KR900013215A - Vortex Blower and Manufacturing Method - Google Patents

Abstract

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Description

Vortex blower and manufacturing method thereof.

Since this is an open matter, no full text was included.

1 is a perspective view of a vortex blower showing an embodiment of the present invention,

FIG. 2 is a perspective view of the impeller on the vortex block shown in FIG.

3 is a partially enlarged plan view of the impeller shown in FIG.

Claims (24)

Several blades for boosting the fluid by applying a turning flow between the ring-shaped flow path 8 and the casing 2 provided with an inlet, a discharge port communicating with each other in the ring-shaped flow path, and the ring-shaped flow path. In the vortex blower which consists of the impeller 1 which rotates with the 5, and the prime mover 4 which drives the said impeller 1, the inner peripheral part 5b and the center part 5c of the said blade 5 are provided. When the axial inlet angles of the front edges of the blades are r ₁ , r _c , respectively, at least the inner circumferential end of the blade 5 such that r ₁ , r _c are both less than 90 ° and r ₁ > r _c . Vortex blower, characterized in that the wing shape extending from 5b) to the center part 5c is formed in a curved surface. A plurality of vanes (5) for supplying a flow between the ring-shaped flow path (8), the inlet and the casing (2) provided with an outlet, respectively, and the ring-shaped flow path to boost the fluid. In a vortex blower comprising a rotating impeller 1 and a prime mover 4 rotating the impeller 1, at least an inner circumference of the blade 5 is connected to the impeller 1. Vortex blower, characterized in that the center portion (5c) is formed in the shape of a wing curved surface inclined from the inner peripheral end (5b). A plurality of vanes (5) for supplying a flow between the ring-shaped flow path (8), the inlet and the casing (1) provided with the discharge port, respectively, and the ring-shaped flow path to boost the fluid. In the vortex blower consisting of an impeller (1) rotating with an impeller (1) and a prime mover (4) for rotating the impeller (1), the axial angle of the front edge of the blade (5) is defined as the inner peripheral end of the blade ( In 5b), the vortex blower is formed in a curved surface to be smaller than 90 ° and gradually smaller toward the center portion 5c at the inner circumferential edge and larger toward the outer circumference portion at the center portion. An impeller 1 and the impeller including a suction flow port communicating with each other in the ring flow path, a casing 1 provided with a discharge port, and a plurality of blades 5 rotating opposite to the ring flow path. In the vortex blower which consists of the prime mover (4) which rotates (1), the said blade | wing 5 retreats with respect to the rotation direction of the said impeller 1 from the inner peripheral edge 5b to the center part 5c, In addition, the axial inlet angle is formed to be smaller than 90 ° and gradually smaller, the vortex blower, characterized in that the outer peripheral end is formed in a three-dimensional shape so that the axial outlet angle is gradually increased in the central portion. An impeller 1 having a ring-shaped flow passage 8 and a casing 2 provided with an intake port communicating with each other in the ring-shaped flow passage, and a plurality of vanes 5 rotating opposite to the ring-shaped flow path. And a vortex blower comprising a prime mover (4) for rotating and driving the impeller (1), wherein the center portion (5c) of the blade (5), the middle portion, the middle portion of the outer circumferential end (5a), the middle portion of the central portion and the inner circumference portion When the negative axial angle is r _c , r _o , r _i , r _c , r _o , r _i are all vortex, each having a wing shape of less than 90 ° and r _c <r _o <r _i Blower. In the claims, claim 1, wherein the intermediate parts of the axial angle of the wings (5) inside the peripheral end (5b) circumferentially entrance angle ^B 1 and the inner circumferential end and the central portion (5c) in the ^r i 45 ° ^B 1 80 °, 20 ° ^B 1 Vortex blower, set in the range of 70 °. The circumferential exit angle ^B 2 at the outer circumferential end 5a of the vane 5 and the axial angle of the middle part of the outer circumferential end and the center part 5c of the blade 5 are set to ^r 0. 0 ° ^B 2 135 °, 20 ° ^B 0 Vortex blower, set in the range of 70 °. The vortex blower according to claim 1, wherein the vanes (5) are formed to advance in the rotational direction of the impeller from the central portion (5c) to the outer circumference portion. The vortex blower according to claim 2, wherein the vane (5) is retracted from the central portion (5c) toward the outer circumference with respect to the rotational direction of the impeller to control the discharge pressure to a set value. The vortex blower according to claim 1, wherein an outlet angle ^B 2 of the outer circumferential end 5a of the blade 5 is formed larger than 90 ° to control the discharge pressure to a set value. The vortex blower according to claim 8, wherein the center portion (5c) of the blade (5) has an intermediate portion that is retracted with respect to the rotational direction of the impeller. The vortex blower according to claim 1, wherein the impeller (1) is formed so as to be located in the casing (2). A casing (2) provided with a ring-shaped flow path (8) and