CN106041519B - A kind of emulsion pumps automatic production device - Google Patents
A kind of emulsion pumps automatic production device Download PDFInfo
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- CN106041519B CN106041519B CN201610443712.XA CN201610443712A CN106041519B CN 106041519 B CN106041519 B CN 106041519B CN 201610443712 A CN201610443712 A CN 201610443712A CN 106041519 B CN106041519 B CN 106041519B
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23P—METAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
- B23P21/00—Machines for assembling a multiplicity of different parts to compose units, with or without preceding or subsequent working of such parts, e.g. with programme control
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Details Of Reciprocating Pumps (AREA)
Abstract
The invention discloses a kind of emulsion pumps automatic production devices, including:Piston component assembling mechanism forms piston component for being assembled to piston, upper pump rod, lower pump rod after assembling;Curved nozzle component assembling mechanism, connect with the output end of piston component assembling mechanism, and for being assembled for piston component, locking closure, curved nozzle, curved nozzle component is formed after assembling;The pre-assembled mechanism of pump assembly forms pump housing package for being assembled to the pump housing, glass ball, gasket, spring after assembling;Total assembling mechanism, while being connect with curved nozzle component assembling mechanism and the pre-assembled mechanism of pump assembly, for being assembled to piston component, pump housing package, bung flange, pump housing finished product is formed after assembling.The present invention using the above structure can carry out full automatic assembly to emulsion pumps, and working efficiency is high, reduces labour, reduces cost.
Description
Technical field
The present invention relates to a kind of emulsion pumps automatic production devices.
Background technology
With social development, people’s lives level provides, and substantially increases in the bottle Bottle & Can tank of washing, cosmetic industry,
The demand of emulsion pumps on Bottle & Can is also increasing.Existing emulsion pumps generally comprised piston, upper pump rod, lower pump rod, locking closure,
The assembling of curved nozzle, upper glass ball, the pump housing, lower glass ball, gasket, spring and bung flange parts, existing emulsion pumps generally uses human hand
Above-mentioned component is completed by work, needs to be equipped with more staff thus, it is desirable to provide larger work-yard, and
The quality of finished product is there may be irregular phenomenon after assembling, and the present invention provides a kind of full automatic assembling emulsion pumps thus
For substituting existing mode is manually assembled in process units.
Invention content
To solve the above-mentioned problems, the present invention provides a kind of emulsion pumps automatic production device.
The technical solution adopted by the present invention to solve the technical problems is:
A kind of emulsion pumps automatic production device, including:
Piston component assembling mechanism forms piston component for being assembled to piston, upper pump rod, lower pump rod after assembling;
Curved nozzle component assembling mechanism, connect with the output end of piston component assembling mechanism, for for piston component, lock
Lid, curved nozzle are assembled, and curved nozzle component is formed after assembling;
It is pre- to form the pump housing for being assembled to the pump housing, glass ball, gasket, spring, after assembling for the pre-assembled mechanism of pump assembly
Piece installing;
Total assembling mechanism, while being connect with curved nozzle component assembling mechanism and the pre-assembled mechanism of pump assembly, for piston
Component, pump housing package, bung flange are assembled, and pump housing finished product is formed after assembling.
The invention also includes an intubation mechanisms, are connect with total assembling mechanism, for liquid guiding tube and pump housing finished product to be plugged on
Together.
The pre-assembled mechanism of pump assembly includes a sealing detection for detecting seal degree between glass ball and the pump housing
Device.
Total assembling mechanism includes first detection device for carrying out suction and leak detection to pump housing finished product.
The piston component assembling mechanism includes the first rack, for the first vibration plate of sequentially conveyor piston, for sequentially
Second vibration plate of pump rod, the third vibration plate for sequentially conveying lower pump rod, several first mandrils in conveying can turn in the first rack
It is provided with piston bridging disk, upper pump rod bridging disk and lower pump rod bridging disk dynamicly, piston bridging disk receives the conveying of the first vibration plate
Material, upper pump rod bridging disk receive the material of the second vibration plate conveying, and lower pump rod bridging disk receives the material of third vibration plate conveying, the
One mandril is slidably mounted in the first rack, and the movement of the first mandril can connect together piston, upper pump rod, lower pump rod.
