CN102874441A - Canning vacuum water-controlling equipment - Google Patents
Canning vacuum water-controlling equipment Download PDFInfo
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- CN102874441A CN102874441A CN2012104101163A CN201210410116A CN102874441A CN 102874441 A CN102874441 A CN 102874441A CN 2012104101163 A CN2012104101163 A CN 2012104101163A CN 201210410116 A CN201210410116 A CN 201210410116A CN 102874441 A CN102874441 A CN 102874441A
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Abstract
The invention relates to canning vacuum water-controlling equipment, which comprises a can entering conveying frame, a can exiting conveying frame, a vacuum stabilizing device, a water-sucking device and a transmission mechanism, wherein a can entering rotary disk of the transmission mechanism is axially connected with the can entering conveying frame and the can exiting conveying frame at both sides, a rotary shaft of the can entering rotary disk is connected with an can entering eccentric wheel to enable the can entering rotary disk to make intermittent-type rotary movement, the water-sucking device is positioned above the can entering rotary disk, a water-sucking pipe of the water-sucking device is axially connected with a cylinder and a pressure head, the upward and downward movement of the pressure head is synchronously matched with a can-position hole when the can entering rotary disk makes intermittent-type rotation, the vacuum stabilizing device comprises a vacuum pump and a vacuum can, the vacuum pump is connected with the vacuum can through a pipeline, a water-level sensor is arranged on the lateral wall of the vacuum can, a water-discharging electromagnetic valve is arranged at the bottom of the vacuum can, and a gas pipe which is led out of the vacuum can is connected with the water-sucking pipe of the water-sucking device. Water in a can is sucked out by adopting a vacuum water-sucking method in the invention, and the canning vacuum water-controlling equipment has the advantages of uniformity in water control, high speed and high benefit.
Description
Technical field
The present invention relates to a kind of food machinery, especially can drains a kind of canned vacuum control wetting system of residual moisture in the tank in process of production.
Background technology
Traditional technology of canned, before claiming, department all is provided with the draining operation, the arrangement personnel pursue the operation that tank drains moisture in the tank to the can body of tinning, especially produce the fruits can, content is packed into behind the slack tank, in the tank with a large amount of moisture, if do not drain moisture in the tank, be difficult to guarantee the actual weight of can solid, and pol content also is difficult to control.Therefore, the operation of draining operation is indispensable, but this traditional method of operation, speed of production is slow, and personnel waste greatly, and production efficiency can not get improving.
The defective that exists in order to overcome above-mentioned technology, the applicant had once invented " a kind of canning water draining machine for canned food " (publication number: CN201633935U, open day on November 17th, 2010), the symmetrical roll shaft that connects in the fuselage body left and right sides, the roll shaft head bearing is fixed on the frame by bearing seat, and fuselage body peripheric surface wall has control water cover, and control water cover plate face is furnished with hole, control water cover is fixed on the fuselage body by 4 adjusting screw(rod)s, and adjusting screw(rod) is according to the height of the different adjustment control water cover of tank type.Although it has solved the operating mode that drains by hand moisture in the tank by tank, production efficiency is improved.But also there are some structural defects in it, and this draining machine also needs manual operations to rotate during production, the automatic production lines equipment that can not link up with the supporting formation of automatic closing machine.
Summary of the invention
The objective of the invention is for existing deficiency, a kind of manual operations that need not is provided, automatically suck moisture in the tank, production efficiency is high, and can with the supporting canned vacuum control wetting system that uses that is connected of can automatic closing machine.
To achieve the above object, the technical solution adopted for the present invention to solve the technical problems is: a kind of canned vacuum control wetting system, comprise into the tank carriage, go out the tank carriage, the vacuum stabilizing device, water absorber, transmission device, describedly advance the tank carriage and go out to be equipped with the chain that band pushes away cage shoe on the tank carriage, the both sides of chain are provided with gear tank bar, described transmission device enter advancing the tank carriage and being connected the tank carriage and being axial and being connected of tank rotating disk and both sides, and their workplatform is on same level, the rotating shaft of advancing the tank rotating disk connects into the tank eccentric wheel, motor-driven advances the tank eccentric wheel and rotates, make into the tank rotating disk and rotatablely move as batch (-type), water absorber is positioned at into tank rotating disk top, the suction of water absorber. water pipe axially connects cylinder and pressure head, pressure head with enter the hole, tank position of tank rotating disk on same line of centers, moving up and down with advancing the tank rotating disk and do the hole, tank position in batch (-type) when rotation of pressure head cooperates synchronously, going out the tank carriage is provided with and pushes away tank spare, pushing away tank spare connects fork and goes out the tank eccentric wheel, described vacuum stabilizing device is comprised of vacuum pump and vacuum reservoir, vacuum pump connects vacuum reservoir by pipeline, the sidewall of vacuum reservoir is provided with water level detector, the bottom is provided with drain solenoid valve, vacuum reservoir draws the tracheae that picks out and is connected with the sucking tube of water absorber, tracheae in this junction is provided with vacuum solenoid, and the cylinder of vacuum solenoid and water absorber is electrically connected with controller.
