CN216885288U - Blade inserting equipment in impeller - Google Patents

Abstract

The utility model provides an impeller center piece inserting device which comprises a supporting table, a rotary chuck, a positioning pushing mechanism and a third positioning clamping groove, wherein the rotary chuck, the positioning pushing mechanism and the third positioning clamping groove are arranged on the supporting table; the lower sheet is provided with a plurality of installation positions which are arranged in central symmetry, one installation position of the lower sheet installed on the installation surface is opposite to the third positioning clamping groove, and when the rotary chuck rotates once, the lower sheet can be switched to be adjacent to the installation position and opposite to the third positioning clamping groove; the third positioning clamping groove is used for accommodating the middle pieces, the middle pieces are loaded into the third positioning clamping groove through the conveying mechanism, and the middle pieces positioned in the third positioning clamping groove can be mounted on the mounting position under the thrust of the positioning pushing mechanism.

Description

Blade inserting equipment in impeller

Technical Field

The utility model relates to the technical field of impeller production, in particular to an impeller middle piece inserting device.

Background

The vacuum cleaner can be divided into a vertical type, a horizontal type and a portable type according to the structure. The working principle of the dust collector is that the blades are driven by the motor to rotate at a high speed, air negative pressure is generated in the sealed shell, and then the effect of sucking dust is achieved.

The movable impeller is a key part of the dust collector, the movable impeller is used for generating negative pressure in the shell of the dust collector under the driving of the high-speed operation of the motor so as to generate internal suction, so that the requirement on the sealing performance of a product is high, along with the development of science and technology and the pursuit of people on the quality of life, the requirements on the appearance, the performance and the energy consumption of the product are gradually improved, and the appearance of the product is designed to be smaller and smaller, the rotating speed is higher and higher, so that the product standard is also higher.

In order to meet the product performance requirements, the assembly clearance between the upper plate and the lower plate of the movable impeller in the product design must be reduced, so that the problem of difficult product assembly is caused. And because present movable vane assembly all is artifical manual mode assembly, and objective reasons such as product external diameter is little and assembly clearance is little cause production efficiency low, output low.

Patent document CN212497507U discloses an impeller assembly insert machine, which comprises a machine base, a stripping device, an impeller lower piece fixing device, a ratchet wheel assembly, an impeller middle piece feeding device and a product prepressing device, wherein the stripping device, the ratchet wheel assembly, the impeller lower piece fixing device and the impeller middle piece feeding device are sequentially arranged along the length direction of the machine base; the lower impeller sheet fixing device comprises a support, a main shaft, a limiting nut, a fixing screw and a product fixing tool, wherein one end of the main shaft is provided with a push rod, and the end part of the push rod is connected with the limiting nut through the fixing screw; the other end of the main shaft penetrates through the ratchet wheel assembly and the support and then is connected with the product fixing tool, but the defect of low production efficiency still exists in the design of inserting sheet operation, and the structural design is unreasonable.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide blade-in-impeller inserting equipment.

The impeller middle piece inserting device provided by the utility model comprises a support table, and a rotary chuck, a positioning pushing mechanism and a third positioning clamping groove which are arranged on the support table;

the rotary chuck is provided with a mounting surface and a positioning assembly arranged on the mounting surface, the mounting surface is used for mounting a lower sheet, and the lower sheet mounted on the mounting surface is fixed through the positioning assembly;

the lower sheet is provided with a plurality of installation positions which are arranged in a central symmetry manner, one installation position of the lower sheet installed on the installation surface is opposite to the third positioning clamping groove, and when the rotary chuck rotates once, the lower sheet can be switched to be adjacent to the installation position and opposite to the third positioning clamping groove;

the third positioning clamping groove is used for accommodating a middle piece, the middle piece is loaded into the third positioning clamping groove through the conveying mechanism, and the middle piece positioned in the third positioning clamping groove can be installed on the installation position under the pushing force of the positioning pushing mechanism.

