control or regulation unit 41 the control or regulating device 40 tied together. The delivery of the heater 24b is controlled by a current supplied by the humidification control unit 41 is fed. The following is the structure of the humidification control unit 41 with reference to the 3 described. The humidification control or regulation unit 41 comprises a humidification calculation unit 51 , a preheat calculation unit 52 , a dispensing switching unit 53 and a preheating time calculating unit 54 .

Based on the humidity set point stored in the storage unit 45 stored, and the measured value of the humidity sensor 14th calculates the humidification calculation unit 51 a humidification output, the output of the heater 24b is when the moisture is in the test area 10a1 is set to the humidity set point. As described above, the humidity set value is a value that is set in advance by the user and is stored in the storage unit 45 saved. When the humidity set point is less than that measured value of the humidity sensor 14th , the humidification output is low because the difference between the humidity setting value and the measured value of the humidity sensor 14th is great. (The minimum humidification output is 0.) When the humidity set point is greater than the measured value of the humidity sensor 14th , the humidification output is large because the difference between the humidity set value and the measured value of the humidity sensor 14th is great. When the humidity setting value with the measured value of the humidity sensor 14th is identical, the humidification output is adjusted to a value that is used to maintain the humidity in the test area 10a1 at which humidity set point is required.

Based on a preheating temperature set value indicating a temperature lower than the boiling point and a measured value of the second temperature sensor 24c calculates the preheat calculation unit 52 a preheat output from the heater 24b is released so that the water in the storage tank 24a is preheated to the preheating temperature setting value (e.g. 90 degrees Celsius). The preheating temperature setting value is, for example, a value that is set in advance and stored in the storage unit 45 is saved. When the pre-heating temperature setting value is smaller than the measured value of the second temperature sensor 24c , the preheating output is small because the difference between the preheating temperature set point and the measured value of the second temperature sensor 24c is great. (The minimum preheat output is 0.) When the preheat temperature set point is greater than the measured value of the second temperature sensor 24c , the preheat output is large because the difference between the preheat temperature set value and the measured value of the second temperature sensor 24c is great. When the preheating temperature set value with the measured value of the second temperature sensor 24c is identical, the preheat output is set to a value that is used to maintain the temperature of the water in the storage tank 24a at the preheat temperature set point is required.

The dispensing switchover unit 53 is an arithmetic circuit which is used to feed an output signal to a relay unit described later 55 is designed so that a discharge of the heating device 24b is either a humidification output or a preheat output. The dispensing switchover unit 53 determines whether an output signal going into the relay unit 55 is fed, corresponds to the humidification output or the preheating output, so that the output of the heating device 24b the humidification output is when the humidification output is greater than a predetermined value P, and the output of the heating device 24b The preheating output is when the humidification output is identical to or less than the specified value P. In the present embodiment, the predetermined value P is 0 and is either the minimum value of the humidification output when the humidity set value is smaller than the measured value of the humidity sensor 14th , or the value of the humidification output in a non-humidification operation described later. The relay unit 55 is with the dispensing switchover unit 53 , the power supply unit 30th and the heater 24b tied together. The relay unit 55 is from the power supply unit 30th a stream supplied. The relay unit 55 leads the heater 24b a current corresponding to an output signal from the output switching unit 53 is fed. While the relay unit 55 in the present embodiment is an SSR, the relay unit 55 be a relay of a different type.

The specified value can be a given value greater than 0. For example, if the maximum output of the heater 24b , which is the maximum humidification capacity of the humidifier 24 determines 100 the default value can be a given value such as 5 or 10.

The preheating time calculation unit 54 calculates a preheating time, which is a time taken for the water in the storage tank to be heated 24a to the preheating temperature setpoint by the preheating output of the heater 24b is required based on the preheating temperature set value and the measured value of the second temperature sensor 24c .

(Operation of the environmental test device 1 )

The following is the operation of the environmental checking device 1 of the present embodiment when the environmental testing device 1 the environment (environmental conditions) in the test area 10a1 in which the sample M is provided, referring to the flowchart in FIG 4th described.