The curved nozzle component assembling mechanism includes the second rack, the 4th vibration plate for sequentially conveying locking closure, for sequentially
The 5th vibration plate of curved nozzle, several second mandrils are conveyed, rotatably arranged with having piston component bridging disk, lock in second rack
Lid bridging disk and curved nozzle bridging disk, piston component bridging disk receive the material of piston component assembling mechanism output, and the locking closure is hung
Material of the charging tray for receiving the conveying of the 4th vibration plate, material of the curved nozzle bridging disk for receiving the conveying of the 5th vibration plate, second
Mandril is slidably mounted in the second rack, and the movement of the second mandril can connect together piston component, locking closure, curved nozzle.
The pre-assembled mechanism of pump assembly further includes third rack, the 6th vibration plate for sequentially conveying the pump housing, is used for
Sequentially conveying the 7th vibration plate of glass ball, the 8th vibration plate for sequentially conveying gasket, the 9th vibration plate for sequentially conveying spring,
Oil brushing device, mechanical gripping finger, the sliding slot being arranged in third rack, the turntable docked with sliding slot, turntable are installed in rotation on
In third rack, gasket can slide on the chute, and gasket, the other end and turntable pair are docked and received in sliding slot one end with the 8th vibration plate
It connects;Mechanical gripping finger is mounted in third rack, for being picked up the pump housing on the 6th vibration plate output end and being placed on gasket;The
The output end of seven vibration plates is located at the top of the pump housing on turntable, for glass ball to be put into the pump housing;The oil brushing device is along turntable
Rotation direction be located at the 7th vibration plate output glass ball latter station, for carrying out brush oil processing to ontology madial wall;Described
The output end of nine vibration plates is located at the top of the pump housing on turntable, and the latter station of oil brushing device is located at along the rotation direction of turntable,
For spring to be put into the pump housing;The package seal checker dress is located at by turntable, and the rotation direction along turntable is shaken positioned at the 9th
The latter station of disk output end.
Total assembling mechanism includes the 4th rack, the tenth vibration plate for sequentially conveying bung flange, several third mandrils, and
Rotatably arranged with having curved nozzle component bridging disk, bung flange bridging disk and pump housing package bridging disk, bung flange bridging disk in four racks
The material of the tenth vibration plate conveying is received, curved nozzle component bridging disk receives the curved nozzle component of Wan Zui assembly apparatus mechanism output, the pump housing
Package bridging disk receives the pump housing package of the pre-assembled mechanism conveying of pump assembly, and third mandril is slidably mounted in the 4th
In rack, the movement of third mandril can connect together bung flange, curved nozzle component, pump housing package.
First detection device includes the 5th rack, pump housing finished product bridging disk, lock head device, suction detection device and leakage
Gas detection device, pump housing finished product bridging disk are installed in rotation in the 5th rack, suction detection device, lock head device and gas leakage
Detection device is mounted in rack, is respectively used to the pump for carrying out suction detection to the pump housing finished product of process, being detected to meeting suction
Body finished product carries out tapered end processing, carries out leak detection to the pump housing finished product by tapered end processing.
The invention also includes a control device, the piston component assembling mechanism, curved nozzle component assembling mechanism, pump assembly
Pre-assembled mechanism, total assembling mechanism and intubation mechanism are all electrically connected with control device.
The beneficial effects of the invention are as follows:The present invention using the above structure can carry out full automatic assembly to emulsion pumps,
Working efficiency is high, reduces labour, reduces cost, by machine complete monitoring product quality, ensures excellent product quality, simultaneously
Structure of the invention is compact, can reduce production space, and land utilization efficiency is significantly promoted.
Description of the drawings
Present invention will be further explained below with reference to the attached drawings and examples:
Fig. 1 is the principle schematic diagram of the present invention;
Fig. 2 is piston component assembling mechanism schematic diagram in the present invention;
Fig. 3 is curved nozzle component assembling mechanism schematic diagram in the present invention;
Fig. 4 is the pre-assembled mechanism of middle pump body component of the present invention and total assembling mechanism schematic diagram;
Fig. 5 is the first detection device schematic diagram in the present invention;
Fig. 6 is intubation mechanism schematic diagram in the present invention;
Fig. 7 is middle pump body finished product schematic diagram of the present invention.
