CN210731594U - Position selecting and locking mechanism for full-automatic detection of cross-flow fan impeller - Google Patents

Abstract

The utility model discloses a cross flow fan impeller full-automatic detection's selection position locking mechanical system, including product positioner, location sensing subassembly, lower riding wheel rotary device, upper pinch roller device, to the laser detector, automatic screw machine, the integrated circuit control system that select the position to detect the fixed screw hole on the cross flow fan impeller; when the positioning sensing assembly is connected to the product positioning device at one end of the cross-flow fan impeller in a positioning mode, the lower supporting wheel rotating device is enabled to support the lower side of the cross-flow fan impeller and enable the upper pressing wheel device to touch and press the upper side of the cross-flow fan impeller through the integrated circuit control system, the lower supporting wheel rotating device is enabled to drive the cross-flow fan impeller to rotate and select positions, the lower supporting wheel rotating device stops rotating when the laser detector detects a fixed screw hole of the cross-flow fan impeller, and the automatic screw machine locks screws on the fixed screw hole. The utility model discloses owing to adopt full-automatic selection position and go up the structure that the screw fixation and dynamic balance detected, so the operation is simple and easy, low in production cost, detection efficiency height.

Description

Position selecting and locking mechanism for full-automatic detection of cross-flow fan impeller

Technical Field

The utility model relates to a cross flow fan impeller production field, especially a full automated inspection's of cross flow fan impeller selection position locking mechanical system.

Background

In the production process of the cross flow fan impeller, due to the influence of factors such as a process and processing equipment, the cross flow fan impeller is defective, so that the cross flow fan impeller needs to be comprehensively detected (such as axial and radial runout detection, dynamic balance detection and the like) to ensure the product quality. At present, when the axial and radial runout detection and dynamic balance detection of a cross-flow fan impeller are carried out by detection equipment, the end part of the cross-flow fan impeller is placed on a station, a positioning plate with a connecting rotating shaft is arranged on the station, then after the end part of the cross-flow fan impeller is sleeved on the connecting rotating shaft, a fixing screw hole is screwed and locked on the shaft sleeve through manpower, so that the cross-flow fan impeller is reliably connected on the connecting rotating shaft for detection, and after the detection is finished, the screw is manually disassembled and the cross-flow fan impeller is transported to the next station. The fixing method of manually and frequently screwing and unscrewing is time-consuming and labor-consuming, and has low detection efficiency. Some manufacturers insert expansion screws into shaft sleeves at the end parts of the cross-flow fan impellers for positioning, and then bring the expansion screws and the cross-flow fan impellers to rotate through a rotating mechanism for detection.

Disclosure of Invention

An object of the utility model is to above-mentioned problem and not enough, provide one kind and carry out full-automatic screw fixation, operation simple and easy to the cross flow fan impeller, can effectively improve detection efficiency, and the reliable full automated inspection's of structure locking positioning mechanism of cross flow fan impeller.

The technical scheme of the utility model is realized like this:

full automated inspection's of cross flow fan impeller selection position locking mechanical system, its characteristics are: the cross flow fan comprises a product positioning device, a positioning sensing assembly, a lower supporting wheel rotating device, a laser detector for carrying out position selection detection on a fixed screw hole on a cross flow fan impeller at a preset position, an automatic screw machine for carrying out screw locking on the fixed screw hole at the selected position, and an integrated circuit control system; when one end of the cross-flow fan impeller is connected to the product positioning device in a positioning mode, the positioning sensing assembly transmits sensed positioning information to the integrated circuit control system, the integrated circuit control system transmits instructions to enable the lower supporting wheel rotating device to support the lower side of the cross-flow fan impeller and enable the lower supporting wheel rotating device to drive the cross-flow fan impeller to rotate and select positions, when the laser detector detects a fixed screw hole of the cross-flow fan impeller at a preset position, the lower supporting wheel rotating device stops rotating, and an automatic screw machine locks screws on the fixed screw hole.

In order to make the operation more stable when the cross-flow fan impeller rotates and selects the position, an upper pinch roller device is arranged above the lower pinch roller rotating device and electrically connected with the integrated circuit control system, and the upper pinch roller device touches and presses the upper side of the cross-flow fan impeller under the instruction of the integrated circuit control system.