In the present embodiment, the control or regulating device performs 40 the environmental testing device 1 a so-called programmed operation such that two kinds of operations, that is, a humidifying operation in which the test area 10a1 through the humidifier 24 is humidified, and a non-humidifying operation in which the test area 10a1 not through the humidifier 24 is moistened, to be carried out in a predetermined order. The humidification operation includes several operations that are different in terms of conditions such as temperature and time. The non-humidifying operation also includes a plurality of operations which are different in terms of conditions such as temperature and time. In the present embodiment, temperature control and / or regulation and dehumidification are implemented by several Humidifying operations and a plurality of non-humidifying operations are performed.

First, the user sets a program of executing plural humidifying operations different in conditions and plural non-humidifying operations different in conditions in a predetermined order (step S1 ). The program includes the humidity set point of the test area 10a1 in the humidifying operations, the temperature set value in the humidifying operations and the non-humidifying operations, and the operation time of each operation. These parameters are set in advance by the user. The program is in the storage unit 45 saved. Then, the preheating temperature setting value, which indicates a temperature lower than the boiling point, is set by the user (step S2 ). The preheating temperature set value is stored in the storage unit 45 saved.

The control or regulating device then starts 40 the programmed operation based on the program stored in the memory unit 45 is saved (step S3 ). First, the control or regulating device determines 40 whether an operation to be carried out is humidification operation (step S4 ). When it is determined that the operation to be performed is the humidifying operation (YES in S4 ) is calculated by the control or regulating device 40 the humidification output by the humidification calculation unit 51 based on the humidity set value corresponding to the humidifying operation and the measured value of the humidity sensor 14th . Then the control or regulating device determines 40 whether the calculated humidification output is greater than 0, which is the specified value P (step S5 ).

If it is determined that the humidification output is greater than 0 (YES in S5 ), feeds the humidification control or regulation unit 41 the control or regulating device 40 through the dispensing switchover unit 53 an output corresponding to the humidification output into the relay unit 55 one so that the output of the heater 24b is the humidification output. The control or regulation device 40 then sets the output of the heater 24b by supplying a current corresponding to the output signal from the output switching unit 53 into the heater 24b has been fed by means of the relay unit 55 on the humidification output (step S6 ). When it is determined that the humidification output is equal to or lower than the predetermined value P, that is, the humidification output 0 is (NO in S5 ), the preheat calculation unit calculates 52 the preheat output based on the preheat temperature set value and the measured value of the second temperature sensor 24c . The humidification control or regulation unit 41 the control or regulating device 40 feeds the output signal corresponding to the preheating output through the output switching unit 53 into the relay unit 55 one, so the output of the heater 24b is the calculated preheating charge. The control or regulation device 40 then sets the output of the heater 24b by supplying a current corresponding to the output signal from the output switching unit 53 into the heater 24b has been fed by means of the relay unit 55 on the preheating output (step S7 ).

The control or regulation device 40 determines whether the humidification operation is completed (step S8 ). The determination as to whether the humidifying operation is completed is made, for example, at predetermined intervals during a period in which the humidifying operation is being performed. When it is determined that the humidifying operation is not completed (NO in S8 ), the control or regulating device reverses 40 to the step S5 back, recalculates the humidification output based on the measured value of the humidity sensor 14th obtained at that point in time and the humidity set point, and determines whether the calculated humidification output is greater than zero.

If in the step S4 it is determined that the operation to be performed is not the humidification operation (NO in S4 ), determines the control or regulating device 40 whether an operation to be executed next in the programmed operation is the humidifying operation (step S9 ). If it is determined that the next operation to be performed is not the humidifying operation (NO in S9 ), the control or regulating device performs 40 the non-humidifying operation based on the temperature set value, the operation time, etc. stored in the storage unit 45 saved from (step S10 ). In the non-humidifying operation, at least the temperature in the test area becomes 10a1 through the heating unit 22nd and the cooling dehumidifier 23 set.