Preferably, the conveying mechanism comprises a vibration disc, a moving framework component, a first positioning clamping groove and a second positioning clamping groove, wherein the vibration disc is mounted on the supporting table;

the first positioning clamping grooves, the second positioning clamping grooves and the third positioning clamping grooves are sequentially arranged at equal intervals, and the central points are arranged on a straight line;

the vibrating disc is provided with an annular accommodating groove, the annular accommodating groove is used for accommodating the middle sheet, the annular accommodating groove is communicated with the first positioning clamping groove through a slide way, and the middle sheet positioned in the annular accommodating groove can be conveyed into the first positioning clamping groove when the vibrating disc vibrates;

the movable framework assembly is provided with two vacuum suction cups which are arranged in parallel at intervals, wherein the movable framework assembly can move between a first position and a second position in the horizontal direction, and can move between a first height and a second height in the vertical direction, and the first height is higher than the second height;

when the mobile framework assembly is located at the first position, the end parts of the two vacuum suction cups respectively enter the first positioning clamping groove and the second positioning clamping groove when the mobile framework assembly moves from the first height to the second height, can suck the middle piece and then move to the first height;

when the movable framework assembly is located at the second position, the end parts of the two vacuum suction cups respectively enter the second positioning clamping groove and the third positioning clamping groove when the movable framework assembly moves from the first height to the second height, and the movable framework assembly can release the sucked middle piece and then move to the first height.

Preferably, the positioning assembly comprises three spring clips and a central positioning boss;

the center positioning boss is located at the center of the mounting surface and used for being matched with a lower piece center through hole in the center of the lower piece, the three spring clamps are uniformly or non-uniformly arranged along the circumferential direction of the center positioning boss, and the three spring clamps can limit and limit the lower piece when the lower piece is mounted on the mounting surface.

Preferably, the slideway is arranged in a tangential direction of the annular accommodating groove.

Preferably, the mobile framework assembly comprises a slide rail mounted on the support table and a slide block body in sliding fit with the slide rail;

the sliding block body is connected with the two vacuum chucks through a first air cylinder, the vacuum chucks are located at a second height when the first air cylinder extends out of the ejector rod, and the vacuum chucks are located at a first height when the first air cylinder retracts into the ejector rod;

the sliding block body is connected with the supporting platform through a second air cylinder, the sliding block body is located at the second position when the second air cylinder extends out of the ejector rod, and the sliding block body is located at the first position when the second air cylinder retracts into the ejector rod.

Preferably, the vibration machine comprises a control system which is respectively and electrically connected with the rotary chuck, the vibration disk and the driving device of the mobile framework component.

Preferably, a display is included, the display being electrically connected to the control system.

Preferably, the control system employs a PLC.

Preferably, the vibration disc is driven by a motor;

the positioning pushing mechanism is driven by an air cylinder.

Preferably, the spin chuck is driven by a stepper motor.

Compared with the prior art, the utility model has the following beneficial effects:

1. the impeller middle blade inserting device is simple and reasonable in structure and convenient to operate, reduces the manual operation difficulty, and improves the production efficiency and the product quality.

2. The utility model adopts the structural combination of the cylinder, the stepping motor, the PLC and the like, and the equipment has the characteristics of simple design, reasonable structure, convenient maintenance and the like.

3. The utility model can implement the operation mode of one person with multiple machines according to the requirement of production yield, thereby improving the processing efficiency.

4. When the impeller is used, an assembly operator only needs to cover the upper piece of the impeller, the operation is simple, and the problem of difficulty in manual assembly is effectively solved.

5. The utility model is further improved and is beneficial to realizing automatic inserting sheet assembling operation.

Drawings

Other features, objects and advantages of the utility model will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a front view of the spin chuck of the present invention;

FIG. 4 is a schematic top view of the spin chuck of the present invention;

FIG. 5 is a schematic side view of the spin chuck of the present invention;

FIG. 6 is a schematic front view of a lower sheet according to the present invention;

FIG. 7 is a side view of the lower sheet of the present invention;

FIG. 8 is a schematic front view of the middle sheet of the present invention;

FIG. 9 is a side view of the middle panel of the present invention;

FIG. 10 is a schematic front view of the lower sheet with the middle sheet mounted thereon according to the present invention;

FIG. 11 is a schematic side view of the lower sheet with the middle sheet mounted thereon according to the present invention.

The figures show that:

mounting surface 21 of support table 1

Annular receiving groove 31 of rotating chuck 2

Vibrating disk 3 slide 32

Vacuum chuck 41 of mobile framework assembly 4

Spring clip 22 of positioning pushing mechanism 5

Center positioning boss 23 of display 6

Middle sheet 101 of first positioning clamping groove 11

Lower piece 102 of second positioning card slot 12

Mounting position 112 of third positioning card slot 13

Lower piece center through hole 113 of operation button 14

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the utility model, but are not intended to limit the utility model in any way. It should be noted that it would be obvious to those skilled in the art that various changes and modifications can be made without departing from the spirit of the utility model. All falling within the scope of the present invention.

