CN117532317A - Fan blade assembly equipment convenient to angle regulation - Google Patents

Abstract

The invention relates to fan blade assembly equipment convenient for angle adjustment, which comprises an operation platform, wherein a servo motor is arranged at the top of the operation platform, the output end of the servo motor is connected with a turntable, a plurality of alignment adjustment bases are circumferentially arranged at the top of the turntable, a plurality of concave openings are formed in the top of the alignment adjustment bases, a driving motor and two bracket components positioned at one side of the driving motor are arranged at the bottom wall of each concave opening, a round rod is connected to the end part of each bracket component through a bearing, a linkage bevel gear and a friction roller are fixedly sleeved on the surface of each round rod, a rotating bevel gear meshed with the linkage bevel gear is connected to the output end of the driving motor, and the alignment angle of a fan shell and an impeller part which are respectively arranged on the surfaces of the alignment adjustment bases can be adjusted by utilizing the alignment adjustment bases, so that the fan shell and the impeller part can maintain correct clamping positions, and further subsequent automatic screwing operation is convenient.

Description

Fan blade assembly equipment convenient to angle regulation

Technical Field

The invention relates to fan blade assembly equipment convenient for angle adjustment, in particular to fan blade assembly equipment convenient for angle adjustment, which is applied to the field of fan assembly.

Background

The fan is a machine for compressing and delivering gas, from the energy point of view, the fan is a machine for converting the mechanical energy of a prime motor into gas energy, and the fan generally consists of a machine shell part and an impeller part, wherein the machine shell part and the impeller part are connected in a bolt screwing mode when being assembled, but the machine shell part and the impeller part are aligned by manual adjustment, and then bolting treatment of the machine shell part and the impeller part can be automatically completed by means of an electric screwdriver, so that the assembly efficiency is low.

In order to solve the problem of assembly efficiency, a certain fan assembly device in the market adopts an automatic splicing design and has a certain market occupation ratio.

The invention discloses a fan blade assembling device, which comprises a workbench, wherein a working surface is arranged on the workbench, a top plate is arranged above the working surface, the top plate is connected with the workbench through a stand column, the bottom side of the top plate is connected with a lifting plate through a lifting mechanism, the bottom side of the lifting plate is connected with a blade positioning die through a bearing, a positioning shaft sleeve is arranged on the working surface, a rotation adjusting assembly is connected with the positioning shaft sleeve in a transmission manner, the rotation axis of the positioning shaft sleeve is arranged in the vertical direction, and a blade feeding mechanism and a welding mechanism are arranged beside the positioning shaft sleeve.

When the equipment is used for assembling the machine shell part and the impeller part, as the machine shell part commonly has the clamping limiting structure matched with the impeller part, the alignment of the machine shell part and the impeller part is difficult to realize by single feeding operation, and the alignment treatment of the machine shell part and the impeller part can be ensured only by corresponding angle adjustment.

Content of the application

Aiming at the prior art, the invention aims to solve the technical problem that on the premise of ensuring the assembly automation of the fan shell part and the impeller part, the angle adjustment is carried out on the shell part and the impeller part during feeding so as to ensure the alignment of the shell part and the impeller part, thereby ensuring the accuracy of the assembly operation.

In order to solve the problems, the invention provides fan blade assembly equipment convenient for adjusting angles, which comprises an operation platform, wherein a servo motor is arranged at the top of the operation platform, the output end of the servo motor is connected with a turntable, a plurality of alignment adjustment bases are circumferentially arranged at the top of the turntable, a plurality of concave openings are formed in the top of the alignment adjustment bases, a driving motor and two bracket assemblies positioned at one side of the driving motor are arranged at the bottom wall of each concave opening, the end parts of the bracket assemblies are connected with round rods through bearings, a linkage bevel gear and a friction roller are fixedly sleeved on the surfaces of the round rods, and a rotating bevel gear meshed with the linkage bevel gear is connected at the output end of the driving motor.

In the fan blade assembly equipment convenient for angle adjustment, the alignment adjustment base is utilized, so that the fan shell and the impeller part which are placed on the surface of the alignment adjustment base in a stepping way can be subjected to angle adjustment, the fan shell and the impeller part are ensured to maintain the correct clamping position, and further the subsequent automatic screwing operation is facilitated.

As a further improvement of the application, the bottom wall of the recess is provided with a sinking groove, and the sinking groove is positioned below the friction roller and in the middle of the two bracket components.

As a still further improvement of the application, the support assembly comprises a spring part, one end of the spring part is fixedly connected with the bottom wall of the concave opening, the top end of the spring part is connected with a support rod with an L-shaped cross section, and the tail end of the support rod is connected with a flange plate.