For making the utility model discloses simple structure, product positioner includes positioning baffle, installs the connection pivot on this positioning baffle. The positioning sensing assembly can be in various structures, for example, the positioning sensing assembly can be a positioning cylinder arranged on a positioning baffle, and a piston rod of the positioning cylinder forms a touch pressure sensing part; the positioning sensing assembly can also comprise a positioning cylinder arranged on the positioning baffle plate and a touch pressure sensing part arranged at the front end of a piston rod of the positioning cylinder and extending out of the positioning baffle plate. The product positioning device is characterized in that a shaft sleeve at the end part of the cross flow fan impeller is sleeved on the connecting rotating shaft, and a pressure sensing part is extruded when the end part of the cross flow fan impeller is close to the positioning baffle plate for axial positioning, and the pressure sensing part retracts and transmits positioning information to the integrated circuit control system through the positioning cylinder.

In order to facilitate the cross-flow fan impeller to realize automatic rotation detection, the positioning baffle is also provided with a rotation driving mechanism for driving the connecting rotating shaft to rotate so as to realize the rotation detection of the cross-flow fan impeller. The rotary driving mechanism can be a servo motor driving mechanism, and the servo motor driving mechanism is connected with the connecting rotating shaft through a transmission belt.

For making the utility model discloses the structure is more reliable and the operation is more steady when rotatory selection position, lower riding wheel rotary device includes lower bracket, device and is used for driving two lower riding wheels that the cross-flow fan impeller rotated the selection position on the lower bracket, rotatory servo motor, with rotatory servo motor's output shaft and the belt drive assembly or the chain drive assembly that the lower riding wheel is connected, rotatory servo motor with integrated circuit control system electric connection, rotatory servo motor makes the support to arrange the rotation of cross-flow fan impeller on two lower riding wheels when driving two lower riding wheels rotatory.

Further, the method comprises the following steps: the lower riding wheel rotating device is installed on a station supporting mechanism, the station supporting mechanism comprises a base, a material supporting cylinder and a station supporting frame, the material supporting cylinder is installed on the base and located at one end of the lower riding wheel rotating device, the station supporting frame is located above the material supporting cylinder, the lowest height of a supporting surface for placing a cross-flow fan impeller and the bottom of the base on the station supporting frame is larger than the height of the upper side of the lower riding wheel and the bottom of the base, a lifting cylinder is further arranged on the base and used for driving the lower riding wheel rotating device to lift, the lifting cylinder is electrically connected with the integrated circuit control system, and after the integrated circuit control system receives positioning information, the lower riding wheel rotating device lifts through the lifting cylinder to enable the lower riding wheel to be supported on the lower side of the cross-flow fan impeller.

Further, the method comprises the following steps: the integrated circuit control system receives the positioning information, then the upper pinch roller is enabled to downwards touch the upper side of the cross-flow fan impeller through the lower pressing cylinder, and the integrated circuit control system is used as a driven wheel to synchronously rotate when the lower riding wheel rotating device drives the cross-flow fan impeller to rotate and select positions. In order to prevent the upper pinch rollers from being in hard touch and hard contact with the cross-flow fan impeller when the upper pinch rollers move downwards and be suitable for the detection of the cross-flow fan impellers with various sizes, the lower end of the lower pinch cylinder is provided with two wheel seats, the upper pinch rollers are connected to the wheel seats in a way of moving up and down through wheel shafts, and the wheel shafts of the upper pinch rollers are connected with buffer springs.

The utility model discloses owing to adopt the structure that combines product positioner, lower riding wheel rotary device, laser detector and automatic screw machine, make the utility model discloses at the in-process that uses, earlier carry out axial and radial positioning back to through-flow fan impeller through product positioner and lower riding wheel rotary device, the rotatory selection position of rethread lower riding wheel rotary device drive through-flow fan impeller and utilize the laser detector to detect the fixed screw hole position on the through-flow fan impeller, utilize automatic screw machine to go up screw locking to the fixed screw hole after the selection position, thereby realize the full-automatic screw fixation of going up of through-flow fan impeller, the operation is very simple and easy, detection efficiency is high, the problem of frequently going up the screw and tearing open the screw through the manual work among the prior art has been solved effectively, operating time has greatly been saved, work efficiency has been improved and the cost of labor has been reduced. And dynamic balance detection is not affected. In addition the utility model discloses still adopt the structure of pinch roller device on riding wheel rotary device's top sets up down, make and go up the pinch roller device and touch pressure cross flow fan impeller upside and can rotate along with cross flow fan impeller under integrated circuit control system's instruction to it is more steady to operate when making the rotatory selection position of cross flow fan impeller. The utility model discloses the structure is reliable, and the processing ease can effectively ensure the quality of product, and detection efficiency is high again.