The utility model provides blade inserting equipment in an impeller, which aims to meet the quality requirements of customers on products and avoid the problems of product quality, production efficiency and the like caused by human reasons, and comprises a supporting table 1, a rotary chuck 2, a positioning pushing mechanism 5 and a third positioning clamping groove 13, wherein the rotary chuck 2 is installed on the supporting table 1, the rotary chuck 2 is provided with an installation surface 21 and a positioning component arranged on the installation surface, and the installation surface 21 is used for installing a lower blade 102 and the lower blade 102 installed on the installation surface 21 is fixed through the positioning component, as shown in fig. 1 and 2.

Specifically, the positioning assembly comprises three spring clamps 22 and a central positioning boss 23, the central positioning boss 23 is located at the central position of the mounting surface 21 and is used for matching with a lower piece central through hole 113 formed in the center of the lower piece 102, the three spring clamps 22 are uniformly or non-uniformly arranged along the circumferential direction of the central positioning boss 23, the three spring clamps 22 are preferably uniformly arranged, and the three spring clamps 22 can restrain and limit the lower piece 102 when the lower piece 102 is mounted on the mounting surface 21. The installation face 21 has the holding tank that holds three spring card 22, and spring card 22 includes spring and stopper, and stopper one end is installed in the holding tank with spring elastic fit, and the other end of stopper extends to the outside of holding tank and pushes up with lower piece 102 contact and then realize lower piece 102 spacing.

The lower piece 102 is provided with a plurality of mounting positions 112 which are arranged in a central symmetry manner, the lower piece 102 mounted on the mounting surface 21 is provided with one mounting position 112 which is opposite to the third positioning slot 13, when the rotating chuck 2 rotates once, the adjacent mounting position 112 can be switched to be opposite to the third positioning slot 13, and the rotating chuck 2 is driven to rotate preferably through a stepping motor.

The third positioning card slot 13 is used for accommodating the middle sheet 101, the middle sheet 101 is loaded into the third positioning card slot 13 through a conveying mechanism, the middle sheet 101 positioned in the third positioning card slot 13 can be mounted on the mounting position 112 under the pushing force of the positioning pushing mechanism 5, and the positioning pushing mechanism 5 is preferably driven by an air cylinder.

Specifically, the positioning and pushing mechanism 5 is provided with an infrared laser correlation device, and the infrared laser correlation device is used for positioning and pushing the mechanism 5 to align with the installation position 112.

In a specific installation, the lower sheet 102 is provided with a plurality of installation positions 112, the rotary chuck 2 for installing each middle sheet 101 rotates once under the driving of the stepping motor, so that the adjacent installation position 112 faces the third positioning card slot 13, the middle sheet 101 in the third positioning card slot 13 is installed on the installation positions 112 under the pushing force of the positioning pushing mechanism 5 until all the installation positions 112 on the lower sheet 102 are provided with the middle sheets 101, and the assembly of the next lower sheet 102 is carried out after the lower sheet 102 is detached.

Conveying mechanism is including installing vibration dish 3 on a supporting bench 1, remove framework subassembly 4, first positioning slot 11 and second positioning slot 12, first positioning slot 11, second positioning slot 12, third positioning slot 13 is equidistance interval arrangement in proper order, first positioning slot 11, second positioning slot 12, third positioning slot 13 central point arranges on a straight line, vibration dish 3 has annular holding tank 31, annular holding tank 31 is used for holding well piece 101, annular holding tank 31 passes through slide 32 and first positioning slot 11 intercommunication, slide 32 arranges along annular holding tank 31 tangential direction, can be with being located well piece 101 vibration power down in annular holding tank 31 during vibration dish 3 vibrates and transport to first positioning slot 11 in.

Two vacuum suction cups 41 which are arranged in parallel at intervals are arranged on the movable framework component 4, the axial directions of the two vacuum suction cups 41 are opposite to the first positioning clamping groove 11 and the second positioning clamping groove 12, wherein the movable framework component 4 can move between a first position and a second position in the horizontal direction, and the movable framework component 4 can move between a first height and a second height in the vertical direction, and the first height is higher than the second height.

When the movable framework assembly 4 is located at the first position, the end portions of the two vacuum suction cups 41 respectively enter the first positioning clamping groove 11 and the second positioning clamping groove 12 when the vacuum suction cups 41 move from the first height to the second height, and can suck the middle piece 101 and then move to the first height, and at this time, the vacuum suction cups 41 are located above the first positioning clamping groove 11 and the second positioning clamping groove 12, so that the vacuum suction cups 41 do not interfere with the positioning clamping grooves when the vacuum suction cups 41 move along the horizontal direction.