As the still further improvement of this application, the fan unit that is located the indent inboard has been placed at the top of alignment adjustment base, and the fan unit is including fan casing and impeller portion, and the surface surrounding of impeller portion installs the blade, and fan casing's internally mounted has the equipment constraint, and the roof of impeller portion is installed with equipment constraint assorted stopper.

As the still further improvement of this application, the unloading conveyer belt that is used for carrying fan unit is installed at operation platform's top, and operation platform's top is installed and is used for carrying the material loading conveyer belt of impeller portion, and unloading conveyer belt and material loading conveyer belt are arranged perpendicularly, and unloading conveyer belt and material loading conveyer belt all are located the outside of carousel, and operation platform's top one side is installed and is used for carrying the vibration dish batcher of fan casing.

As the still further improvement of this application, a plurality of pay-off support is installed at operation platform's top, and is located one side of unloading conveyer belt, material loading conveyer belt and vibration dish batcher respectively, and the surface mounting of pay-off support has the cylinder and arranges the slide rail perpendicularly with the pay-off support, and the surface sliding connection of slide rail has the flexible hydro-cylinder of being connected with the cylinder output, and the output of flexible hydro-cylinder is connected with the sucking disc.

As another improvement of this application, the surface mounting of friction roller has supplementary regulating unit, supplementary regulating unit is including cup jointing in the spacing dish on round bar surface, the diameter that the spacing dish is located the outside of friction roller and spacing dish is greater than the friction roller, the electric magnetic disk has been cup jointed on the surface of ring flange, and the electromagnetic disk is located the outside of spacing dish and with the surface laminating contact of spacing dish, the surface mounting that spacing dish is close to the electric magnetic disk has a plurality of contraction structures, the contraction assembly is including the linkage rope that runs through spacing dish, the spiral band of installing rubber material has been cup jointed to the friction roller, and the one end of linkage rope runs through the surface of connecting the spiral band.

As a further improvement supplement to the present application, the retraction assembly further comprises a guide rail, wherein the inside of the guide rail is slidably connected with a magnetic block, and a magnetic attraction effect is provided between the magnetic block and the electromagnetic disc.

As a further improvement supplement of the application, the surface of the spiral hoop and the surface of the friction roller are in sliding contact, a pressure sensor is mounted on the surface of one side, close to the friction roller, of the limiting disc in an embedded mode, and the pressure sensor is electrically connected with the electromagnetic disc.

To sum up, this application utilizes alignment adjustment base, driving motor, rotation bevel gear, linkage bevel gear and friction roller, can be when fan casing and impeller portion that the substep was placed are in the non-effective alignment state, carry out the angle adjustment, so that the stopper can effective joint inside the equipment constraint, and can be in under the inclined joint state with impeller portion at the fan casing, utilize auxiliary regulation unit to adjust, make the stopper can correctly and effectively the joint inside the equipment constraint, and then reduce manual adjustment, when promoting this assembly equipment automation degree, guarantee assembly accuracy.

Drawings

FIG. 1 is a schematic view showing the overall structure of embodiment 1 of the present application;

FIG. 2 is a mounting block diagram of the operating platform and feed carriage of embodiment 1 of the present application;

FIG. 3 is a schematic view of a fan housing, stopper, impeller portion and assembly constraint installation of embodiment 1 of the present application;

FIG. 4 is a schematic view of an alignment adjustment base mounting structure according to embodiment 1 of the present application;

FIG. 5 is an enlarged schematic view of embodiment 1 of the present application at A in FIG. 4;

FIG. 6 is a schematic view showing a stopper according to embodiment 1 of the present application placed on a top surface of an assembly restraint;

fig. 7 is a schematic view illustrating a state that a stopper according to embodiment 1 of the present application is clamped inside an assembly constraint member;

fig. 8 is a schematic structural view of embodiment 2 of the present application;

fig. 9 is a schematic view showing the installation of the auxiliary adjusting unit according to embodiment 2 of the present application

Fig. 10 is a schematic view showing an operation state of the auxiliary adjusting unit according to embodiment 2 of the present application;

fig. 11 is a schematic view illustrating an operation state of embodiment 2 of the present application.

The reference numerals in the figures illustrate:

1. an operating platform; 2. a blanking conveyor belt; 3. a feeding conveyor belt; 4. a turntable; 5. aligning the adjustment base; 51. a recessed opening; 52. a spring member; 53. a bracket rod; 54. a drive motor; 55. rotating the bevel gear; 56. a linkage bevel gear; 57. a friction roller; 511. a sinking groove; 6. a feeding bracket; 61. a cylinder; 62. a slide rail; 63. a telescopic oil cylinder; 64. a suction cup; 7. a fan housing; 71. a limiting block; 72. an impeller section; 73. assembling the restraint; 8. an auxiliary adjusting unit; 81. a limiting disc; 82. an electric magnetic disk; 83. a guide rail; 84. a spiral band; 85. a magnetic block; 86. a linkage rope.

