A kind of air pump scolding tin assembly line
Technical field
The present invention relates to air pump production field, more particularly to a kind of air pump scolding tin assembly line.
Background technology
Air pump is " air pump ", and air or a kind of device from closing space addition air are excluded from a closing space.
Air pump is divided into electric air pump and hand air pump, foot-propelled air pump.Electric air pump.Air pump using electric power as power, do not stopped by electric power
Compressed air, produce air pressure.The operation principle of air pump be engine by two V-belt driving gas pump crankcases, so as to drive work
Fill in row to inflate, the gas got imports gas receiver by pipeline.
Nowadays it is the production for manually carrying out process step by step that air pump production is mostly, but does so and take time and effort and produce effect
Rate is low, and worker repeats for a long time easily produces sense of fatigue, causes air pump the risk of few weldering either rosin joint occur, causes
Air pump is scrapped, and waste of manpower resource and causes unnecessary waste.
The content of the invention
In view of the above-mentioned deficiencies in the prior art, it is an object of the present invention to provide a kind of air pump scolding tin assembly line.
To solve the above problems, the present invention provides following technical scheme;
A kind of air pump scolding tin assembly line, including pedestal and horizontally disposed rotating disk, it is provided between the pedestal and rotating disk to drive
The drive device of turn disc spins, the top of the rotating disk are provided with multiple tools, and all tools are along between disk peripheral direction etc.
Away from setting the side at the top of rotating disk positioned at each tool to be provided with locating part, the circle centre position of rotating disk is provided with to control the lock of locating part
Tight mechanism, the pedestal top are interval with cleaning device, the first tin soldering equipment, the second scolding tin dress around the circumferencial direction of rotating disk
Put, the 3rd tin soldering equipment, the 4th tin soldering equipment and detection means.
Further, the cleaning device includes the first support column being vertically arranged and is fixed on the first support column top
Dust suction subassembly, the dust suction subassembly include sweep-up pipe and dust suction pipe support, and the sweep-up pipe is located in dust suction pipe support, dust suction pipe support bottom
Portion and support column upper articulation.
Further, the knot of first tin soldering equipment, the second tin soldering equipment, the 3rd tin soldering equipment and the 4th tin soldering equipment
Structure is identical, and it includes the second support column, electric cylinders, scolding tin component and the driving for driving scolding tin component vertical shift being vertically arranged
Component, the electric cylinders are located at the second support column epimere and are connected close to the side of rotating disk and with the second support column, on the sliding block of electric cylinders
Provided with the connecting plate being engaged with drive component, drive component is located at the top of the second support column and is connected with the second support column, welds
Tin component is located at side of the connecting plate away from electric cylinders and is slidably matched with connecting plate.
Further, the detection means includes the 3rd support column being vertically arranged and is fixed at the top of the 3rd support column
Detection components, the detection components include detection piece and the 3rd fixed plate to fixed test part, and the detection piece is close to be turned
The side of disk is provided with detection pipeline, and described detection pipeline one end is provided with detector, and the detector is embedded in detection pipeline.
Further, the locating part includes the first limiting plate being vertically arranged and horizontally disposed second limiting plate, the
Two limiting plates are located at the top of the first limiting plate and are hinged with the first limiting plate, first limiting plate and the second limiting plate hinged place
Provided with provided with first rotating shaft, torsion spring is arranged with the first rotating shaft, the both ends of torsion spring contradict in the first limiting plate and respectively
On two limiting plates.
Further, the described one end of second limiting plate away from tool is provided with the second rotating shaft being engaged with retaining mechanism.
Further, the retaining mechanism includes the cylinder being vertically arranged and the support frame to fixed cylinder, the gas
The output end of cylinder is provided with depression bar, and one end of depression bar is fixedly connected with cylinder output end, and the other end is provided with and is engaged with the second rotating shaft
Groove.
Further, the drive device includes stepper motor, and output shaft and the rotating disk transmission of stepper motor coordinate.
Further, the pedestal side is provided with the material box for being used for placing workpiece to be processed.