A described end that pushes away tank spare is curved end, and curved end is positioned at into tank rotating disk below, and to do time of intermittent rotary opposite with advancing the tank rotating disk to push away time that tank spare produces intermittently transverse reciprocating slippage, and the curved end can body that will absorb water is pushed to out on the tank carriage.
The plane of described pressure head is furnished with the suction hole, is provided with sheet rubber with the can body contact surface.
Describedly advance the tank rotating disk and be provided with impartial to arranging 6 holes, tank position of carrying can bodies.
Described tracheae and sucking tube junction are provided with flexible pipe.
After adopting said structure, enter the not suction can body that content is housed on the operator's station, advancing the connecing under the fortune of chain on the tank carriage, be sent in the hole, tank position of tank rotating disk by pushing away the cage shoe can body that will not absorb water, advancing the tank eccentric wheel rotates under the transmission of motor, make into the tank rotating disk and rotatablely move as batch (-type), when below the can body that do not absorb water is transferred to the pressure head that is positioned at water absorber, resting, pressure head moves down the open end of pushing down the can body that do not absorb water under the effect of cylinder, meanwhile, vacuum solenoid is opened, and tracheae communicates with the sucking tube of water absorber, to absorbing water in the tank, set when sucking required time of water when reaching, vacuum solenoid is closed, and pressure head moves up under the effect of cylinder, leaves and the contacting of the can body that absorbs water, advancing the tank rotating disk drives again the can body that absorbed water and is rotated, not suction can body on the hole, another tank position is transferred to the pressure head below at this moment, and pressure head moves down again the open end of pushing down the can body that do not absorb water, the operation that repeats to absorb water.When advancing the tank rotating disk when resting as the interval, be arranged on into the tank spare curved end that pushes away of tank rotating disk below and begin to do the interval toward polyslip, the can body that will absorb water is passed to going out on the tank carriage, and pushing away under cage shoe drives of chain, the can body that will absorb water is transported to next process.The moisture content that water absorber is inhaled flow in the vacuum reservoir of vacuum stabilizing device, and when the water level in the vacuum reservoir reached setting height, water level detector sent signal, and the drain solenoid valve of bottom is opened automatically, and the water in the vacuum reservoir is discharged.Adopt the vacuum dehydration method, tank internal control water is even, and automation mechanized operation speed is fast, high efficiency.
Description of drawings
Fig. 1 is structural representation of the present invention.
Fig. 2 is the structural representation of overlooking of the present invention.
Fig. 3 is the structural representation that the tank rotating disk cooperates with pressure head that advances of the present invention.
Fig. 4 is the structural representation of the section of water absorber of the present invention.
Fig. 5 is that can body of the present invention is placed on the structural representation on the chain.
Among the figure: 1. advance the tank carriage; 11. chain; 12. push away cage shoe; 13. gear tank bar; 2. go out the tank carriage; 21. chain; 22. push away cage shoe; 23. gear tank bar; 3. transmission device; 31. advance the tank rotating disk; 311. hole, tank position; 32. rotating shaft; 33. advance the tank eccentric wheel; 34. push away tank spare; 341. curved end; 35. fork; 36. go out the tank eccentric wheel; 37. transmission shaft; 38. motor; 4. vacuum stabilizing device; 41. vacuum pump; 42. vacuum reservoir; 43. pipeline; 44. tracheae; 45. water level detector; 46. drain solenoid valve; 5. water absorber; 51. sucking tube; 52. pressure head; 521. suction hole; 522. sheet rubber; 53. cylinder; 531. cylinder rod; 54. flexible pipe; 55. vacuum solenoid; 56. manually-operated gate; 57. vacuum indicator; 58. controller; 6. platform; 7. can body does not absorb water; 8. can body has absorbed water.
Below in conjunction with accompanying drawing embodiments of the present invention are described in further detail.