Detailed Description

The following describes 2 embodiments of the present application in detail with reference to the accompanying drawings.

Embodiment 1:

fig. 1-7 show a fan blade assembly equipment convenient to angle regulation, including operation platform 1, servo motor is installed at operation platform 1's top, servo motor's output is connected with carousel 4, a plurality of alignment adjustment base 5 are installed around the top of carousel 4, alignment adjustment base 5's top is equipped with a plurality of sunk ports 51, driving motor 54 and two support components that are located driving motor 54 one side are installed to the diapire of sunk ports 51, the tip of support component is connected with the round bar through the bearing, the fixed surface of round bar has cup jointed linkage bevel gear 56 and friction roller 57, driving motor 54's output is connected with the rotation bevel gear 55 with linkage bevel gear 56 intermeshing.

The bottom wall of the recess 51 is provided with a sink 511, and the sink 511 is located below the friction roller 57, and the sink 511 is located in the middle of the two bracket assemblies.

The bracket component comprises a spring piece 52 with one end fixedly connected to the bottom wall of the concave opening 51, the top end of the spring piece 52 is connected with a bracket rod 53 with an L-shaped cross section, and the tail end of the bracket rod 53 is connected with a flange plate.

Specifically, in the feeding process, the fan casing 7 and the impeller portion 72 are placed on the top of the alignment adjustment base 5 step by step, so that there is a problem that the assembly constraint member 73 and the limiting block 71 are difficult to align, but when the alignment operation of the fan casing 7 and the impeller portion 72 is performed, the assembly constraint member 73 and the limiting block 71 need to be ensured to be clamped in the vertical direction;

the rotating bevel gear 55 is driven to rotate under the action of the driving motor 54, the linkage bevel gear 56 is driven to rotate under the meshing action, and the friction roller 57 is driven to rotate, because the blades on the surface of the impeller part 72 are designed to gradually climb from the outer end to the inner end, and the rotating bevel gear 55 is positioned below the higher area of the blades and the friction roller 57 is positioned below the lower area of the blades, when the assembling constraint piece 73 and the limiting block 71 are placed in a staggered mode, the blades on the surface of the impeller part 72 are pressed on the surface of the friction roller 57, the impeller part 72 is adjusted in the horizontal direction by virtue of the friction action of the friction roller 57 and the surface of the blades and the rotation driving action of the friction roller 57 until the assembling constraint piece 73 and the limiting block 71 realize the embedded joint, the impeller part 72 is descended and extrudes to drive the friction roller 57 to fall, so that the linkage bevel gear 56 is separated from the rotating bevel gear 55 and corresponding meshing transmission is lost (and the rotating bevel gear 55 and the lower area of the blades are not contacted with the surfaces of the blades at the moment, so that the position of the impeller part 72 is not influenced), and the angle adjustment influenced is realized;

the design of the sinking groove 511 facilitates the subsequent sedimentation of the friction roller 57;

the support assembly has a certain compression deformation capacity due to the spring member 52, so that the pressing and sedimentation of the friction roller 57 can be smoothly performed and can be reset by means of elastic action to be subjected to the next angle adjustment treatment.

The fan unit that is located the inboard of recessed opening 51 is placed at the top of alignment adjustment base 5, and the fan unit is including fan casing 7 and impeller portion 72, and the surface of impeller portion 72 encircles and installs the blade, and the internally mounted of fan casing 7 has equipment restraint 73, and the stopper 71 with equipment restraint 73 assorted is installed to the roof of impeller portion 72.

Specifically, the fan casing 7 and the impeller portion 72 are provided with bolt screw holes penetrating through the fan casing 7 and the impeller portion 72, so that automatic screwing operation of the subsequent electric screwdriver is facilitated, and in addition, the assembly constraint piece 73 and the limiting block 71 are used for assisting in aligning the fan casing 7 and the impeller portion 72.

The unloading conveyer belt 2 that is used for carrying fan unit is installed at the top of operation platform 1, and the material loading conveyer belt 3 that is used for carrying impeller portion 72 is installed at the top of operation platform 1, and unloading conveyer belt 2 and material loading conveyer belt 3 are arranged perpendicularly, and unloading conveyer belt 2 and material loading conveyer belt 3 all are located the outside of carousel 4, and the vibration dish batcher that is used for carrying fan casing 7 is installed to top one side of operation platform 1.