If it is determined that the next operation to be performed is the humidifying operation (YES in S9 ) is calculated by the control or regulating device 40 by the preheating time calculation unit 54 a preheating time required to keep the water in the storage tank 24a to the preheat temperature set value based on the preheat temperature set value and the measured value of the second temperature sensor 24c (Step S11 ).

After calculating the preheating time, the control or regulating device performs 40 the non-humidifying operation based on the Set temperature, operating time, etc., stored in the storage unit 45 are saved (step S12 ). In the non-humidifying operation in the step S12 feeds the control or regulating device 40 an output corresponding to the preheat output into the relay unit 55 one so that the output of the heater 24b through the dispensing switchover unit 53 is set to the preheat output, up to a point in time which is calculated by subtracting the preheat time from a point in time at which the non-humidifying operation ends or is to end. The control or regulation device 40 then sets the output of the heater 24b by supplying a current corresponding to the output signal from the output switching unit 53 into the heater 24b has been fed by means of the relay unit 55 on the preheating output. In the case described above, it is assumed that the in step S11 calculated preheating time is shorter than the time of the non-humidifying operation in the step S12 . In this regard, if the preheating time is longer than the time of the non-humidifying operation in the step S12 , the control or regulation device 40 the delivery of the heater 24b through the dispensing switchover unit 53 and the relay unit 55 from the start of the non-humidifying operation in the step S12 on the preheating output.

If it is determined that the humidifying operation has been completed (YES in S8 ), or if the non-humidifying operation ( S10 or S12 ) has been completed, determines the control or regulating device 40 whether the programmed operation has been completed (step S13 ). If it is determined that the programmed operation has not been completed (NO in S13 ), the control or regulating device reverses 40 to the step S4 and determines whether an operation to be performed is the humidification operation. When it is determined that the programmed operation has been completed (YES in S13 ), the operation of the environmental testing device 1 completed.

(Effects)

In the present embodiment, the delivery switching unit controls or regulates 53 a discharge from the heater 24b such that the output of the heater 24b the humidification output is when the humidification output is greater than the predetermined value P, and the output of the heating device 24b The preheating output is when the humidification output is identical to or less than the specified value P. The heating device 24b can therefore perform either the humidification output or the preheat output based on a comparison between the humidification output and the predetermined value P. In this regard, the water in the storage tank 24a preheated when the humidification output is identical to or lower than the predetermined value P, with the result that a sudden release of steam during the humidification is prevented. Furthermore, the humidification is achieved by switching the output of the heating device 24b carried out from the preheating output to the humidifying output when the humidifying output becomes greater than the predetermined value P. Therefore, the humidification control can be easily performed.

In the present embodiment, the control device controls or regulates 40 the delivery of the heater 24b through the dispensing switchover unit 53 such that the output of the heater 24b either the humidification output or the preheat output is in the humidifying operation. The control or regulation device 40 controls or regulates the output of the heating device 24b such that the output of the heater 24b is the preheat output up to a point of time calculated by subtracting the preheat time from a point of time when the non-humidifying operation is performed immediately before the end of the humidifying operation. Therefore, the temperature in the storage tank 24a can be set to the preheating temperature set value at the start of the humidifying operation, and the heater can be prevented from being 24b performs a superfluous delivery. In this regard, the humidity of the test area 10a1 quickly reach the humidity setting value after the start of humidification operation and save energy and electricity.

(Modifications)

A preferred embodiment of the present invention has been described. It should be noted that the present invention is not limited to the embodiment described above, and various modifications can be made without departing from the spirit and scope of the invention as set out in the appended claims.

(First modification)

The following is an environmental testing device 1 a first modification described. Elements that are identical to those in the previous embodiment are denoted by the same reference numerals and will not be explained again.

