TH162239A - Laminated headers, heat exchangers, air conditioning units, and a method to connect plate-like units of the laminated header and tube to each other. - Google Patents

Abstract

Laminated headers (2) according to current invention include Plate-like units (11) including bare parts (12_1 to 12_6) with first flow channel. Which was made in that piece With no binder applied to each bare part (12_1 to 12_6); And a cladding part (13_1 to 13_5) with a second flow channel, which is built in that part without material. That synchronization was applied to, at least. Front surface and back surface of Each cladding (13_1 to 13_5), bare parts (12_1 to 12_6) and cladding (13_1 to 13_5) are alternately laminated so that the first and second flow channels are connected to each other. Plate-like units (11) are configured in such a way that pipes are connected to plate-like units (11) under a state in which the end of the tube is inserted into at least one flow channel or channel. Second flow One of the bare parts (12_1, 12_6) is laminated on the outermost of the plate-like units (11) in the laminated tissue of the bare parts (12_1 to 12_6) and the cladding parts (13_1 to 12_6). 13_5):

Claims (4)

Disclaimer (all) which will not appear on the advertisement page: New amendment 15 Sep 2017 1. Laminated header That includes Plate-like units Where it consists of: A bare part with a first flow channel, which is built into it without running material. Solder that was applied to each of the bare parts; And the cladding with a second flow channel, which was built, with a binder That was used with the least The front and back surfaces of each cladding, bare, and cladding elements are laminated alternately so that the first and second flow channels are connected to each other. T They are configured in such a way that the pipes are connected to plate-like units. Under the state in which the end of the tube is inserted into at least one of the first flow or second flow channels, one of the bare components. Is laminated on the outermost of the plate-like units in the Laminates of bare and cladding parts ------------------------------------- (formerly Amendment 13/1/16 7. Laminated headers of any of the clauses 1 through 6 where the pipes are connected. Under the state in which the fluid is supplied from the inside of the pipe to the end of the pipe 8. laminated header of claim 7, where the fluid temperature is equal to or above the melting point of the material. 9. Laminated headers of claim 7 or 8, where the fluid is composed of air 1 0. Laminated headers of any of the above. Hold rights 1 to 9 where the pipe is included. Plural number of pipes and where plate-like units Is configured in such a way that a multiple number of pipes are connected to Plate-like units Under the state in which the ends of the pipe multiples are inserted into the flow channel. One of at least one of the first flow channels or the second flow channel 1 1. The heat exchanger consists of: a laminated header of either of the 1 claim. Up to 10; And a pipe which is connected to a plate-like unit 1 2. The heat exchanger of claim 11, where the pipe consists of a flat pipe 1. 3. Air conditioning unit. That includes Heat exchanger of claim 11 or 12 1 4. Method of connecting plate-like units of laminated header plates and tubes together, where plate-like units. Assembled, including: bare parts That has one flow channel, which is built in it without the binder Applied to each bare part; And the cladding with a second flow channel, which was built in it, with the coordinated sway material Applies to at least one front and rear surface of each cladding component. The bare and clad parts are laminated alternately so that the first flow channel and The second flow channel was interconnected and where one of the bare parts was laminated on the outermost side of the Plate-like units in the direction of the laminate of the bare parts. And the cladding parts. That method includes the steps of: Positioning the pipe under a state in which the end of the pipe is inserted into at least one of the In the first flow channel or the second flow channel; And heating the cementitious material while supplying the fluid from the inside of the pipe to the end of the pipe. 1. Laminated header header That includes Plate-like units Where it consists of: A bare part with a first flow channel, which is built into it without running material. The solder was applied to each of the bare parts; And a cladding part with a second flow channel, which was made in that part without binder. That is applied to, at least The front and back surfaces of each cladding, bare and clad parts are alternately laminated so that the first and second flow channels are connected to each other, plate-like units. They are configured in such a way that the pipes are connected to plate-like units. Under the state in which the end of the tube is inserted into at least one of the first flow or second flow channels, one of the bare components. Laminated on the outermost of the plate-like units In the direction of leave Laminate of bare parts and cladding 2. The laminated header of claim 1, where each bare part is thicker than the individual cladding, and where the tubes are connected under The state in which the tip is positioned between the two ends. 3. The laminated header of the 1st or 2nd claim that also includes an