The present invention will be further described with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic structural view of another aspect of the present invention.

Fig. 3 is a schematic structural view of the cross flow fan impeller for dynamic balance detection according to the present invention.

Fig. 4 is a schematic front view of the automatic screw machine of fig. 3 without the automatic screw machine.

Detailed Description

As shown in fig. 1-4, the position-selecting locking mechanism for full-automatic detection of cross-flow fan impeller of the present invention comprises a product positioning device 1, a positioning sensing assembly, a lower supporting wheel rotating device 2, a laser detector 4 for performing position-selecting detection on a fixed screw hole on the cross-flow fan impeller at a predetermined position, an automatic screw machine 5 for performing screw locking on the fixed screw hole at the selected position, and an integrated circuit control system; when one end of a cross-flow fan impeller 6 is connected to a product positioning device 1 in a positioning mode, the positioning sensing assembly transmits sensed positioning information to an integrated circuit control system, the integrated circuit control system transmits an instruction to enable a lower supporting wheel rotating device 2 to support the lower side of the cross-flow fan impeller and enable the lower supporting wheel rotating device 2 to drive the cross-flow fan impeller to rotate and select positions, a laser detector 4 detects a fixed screw hole in the cross-flow fan impeller at a preset position while the cross-flow fan impeller rotates, when the laser detector 4 detects that the fixed screw hole rotates to the preset position, the information is transmitted to the integrated circuit control system, the lower supporting wheel rotating device 2 stops rotating through the integrated circuit control system, and then an automatic screw machine 5 locks screws on the fixed screw hole. The technical scheme is that an upper pinch roller device 3 is further arranged above a lower pinch roller rotating device 2, the upper pinch roller device 3 is electrically connected with an integrated circuit control system, when one end of a cross-flow fan impeller 6 is connected to a product positioning device 1 in a positioning mode, a positioning sensing assembly transmits sensed positioning information to the integrated circuit control system, the integrated circuit control system transmits instructions to enable the lower pinch roller rotating device 2 to support the lower side of the cross-flow fan impeller and enable the upper pinch roller device 3 to touch and press the upper side of the cross-flow fan impeller, the lower pinch roller rotating device 2 drives the cross-flow fan impeller to rotate and select positions, and when the cross-flow fan impeller rotates, a laser detector 4 detects fixed screw holes in the cross-flow fan impeller at a preset position. When the laser detector 4 detects that the fixed screw hole rotates to a preset position, the information is transmitted to the integrated circuit control system, the lower supporting wheel rotating device 2 stops rotating through the integrated circuit control system, and then the automatic screw machine 5 locks the screw on the fixed screw hole. Generally, a screwdriver mouth of an automatic screw machine 5 moves downwards to a preset position to lock screws on fixed screw holes, so that a cross-flow fan impeller is reliably connected to the product positioning device 1. And returning the screwdriver mouth after the screw is fed. In the embodiment, when the cross-flow fan impeller rotates and selects the position, the lower side supporting top of the lower supporting wheel device and the upper side of the upper pressing wheel device are contacted and supported, so the rotating operation is stable. After the through-flow fan impeller dynamic balance detection is finished, the position of a fixed screw hole is detected by a laser detector 4, and a screw is taken out by an automatic screw machine 5. The whole process is fully automatic, so the operation is very simple and easy, and the working efficiency is high. As for the specific structure of the automatic screw machine, since the existing automatic screw machine is adopted, it will not be described in detail herein. The example used a commercially available schneider 400W automatic screw machine.