In the above embodiment, the discharge switching unit controls 53 a discharge from the heater 24b such that the output of the heater 24b the humidification output is when the humidification output is greater than the predetermined value P, and the output of the heater 24b The preheating output is when the humidification output is identical to or less than the specified value P. In contrast, in the first modification, the dispensing switchover unit controls or regulates 53 a discharge from the heater 24b such that the output of the heater 24b the humidification output is when the humidification output is greater than the preheat output, and the output of the heater 24b The preheating output is when the humidification output is identical to or less than the preheating output. Furthermore, in the above embodiment, the control or regulating device leads 40 performs the programmed operation such that the humidifying operations and the non-humidifying operations are carried out in a predetermined order. In contrast, the control or regulating device leads in the first modification 40 does not turn off the programmed operation. The following is the operation of the environmental checking device 1 the first modification when the environmental testing device 1 the environment (environmental conditions) in the test area 10a1 in which the sample M is provided, referring to the flowchart in FIG 5 described.

First, a preheating temperature setting value that is a temperature lower than the boiling point is set by the user (step S21 ). The preheating temperature set value is stored in the storage unit 45 saved. The control or regulating device then begins 40 with an environmental test for setting the environment (e.g. temperature and humidity) in the test area 10a1 (Step S22 ).

After the start of the environmental test, the control or regulating device calculates 40 a humidification output by the humidification calculation unit 51 and calculates a preheat output by the preheat calculation unit 52 . Then the control or regulating device determines 40 whether the calculated humidification output is greater than the preheating output (step S23 ). If it is determined that the humidifying output is greater than the preheating output (YES in S23 ), feeds the humidification control or regulation unit 41 the control or regulating device 40 an output corresponding to the humidification output by the output switching unit 53 into the relay unit 55 one so that the output of the heater 24b is the humidification output. The control or regulation device 40 then sets the output of the heater 24b by supplying a current corresponding to the output signal from the output switching unit 53 into the heater 24b has been fed by means of the relay unit 55 on the humidification output (step S24 ).

If it is determined that the humidifying output is equal to or less than the preheating output (NO in S23 ), feeds the humidification control or regulation unit 41 the control or regulating device 40 an output corresponding to the preheat output by the output switching unit 53 into the relay unit 55 one so that the output of the heater 24b the preheating output is. The control or regulation device 40 then sets the output of the heater 24b by supplying a current corresponding to the output signal from the output switching unit 53 into the heater 24b has been fed by means of the relay unit 55 on the preheating output (step S25 ).

The control or regulating device then determines 40 whether the environmental check has been completed (step S26 ). If it is determined that the environmental check has not been completed (NO in S26 ), the control or regulating device reverses 40 to the step S23 back, calculates the humidification output and the preheat output after sensing the humidity in the test area 10a1 and the temperature of the water in the storage tank 24a and determines whether the calculated humidifying output is greater than the calculated preheating output. If it is determined that the environmental check has been completed (YES in S26 ), the operation of the environmental testing device 1 completed.

As described in the above embodiment, both the humidifying output and the preheating output are variable, and the magnitude of these outputs is also variable. In this regard, a determination is made as to whether the humidification output is greater than the preheating output ( S23 ), preferably carried out regularly. In the first modification, the control or regulating device leads 40 therefore regularly determining whether the environmental test has been completed ( S26 ), and determining whether the humidification output is greater than the preheating output ( S23 ) until the environmental check is complete.

According to the first modification, there is the heater 24b on the basis of the comparison between the humidification output and the preheat output always either the humidification output or the preheat output. In this regard, the water in the storage tank 24a preheated when the humidification output is less than the preheat output, with the result that a sudden release of steam in the subsequent humidification is prevented. On the other hand, the humidification is achieved by switching over the output of the heating device 24b performed from the preheat output to the humidification output when the humidification output becomes greater than the preheat output. Therefore, the Humidification control or regulation can be carried out easily.