Beneficial effect:A kind of air pump scolding tin assembly line of the present invention, air pump is put into tool and passes through stepper motor
It is transported to immediately below cleaning device, cleaning device to the workpiece in tool to clean, driven by rotary disc tool to the first weldering
Immediately below tin device, the first tin soldering equipment carries out scolding tin, driven by rotary disc tool to the second scolding tin to the first weld part on workpiece
Immediately below device, the second tin soldering equipment carries out scolding tin to the second weld part on workpiece, and driven by rotary disc tool to the 3rd scolding tin fills
Immediately below putting, the 3rd tin soldering equipment carries out scolding tin, driven by rotary disc tool to the 4th tin soldering equipment to the 3rd weld part on workpiece
Underface, the 4th tin soldering equipment carry out scolding tin to the 4th weld part on workpiece, driven by rotary disc tool to immediately below detection means,
Detection means detects to the weld part on workpiece.
Brief description of the drawings
Fig. 1 is the dimensional structure diagram of the present invention;
Fig. 2 is the locating part and retaining mechanism assembling schematic diagram of the present invention;
Fig. 3 is enlarged diagram at A in Fig. 2 of the present invention;
Fig. 4 is the partial schematic sectional view of the present invention;
Fig. 5 is the detection means dimensional structure diagram of the present invention;
Fig. 6 is the cleaning device dimensional structure diagram of the present invention;
Fig. 7 is the first tin soldering equipment dimensional structure diagram one of the present invention;
Fig. 8 is the first tin soldering equipment dimensional structure diagram two of the present invention;
Fig. 9 is the first tin soldering equipment sectional perspective structural representation one of the present invention;
Figure 10 is enlarged diagram at B in Fig. 9 of the present invention;
Figure 11 is the first tin soldering equipment sectional perspective structural representation two of the present invention;
Figure 12 is the first tin soldering equipment sectional perspective structural representation three of the present invention;
Description of reference numerals:Pedestal 1, material box 1a, rotating disk 2, drive device 3, tool 4, locating part 5, the first limiting plate 5a, the
Two limiting plate 5b, first rotating shaft 5c, torsion spring 5d, the second rotating shaft 5e, retaining mechanism 6, cylinder 6a, support frame 6b, depression bar 6c, are cleaned
Device 7, the first support column 7a, dust suction subassembly 7b, dust suction pipe support 7b1, the first tin soldering equipment 8, the second support column 8a, electric cylinders 8b,
Sliding block 8b1, scolding tin component 8c, adjustment portion 8c1, connecting portion 8c2, scolding tin 8c3, the first contiguous block 8c4, the second contiguous block 8c5,
Fix bar 8c6, regulating block 8c7, adjusting rod 8c8, connector 8c9, drive component 8d, the first fixed plate 8d1, the second fixed plate
8d2, motor 8d3, screw mandrel 8d4, connecting plate 8e, first baffle 8e1, second baffle 8e2, the second tin soldering equipment 9, the 3rd scolding tin dress
10 are put, the 4th tin soldering equipment 11, detection means 12, the 3rd support column 12a, detection components 12b, detection piece 12b1, the 3rd fixes
Plate 12b2, detect pipeline 12b3, spring 13, support bracket 14.
Embodiment
With reference to Figure of description and embodiment, the specific embodiment of the present invention is described in further detail:
Referring to figs. 1 to a kind of air pump scolding tin assembly line shown in 12, it is characterised in that;Including pedestal 1 and horizontally disposed rotating disk
2, the drive device 3 rotated to driving rotating disk 2 is provided between the pedestal 1 and rotating disk 2, the top of the rotating disk 2 is provided with more
Individual tool 4, all tools 4 set the top of rotating disk 2 to be provided with limit positioned at the side of each tool 4 along being crouched between circumferencial direction of rotating disk 2 etc.