The specific structures of the product positioning device 1 and the positioning sensing assembly can be set as required, and for the simple structure of the product positioning device 1, the product positioning device comprises a positioning baffle plate 11 and a connecting rotating shaft 12 arranged on the positioning baffle plate 11. The positioning sensing assembly can be a positioning cylinder 13 arranged on the positioning baffle plate 11, a piston rod of the positioning cylinder 13 extends out of the positioning baffle plate 11 to form a touch pressure sensing part, the end part of the cross flow fan impeller of the product positioning device 1 is sleeved on the connecting rotating shaft 12 in a shaft sleeve mode, the end part of the cross flow fan impeller is extruded to touch the touch pressure sensing part when being tightly close to the positioning baffle plate 11 for axial positioning, and the piston rod retracts and transmits positioning information to the integrated circuit control system through the positioning cylinder 13. As shown in fig. 3, the positioning sensing assembly may further include a positioning cylinder 13 mounted on the positioning baffle 11, and a pressure sensing part mounted at the front end of a piston rod of the positioning cylinder 13 and extending out of the positioning baffle 11, the product positioning device 1 presses the pressure sensing part when the end portion of the cross flow fan impeller is sleeved on the connecting rotating shaft 12 and the end portion of the cross flow fan impeller abuts against the positioning baffle 11 for axial positioning, and the piston rod retracts and transmits positioning information to the integrated circuit control system through the positioning cylinder 13. Of course, the positioning sensing assembly may have other structures, which are not listed here. In order to make the dynamic balance detection more convenient and improve the detection efficiency, the positioning baffle 11 is further provided with a rotary driving mechanism 14 and a laser detection rotator which drive the connecting rotating shaft 12 to rotate so as to realize the rotation detection of the cross-flow fan impeller.

For further messenger the utility model discloses operate steadily when the structure is reliable and rotatory selection position, riding wheel rotary device 2 includes lower bracket 21, install and be used for on lower bracket 21 to drive two lower riding wheels 22, the rotatory servo motor 23 of cross-flow fan impeller rotation selection position, with the output shaft of rotatory servo motor 23 and the belt drive assembly or the chain drive assembly that lower riding wheel 22 is connected, rotatory servo motor 23 with integrated circuit control system electric connection, rotatory servo motor 23 impels when driving two lower riding wheels 22 rotatory to hold in the palm the rotation of cross-flow fan impeller of arranging on two lower riding wheels 22. Further, the lower riding wheel rotating device 2 is arranged on a station supporting mechanism 7, the station supporting mechanism 7 comprises a base 71, a material supporting cylinder 72 arranged on the base 71 and positioned at one end of the lower riding wheel rotating device 2, and a station supporting frame 73 positioned above the material supporting cylinder 72, the lowest height between the support surface 731 for placing the cross flow fan impeller and the bottom of the base 71 on the station support frame 73 is greater than the height between the upper side of the lower riding wheel 22 and the bottom of the base, the base 71 is also provided with a lifting cylinder 8 for driving the lower riding wheel rotating device 2 to ascend, the ascending cylinder 8 is electrically connected with the integrated circuit control system, after the integrated circuit control system receives the positioning information transmitted by the positioning sensing component, the lift cylinder 8 lifts the lower idler rotating device 2 to cause the lower idler 22 to be supported on the lower side of the cross flow fan impeller. To prevent the cross flow fan impeller from automatically rolling on the station, the upper end of the station support bracket 73 is generally configured as a V-shaped or U-shaped bracket.

The upper pinch roller device 3 can also have various structures, and in order to make the structure simple, the upper pinch roller device 3 comprises an upper mounting seat 31, an upper pinch roller 32 arranged on the upper mounting seat 31 and a lower pinch roller 33 driving the upper pinch roller 32 to move downwards, the lower pinch roller 33 is electrically connected with the integrated circuit control system, and after the integrated circuit control system receives positioning information transmitted by a positioning sensing assembly, the upper pinch roller 32 moves downwards to touch and press the upper side of a cross-flow fan impeller through the lower pinch roller 33, and the integrated circuit control system is used as a driven wheel to synchronously rotate when the lower riding wheel rotating device drives the cross-flow fan impeller to rotate and select positions. In order to prevent the upper pressing wheels from being in hard touch and hard contact with the cross-flow fan impeller when the upper pressing wheels move downwards and be suitable for the detection of the cross-flow fan impellers with various sizes, the lower end of the lower pressing cylinder 33 is provided with a wheel seat, the number of the upper pressing wheels 32 is two, the two upper pressing wheels are arranged in parallel, and the upper pressing wheels are generally pressed on two sides of the upper side of the cross-flow fan impeller when the upper pressing wheels move downwards. Each upper pressing wheel 32 is connected to the wheel base through a wheel shaft in a way of moving up and down, and a buffer spring 34 is connected to the wheel shaft of the upper pressing wheel 32. The automatic screw machine 5 is mounted on the upper mounting seat 31 and located at a side position of the upper pressing wheel 32, and preferably, a screwdriver mouth of the automatic screw machine 5 is located above a predetermined position (or a selected position) of the fixed screw hole.