a suction port which flows through each of the ring-shaped flow paths, and a partition wall which partitions between the discharge port and the inlet port in the ring-shaped flow path, and the ring-shaped flow path In the vortex blower consisting of an impeller 1 having a plurality of blades rotating against each other and a prime mover 4 for rotating the impeller 1, the blade shape is formed in a three-dimensional shape, Vortex blower, characterized in that the front end of the partition wall is formed to gradually cross from the outer circumferential side at the wing front edge and the suction port side, and the inner circumferential side at the ejection outlet side in accordance with the rotation of the impeller (1). An impeller 1 provided with an inlet port communicating with each other in the ring-shaped channel 8 and the cold channel, a casing 2 provided with an outlet port, and a plurality of vanes 5 rotating opposite to the ring-shaped channel; In the vortex blower which consists of the prime mover 4 which drives the said impeller, the said wing | blade 5 is formed in three-dimensional shape, and the said impeller 1 is closer to the said prime mover, and the said casing | 2) vortex blower characterized in that the provision. Several blades for boosting the fluid by applying a turning flow between the ring-shaped flow path 8 and the casing 2 provided with an inlet, a discharge port communicating with each other in the ring-shaped flow path, and the ring-shaped flow path. (5) a vortex blower comprising a rotating impeller (1) and a prime mover (4) for rotating the impeller, wherein at least the inner circumference of the wing (5) has a central portion with respect to the impeller. It is formed so as to be inclined from the inner circumferential end, so that the ratio R ₁ / R ₂ of the radius R ₁ of the inner circumferential end of the impeller to the radius R ₂ of the outer circumferential end is 0.75 or less, and is set within 0.3 or more. Vortex blower characterized by one. The fluid is sucked into the ring-shaped flow path 8 formed in the casing 2 at the suction port, and is rotated between the ring-shaped flow path by rotating the impeller 1 having the plurality of blades 5. grant the flow to step-up the fluid used for the blower to discharge from the outlet, a blade axial inlet angle of the front edge of the inner peripheral end (5b) and the central portion (5c) of said blade (5) in each of r _1, r _c When the r ₁ and r _c are all smaller than 90 ° and r ₁ > r _c , the wing having at least the wing shape extending from the inner circumferential end of the wing 5 to the center part is curved. Characterized by the impeller. It is used for the blower which inhales the fluid into the ring-shaped flow path 8 formed in the casing 2 at the inlet port, gives a turning flow to boost the fluid and discharges it from the outlet port, and the axial angle of the front edge of the blade 5. It is characterized in that it has a plurality of wings formed in a curved shape so as to be smaller than 90 ° at the inner circumference of the wing and gradually smaller toward the central portion 5c at the inner circumferential edge 5b, and larger toward the outer circumference at the central portion. Impeller. In the impeller 1 provided with the guard plate 11 and the several blades 5 in the said guard plate, the said impeller 1 is comprised by manufacturing and combining said protection plate and the said blade separately, and manufacturing the impeller 1 characterized by the above-mentioned. Way. In the impeller 1 provided with the guard plate 111 and the several blades 5 in the said guard plate, the said guard plate and the said blade are manufactured separately, and the penetration plate 40 is provided in the said guard plate, and the koe is provided in the said wing. A method for manufacturing an impeller, comprising: providing a king protrusion (41), combining the protrusion and the penetration hole, and performing plastic working on the combination part to constitute the impeller. In the impeller 1 provided with the guard plate 11 and the several blades 5 in the said guard plate, the said guard plate and the said blade are manufactured separately, and the insertion plate is provided in the said guard plate, and the said blade 5 is inserted in the said A method for manufacturing an impeller, which comprises the impeller 1 by press-fitting into a groove. In the impeller 1 provided with the guard plate 11 and the several blades 5 in the said guard plate, it arrange | positions at predetermined intervals in the core 55 and the outer frame 58 which comprise the said blade 5, A method of manufacturing an impeller, characterized in that the impeller (1) is configured by injecting and solidifying a fluid between the core (55) and the outer frame (58). In the impeller 1 provided with the guard plate 11 and the several blade | wing 5 in the said guard plate, the said impeller unit body is manufactured by making a pair and an integral impeller unit body between the said guard plate and the said wing | blade between adjacent wings. A method for manufacturing an impeller, comprising the impeller 1 in combination. The method for manufacturing an impeller according to claim 21, wherein the core is divided into several parts. The method of manufacturing an impeller according to claim 18, wherein a filler or an adhesive is filled in corner portions of the protective plate (11) and the blade (5). ※ Note: The disclosure is based on the initial application.