Position part 5, the circle centre position of rotating disk 2 are provided with to control the retaining mechanism 6 of locating part 5, circumference of the top of pedestal 1 around rotating disk 2
Direction is interval with cleaning device 7, the first tin soldering equipment 8, the second tin soldering equipment 9, the 3rd tin soldering equipment 10, the 4th tin soldering equipment
11 and detection means 12, working condition lower rotary table 2 is driven immediately below tool 4 to cleaning device 7, and cleaning device 7 is to tool 4
Interior workpiece is cleaned, and rotating disk 2 is driven immediately below the tin soldering equipment of tool 4 to the first 8, and the first tin soldering equipment 8 is on workpiece
First weld part carries out scolding tin, and rotating disk 2 is driven immediately below the tin soldering equipment of tool 4 to the second 9, and the second tin soldering equipment 9 is on workpiece
The second weld part carry out scolding tin, rotating disk 2 is driven immediately below tool 4 to the 3rd tin soldering equipment 10, and the 3rd tin soldering equipment 10 is to work
The 3rd weld part on part carries out scolding tin, and rotating disk 2 is driven immediately below tool 4 to the 4th tin soldering equipment 11, the 4th tin soldering equipment 11
Scolding tin is carried out to the 4th weld part on workpiece, rotating disk 2 is driven immediately below tool 4 to detection means 12, and detection means 12 is to work
Weld part on part is detected.
The cleaning device 7 includes the first support column 7a being vertically arranged and the dust suction for being fixed on the first support column 7a tops
Component 7b, the dust suction subassembly 7b include sweep-up pipe and dust suction pipe support 7b1, and the sweep-up pipe is located in dust suction pipe support 7b1, dust suction
Pipe support 7b1 bottoms and the first support column 7a upper articulations, dust suction tube are prevented in by the dust on workpiece and tiny particle pickup
Tiny particle and dust is only answered to cause scolding tin loosely during scolding tin.
First tin soldering equipment 8, the second tin soldering equipment 9, the 3rd tin soldering equipment 10 and the structure phase of the 4th tin soldering equipment 11
Together, it includes the second support column 8a, electric cylinders 8b, scolding tin component 8c and the driving scolding tin component 8c vertical shifts being vertically arranged
Drive component 8d, the electric cylinders 8b are located at the second support column 8a epimeres and are connected close to the side of rotating disk 2 and with the second support column 8a,
Electric cylinders 8b sliding block 8b1 is provided with the connecting plate 8e being engaged with drive component 8d, and drive component 8d is located at the second support column 8a
Top is simultaneously connected with the second support column 8a, and scolding tin component 8c is located at sides of the connecting plate 8e away from electric cylinders 8b and slided with connecting plate 8e
It is dynamic to coordinate.
The drive component 8d includes the first fixed plate 8d1, the second fixed plate 8d2, motor 8d3 and screw mandrel 8d4, and first is solid
It is fixedly connected at the top of fixed board 8d1 and the second support column 8a, the second fixed plate 8d2 be located at the first fixed plate 8d1 tops and with first
Fixed plate 8d1 is fixedly connected, and motor 8d3 is located at the one end of the second fixed plate 8d2 away from the second support column 8a, the screw mandrel 8d4
Positioned at motor 8d3 output end and connected by a shaft coupling, the screw mandrel 8d4 is driven through connecting plate 8e and scolding tin component 8c
Coordinate, motor 8d3 drive screws 8d4 rotations drive second baffle 8e2 vertical shifts.
The connecting plate 8e includes horizontally disposed first baffle 8e1 and is vertically arranged second baffle 8e2, first baffle
8e1 is located at the top of second baffle 8e2, and first baffle 8e1 is provided with the through hole that screw mandrel 8d4 is passed through, second baffle 8e2 side
Provided with scolding tin component 8c slide rails are supplied, second baffle 8e2 opposite side is fixedly connected with sliding block 8b1, and sliding block 8b1 drives second baffle
8e2 is moved horizontally.
The scolding tin component 8c includes adjustment portion 8c1, connecting portion 8c2 and scolding tin 8c3, the scolding tin 8c3 positioned at tune
Sides of the section portion 8c1 away from the second support column 8a is simultaneously connected with adjustment portion 8c1, and the connecting portion 8c2 includes the be vertically arranged
One contiguous block 8c4 and horizontally disposed second contiguous block 8c5, the second contiguous block 8c5 one end are fixedly connected and the first contiguous block
8c4 tops, adjustment portion 8c1 are located at the first contiguous block 8c4 sides and coordinated with the second contiguous block 8c5 grafting, the first contiguous block 8c4
Opposite side is provided with the chute being engaged with slide rail, and the first contiguous block 8c4 is by being engaged achievable vertical shift with slide rail.