Specific implementation mode
Referring to Fig.1~Fig. 7, the present invention are a kind of emulsion pumps automatic production devices, including:Piston component assembling mechanism 4,
For being assembled to piston 1, upper pump rod 2, lower pump rod 3, piston component 6 is formed after assembling;
Curved nozzle component assembling mechanism 5, connect with the output end of piston component assembling mechanism 4, for for piston component 6,
Locking closure 7, curved nozzle 8 are assembled, and curved nozzle component 9 is formed after assembling;
The pre-assembled mechanism 14 of pump assembly, for being assembled to the pump housing 10, glass ball 11, gasket 12, spring 13, after assembling
Form pump housing package 15;
Total assembling mechanism 16, while connect with curved nozzle component assembling mechanism 5 and the pre-assembled mechanism of pump assembly 14, is used for pair
Piston component 6, pump housing package 15, bung flange 17 are assembled, and pump housing finished product 18 is formed after assembling;
Control device, the piston component assembling mechanism 4, curved nozzle component assembling mechanism 5, the pre-assembled mechanism of pump assembly
14, total assembling mechanism 16 and intubation mechanism are all electrically connected with control device.Control device includes a microcontroller, touch control screen
And several photoelectric sensors, touch control screen and photoelectric sensor are all electrically connected with microcontroller, are monitored by photoelectric sensor
Piston component assembling mechanism 4, curved nozzle component assembling mechanism 5, the pre-assembled mechanism 14 of pump assembly, total assembling mechanism 16 action into
Row and feedback information carry out processing control by microcontroller, and touch control screen is used for work user input parameter or other controls
Order etc..The present invention using the above structure can carry out full automatic assembly to emulsion pumps, and working efficiency is high, reduces labour
Power reduces cost, by machine complete monitoring product quality, ensures excellent product quality, while structure of the invention is compact, can reduce
Space is produced, land utilization efficiency is significantly promoted.
As shown, piston component assembling mechanism 4 includes the first rack 19, for the first vibration plate of sequentially conveyor piston 1
20, for sequentially conveying the second vibration plate 21 of upper pump rod 2, the third vibration plate 22 for sequentially conveying lower pump rod 3, several first tops
Bar 23, it is living rotatably arranged with having piston bridging disk 24, upper pump rod bridging disk 25 and lower pump rod bridging disk 26 in the first rack 19
The material that bridging disk 24 receives the conveying of the first vibration plate 20 is filled in, upper pump rod bridging disk 25 receives the material of the second vibration plate 21 conveying, under
Pump rod bridging disk 26 receives the material of 22 conveying of third vibration plate, and the first mandril 23 is slidably mounted in the first rack 19, the
The movement of one mandril 23 can connect together piston 1, upper pump rod 2, lower pump rod 3, and bead can be put into as needed in lower pump rod.
Piston 1, upper pump rod 2 and lower pump rod 3 are sent respectively to piston bridging by the first vibration plate 20, the second vibration plate 21 and third vibration plate 22
Disk 24, upper pump rod bridging disk 25 and lower pump rod bridging disk 26, piston bridging disk 24, upper pump rod bridging disk 25 and lower pump rod bridging disk
All be provided on 26 it is corresponding be affiliated to position, piston bridging disk 24 between upper pump rod bridging disk 25 and lower pump rod bridging disk 26,
Corresponding piston 1 between upper pump rod 2 and lower pump rod 3, the first mandril 23 movement driving under by piston 1, upper pump rod 2,
Lower pump rod 3 connects together.
As shown, curved nozzle component assembling mechanism 5 includes the second rack 27, the 4th vibration plate for sequentially conveying locking closure 7
28, the 5th vibration plate 29, several second mandrils 30 for sequentially conveying curved nozzle 8, rotatably arranged with there is work in the second rack 27
Plug assembly bridging disk 31, locking closure bridging disk 32 and curved nozzle bridging disk 33, piston component bridging disk 31, locking closure bridging disk 32 and curved nozzle
Bridging disk 33 is respectively arranged with the position of being affiliated to of corresponding piston component 6, locking closure 7 and curved nozzle 8, and piston component bridging disk 31 receives piston
The material that component assembling mechanism 4 exports, locking closure bridging disk 32 are used to receive the material of the 4th vibration plate 28 conveying, curved nozzle bridging disk 33
Material for receiving the conveying of the 5th vibration plate 29, the second mandril are slidably mounted in the second rack 27, the second mandril 30 fortune
It is dynamic piston component 6, locking closure 7, curved nozzle 8 to be connected together.Piston component assembling mechanism 4 leads to assembled piston component 6
It crosses track and send being affiliated on position to piston component bridging disk 31, the 4th vibration plate 28 and the 5th vibration plate 29 divide locking closure 7 and curved nozzle 8
Being affiliated on position to locking closure bridging disk 32 and curved nozzle bridging disk 33, piston component 6, locking closure 7,8 sets of curved nozzle is not sent to be located at second
Three is serially connected by the top of mandril 30 by the movement of the second mandril 30, and such curved nozzle component 9 can be completed.