The utility model discloses a theory of operation is: the cross-flow fan impeller 6 is placed on a V-shaped station support frame to be close to a product positioning device, a piston rod of a positioning cylinder arranged on a positioning baffle plate 11 retracts (naturally, the positioning cylinder retracts and belongs to the same), and positioning information is transmitted to an integrated circuit control system, the integrated circuit control system sends an instruction to enable a lifting cylinder 8 to extend upwards, so that two lower riding wheels in a lower riding wheel rotating device are lifted and respectively prop against the two lower side positions of the cross-flow fan impeller 6; meanwhile, the lower pressing cylinder 33 also extends downwards to enable the two upper pressing wheels 32 to respectively touch and press the two sides of the upper side of the cross-flow fan impeller 6; then the rotary servo motor 23 rotates to drive the two lower pinch rollers to rotate, and simultaneously the cross flow fan impeller rotates to select positions, and the two upper pinch rollers 32 also synchronously rotate along with the cross flow fan impeller; during the rotation and position selection of the cross flow fan impeller, the laser detector identifies (detects) the position of the fixing screw hole. When the laser detector detects that the fixed screw hole rotates to a preset position corresponding to the automatic screw machine, the lower supporting wheel and the cross-flow fan impeller stop rotating, and at the moment, the automatic screw machine is used for screwing the fixed screw hole, so that the end shaft sleeve of the cross-flow fan impeller is reliably locked on the connecting rotating shaft. After the screw is locked, the ascending cylinder and the descending cylinder are reset through the integrated circuit control system. The cross flow fan impeller can rotate under the action of the rotation driving mechanism 14 and is combined with the laser detection rotator to carry out dynamic balance detection. After the dynamic balance detection is finished, the position of the fixed screw hole is detected by the laser detector 4, and the screw is taken down by using an automatic screw machine, so that the operation is very convenient.

Although the present invention has been described with reference to particular embodiments, such description is not intended to be construed in a limiting sense. Other variations of the disclosed embodiments, as would be appreciated by those skilled in the art, are contemplated by reference to the description of the invention and are intended to be within the scope of the following claims.

Claims (10)

1. The utility model provides a full automated inspection's of cross flow fan impeller selection bit locking mechanical system which characterized in that: the cross flow fan positioning device comprises a product positioning device (1), a positioning sensing assembly, a lower supporting wheel rotating device (2), a laser detector (4) for carrying out position selection detection on a fixed screw hole on a cross flow fan impeller at a preset position, an automatic screw machine (5) for carrying out screw locking on the fixed screw hole detected by the position selection, and an integrated circuit control system; the positioning sensing assembly transmits sensed positioning information to an integrated circuit control system when one end of a cross-flow fan impeller (6) is connected to a product positioning device (1) in a positioning mode, the integrated circuit control system transmits instructions to enable a lower supporting wheel rotating device (2) to support the lower side of the cross-flow fan impeller and enable the lower supporting wheel rotating device (2) to drive the cross-flow fan impeller to rotate and select positions, when a laser detector (4) detects a fixed screw hole of the cross-flow fan impeller at a preset position, the lower supporting wheel rotating device (2) stops rotating through the integrated circuit control system, and an automatic screw machine (5) locks screws on the fixed screw hole.

2. The cross-flow fan impeller full-automatic detection position selection locking mechanism according to claim 1, characterized in that: an upper pinch roller device (3) is arranged above the lower riding wheel rotating device (2), the upper pinch roller device (3) is electrically connected with the integrated circuit control system, and the upper pinch roller device (3) touches and presses the upper side of the cross-flow fan impeller under the instruction of the integrated circuit control system.

3. The cross-flow fan impeller full-automatic detection position selection locking mechanism according to claim 1, characterized in that: the product positioning device (1) comprises a positioning baffle (11) and a connecting rotating shaft (12) arranged on the positioning baffle (11), the positioning sensing assembly comprises a positioning cylinder (13) arranged on the positioning baffle (11), a piston rod of the positioning cylinder (13) extends out of the positioning baffle (11) to form a touch pressure sensing part, the product positioning device (1) is sleeved on the connecting rotating shaft (12) at the end part of a cross flow fan impeller in a shaft sleeve mode and extrudes the touch pressure sensing part when the end part of the cross flow fan impeller is close to the positioning baffle (11) to perform axial positioning, and the piston rod retracts and transmits positioning information to the integrated circuit control system through the positioning cylinder (13).