(Further modifications)

In the above embodiment, the control device determines 40 whether the humidification output is greater than the specified value P ( S5 ) when humidifying operation is performed. If it is determined that the humidification output is greater than the predetermined value P, the control device sets 40 the delivery of the heater 24b by means of the delivery switchover unit 53 on the humidification output. If it is determined that the humidification output is identical to or less than the predetermined value P, the control device sets 40 the delivery of the heater 24b by means of the delivery switchover unit 53 on the preheating output. Alternatively, the control or regulating device 40 determine whether the humidifying output is not less than a predetermined value when the humidifying operation is performed. In this case, the control or regulating device 40 the delivery of the heater 24b by means of the delivery switchover unit 53 on the humidification output if the humidification output is not less than the predetermined value, and sets the output of the heater 24b by means of the delivery switchover unit 53 on the preheating output if the humidification output is less than the specified value.

This is applicable to the first modification described above. After the start of the environmental test, the control or regulating device determines 40 whether the humidification output is not less than the preheating output. The control or regulation device 40 represents the output of the heating device 24b by means of the delivery switchover unit 53 responds to the humidification output if the humidification output is not less than the preheat output and sets the output of the heater 24b by means of the delivery switchover unit 53 on the preheating output if the humidification output is less than the preheating output.

In the above embodiment, the control device determines 40 in the step S5 whether the calculated humidification output is greater than the specified value P. If it is determined that the humidification output is greater than the specified value P (YES in S5 ), controls or regulates the control or regulating device 40 the delivery of the heater 24b by means of the delivery switchover unit 53 such that the output of the heater 24b the humidification output is (step S6 ). Alternatively, the control or regulating device 40 the step S23 the first modification between the step S5 and the crotch S6 carry out. That is, if it is determined that the humidification output is greater than the predetermined value P, the control or regulating device calculates 40 the humidification output by the humidification calculation unit 51 and calculates the preheat output by the preheat calculating unit 52 . It can then be determined whether the calculated humidification output is greater than the calculated preheating output. In this case, if the humidification output is greater than the preheating output, the control or regulating device controls or regulates 40 the delivery of the heater 24b by means of the delivery switchover unit 53 such that the output of the heater 24b is the humidification output. If the humidification output is identical to or less than the preheating output, the control or regulating device controls or regulates 40 the delivery of the heater 24b by means of the delivery switchover unit 53 such that the output of the heater 24b the preheating output is.

In the non-humidifying operation in the step S12 of the above embodiment, when the preheating time is longer than the time of the non-humidifying operation in the step S12 , the control or regulation device 40 the delivery of the heater 24b from the start of the non-humidifying operation in the step S12 on the preheating output. On the other hand, if the preheating time is longer than the non-humidifying operation in S12 is the control or regulating device 40 the delivery of the heater 24b from the time of the non-humidifying operation performed before the non-humidifying operation, which is an operation immediately before the humidifying operation, by means of the discharge switching unit 53 and the relay unit 55 set to the preheating output. In particular, the control or regulating device determines 40 in the step S9 whether subsequent operations include the humidification operation. If it is determined that the subsequent operations do not include the humidifying operation, the control device performs 40 the non-humidifying operation from S10. If the subsequent operating processes include the humidification operation, the control or regulating device performs 40 the step S11 to calculate the preheating time. The control or regulating device then determines 40 whether to start preheating in the non-humidifying operation to be performed. If the start of preheating is not required, the control or regulating device performs 40 perform the non-humidifying operation of S10. When the start of preheating is required, the control or regulating device performs 40 the non-humidifying operation of S12 which includes preheating. A case where the start of preheating is required is a case where a timing obtained by subtracting the preheating time from a scheduled time of starting the first humidifying operation from the subsequent humidifying operations (or a scheduled time for completing the non-humidifying operation which is performed immediately before this humidifying operation) is included in a period of time for which the non-humidifying operation is performed. In the non-humidifying operation of S12 provides the control or regulation device 40 the delivery of the heater 24b during a period from a point in time obtained by subtracting the preheating time from a scheduled time to start the first humidifying operation of the subsequent humidifying operations (or a scheduled time to end the non-humidifying operation which is carried out immediately before this humidifying operation) to a scheduled time of Start of the humidifying operation (or a scheduled time to end the non-humidifying operation which is executed immediately before this humidifying operation) is calculated into the preheat output.

