Spring brake chamber

The invention claimed is: 1. A spring brake chamber comprising: a cylindrical first case forming a primary chamber, wherein the first case includes an open end, a closed end located at a side opposite to the open end, and an open end portion located proximal to the open end, and the open end portion includes a tapered outer positioning portion having a diameter that increases toward the open end; a cylindrical second case forming a secondary chamber; a coupling case that couples the first case and the second case, wherein the coupling case includes a coupling case open end closer to the first case and a coupling case open end portion located proximal to the coupling case open end, and the coupling case open end portion includes a tapered inner positioning portion having a diameter that decreases toward the coupling case open end, and a seal member, which forms a shaft seal structure, and a holding portion, which holds the seal member, wherein the seal member and the holding portion are arranged between the inner positioning portion and the outer positioning portion, wherein the holding portion is a recess formed by two protrusions, wherein the first case is positioned relative to the coupling case by attaching the outer positioning portion to an outer side of the inner positioning portion, wherein a distal end portion of the outer positioning portion is crimped to attach the outer positioning portion to the outer side of the inner positioning portion and couple the outer positioning portion to the inner positioning portion, wherein the two protrusions include a first protrusion and a second protrusion, the second protrusion arranged closer to the open end of the first case than the first protrusion, wherein the first protrusion contacts with the outer positioning portion, and wherein the second protrusion is spaced apart from the outer positioning portion to form a clearance between the second protrusion and the outer positioning portion. 2. A spring brake chamber comprising: a primary chamber including a spring compartment; a first piston accommodated in the primary chamber; a compression spring accommodated in the spring compartment and having a biasing force that biases the first piston; a secondary chamber including a second control compartment; a second piston accommodated in the secondary chamber and moved by a supply of compressed air; a coupling unit that couples the primary chamber and the secondary chamber, wherein the coupling unit includes an inner circumferential surface that defines a communication hole, wherein the inner circumferential surface includes a groove that is depressed in a direction away from the inner circumferential surface; a push rod arranged in the first piston and inserted through the communication hole, wherein the push rod holds the second piston when biased by the compression spring, wherein the push rod includes a through hole formed in a distal end of the push rod and communicated to the spring compartment of the primary chamber; a one-way seal arranged between the push rod and the inner circumferential surface of the communication hole, wherein the one-way seal is located in the groove depressed from the inner circumferential surface of the communication hole; a first guide member arranged proximal to the one-way seal to guide movement of the push rod; and a two-way seal arranged between the push rod and the inner circumferential surface of the communication hole adjacent the one-way seal, wherein the first guide member is formed from a harder material than the one-way seal, wherein the first guide member is located only at a position between the one-way seal and the first piston in an axial direction of the primary chamber, wherein the one-way seal is configured to allow air to flow in a direction from the spring compartment of the primary chamber to the second control compartment of the secondary chamber, and to restrict the flow of air in the opposite direction from the second control compartment of the secondary chamber to the spring compartment of the primary chamber, wherein the two-way seal is configured to seal a gap between the inner circumferential surface of the communication hole and the push rod to seal the primary chamber, wherein the through hole of the push rod is positioned to open between the one-way seal and the two-way seal when a parking brake is not operated to permit the air to flow through the through-hole from the spring compartment of the primary chamber to the second control compartment of the secondary chamber via the one-way seal, and wherein the one-way seal and the two-way seal are either separate members or integrally formed as a single member. 3. The spring brake chamber according to claim 2 , further comprising: a seal member arranged between the first piston and an inner wall of the primary chamber; and a second guide member arranged proximal to the seal member to guide movement of the first piston, wherein the second guide member is formed from a harder material than the seal member. 4. The spring brake chamber according to claim 2 , wherein the inner circumferential surface of the communication hole functions as a coupling member; and a portion of the guide member facing the coupling member includes an engagement projection, and the engagement projection is engaged with the coupling member. 5. The spring brake chamber according to claim 2 , wherein the first guide member is arranged closer to the primary chamber than the one-way seal. 6. The spring brake chamber according to claim 3 , wherein the second guide member is arranged closer to the secondary chamber than the seal member. 7. The spring brake chamber according to claim 2 , wherein the two-way seal is a D-shaped D ring including a projection; and wherein the projection contacts the push rod. 8. A spring brake chamber comprising: a primary chamber including a spring compartment; a first piston accommodated in the primary chamber; a compression spring accommodated in the spring compartment and having a biasing force that biases the first piston; a secondary chamber including a second control compartment; a second piston accommodated in the secondary chamber and moved by a supply of compressed air; a coupling unit that couples the primary chamber and the secondary chamber, wherein the coupling unit includes an inner circumferential surface that defines a communication hole, wherein the inner circumferential surface includes a groove that is depressed in a direction away from the inner circumferential surface; a push rod arranged in the first piston and inserted through the communication hole, wherein the push rod holds the second piston when biased by the compression spring, wherein the push rod includes a through hole formed in a distal end of the push rod and communicated to the spring compartment of the primary chamber; a one-way seal arranged between the push rod and the inner circumferential surface of the communication hole, wherein the one-way seal is located in the groove depressed from the inner circumferential surface of the communication hole; a first guide member arranged proximal to the one-way seal to guide movement of the push rod; a seal member arranged between the first piston and an inner wall of the primary chamber; a second guide member arranged proximal to the seal member to guide movement of the first piston; and a two-way seal arranged between the push rod and the inner circumferential surface of the communication hole adjacent the one-way seal, wherein the first guide member is formed from a harder material than the way seal, wherein the second guide member is formed from a harder material than the seal member, wherein the first guide member is located only