overhang, which is built on the inner surface of the sample. At least one of the first or second flow channels where the pipe is welded under the state where the end is brought up against the protrusion and the peripheral surface of the end is worn independently to the surface. Around the inside of at least one of the First flow channel or second flow channel 4. Laminated headers of claim 3 at the far end of the protrusion. Is prevented from being projected to the inside of the inner periphery of the pipe under a state which The end of the tube is viewed from the inside of the tube. 5. The laminated header of the 3rd or 4th claim, where the protrusion is formed on the section. One of the inner periphery of at least one of the first flow or second flow channels. In the circumferential direction of the inner surface 6. The laminated header of the 3rd or 4th claim, where the protrusion is made to Extends over the entire region of the inner periphery of at least one of the first or second flow channels. In the circumferential direction of the first circumferential surface -------------------------------------------------- ---------- 1. Laminated header That includes Plate-like units Where it consists of: A bare part with a first flow channel, which is built into it without running material. The solder was applied to each of the bare parts; And a cladding part with a second flow channel, which was made in that part without binder. That is applied to, at least The front and back surfaces of each cladding, bare and clad parts are alternately laminated so that the first and second flow channels are connected to each other, plate-like units. They are configured in such a way that the pipes are connected to plate-like units. Under the state in which the end of the tube is inserted into at least one of the first flow or second flow channels, one of the bare components. Laminated on the outermost of the plate-like units In the direction of leave Laminate of bare parts and cladding 2. The laminated header of claim 1, where each bare part is thicker than the individual cladding, and where the tubes are connected under The state in which the ends are inserted between the front and back surfaces of each bare part. 3. The laminated header of claim 1 or 2, which also includes an overhang which Is formed on the inner periphery of at least one of the first flow channels, or A second flow channel where the pipe is welded under a state in which the ends are brought close to the protrusion, and the peripheral surfaces of the ends are loosely worn against the inner surface of one or more. In the first or second flow channel 4. The laminated header of the 3rd claim at the far end of the protrusion. Is prevented from being projected to the inside of the inner periphery of the pipe under a state which The end of the tube is viewed from the inside of the tube. 5. The laminated header of the 3rd or 4th claim, where the protrusion is formed on the section. One of the inner periphery of at least one of the first flow or second flow channels. In the circumferential direction of the inner surface 6. The laminated header of the 3rd or 4th claim, where the protrusion is made to Extends over the entire region of the inner periphery of at least one of the first or second flow channels. In the circumferential direction of the first circumferential surface 7. Laminated headers of any one of claim 1 to 6 where the pipe is connected. Under the state in which the fluid is supplied from the inside of the pipe to the end of the pipe 8. laminated header of claim 7, where the fluid temperature is equal to or above the melting point of the material. 9. Laminated headers of claim 7 or 8, where the fluid is composed of air 1 0. Laminated headers of any of the above. Hold rights 1 to 9 where the pipe is included. Plural number of pipes and where plate-like units Is configured in such a way that a multiple number of pipes are connected to Plate-like units Under the state in which the ends of the pipe multiples are inserted into the flow channel. A single of at least one flow channel or 1 second flow channel. 1. Heat exchanger incorporating: a laminated header of any one of claims 1 to 10; And a pipe which is connected to a plate-like unit 1 2.Heat exchanger of claim 11, where the pipe is assembled with flat pipe 1 3. Air conditioning unit That includes Heat exchanger of claim 11 or 12 1 4. Method of connecting plate-like units of laminated header and tube-like units to plate-like units. Assembled, including: bare parts That has one flow channel, which is built in it without the binder Applied to each bare part; And the cladding with a second flow channel, which was built in it, with the coordinated sway material Applies to at least one front and rear surface of each cladding component. The bare and clad parts are laminated alternately so that the first flow channel and The second flow channel was interconnected and where one of the bare parts was laminated on the outermost side of the Plate-like units in the direction of the laminate of the bare parts. And the cladding parts. That method includes the steps of: Positioning the pipe under a state in which the end of the pipe is inserted into at least one of the In the first flow channel or the second flow channel; And heating the bonding material while supplying the fluid from the inside of the pipe to the end of the pipe.