In the above embodiment, in a case where the humidity set value is larger than the measured value of the humidity sensor 14th , the humidification output is large because the difference between the humidity setting value and the measured value of the humidity sensor 14th is great. Alternatively, you can adjust the humidity of the test area 10a1 to the humidity setting value as soon as possible if the humidity setting value is greater than the measured value of the humidity sensor 14th , the humidification output is the maximum output of the heating device 24b regardless of the difference between the humidity set point and the measured value of the humidity sensor 14th be. The algorithm for calculating the humidification output can not only use the humidity setting value and the measured value of the humidity sensor 14th take into account, but also another parameter.

In the above embodiment, when the preheating temperature set value is larger than the measured value of the second temperature sensor 24c , the preheat output calculated by the preheat calculation unit 52 is calculated, large because the difference between the preheating temperature set value and the measured value of the second temperature sensor 24c is great. Alternatively, as long as the temperature of the water in the storage tank 24a is equal to or lower than the preheating temperature set value, the preheating output can be an output obtained by repeatedly supplying a current having pulse waveforms to the heater 24b is produced. The algorithm for calculating the preheat output may not only include the preheat temperature set value and the measured value of the second temperature sensor 24c take into account, but also another parameter.

In the above embodiment, the preheating time calculating unit calculates 54 a preheating time, which is a time taken to heat the water in the storage tank 24a on the preheat temperature set value is required based on the preheat temperature set value and the measured value of the second temperature sensor 24c . Alternatively, the preheating time may be a fixed time or may be determined in advance by a user, etc. If the environment test more than once by the environment tester 1 is performed, the preheating time in the first environmental check in the storage unit 45 are stored and those in the storage unit 45 saved preheating time can be used in the second and subsequent environmental test (s).

In the above embodiment, the steps S9 , S11 and S12 not be carried out. That is, in the step S4 If it is determined that the next operation to be performed is not the humidifying operation, the controller 40 the non-humidifying operation simply based on the temperature set value, the operating time, etc. stored in the storage unit 45 are saved.

In the above embodiment, the steps S9 and S10 not be carried out. Ie if in the step S4 it is determined that the operation to be carried out next is not the humidification operation, the control or regulating device performs 40 the calculation of the preheating time ( S11 ) and the non-humidifying operation, which includes preheating ( S12 ). In this regard, the calculation of the preheating time ( S11 ) cannot be carried out. In this case, until a point of time obtained by subtracting a predetermined time from a point of time at which the non-humidifying operation in S12 is ended or should be ended, is calculated, the control or regulating device 40 the delivery of the heater 24b to the preheating output or can compare a period of time until the humidification operation begins or should begin or the non-humidification operation is ended or should be ended with a specified preheating time and can start with preheating when the duration is equal to the duration of the preheating time.

In the step S12 the embodiment described above, the period of time in which the control or regulating device 40 the delivery of the heater 24b controls or regulates in such a way that the output of the heating device 24b the preheat output may be longer or shorter than the preheat time specified in the step S11 is calculated.

In the above embodiment, the environmental checking device 1 as an environment setting device, the temperature and the humidity in the test area 10a1 to adjust. In addition, the present invention can be used for an environment setting device such as a hygrostat that only controls the humidity in the test area 10a1 adjusts.

In the above embodiment, the preheating temperature set value is set by the user, etc. ( S2 ). Alternatively, the preheating temperature set value may be set in advance at the stage of manufacturing the environment setting device.