As shown, the pre-assembled mechanism 14 of pump assembly is used to detect seal degree between glass ball 11 and the pump housing 10 including one
Package seal checker 34;Further include third rack 35, the 6th vibration plate 36 for sequentially conveying the pump housing 10, for sequentially conveying
7th vibration plate 37 of glass ball 11, the 8th vibration plate 38 for sequentially conveying gasket 12 are shaken for sequentially conveying the 9th of spring 13 the
Disk 39, oil brushing device 40, mechanical gripping finger, the sliding slot 41 being arranged in third rack 35, the turntable 42 docked with sliding slot 41, turntable
42 are installed in rotation in third rack 35, and gasket 12 can slide on sliding slot 41, and 41 one end of sliding slot and the 8th vibration plate 38 are right
Gasket 12 is connect and receives, the other end is docked with turntable 42;Mechanical gripping finger is mounted in third rack 35, is used for the 6th vibration plate 36
The pump housing 10 on output end is picked up and is placed on gasket 12;The output end of 7th vibration plate 37 is located at the pump housing 10 on turntable 42
Top, for glass ball 11 to be put into the pump housing 10;Oil brushing device 40 is located at the output of the 7th vibration plate 37 along the rotation direction of turntable 42
The latter station at end, for carrying out brush oil processing to ontology madial wall;The output end of 9th vibration plate 39 is located at the pump on turntable 42
The top of body 10 is located at the latter station of oil brushing device 40 along the rotation direction of turntable 42, for spring 13 to be put into the pump housing 10
It is interior;The dress of package seal checker 34 is located at by turntable 42, and the rotation direction along turntable 42 is located at the latter of 39 output end of the 9th vibration plate
Station.The pre-assembled 14 specific operating principle of mechanism of pump assembly using the above structure is as follows, by the 8th vibration plate 38 by gasket
12 send to sliding slot 41, then grip the pump housing 10 from the output end of the 6th vibration plate 36 by mechanical gripping finger, and the pump housing 10 is moved to pad
12 top of piece, then move down and the pump housing 10 is put into gasket 12, slideway movement send the pump housing 10 for installing gasket 12 to turntable 42, turntable
Be provided on 42 it is several hang the pump housing 10 and gasket 12 be affiliated to position, 42 intermittent rotation of turntable, then the 7th vibration plate 37 by glass
Ball is sent to one by one inside the pump housing 10, then carries out brush oil processing to the pump housing 10, and then spring 13 is put into vibration plate by the 9th vibration plate 39,
Package seal checker 34 is detected glass ball and the sealing performance of 10 inside of the pump housing again, and the undesirable pump housing 10 is moved
It walks, you can complete the pre-assembled work of 10 component of the pump housing.