When the mobile framework assembly 4 is located at the second position, when the vacuum chucks 41 move from the first height to the second height, the end portions of the two vacuum chucks 41 respectively enter the second positioning clamping groove 12 and the third positioning clamping groove 13 and can release the sucked middle piece 101 and then move to the first height, and the middle piece 101 is sequentially conveyed from the first positioning clamping groove 11 to the second positioning clamping groove 12 and the third positioning clamping groove 13 through the above multiple action processes, so that the middle piece 101 can be continuously assembled on the lower piece 102.

The moving framework assembly 4 comprises a sliding rail mounted on the support table 1 and a sliding block body in sliding fit with the sliding rail, the sliding block body is connected with two vacuum chucks 41 through a first air cylinder, the vacuum chucks 41 are located at a second height when the first air cylinder extends out of the ejector rod, and the vacuum chucks 41 are located at a first height when the first air cylinder retracts into the ejector rod. The sliding block body is connected with the supporting table 1 through a second air cylinder, the sliding block body is located at the second position when the second air cylinder extends out of the ejector rod, and the sliding block body slides to the first position from the second position along the sliding rail when the second air cylinder retracts into the ejector rod.

The utility model is provided with a control system which is respectively and electrically connected with driving devices of a rotary chuck 2, a vibration disk 3 and a mobile framework assembly 4 and can respectively control the actions of the rotary chuck 2, the vibration disk 3 and the mobile framework assembly 4 under the control of the control system, the control system preferably adopts a PLC (programmable logic controller), and the PLC is a digital operation electronic system specially designed for application in industrial environment. It uses a programmable memory, in which the instructions for implementing logical operation, sequence control, timing, counting and arithmetic operation are stored, and utilizes digital or analog input and output to control various mechanical equipments or production processes.

In a preferred embodiment, the control system is installed inside the support table 1, and the operation buttons 14 are provided outside the support table 1, and the assembly operation can be completed by manually controlling the operation buttons 14.

The intelligent control system also comprises a display 6, wherein the display 6 is electrically connected with the control system, and the display 6 can display the state of the whole equipment, so that a worker can know the working condition of the whole equipment in real time through the display 6.

It should be noted that the vibrating disk 3 is preferably driven by a motor, and specifically, various implementable schemes may be adopted in the design, for example, refer to a vibrating disk with adjustable feeding output disclosed in patent document CN214454380U, or other existing technologies that can implement the vibrating disk 3 to convey the middle sheet 101, which is not described herein again.

The assembly principle of the middle piece 101 to the lower piece 102 is as follows:

the main power supply of the equipment is turned on, and the power supply of the vibration disk 3 is turned on.

The operator puts the middle plate 101 into the annular accommodating groove 31 on the vibrating disk 3 and arranges the middle plate into the first positioning clamping groove 11 in sequence through vibration.

An operator puts the lower piece center through hole 113 on the lower piece 102 into the center positioning boss 23 of the rotary chuck 2 as a reference, clamps the lower piece 102 through the three peripheral spring clamps 22, emits infrared laser by the infrared laser transmitter, finds the reference of the lower piece 102 through the riveting pin hole of the mounting position 112 on the lower piece 102, and rotates the rotary chuck 2 to the initial assembly origin.

The middle sheets 101 are sequentially arranged and enter the second positioning clamping groove 12 under the action of the vibrating disc 3, and the moving framework assembly 4 sucks the middle sheets 101 through the vacuum suction disc 41 and moves the middle sheets 101 in parallel and alternately to ensure that the middle sheets 101 are always reserved in the third positioning clamping groove 13.

The positioning pushing mechanism 5 acts to push the middle sheet 101 in the third positioning card slot 13 forward, and the middle sheet 101 is inserted onto the mounting position 112 of the movable impeller lower sheet 102 through the profiling fixture.

When the inserting action is finished once, the rotary chuck 2 rotates clockwise once.

After the next piece 102 is full of 7 middle pieces 101, the rotating chuck 2 moves transversely and retreats. The operator takes off the finished product and puts a new workpiece in.

This piece inserted sheet equipment in movable vane is once started, and until accomplishing whole 7 blade inserted sheet actions, the machine will be in automatic shutdown state, and operating personnel presses the back equipment that starts and will carry out the circulation operation.