In the above embodiment, the controller calculates 40 a point in time by subtracting the preheating time from a point in time at which the non-humidifying operation ends or should end (or a point in time at which the next humidification operation begins or should begin), and represents the output of the heater 24b responds to the preheat output during a period from the calculated point in time to the point in time at which the non-humidifying operation ends or is to end (or a point in time at which the next humidification operation begins or is to begin). Alternatively, the control or regulating device 40 a period of time up to the point in time at which the non-humidifying operation ends or should end (or a point in time at which the next humidification operation is to start) with the preheating time calculated by the preheating time calculating unit 54 is calculated (or the pre-set preheating time), compare, and the output of the heater 24b set to the preheating output when the duration equals a duration of the preheating time.

Claims (4)

An environment setting device for setting an environment in a test chamber in which a sample is provided, the environment setting device comprising: a humidity sensor configured to measure the humidity in the test chamber; a steam type humidifier configured to humidify the interior of the test chamber by generating steam, the humidifier including a storage tank for storing water and a heater for heating the water in the storage tank; a temperature sensor configured to directly or indirectly measure the temperature of the water in the storage tank; and a control and / or regulating unit, wherein the control or regulating unit comprises: a humidity calculation unit which is designed to calculate, on the basis of a predetermined humidity setting value and a measured value of the humidity sensor, a humidity output which is output by the heating device, when the humidity inside the test chamber is adjusted to the humidity set point; a preheat calculating unit configured to calculate, on the basis of a preheat temperature set value that is a temperature lower than a boiling point and the measured value of the temperature sensor, a preheat output provided by the heater for heating the Water in the storage tank is discharged to the preheat temperature set point; and an output switching unit configured to control an output of the heating device so that the output of the heating device is the humidification output when the humidification output is greater than a predetermined value, the output of the heating device is the preheating output when the humidification output is smaller than the predetermined value, and the output of the heater is either the humidifying output or the preheating output when the humidifying output is identical to the predetermined value. An environment setting device for setting an environment in a test chamber in which a sample is provided, the environment setting device comprising: a humidity sensor configured to measure the humidity in the test chamber; a steam type humidifier configured to humidify the interior of the test chamber by generating steam, the humidifier including a storage tank for storing water and a heater for heating the water in the storage tank; a temperature sensor configured to directly or indirectly measure the temperature of the water in the storage tank; and a control and / or regulating unit, wherein the control unit comprises: a humidity calculating unit configured to calculate, on the basis of a predetermined humidity setting value and a measured value of the humidity sensor, a humidity output given by the heater when the humidity within the test chamber is set to the humidity setting value; a preheat calculation unit configured to calculate, on the basis of a preheat temperature set value that is a temperature lower than a boiling point and the measured value of the temperature sensor, a preheat output provided by the heater for heating the water in is delivered to the storage tank to the preheat temperature set point; and an output switching unit which is designed to control an output of the heating device, so that the output of the heating device is the humidification output if the humidification output is greater than the preheating output, the output of the heating device is the preheating output if the humidification output is less than the Preheat output, and the heater output is either the humidification output or the preheat output when the humidification output is identical to the preheat output. Environment setting device according to Claim 1 or 2 , wherein the control unit is two kinds of operations, which are a humidifying operation in which the inside of the test chamber is humidified by the humidifying device, and a non-humidifying operation in which the inside of the test chamber is not humidified by the humidifying device, in executes a predetermined sequence, in the humidification operation, the control or regulating unit controls or regulates the output of the heating device by the output switching unit in such a way that the output of the heating device is either the humidification output or the preheating output, and in a predetermined period of time until the non- The humidification operation that is carried out immediately before the humidification operation ends, the control or regulating unit controls or regulates the output of the heating device in such a way that the output of the heating device is the preheating output. Environment setting device according to Claim 3 wherein the control unit further comprises a preheating time calculating unit configured to calculate, on the basis of the preheating temperature setting value and the measured value of the temperature sensor, a preheating time required for heating the water in the storage tank to the preheating temperature Setting value is required, and the control unit sets the predetermined time period as a time period up to a point in time calculated by subtracting the preheating time from a point in time at which the non-humidifying operation ends.

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