The adjustment portion 8c1 includes fix bar 8c6, regulating block 8c7 and adjusting rod 8c8, one end of the fix bar 8c6 are worn
Cross the second contiguous block 8c5 and with being fixedly connected at the top of regulating block 8c7, adjusting rod 8c8 is located at regulating block 8c7 sides and and regulating block
8c7 grafting coordinates, and regulating block 8c7 opposite sides are provided with connection regulating block 8c7 and scolding tin 8c3 connector 8c9, regulating block 8c7
Can on regulation fix bar 8c6 vertical shift, when regulating block 8c7 rises to certain altitude, contradicted and second at the top of adjusting rod 8c8
Contiguous block 8c5 bottoms.
Spring 13 is arranged with the adjusting rod 8c8, the both ends of spring 13 contradict respectively at the top of adjusting rod 8c8 and regulating block
At the top of 8c7.
The second support column 8a is provided with the support bracket 14 for support scolding tin 8c3, and the bottom of institute's support bracket 14 is provided with
Bearing material box, bearing material box is interior to be provided with rosin, after scolding tin 8c3 completes scolding tin process every time, passes through motor 8d3 and electric cylinders 8b and coordinates
In driving to placement bearing material box.
The detection means 12 includes the 3rd support column 12a being vertically arranged and is fixed at the top of the 3rd support column 12a
Detection components 12b, the detection components 12b include detection piece 12b1 and the 3rd fixed plate to fixed test part 12b1
12b2, the detection piece 12b1 are provided with detection pipeline 12b3 close to the side of rotating disk 2, and described detection pipeline 12b3 one end is provided with inspection
Device is surveyed, the detector is embedded in detection pipeline 12b3, and detector is used for detecting in tool 4 whether scolding tin is complete at workpiece scolding tin
Into whetheing there is solder skip.
The locating part 5 includes the first limiting plate 5a being vertically arranged and horizontally disposed second limiting plate 5b, the second limit
Position plate 5b is located at the top of the first limiting plate 5a and is hinged with the first limiting plate 5a, the first limiting plate 5a and the second limiting plate 5b
Hinged place is provided with first rotating shaft 5c, the first rotating shaft 5c and is arranged with torsion spring 5d, and torsion spring 5d both ends contradict respectively
On first limiting plate 5a and the second limiting plate 5b, the second limiting plate 5b is set to keep to the work in tool 4 by torsion spring 5d tension force
Part is locking state all the time.
The described one end of second limiting plate 5b away from tool 4 is provided with the second rotating shaft 5e being engaged with retaining mechanism 6, locking
Mechanism 6 is carried out spacing by the second rotating shaft 5e the second limiting plate 5b of regulation to the workpiece in tool 4.
The retaining mechanism 6 includes the cylinder 6a the being vertically arranged and support frame 6b to fixed cylinder 6a, the cylinder
6a output end is provided with depression bar 6c, and depression bar 6c one end is fixedly connected with cylinder 6a output ends, and the other end is provided with and the second rotating shaft
The groove that 5e is engaged, cylinder 6a drive outputs drive depression bar 6c to move down, groove contact on the second rotating shaft 5e and to
Push.
The drive device 3 includes stepper motor, and output shaft and the transmission of rotating disk 2 of stepper motor coordinate, stepper motor band
Tool 4 on turn disk 2 reaches specified location.
The side of pedestal 1 is provided with the material box 1a for being used for placing workpiece to be processed, and material box 1a is used for support workpiece.
The above described is only a preferred embodiment of the present invention, any limit not is made to the technical scope of the present invention
System, therefore any subtle modifications, equivalent variations and modifications that every technical spirit according to the present invention is made to above example,
In the range of still falling within technical scheme.