CN-224208393-U - Impeller and casing equipment

Abstract

The utility model belongs to the technical field of impeller manufacturing, and particularly relates to impeller and casing assembling equipment, which comprises a rotating mechanism, an impeller gluing mechanism, a conveying mechanism and a pressing mechanism, wherein a plurality of mounting parts for mounting impellers are arranged along the circumferential direction, a gluing position, a detecting position and an impeller transferring position are sequentially arranged along the rotating path of the rotating mechanism, the impeller gluing mechanism comprises a gluing executing component for gluing impellers and a gluing detecting component for detecting gluing results, the gluing executing component is adjacent to the gluing position, the gluing detecting component is adjacent to the detecting position, the rotating mechanism is used for moving the glued impellers from the detecting position to the impeller transferring position in response to the detection results of the gluing detecting component being qualified, the impeller transferring mechanism is used for sequentially arranging the upper material level and the pressing position of the casings along the conveying path of the impeller transferring mechanism, the casings output from the upper material level of the casings are moved to the pressing position, and the pressing mechanism is used for pressing the casings into the impellers. The utility model can realize automatic press mounting of the impeller and the shell, ensure the uniformity of gluing the impeller, and ensure the concentricity of press mounting of the impeller and the shell.

Inventors

• YANG ZHONGYING
• CHENG YONGLIN

Assignees

• 光翼动力科技(苏州)有限公司

Dates

Publication Date

20260508

Application Date

20250403

Claims (11)

1. 1. An impeller and casing assembly apparatus comprising: the rotating mechanism is provided with a plurality of mounting parts for mounting impellers along the circumferential direction, and a gluing position, a detecting position and an impeller transferring position are sequentially arranged along the rotating path of the rotating mechanism; The impeller gluing mechanism comprises a gluing execution assembly for gluing the impeller and a gluing detection assembly for detecting gluing results, wherein the gluing execution assembly is adjacent to the gluing position, the gluing detection assembly is adjacent to the detection position, and the rotating mechanism moves the glued impeller from the detection position to the impeller transferring position in response to the qualified detection result of the gluing detection assembly; The impeller transferring mechanism is adjacent to the impeller transferring position and is used for moving the glued impellers on the mounting part from the impeller transferring position to the press mounting position; The conveying mechanism is sequentially provided with a shell feeding position and the press-fit position along a conveying path, and the shell output from the shell feeding position is moved to the press-fit position; and the press-fitting mechanism is adjacent to the press-fitting position and is used for pressing the shell into the impeller.
2. 2. The impeller and casing assembly apparatus of claim 1, wherein the impeller gluing mechanism further comprises a gluing rotation assembly disposed at the gluing position for rotating the mounting portion at the gluing position to drive the impeller to rotate along its own axis.
3. 3. The impeller and casing assembly apparatus of claim 2, wherein the glue rotating assembly includes an impeller rotating member and an impeller lifting member, the impeller lifting member driving the mounting portion to rise and fall, the impeller rotating member driving the mounting portion to rotate.
4. 4. The impeller and casing assembly apparatus of claim 1, wherein the glue application executing assembly includes a glue application stand, and a glue application adjusting member and a glue application member disposed on the glue application stand, the glue application adjusting member being configured to adjust a posture of the glue application member.
5. 5. The impeller and housing assembly apparatus of claim 1, wherein the impeller transfer mechanism includes a first transfer member configured to move the glued impeller on the mounting portion from the impeller transfer station to a transfer station and a second transfer member configured to move the glued impeller from the transfer station to the press-fit station.
6. 6. The impeller and housing assembly apparatus of claim 5 wherein the first transfer member includes a first transfer member, a lateral transfer assembly and a lifting transfer assembly, the lateral transfer assembly driving the first transfer member to reciprocate in a lateral direction, the lifting transfer assembly driving the first transfer member to reciprocate, the first transfer member having a transfer claw for transferring the impeller, the second transfer member including a second transfer member and a longitudinal transfer assembly, the longitudinal transfer assembly driving the second transfer member to reciprocate in a longitudinal direction, the second transfer member having a receiving location for receiving the impeller.
7. 7. The impeller and casing assembling apparatus according to claim 1, wherein the carrying mechanism includes a plurality of carrying positions arranged in a lateral direction, one part of the carrying positions being provided with casing carrying claws, and the other part of the carrying positions being provided with impeller carrying claws.
8. 8. The impeller and casing assembly apparatus of claim 7, wherein the carrying mechanism comprises a frame, a transverse driving assembly, a longitudinal driving assembly and a lifting driving assembly, a plurality of carrying positions are arranged on the frame, the transverse driving assembly drives the carrying positions to reciprocate along the transverse direction, the longitudinal driving assembly drives the carrying positions to reciprocate along the longitudinal direction, and the lifting driving assembly drives the carrying positions to move up and down.
9. 9. The impeller and casing assembling apparatus according to claim 1, wherein the press-fitting mechanism includes a press-fitting holder, a press-fitting driving assembly provided on the press-fitting holder, and a press-fitting member, a press-fitting portion is provided at a front end of the press-fitting member, the carrier mechanism mounts the casing on the press-fitting portion, and the press-fitting driving assembly drives the press-fitting member to make a lifting movement to press-fit the casing onto the impeller.
10. 10. The impeller and casing assembly apparatus of claim 9, wherein the press-fit driving assembly includes a press-fit motor, a press-fit screw, a press-fit guide rail, and a press-fit slider, an output end of the press-fit motor is connected to the press-fit screw, the press-fit slider is slidably disposed on the press-fit guide rail and is screwed to the press-fit screw, and a rear end of the press-fit member is connected to the press-fit slider.
11. 11. The impeller and casing assembly apparatus of claim 10, wherein the press-fit driving assembly further comprises a press-fit guiding post and a press-fit plate, the press-fit guiding post is fixedly arranged on the press-fit fixing frame, the press-fit plate is slidably arranged on the press-fit guiding post, and the front end of the press-fit member is connected to the press-fit plate.