The top of operation platform 1 installs a plurality of pay-off support 6, and is located one side of unloading conveyer belt 2, material loading conveyer belt 3 and vibration dish batcher respectively, and the surface mounting of pay-off support 6 has cylinder 61 and with pay-off support 6 perpendicular slide rail 62 that arranges, slide rail 62's surface sliding connection has the flexible hydro-cylinder 63 of being connected with cylinder 61 output, and the output of flexible hydro-cylinder 63 is connected with sucking disc 64.

Specifically, the cylinder 61 is utilized to drive the telescopic cylinder 63 to transversely move on the surface of the sliding rail 62, the telescopic cylinder 63 is utilized to drive the sucker 64 to longitudinally move in a telescopic manner, materials in the feeding conveyor belt 3 and the vibrating tray feeder are transferred and conveyed, and meanwhile, the assembled fan unit can be conveyed to the surface of the discharging conveyor belt 2, so that discharging is completed.

Embodiment 2:

fig. 8 to 11 show, wherein the same or corresponding parts as those in embodiment 1 are denoted by the corresponding reference numerals as in embodiment 1, and only the points of distinction from embodiment 1 are described below for the sake of brevity. This 2 nd embodiment differs from the 1 st embodiment in that: the surface mounting of friction roller 57 has supplementary adjusting unit 8, supplementary adjusting unit 8 is including cup jointing in the spacing dish 81 on round bar surface, spacing dish 81 is located the outside of friction roller 57 and the diameter of spacing dish 81 is greater than friction roller 57, electric magnetic disk 82 has been cup jointed on the surface of ring flange, and electric magnetic disk 82 is located the outside of spacing dish 81 and with the surface laminating contact of spacing dish 81, the surface mounting that spacing dish 81 is close to electric magnetic disk 82 has a plurality of contraction structures, the contraction assembly is including the linkage rope 86 that runs through spacing dish 81, the spiral ferrule 84 of installing the rubber material has been cup jointed to friction roller 57, and the one end of linkage rope 86 through-connects the surface of spiral ferrule 84.

The contraction assembly further comprises a guide rail 83, a magnetic block 85 is connected inside the guide rail 83 in a sliding manner, and a magnetic attraction effect is achieved between the magnetic block 85 and the electromagnetic disc 82.

Specifically, after the impeller portion 72 is aligned with the assembly constraint member 73 and the limiting block 71 in the fan casing 7, the bolting screw holes on the surfaces of the impeller portion 72 and the fan casing 7 are in a state of not being aligned (in this case, part of the blades on the surface of the impeller portion 72 lean against the surface of the spiral band 84, and the other part of the blades protrudes out of the surface of the limiting plate 81, so that the impeller portion 72 is in an inclined clamping state), and in this state, the automation operation accuracy of the electric screwdriver is difficult to be ensured, so that corresponding improvement treatment needs to be continued;

when the situation happens, the pressure sensor fails to detect the extrusion action of the blades on the limit disc 81, and sends a starting signal to the electromagnetic disc 82, so that the magnetic block 85 is close to the electromagnetic disc 82, and then the linkage rope 86 with the tail end connected with the magnetic block 85 is driven to move synchronously, and as the other end part of the linkage rope 86 is connected with the surface of the spiral hoop 84, when the linkage rope 86 moves, the spiral hoop 84 is driven to extrude, so that the gap in the spiral hoop 84 is reduced, and then the contacted blade surface is driven to move until the surface close to the limit disc 81 forms abutting contact, so that the blades protruding out of the surface of the limit disc 81 are lapped to the surface of the spiral hoop 84, and the impeller part 72 and the bolting screw hole on the surface of the fan shell 7 are in an aligned state;

the pressure sensors are in a pressing contact state after the impeller part 72 is aligned with the bolting screw holes on the surface of the fan casing 7, so that the electromagnetic disc 82 is closed, and the spiral hoop 84 automatically returns to the original state under the elastic action.

The spiral hoop 84 is in sliding contact with the surface of the friction roller 57, a pressure sensor is embedded and mounted on the surface of one side, close to the friction roller 57, of the limiting plate 81, and the pressure sensor is electrically connected with the electromagnetic plate 82.

Specifically, the solenoid 82 is activated, and the helical band 84 is then caused to slide along the surface of the friction roller 57 as it is tightened, thereby moving the impeller portion 72 of the blade end portion that has not yet been pressed against the limit plate 81 until the impeller portion 72 is aligned with the bolting screw hole of the surface of the fan casing 7.