As shown, total assembling mechanism 16 includes first inspection for carrying out suction and leak detection to pump housing finished product 18
Survey device 43;Total assembling mechanism 16 includes the 4th rack 44, the tenth vibration plate 45 for sequentially conveying bung flange 17, several third tops
Bar 46, rotatably arranged with having curved nozzle component bridging disk 47, bung flange bridging disk 48 and pump housing package bridging in the 4th rack 44
Disk 49, bung flange bridging disk 48 receive the material of the tenth vibration plate 45 conveying, and curved nozzle component bridging disk 47 receives 9 device machine of curved nozzle component
The curved nozzle component 9 of structure output, pump housing package bridging disk receive the pump housing pre-assembled module that the pre-assembled mechanism 14 of pump assembly conveys,
Third mandril 46 is slidably mounted in the 4th rack 44, and the movement of third mandril 46 can be by bung flange 17, curved nozzle component 9, the pump housing
Pre-assembled module connects together;First detection device 43 include the 5th rack 54, pump housing finished product bridging disk 55, lock head device 56,
Suction detection device 57 and gas leak detection device 58, pump housing finished product bridging disk are installed in rotation in the 5th rack, suction inspection
It surveys device, lock head device and gas leak detection device to be mounted in rack, is respectively used to carry out suction inspection to the pump housing finished product of process
It surveys, tapered end processing is carried out to the pump housing finished product 18 for meeting suction detection, the pump housing finished product 18 by tapered end processing is revealed
Detection.16 specific operating principle of total assembling mechanism using the above structure is as follows, curved nozzle component bridging disk 47, bung flange bridging disk 48
And the position of being affiliated to of corresponding curved nozzle component 9, bung flange 17 and pump housing package 15 is respectively arranged on pump housing package bridging disk 49, it is curved
9 equipment mechanism of nozzle component send assembled curved nozzle component 9 to curved nozzle component bridging disk 47 by track, pre- group of pump assembly
Mounting mechanism 14 send pump housing package 15 to pump housing package bridging disk 49 by track, by the tenth vibration plate 45 by bung flange 17
It send to bung flange and is affiliated on disk, bung flange 17, curved nozzle component 9, pump housing pre-assembled module are located at the top of third mandril 46, pass through third top
Three is serially connected by the movement of bar 46, and the pump housing finished product 18 concatenated is sent by track to pump housing finished product bridging disk, the pump housing at
Several corresponding pump housing finished products 18 are provided on product bridging disk is affiliated to position, is examined by suction detection device, lock head device and gas leakage
Device is surveyed to carry out suction detection to the pump housing finished product 18 of process respectively, carry out at tapered end the pump housing finished product 18 for meeting suction detection
Reason carries out leak detection to the pump housing finished product 18 by tapered end processing, and the pump housing finished product 18 for not being inconsistent resultant suction detection is directly rejected,
The tapered end finished product that leak detection is handled but do not met by tapered end is rejected again, ensures the quality of tapered end finished product
As shown, the invention also includes an intubation mechanism 52, connect with total assembling mechanism 16, for by liquid guiding tube 50 with
Pump housing finished product 18 is plugged in together.Intubation mechanism may include the 6th rack 51, is provided in the 6th rack and takes pipe manipulator, clamping
Mechanism 53, total assembling mechanism 16 send pump housing finished product 18 to the 6th rack by track, pass through gripper mechanism grips pump housing finished product
18, then by taking pipe manipulator to take pipe, and insert a tube into pump housing finished product 18, you can intubation is completed, intubation mechanism can also wrap
Include a tube cutting mechanism for cutting off the pipe of coil type by length.
Above-described embodiment is the preferred embodiment of the present invention, and the present invention can also have other embodiments.The technology of this field
Personnel can also make equivalent variations or replacement under the premise of without prejudice to spirit of that invention, these equivalent modifications or replacement are wrapped
It is contained in the range set by the application claim.
Claims (9)
1. a kind of emulsion pumps automatic production device, it is characterised in that including:
Piston component assembling mechanism forms piston component for being assembled to piston, upper pump rod, lower pump rod after assembling;It is described
Piston component assembling mechanism includes the first rack, for the first vibration plate of sequentially conveyor piston, for sequentially conveying upper pump rod
Second vibration plate, the third vibration plate for sequentially conveying lower pump rod, several first mandrils, rotatably arranged with there is work in the first rack
Bridging disk, upper pump rod bridging disk and lower pump rod bridging disk are filled in, piston bridging disk receives the material of the first vibration plate conveying, and upper pump rod is hung
Charging tray receives the material of the second vibration plate conveying, and lower pump rod bridging disk receives the material of third vibration plate conveying, and the first mandril is slidably
Ground is mounted in the first rack, and the movement of the first mandril can connect together piston, upper pump rod, lower pump rod;
Curved nozzle component assembling mechanism, connect with the output end of piston component assembling mechanism, for for piston component, locking closure, curved
Nozzle is assembled, and curved nozzle component is formed after assembling;
The pre-assembled mechanism of pump assembly forms pump housing prepackage for being assembled to the pump housing, glass ball, gasket, spring, after assembling
Part;
Total assembling mechanism, while being connect with curved nozzle component assembling mechanism and the pre-assembled mechanism of pump assembly, for piston component,
Pump housing package, bung flange are assembled, and pump housing finished product is formed after assembling.