Description

Impeller and casing equipment Technical Field The utility model belongs to the technical field of impeller manufacturing, and particularly relates to impeller and casing assembling equipment. Background The press-fitting technology of the impeller and the casing is generally used for manufacturing parts such as a generator, a fan (such as a centrifugal fan and an axial flow fan), a compressor (such as an air compression and refrigeration compressor), a pump (such as a centrifugal pump and a mixed flow pump) and the like, and is widely applied to various industrial fields such as ventilation, air conditioning, electric power, chemical industry and the like. The impeller is used as a core component, the assembly quality of the impeller and the shell directly influences the performance of the equipment, and the accurate matching and fixing of the impeller and the shell are required to be ensured so as to ensure the performance and reliability of the product. At present, the assembly of the impeller and the casing mainly depends on manual operation. The operation worker firstly places the impeller on the dispensing jig for dispensing, and then manually presses the shell (iron shell) provided with the magnetic ring into the hub of the opening at the upper end of the impeller to complete assembly. The traditional feeding and press-mounting mode has the defects that on one hand, the uniformity of glue coating is difficult to ensure by manual glue coating, necessary detection means are lacked, the glue coating degree is judged only subjectively, inclination is easy to occur in the process of placing the shell by manual operation, concentricity of the impeller and the shell during press-mounting is difficult to ensure, and on the other hand, the manual press-mounting process completely depends on personal hand feeling of workers, so that defective product rate is high, and production efficiency and product quality are seriously affected. Disclosure of utility model In view of the above shortcomings in the prior art, the present utility model aims to provide an impeller and casing assembly device, which is used for solving the technical problem that concentricity is difficult to ensure by manual lamination in the prior art. To achieve the above and other related objects, the present utility model provides the following technical solutions: An impeller and casing assembly apparatus comprising: The rotating mechanism is provided with a plurality of mounting parts for mounting impellers along the circumferential direction, and a gluing position, a detecting position and an impeller transferring position are sequentially arranged along the rotating path of the rotating mechanism; the impeller gluing mechanism comprises a gluing execution assembly for gluing the impeller and a gluing detection assembly for detecting gluing results, wherein the gluing execution assembly is close to a gluing position, the gluing detection assembly is close to a detection position, and the rotating mechanism moves the glued impeller from detection displacement to an impeller transferring position in response to the detection result of the gluing detection assembly being qualified; The impeller transferring mechanism is close to the impeller transferring position and is used for moving the glued impellers on the mounting part from the impeller transferring position to the press mounting position; The conveying mechanism is sequentially provided with a shell feeding position and a press-fit position along a conveying path, and the shell output from the shell feeding position is moved to the press-fit position; and the press-fitting mechanism is close to the press-fitting position and is used for press-fitting the casing into the impeller. According to the structure, the gluing position, the detection position and the impeller transferring position are arranged on the rotating path of the rotating mechanism, the gluing executing assembly is arranged on the gluing position to automatically glue the impellers, the gluing detecting assembly is arranged on the detection position to detect gluing results, so that qualified impellers can be conveniently and rapidly screened out, the coating of the impellers is guaranteed to meet the requirements, the assembly of the impellers and the machine shell is facilitated, the impeller transferring mechanism is arranged to facilitate the transfer of the glued impellers on the rotating mechanism from the impeller transferring position to the press mounting position, the impellers are accurately arranged at the press mounting position through the impeller transferring mechanism, the coaxial alignment of the follow-up impellers and the machine shell is facilitated, the machine shell is arranged on the press mounting mechanism through the conveying mechanism, the machine shell is driven to be pressed onto the impellers through the press mounting mechanism, the machine shell and the impellers are guaranteed to be i