The scope of protection of the above-described embodiments employed in the present application is not limited to the above-described embodiments, and various changes made by those skilled in the art without departing from the spirit of the present application are still within the scope of protection of the present invention.

Claims (9)

1. Fan blade assembly equipment convenient to angle regulation, including operation platform (1), its characterized in that: the automatic control device is characterized in that a servo motor is arranged at the top of the operating platform (1), the output end of the servo motor is connected with a rotary table (4), a plurality of alignment adjustment bases (5) are arranged around the top of the rotary table (4), a plurality of concave openings (51) are formed in the tops of the alignment adjustment bases (5), a driving motor (54) and two support assemblies located on one side of the driving motor (54) are arranged on the bottom wall of each concave opening (51), round rods are connected to the end portions of the support assemblies through bearings, linkage bevel gears (56) and friction rollers (57) are fixedly sleeved on the surfaces of the round rods, and rotating bevel gears (55) meshed with the linkage bevel gears (56) are connected to the output end of each driving motor (54).

2. The fan blade assembly apparatus for facilitating angle adjustment of claim 1, wherein: the bottom wall of the concave opening (51) is provided with a sinking groove (511), the sinking groove (511) is positioned below the friction roller (57), and the sinking groove (511) is positioned in the middle of the two bracket components.

3. The fan blade assembly apparatus for facilitating angle adjustment of claim 1, wherein: the support assembly comprises a spring piece (52) with one end fixedly connected to the bottom wall of the concave opening (51), a support rod (53) with an L-shaped cross section is connected to the top end of the spring piece (52), and a flange is connected to the tail end of the support rod (53).

4. The fan blade assembly apparatus for facilitating angle adjustment of claim 1, wherein: the fan unit located inside the concave opening (51) is placed at the top of the alignment adjustment base (5), the fan unit comprises a fan shell (7) and an impeller portion (72), blades are installed around the surface of the impeller portion (72), an assembly constraint piece (73) is installed in the fan shell (7), and a limiting block (71) matched with the assembly constraint piece (73) is installed on the top wall of the impeller portion (72).

5. The fan blade assembly apparatus for facilitating angle adjustment of claim 4, wherein: the top of operation platform (1) is installed and is used for carrying unloading conveyer belt (2) of fan unit, material loading conveyer belt (3) that are used for carrying impeller portion (72) are installed at the top of operation platform (1), and unloading conveyer belt (2) and material loading conveyer belt (3) are arranged perpendicularly, unloading conveyer belt (2) and material loading conveyer belt (3) all are located the outside of carousel (4), vibration dish batcher that is used for carrying fan casing (7) is installed to top one side of operation platform (1).

6. The fan blade assembly apparatus for facilitating angle adjustment of claim 5, wherein: a plurality of pay-off support (6) are installed at the top of operation platform (1), and are located one side of unloading conveyer belt (2), material loading conveyer belt (3) and vibrating tray batcher respectively, the surface mounting of pay-off support (6) have cylinder (61) and slide rail (62) with pay-off support (6) perpendicular arrangement, the surface sliding connection of slide rail (62) has telescopic cylinder (63) be connected with cylinder (61) output, the output of telescopic cylinder (63) is connected with sucking disc (64).

7. A fan blade assembly apparatus for facilitating angle adjustment as defined in claim 3, wherein: the surface mounting of friction roller (57) has supplementary regulating unit (8), supplementary regulating unit (8) are including cup jointing spacing dish (81) in round bar surface, spacing dish (81) are located outside and spacing dish (81) of friction roller (57) and the diameter of friction roller (57), electromagnetic dish (82) have been cup jointed on the surface of ring flange, and electromagnetic dish (82) are located the outside of spacing dish (81) and with the surface laminating contact of spacing dish (81), the surface mounting that spacing dish (81) is close to electromagnetic dish (82) has a plurality of contraction structures, the shrink subassembly is including linking rope (86) that runs through spacing dish (81), the cup jointing of friction roller (57) has installed spiral band (84) of rubber material, and the one end of linking rope (86) through-connects the surface of spiral band (84).

8. The fan blade assembly apparatus for facilitating angle adjustment of claim 7, wherein: the shrinkage assembly further comprises a guide rail (83), a magnetic block (85) is connected inside the guide rail (83) in a sliding mode, and a magnetic attraction effect is achieved between the magnetic block (85) and the electromagnetic disc (82).

9. The fan blade assembly apparatus for facilitating angle adjustment of claim 8, wherein: the surface of spiral band (84) and friction roller (57) is sliding contact, limit plate (81) is close to the surface mosaic of one side of friction roller (57) and installs pressure sensor, and pressure sensor and electromagnetic disc (82) electric connection.