2. a kind of emulsion pumps automatic production device as described in claim 1, it is characterised in that it further includes an intubation mechanism,
It is connect with total assembling mechanism, for liquid guiding tube and pump housing finished product to be plugged in together.
3. a kind of emulsion pumps automatic production device as described in claim 1, it is characterised in that the pump assembly is pre-assembled
Mechanism includes a package seal checker for detecting seal degree between glass ball and the pump housing.
4. a kind of emulsion pumps automatic production device as described in claim 1, it is characterised in that total assembling mechanism includes
One the first detection device for carrying out suction and leak detection to pump housing finished product.
5. a kind of emulsion pumps automatic production device as described in claim 1, it is characterised in that the curved nozzle component kludge
Structure includes the second rack, the 4th vibration plate for sequentially conveying locking closure, the 5th vibration plate for sequentially conveying curved nozzle, several second
Mandril, rotatably arranged with having piston component bridging disk, locking closure bridging disk and curved nozzle bridging disk, piston group in second rack
Part bridging disk receives the material of piston component assembling mechanism output, and the locking closure bridging disk is used to receive the object of the 4th vibration plate conveying
Material, the curved nozzle bridging disk are used to receive the material of the 5th vibration plate conveying, and the second mandril is slidably mounted in the second rack,
The movement of second mandril can connect together piston component, locking closure, curved nozzle.
6. a kind of emulsion pumps automatic production device as claimed in claim 3, it is characterised in that the pump assembly is pre-assembled
Mechanism further includes third rack, the 6th vibration plate for sequentially conveying the pump housing, the 7th vibration plate for sequentially conveying glass ball, is used for
Sequentially conveying the 8th vibration plate of gasket, the 9th vibration plate for sequentially conveying spring, oil brushing device, mechanical gripping finger, setting are the
Sliding slot in three racks, the turntable docked with sliding slot, turntable are installed in rotation in third rack, and gasket can be slided on the chute
Dynamic, gasket is docked and received in sliding slot one end with the 8th vibration plate, and the other end is docked with turntable;Mechanical gripping finger is mounted on third rack
On, for the pump housing on the 6th vibration plate output end to be picked up and is placed on gasket;The output end of 7th vibration plate is located on turntable
The pump housing top, for glass ball to be put into the pump housing;It is defeated that the oil brushing device along the rotation direction of turntable is located at the 7th vibration plate
The latter station for going out glass ball, for carrying out brush oil processing to ontology madial wall;The output end of 9th vibration plate is located on turntable
The pump housing top, the latter station of oil brushing device is located at along the rotation direction of turntable, for spring to be put into the pump housing;It is described
Package seal checker dress is located at by turntable, and the latter station of the 9th vibration plate output end is located at along the rotation direction of turntable.
7. a kind of emulsion pumps automatic production device as described in claim 1, it is characterised in that total assembling mechanism includes
4th rack, the tenth vibration plate for sequentially conveying bung flange, several third mandrils, rotatably arranged with there is curved nozzle in the 4th rack
Component bridging disk, bung flange bridging disk and pump housing package bridging disk, bung flange bridging disk receive the material of the tenth vibration plate conveying, curved nozzle
Component bridging disk receives the curved nozzle component of Wan Zui assembly apparatus mechanism output, and pump housing package bridging disk receives pre- group of pump assembly
The pump housing package of mounting mechanism conveying, third mandril is slidably mounted in the 4th rack, the movement of third mandril can by bung flange,
Curved nozzle component, pump housing package connect together.
8. a kind of emulsion pumps automatic production device as claimed in claim 4, it is characterised in that the first detection device packet
Include the 5th rack, pump housing finished product bridging disk, lock head device, suction detection device and gas leak detection device, pump housing finished product bridging disk
It is installed in rotation in the 5th rack, suction detection device, lock head device and gas leak detection device are mounted in rack, respectively
Suction detection is carried out for the pump housing finished product to process, tapered end processing is carried out, to passing through to the pump housing finished product for meeting suction detection
The pump housing finished product of tapered end processing carries out leak detection.
9. a kind of emulsion pumps automatic production device as described in claim 1, it is characterised in that it further includes a control device,
The piston component assembling mechanism, curved nozzle component assembling mechanism, the pre-assembled mechanism of pump assembly, total assembling mechanism and intubation mechanism
All it is electrically connected with control device.
