Fluid flow device and flow error detection method

The invention claimed is: 1. A fluid flow device which causes a processing object fluid to flow, comprising: a channel forming body which forms a plurality of fluid channels that allow respective processing object fluids to flow through the fluid channels, a plurality of detection spaces corresponding to the plurality of fluid channels, each of the plurality of spaces extending in a longitudinal direction and having opposite ends with respect to the longitudinal direction, at least one of the opposite ends being sealed, and a plurality of communication channels each connected to a channel connection part that is set at each of the plurality of fluid channels and to a space connection part that is set in the detection space corresponding to the fluid channel to thereby provide communication between the channel connection part and the space connection part; and detection liquids and detection gases that are contained in the plurality of detection spaces, respectively, wherein: the channel forming body includes at least one plate layer, in which the plurality of fluid channels are arranged in one major surface of the plate layer, and the plurality of spaces are formed in the other major surface on an opposite side of the plate layer; each of the detection liquids and each of the detection gases are contained in the detection space so as to be aligned in the longitudinal direction of the detection space to form an interface between the detection liquid and the detection gas and so that a region where the detection liquid exists includes the space connection part; and the detection gas is contained in the detection space so as to allow a position of the interface to change with a pressure change of the processing object fluid at the channel connection part. 2. The fluid flow device according to claim 1 , wherein at least a part of the plurality of detection spaces is a sealed space in which each of the opposite ends is the sealed end, and the detection gas enclosed in the sealed space is capable of expanding and contracting in the longitudinal direction so as to allow the position of the interface to change with a pressure change of the processing object fluid at the channel connection part. 3. The fluid flow device according to claim 1 , wherein at least a part of the plurality of detection spaces is an open space where only one end of the opposite ends in the longitudinal direction is sealed while the other end of the opposite ends is opened, and the detection gas in the open space go in and out of the open space so as to allow the position of the interface to change with a pressure change of the processing object fluid at the channel connection part. 4. The fluid flow device according to claim 1 , wherein at least a part of the plurality of detection spaces is an openable and closable space in which one end of the opposite ends in the longitudinal direction is sealed while an opening/closing device is connected to the other end of the opposite end, the opening/closing device being switchable between a closing state of sealing the end to which the opening/closing device is connected and an opening state of opening the end to which the opening/closing device is connected to allow the detection gas to go in and out of the openable and closable space, the detection gas being capable of expanding and contracting in the longitudinal direction so as to allow the position of the interface to change with a pressure change of the processing object fluid at the channel connection part when the opening/closing device is in the closing state. 5. The fluid flow device according to claim 1 , wherein the plurality of fluid channels extend parallel to each other along a first plane and the plurality of detection spaces extend along a second plane which extends along the first plane while being spaced in a direction of a normal line from the first plane. 6. The fluid flow device according to claim 5 , wherein the plurality of detection spaces extend along the fluid channels corresponding to the detection spaces, respectively. 7. The fluid flow device according to claim 1 , wherein each of the plurality of communication channels includes a separation space interposed between the fluid channel corresponding to the communication channel and the detection space to be in communication with the fluid channel and the detection space, and a separation gas interposed between a processing object fluid flowing through the fluid channel and the detection liquid is contained in the separation space. 8. The fluid flow device according to claim 7 , wherein: the plurality of fluid channels extend parallel to each other along a first plane; the plurality of detection spaces extend along a second plane which extends along the first plane while being spaced in a direction of a normal line from the first plane and along the fluid channel that corresponds to the detection space; and the plurality of separation spaces extend along a third plane interposed between the first plane and the second plane and along the fluid channel and the detection space that correspond to the separation space. 9. The fluid flow device according to claim 1 , wherein includes a part that seals at least one end of each of the detection spaces in the longitudinal direction, the part having light transmittancy which allows light to be transmitted from the outside of the channel forming body to the at least one end. 10. The fluid flow device according to claim 1 , further comprising an interface position detector which detects the position of the interface. 11. The fluid flow device according to claim 10 , wherein the interface position detector is configured to optically detect the position of the interface, including a light emitting device which emits a measurement light beam in the detection space along the longitudinal direction of the space and a light receiving device which receives the measurement light beam and outputs a signal corresponding to intensity of the light beam. 12. The fluid flow device according to claim 11 , wherein the light receiving device is disposed so as to receive a light beam that is included in the measurement light beam emitted from the light emitting device to the detection liquid and has passed through the detection liquid. 13. The fluid flow device according to claim 11 , wherein the light emitting device is disposed so as to emit the measurement light beam to the interface through the detection gas and the light receiving device is disposed so as to receive a light beam that is included in the measurement light beam and has been reflected by the interface. 14. The fluid flow device according to claim 1 , wherein the plate layer consists of a single plate. 15. The fluid flow device according to claim 1 , wherein the plate layer comprises two separate plates that are laminated together. 16. A method for detecting a flow error of the processing object fluid in the plurality of fluid channels in the fluid flow device according to claim 1 , the method comprising: detecting a position of the interface in each of the plurality of detection spaces; and determining presence/absence of the flow error based on a change of the position of the interface from a normal state. 17. A method for detecting a flow error of the processing object fluid in the plurality of fluid channels in the fluid flow device according to claim 4 , the method comprising: detecting a position of the interface in each of the plurality of detection spaces; determining presence/absence of the flow error based on a change of the position of the interface