Heat transferring device and heat transferring component thereof
Abstract
A heat transferring device and a heat transferring component thereof are disclosed. The heat transferring device includes a heat transferring component, a lower plate, a positioning component and at least one support rod. The heat transferring component is in a shape of pouch and includes input end and an output end to allow a fluid to be inputted and outputted. The lower plate includes at least one first perforation. The positioning component is disposed on and surrounding an exterior of the heat transferring component to restrict the shape and a position of the heat transferring component, wherein an end of the sleeve is connected to the lower plate. The support rod is connected to the lower plate. The heat transferring component further includes at least one protrusion on the periphery, and the protrusion is fixed on the support rod or the sleeve through at least one fastener.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A heat transferring device comprising:
a heat transferring component in a shape of pouch and comprising at least one input end and at least one output end to allow a fluid to be inputted and outputted; a lower plate comprising at least one first perforation; a sleeve disposed on and surrounding an exterior of the heat transferring component to restrict the shape and a position of the heat transferring component, wherein an end of the sleeve is connected to the lower plate; and at least one support rod connected to the lower plate, wherein the heat transferring component further comprises at least one protrusion on the periphery, and the protrusion is fixed on the support rod through at least one fastener.
2 . The heat transferring device according to claim 1 , further comprising an upper plate comprising at least one second perforation, wherein another end of the sleeve is connected to the upper plate.
3 . The heat transferring device according to claim 1 , further comprising at least one connection block combined with and disposed between the sleeve and the support rod.
4 . The heat transferring device according to claim 1 , wherein an end of the support rod is connected to a buckle.
5 . The heat transferring device according to claim 1 , wherein the heat transferring component further comprises at least one flow channel to allow the fluid to flow therein, wherein the input end of the heat transferring component is the entrance for the fluid, and the output end of the heat transferring component is the exit for the fluid.
6 . The heat transferring device according to claim 1 , further comprising a quick connector, wherein the lower plate further comprises at least one through hole, and the quick connector is connected to the lower plate through the through hole and is spatially corresponding to the first perforation.
7 . The heat transferring device according to claim 1 , wherein the lower plate or the sleeve comprises at least one through hole to allow the input end and the output end of the heat transferring component to pass therethrough and be protruded from the lower plate or the sleeve.
8 . The heat transferring device according to claim 1 , further comprising at least one guiding component, a scraper plate and a pressing plate, wherein the guiding component is disposed on the lower plate for guiding and positioning a gas storage canister, the scraper plate is connected to the upper plate, and the pressing plate is disposed on the scraper plate.
9 . The heat transferring device according to claim 1 , further comprising a carrying plate connected to the upper plate, and the protrusion is disposed between the carrying plate and the upper plate.
10 . The heat transferring device according to claim 1 , wherein the lower plate further comprises at least one positioning groove disposed on the periphery of the first perforation, and a gas storage canister is provided and comprises a positioning ring and a convex rib disposed on the positioning ring, wherein the convex rib of the positioning ring is capable of passing through the positioning grooves, and the gas storage canister is fastened by rotation.
11 . The heat transferring device according to claim 1 , wherein the sleeve is one selected from the group consisting of plastic pipes, paper pipe, metal pipe, canvas pipe, thick film pipe and plastic film pipe, wherein the flow channel is in the shape selected from the group consisting of H-shape, M-shape/W-shape, S-shape, V-shape, regular shape, unregular shape, U-shape, N-shape/Z-shape, inlet-and-outlet-on-center shape and inlet-and-outlet-on-sides shape, wherein the fluid is one selected from the group consisting of a fluid capable of maintaining in flowing state, water, ethylene glycol, propylene glycol, a mixture of water and ethylene glycol, a mixture of water and propylene glycol, a mixture of water, ethylene glycol and propylene glycol, and a liquid with a temperature between 3° C. and 95° C.
12 . The heat transferring device according to claim 1 , wherein the material of the heat transferring component is one selected from the groups consisting of natural rubbers, synthetic rubbers, thermoplastics, composite materials composed of elastic fiber and rubber, composite materials composed of elastic fiber and thermoplastics, and a group consisting of the previously mentioned materials doped with a conductive material in a proportion ranged between 1 wt % to 30 wt %.
13 . A heat transferring device comprising:
a heat transferring component in a shape of pouch and comprising at least one input end and at least one output end to allow a fluid to be inputted and outputted; a hollow shell disposed on an exterior of the heat transferring component; a lower plate comprising at least one first perforation; and an upper plate comprising at least one second perforation, wherein an end of the hollow shell is connected to the lower plate and another end of the hollow shell is connected to the upper plate, wherein the heat transferring component further comprises at least one protrusion on the periphery, and the protrusion is fixed on an end of the hollow shell through at least one fastener.
14 . The heat transferring device according to claim 13 , further comprising a carrying plate connected to the upper plate, and the protrusion is disposed between the carrying plate and the upper plate.
15 . The heat transferring device according to claim 13 , further comprising a quick connector, wherein the lower plate further comprises at least one through hole, and the quick connector is connected to the lower plate through the through hole and is spatially corresponding to the first perforation.
16 . The heat transferring device according to claim 13 , wherein the lower plate or the hollow shell comprises at least one through hole to allow the input end and the output end of the heat transferring component to pass therethrough and be protruded from the lower plate or the hollow shell.
17 . The heat transferring device according to claim 13 , further comprising at least one guiding component, a scraper plate, and a pressing plate, wherein the guiding component is disposed on the lower plate for guiding and positioning a gas storage canister, the scraper plate is connected to the upper plate, and the pressing plate is disposed on the scraper plate.
18 . The heat transferring device according to claim 13 , wherein the lower plate further comprises at least one positioning groove disposed on the periphery of the first perforation, and a gas storage canister is provided and comprises a positioning ring and a convex rib disposed on the positioning ring, wherein the convex rib of the positioning ring is capable of passing through the positioning grooves, and the gas storage canister is fastened by rotation.
19 . A heat transferring component for a heat transferring device, wherein the heat transferring device comprises:
a lower plate comprising at least one first perforation; a sleeve disposed on and surrounding an exterior of the heat transferring component to restrict the shape and a position of the heat transferring component, wherein an end of the sleeve is connected to the lower plate; and at least one support rod connected to the lower plate, wherein the heat transferring component comprises at least one protrusion and a flow channel, wherein the protrusion is disposed on the periphery of the heat transferring component, and the flow channel allows a fluid to be inputted and outputted, wherein the flow channel is in the shape selected from the group consisting of H-shape, M-shape/W-shape, S-shape, V-shape, regular shape, unregular shape, U-shape, N-shape/Z-shape, inlet-and-outlet-on-center shape and inlet-and-outlet-on-sides shape.
20 . The heat transferring component according to claim 19 , wherein the fluid is one selected from the group consisting of a fluid capable of maintaining in flowing state, water, ethylene glycol, propylene glycol, a mixture of water and ethylene glycol, a mixture of water and propylene glycol, a mixture of water, ethylene glycol and propylene glycol, and a liquid with a temperature between 3° C. and 95° C., wherein the material of the heat transferring component is one selected from the groups consisting of natural rubbers, synthetic rubbers, thermoplastics, composite materials composed of elastic fiber and rubber, composite materials composed of elastic fiber and thermoplastics, and a group consisting of the previously mentioned materials doped with a conductive material in a proportion ranged between 1 wt % to 30 wt %.Cited by (0)
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