In the description of the present application, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the utility model. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (10)

1. The impeller middle blade inserting device is characterized by comprising a support table (1), and a rotary chuck (2), a positioning pushing mechanism (5) and a third positioning clamping groove (13) which are arranged on the support table (1);

the rotary chuck (2) is provided with a mounting surface (21) and a positioning component arranged on the mounting surface, wherein the mounting surface (21) is used for mounting a lower sheet (102), and the lower sheet (102) mounted on the mounting surface (21) is fixed through the positioning component;

the lower sheet (102) is provided with a plurality of mounting positions (112) which are arranged in a central symmetry manner, the lower sheet (102) mounted on the mounting surface (21) is provided with one mounting position (112) which is opposite to the third positioning clamping groove (13), and when the rotary chuck (2) rotates once, the adjacent mounting position (112) can be switched to be opposite to the third positioning clamping groove (13);

the third positioning clamping groove (13) is used for accommodating a middle sheet (101), the middle sheet (101) is loaded into the third positioning clamping groove (13) through a conveying mechanism, and the middle sheet (101) positioned in the third positioning clamping groove (13) can be installed on the installation position (112) under the pushing force of the positioning pushing mechanism (5).

2. The impeller center blade apparatus according to claim 1, wherein the conveying mechanism comprises a vibrating disk (3) mounted on the support table (1), a moving frame assembly (4), a first positioning slot (11), and a second positioning slot (12);

the first positioning clamping grooves (11), the second positioning clamping grooves (12) and the third positioning clamping grooves (13) are sequentially arranged at equal intervals, and the central points are arranged on a straight line;

the vibrating disk (3) is provided with an annular accommodating groove (31), the annular accommodating groove (31) is used for accommodating the middle sheet (101), the annular accommodating groove (31) is communicated with the first positioning clamping groove (11) through a slide way (32), and the middle sheet (101) in the annular accommodating groove (31) can be conveyed into the first positioning clamping groove (11) when the vibrating disk (3) vibrates;

two vacuum suction cups (41) which are arranged in parallel and spaced are arranged on the mobile framework component (4), wherein the mobile framework component (4) can move between a first position and a second position in the horizontal direction, and the mobile framework component (4) can move between a first height and a second height in the vertical direction, and the first height is higher than the second height;

when the mobile framework assembly (4) is located at the first position, the end parts of the two vacuum suction cups (41) respectively enter the first positioning clamping groove (11) and the second positioning clamping groove (12) when moving from the first height to the second height, can suck the middle piece (101) and then move to the first height;

when the mobile framework assembly (4) is located at the second position, the end parts of the two vacuum suction cups (41) respectively enter the second positioning clamping groove (12) and the third positioning clamping groove (13) when moving from the first height to the second height, and the sucked middle piece (101) can be released and then moves to the first height.

3. The impeller center blade apparatus according to claim 1, wherein the positioning assembly comprises three spring clips (22) and a central positioning boss (23);

the center positioning boss (23) is located at the center of the mounting surface (21) and used for matching with a lower piece center through hole (113) formed in the center of the lower piece (102), the three spring clamps (22) are uniformly or non-uniformly arranged along the circumferential direction of the center positioning boss (23), and the three spring clamps (22) can limit and limit the lower piece (102) when the lower piece (102) is mounted on the mounting surface (21).

4. The impeller center blade apparatus according to claim 2, wherein the slideway (32) is arranged tangentially to the annular receiving groove (31).

5. The impeller center blade device according to claim 2, wherein the moving frame assembly (4) comprises a slide rail mounted on the support table (1) and a slider body slidably engaged with the slide rail;

the sliding block body is connected with two vacuum chucks (41) through a first air cylinder, the vacuum chucks (41) are located at a second height when the first air cylinder extends out of the ejector rod, and the vacuum chucks (41) are located at a first height when the first air cylinder retracts into the ejector rod;

the sliding block body is connected with the supporting table (1) through a second air cylinder, when the second air cylinder extends out of the ejector rod, the sliding block body is located at the second position, and when the second air cylinder retracts into the ejector rod, the sliding block body is located at the first position.

6. The impeller center blade device according to claim 2, characterized by comprising a control system, wherein the control system is electrically connected with the driving devices of the rotary chuck (2), the vibration disk (3) and the moving framework component (4), respectively.

7. The impeller center blade apparatus according to claim 6, comprising a display (6), wherein the display (6) is electrically connected to the control system.

8. The impeller center blade apparatus according to claim 6, wherein the control system employs a PLC.

9. The impeller center blade device according to claim 2, wherein the vibrating disk (3) is driven by a motor;

the positioning pushing mechanism (5) is driven by an air cylinder.

10. The impeller center blade apparatus according to claim 1, wherein the rotating chuck (2) is driven by a stepper motor.

Images