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CN201610443712.XA CN106041519B (en) | 2016-06-05 | 2016-06-05 | A kind of emulsion pumps automatic production device |
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CN201610443712.XA CN106041519B (en) | 2016-06-05 | 2016-06-05 | A kind of emulsion pumps automatic production device |
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CN106041519B true CN106041519B (en) | 2018-07-17 |
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CN106743378B (en) * | 2016-11-29 | 2018-11-09 | 余姚市翔盛塑业有限公司 | A kind of emulsion pumps automatic assembling machine |
CN106584097B (en) * | 2016-11-29 | 2018-11-09 | 余姚市翔盛塑业有限公司 | Emulsion pumps automatic assembling apparatus |
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CN108515345A (en) * | 2018-05-21 | 2018-09-11 | 广东中凯塑业有限公司 | A kind of emulsion pumps assembly line |
CN109894863B (en) * | 2019-04-12 | 2024-03-01 | 深圳博纳精密给药系统股份有限公司 | Pump core kludge |
CN109894865B (en) * | 2019-04-12 | 2024-03-05 | 深圳博纳精密给药系统股份有限公司 | Second generation pump core detects kludge |
Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH11330789A (en) * | 1998-05-08 | 1999-11-30 | Matsushita Electric Ind Co Ltd | Electronic part mounting equipment |
CN201394724Y (en) * | 2009-04-24 | 2010-02-03 | 中山市美捷时喷雾阀有限公司 | Press-assembling device of emulsion pump auto-assembling machine |
CN201505800U (en) * | 2009-04-24 | 2010-06-16 | 中山市美捷时喷雾阀有限公司 | Emulsion pump automatic assembling machine |
CN101870062A (en) * | 2009-04-24 | 2010-10-27 | 中山市美捷时喷雾阀有限公司 | Automatic assembling machine for lotion pump |
CN202411804U (en) * | 2011-12-29 | 2012-09-05 | 中山市联昌喷雾泵有限公司 | Emulsion pump assembly machine |
CN202780457U (en) * | 2012-09-05 | 2013-03-13 | 珠海市华迅塑料泵业有限公司 | Automatic assembly machine for emulsion pump |
CN103769847A (en) * | 2013-12-19 | 2014-05-07 | 中山市加贝五金模具有限公司 | Automatic assembling machine used for assembling emulsion pump and gasket |
CN106002257A (en) * | 2016-07-22 | 2016-10-12 | 广州市乔迪塑料有限公司 | Assembly machine |
CN205703219U (en) * | 2016-06-05 | 2016-11-23 | 中山市宏国机械制造厂 | A kind of emulsion pumps automatic production device |
-
2016
- 2016-06-05 CN CN201610443712.XA patent/CN106041519B/en active Active
Patent Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH11330789A (en) * | 1998-05-08 | 1999-11-30 | Matsushita Electric Ind Co Ltd | Electronic part mounting equipment |
CN201394724Y (en) * | 2009-04-24 | 2010-02-03 | 中山市美捷时喷雾阀有限公司 | Press-assembling device of emulsion pump auto-assembling machine |
CN201505800U (en) * | 2009-04-24 | 2010-06-16 | 中山市美捷时喷雾阀有限公司 | Emulsion pump automatic assembling machine |
CN101870062A (en) * | 2009-04-24 | 2010-10-27 | 中山市美捷时喷雾阀有限公司 | Automatic assembling machine for lotion pump |
CN202411804U (en) * | 2011-12-29 | 2012-09-05 | 中山市联昌喷雾泵有限公司 | Emulsion pump assembly machine |
CN202780457U (en) * | 2012-09-05 | 2013-03-13 | 珠海市华迅塑料泵业有限公司 | Automatic assembly machine for emulsion pump |
CN103769847A (en) * | 2013-12-19 | 2014-05-07 | 中山市加贝五金模具有限公司 | Automatic assembling machine used for assembling emulsion pump and gasket |
CN205703219U (en) * | 2016-06-05 | 2016-11-23 | 中山市宏国机械制造厂 | A kind of emulsion pumps automatic production device |
CN106002257A (en) * | 2016-07-22 | 2016-10-12 | 广州市乔迪塑料有限公司 | Assembly machine |
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