4. The cross-flow fan impeller full-automatic detection position selection locking mechanism according to claim 1, characterized in that: the product positioning device (1) comprises a positioning baffle plate (11) and a connecting rotating shaft (12) arranged on the positioning baffle plate (11), the positioning sensing assembly comprises a positioning cylinder (13) arranged on the positioning baffle plate (11) and a pressure sensing part arranged at the front end of a piston rod of the positioning cylinder (13) and extending out of the positioning baffle plate (11), the product positioning device (1) is sleeved on the connecting rotating shaft (12) at the end part of a cross flow fan impeller in a shaft sleeve mode and extrudes the pressure sensing part when the end part of the cross flow fan impeller is close to the positioning baffle plate (11) to perform axial positioning, and the piston rod retracts and transmits positioning information to the integrated circuit control system through the positioning cylinder (13).

5. The cross-flow fan impeller full-automatic detection position selection locking mechanism according to claim 3 or 4, characterized in that: and the positioning baffle (11) is also provided with a rotary driving mechanism (14) for driving the connecting rotating shaft (12) to rotate so as to realize the rotation detection of the cross-flow fan impeller.

6. The cross-flow fan impeller full-automatic detection position selection locking mechanism according to claim 1, characterized in that: the lower supporting wheel rotating device (2) comprises a lower supporting seat (21), two lower supporting wheels (22) which are arranged on the lower supporting seat (21) and used for driving the cross-flow fan impeller to rotate and select positions, a rotating servo motor (23), and a belt transmission assembly or a chain transmission assembly which is connected with an output shaft of the rotating servo motor (23) and the lower supporting wheels (22), wherein the rotating servo motor (23) is electrically connected with the integrated circuit control system, and the rotating servo motor (23) drives the cross-flow fan impeller supported on the two lower supporting wheels (22) to rotate when driving the two lower supporting wheels (22) to rotate.

7. The cross-flow fan impeller full-automatic detection position selection locking mechanism according to claim 6, characterized in that: the lower riding wheel rotating device (2) is arranged on a station supporting mechanism (7), the station supporting mechanism (7) comprises a base (71), a material supporting cylinder (72) arranged on the base (71) and positioned at one end of the lower riding wheel rotating device (2), and a station supporting frame (73) positioned above the material supporting cylinder (72), the lowest height between a supporting surface (731) for placing a cross-flow fan impeller and the bottom of the base (71) on the station supporting frame (73) is larger than the height between the upper side of the lower riding wheel (22) and the bottom of the base, a lifting cylinder (8) for driving the lower riding wheel rotating device (2) to lift is further arranged on the base (71), the lifting cylinder (8) is electrically connected with the integrated circuit control system, and the integrated circuit control system receives positioning information transmitted by the positioning sensing assembly, the lower riding wheel rotating device (2) is lifted by the lifting cylinder (8) to cause the lower riding wheel (22) to be propped against the lower side of the cross-flow fan impeller.

8. The cross-flow fan impeller full-automatic detection position selection locking mechanism according to claim 2, characterized in that: the upper pinch roller device (3) comprises an upper mounting seat (31), an upper pinch roller (32) arranged on the upper mounting seat (31) and a lower air cylinder (33) driving the upper pinch roller (32) to move downwards, the lower air cylinder (33) is electrically connected with the integrated circuit control system, and after the integrated circuit control system receives positioning information transmitted by the positioning sensing assembly, the upper pinch roller (32) is made to downwards touch and press the upper side of the cross-flow fan impeller through the lower air cylinder (33), and the integrated circuit control system is used as a driven wheel to synchronously rotate when the lower riding wheel rotating device drives the cross-flow fan impeller to rotate and select positions.

9. The cross-flow fan impeller full-automatic detection position selection locking mechanism according to claim 8, characterized in that: the lower end of the lower pressing cylinder (33) is provided with two wheel seats, the upper pressing wheels (32) are connected to the wheel seats in a vertically movable mode through wheel shafts, and the wheel shafts of the upper pressing wheels (32) are connected with buffer springs (34).

10. The cross-flow fan impeller full-automatic detection position selection locking mechanism according to claim 8, characterized in that: the automatic screw machine (5) is arranged on the upper mounting seat (31) and is positioned at one side of the upper pressing wheel (32), and the screwdriver mouth of the automatic screw machine (5) is positioned above the preset position of the fixed screw hole.

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