Valves for bypass circuits in heat exchangers

The invention claimed is: 1. A heat exchanger comprising: a plurality of tubular members disposed in a stack, the tubular members having spaced-apart wall portions including flow openings for the flow of fluid between the tubular members; an anti-leakage valve including: a housing having a hollow plug portion with opposed plug walls, one of the plug walls having defined therein one of an inlet and an outlet opening, said plug portion further having defined therein the other of the inlet and outlet opening; said plug portion being disposed in the stack with the plug walls being sealingly mounted between selected ones of said spaced-apart wall portions to allow fluid flow between said inlet and outlet opening and respective flow openings in said selected ones of said spaced-apart wall portions; an actuator portion located adjacent to the plug portion; and an actuator mounted in the actuator portion and having a plunger extending into the plug portion, the plunger reciprocating to block and unblock said one of the inlet and outlet opening, a bypass valve including: a housing having a hollow plug portion with opposed plug walls, one of the plug walls having defined therein one of an inlet and an outlet opening, said plug portion further having defined therein the other of the inlet and outlet opening; said plug portion being disposed in the stack with the plug walls being sealingly mounted between selected ones of said spaced-apart wall portions to allow fluid flow between said inlet and outlet opening and respective flow openings in said selected ones of said spaced-apart wall portions; an actuator portion located adjacent to the plug portion; and an actuator mounted in the actuator portion and having a plunger extending into the plug portion, the plunger reciprocating to block and unblock said one of the inlet and outlet opening wherein the tubular members are formed of plate pairs having enlarged distal end portions; and wherein the plungers of the bypass valve and the anti-leakage valve are coupled together by a rod, the rod defining one of the actuators. 2. A heat exchanger according to claim 1 , wherein the stack includes a substack immediately above the anti-leakage valve and a substack immediately below the anti-leakage valve the enlarged distal end portions are joined together to form, at one end of the stack, adjacent manifolds, one of the manifolds being associated one with the substack above the anti-leakage valve and another of the manifolds being associated with the substack below the anti-leakage valve, the manifolds being fluidly coupled to one another via the bypass valve, so that fluid can flow between the manifolds when the flow through the bypass valve is unblocked at the other end of the stack, adjacent manifolds, one of the manifolds being associated one with the substack above the anti-leakage valve and another of the manifolds being associated with the substack below the anti-leakage valve, the manifolds being fluidly coupled to one another via the anti-leakage valve, so that fluid can flow between the manifolds when the flow through the anti-leakage valve is unblocked the anti-leakage valve and the bypass valve being adapted such that, when the bypass valve is unblocked, the anti-leakage valve is blocked, and such that, when the bypass valve is blocked, the anti-leakage valve is unblocked. 3. A heat exchanger according to claim 1 , wherein, the other of the actuators is a temperature responsive actuator. 4. A heat exchanger according to claim 3 , wherein the temperature responsive actuator is a thermal motor.