The specific embodiment
Shown in Fig. 1,2,3,5, a kind of canned vacuum control wetting system, comprise into tank carriage 1, go out tank carriage 2, vacuum stabilizing device 4, water absorber 5, transmission device 3, describedly advance tank carriage 1 and be provided with the chain 11 that band pushes away cage shoe 12, the both sides of chain 11 are provided with gear tank bar 13; Describedly go out tank carriage 2 and be provided with the chain 21 that band pushes away cage shoe 22, the both sides of chain 21 are provided with gear tank bar 23.Described transmission device 3 enter advancing tank carriage 1 and being connected tank carriage 2 and being axial and being connected of tank rotating disk 31 and both sides, and their workplatform 6 is on same level, advancing tank rotating disk 31 is provided with impartial to arranging 6 holes, tank position 311 of carrying can body, the rotating shaft 32 of advancing the tank rotating disk connects to advance tank eccentric wheel 33, motor 38 drives transmission shaft 37 rotations, the tank eccentric wheel 33 of advancing on the transmission shaft 37 rotates to make into tank rotating disk 31 and rotatablely moves as batch (-type), water absorber 5 is positioned at into the top of tank rotating disk 31, the sucking tube 51 of water absorber axially connects cylinder 53 and pressure head 52, cylinder 53 drives sucking tube 51 and pressure head 52 moves up and down, pressure head 52 and the hole, tank position 311 of advancing the tank rotating disk are on same line of centers, and the hole, tank position 311 that moves up and down when advancing tank rotating disk 31 and do the batch (-type) rotation of pressure head 52 cooperates synchronously.When advancing tank rotating disk 31 and temporarily rest, pressure head 52 moves down the open end of pushing down the can body 7 that do not absorb water in the hole, tank position 311 and absorbs water under the effect of cylinder 53; When moving on the pressure head 52, advance tank rotating disk 31 and drive the can body 8 continuation rotations that absorbed water.Going out tank carriage 2 is provided with and pushes away tank spare 34, an end that pushes away tank spare 34 is curved end 341, curved end 341 is positioned at into the below of tank rotating disk 31, pushing away tank spare 34 connects fork 35 and goes out tank eccentric wheel 36, go out tank eccentric wheel 36 and advance tank eccentric wheel 33 on same transmission shaft 37, go out tank eccentric wheel 36 and the chute opposite direction that advances tank eccentric wheel 33, make like this to push away tank spare 34 and to advance the time of making intermitten between the tank rotating disk 31 also opposite, when advancing 31 rotation of tank rotating disk, push away tank spare 34 and remain static; When advancing tank rotating disk 31 and temporarily rest, push away tank spare 34 horizontal slidings, after will advancing the can body 8 that absorbed water on the hole, tank rotating disk tank position 311 and shifting onto out on the tank carriage 2, reduction of spondylolisthesis again, tank rotating disk 31 to be advanced is rotated further, go out on the tank carriage 2 suction can body 8, be transported to next process by chain 21 can body 8 that will absorb water.
Vacuum stabilizing device 4 is comprised of vacuum pump 41 and vacuum reservoir 42, vacuum pump 41 is connected with the top of vacuum reservoir 42 by pipeline 43, vacuum reservoir is provided with vacuum indicator, the sidewall of vacuum reservoir 42 is provided with water level detector 45, the bottom is provided with drain solenoid valve 46, vacuum reservoir 42 upper side walls draw the tracheae 44 that picks out and are connected with the sucking tube 51 of water absorber, and tracheae 44 is provided with flexible pipe 54 with sucking tube 51 junctions, and the tracheae in this junction is provided with vacuum solenoid 55 and manually-operated gate 56 and vacuum indicator 57.When beginning to operate, open manually-operated gate 56, to the needed vacuum pressure of suction, degree of vacuum shows from vacuum indicator 57 with vacuum conditions.The cylinder 53 of vacuum solenoid 55 and water absorber is electrically connected with controller 58, and when cylinder rod 531 moved down, vacuum solenoid 55 was opened automatically; When vacuum electromagnetic valve 55 was closed, cylinder rod 531 condensed.
As shown in Figure 4, sucking tube 51 upper ends of water absorber are connected with the cylinder rod 531 of cylinder, the lower end connects pressure head 52, be furnished with suction hole 521 on the plane of pressure head 52, be provided with sheet rubber 522 with the contact surface of can body, pressure head 52 is pressed on the open end of the can body 7 that do not absorb water, and the vacuum in the sucking tube 51 flow into the sucking-off from suction hole 521 of the moisture content in the tank in the vacuum reservoir 42.
What content was housed does not absorb water can body 7 under the conveying of advancing the chain 11 on the tank carriage 1, be sent in the hole, tank position 311 of tank rotating disk 31 by pushing away cage shoe 12 can body 7 that will not absorb water, advance the rotation of tank eccentric wheel 33, make into tank rotating disk 31 and rotatablely move as batch (-type), when the can body 7 that do not absorb water is transferred to pressure head 52 below that is positioned at water absorber 5, pressure head 52 moves down the open end of pushing down the can body 7 that do not absorb water in the hole, tank position 311 under the effect of cylinder 53, meanwhile, vacuum solenoid 55 is opened, tracheae 44 communicates with the sucking tube 51 of water absorber, to absorbing water in the tank, set when sucking required time of water when reaching, vacuum solenoid 55 is closed, and pressure head 52 moves up under the effect of cylinder 53, leaves and the contacting of the can body 8 that absorbs water, advancing tank rotating disk 31 drives the can body 8 that absorbed water and is rotated, not suction can body 7 on the hole, another tank position 311 is transferred to pressure head 52 belows at this moment, and pressure head 52 moves down again the open end of pushing down the can body 7 that do not absorb water, the operation that repeats to absorb water.When advancing tank rotating disk 31 when resting as the interval, be arranged on into tank spare 34 curved end 341 that push away of tank rotating disk 31 belows and begin the slippages of batch (-type) transverse reciprocating, the can body 8 that will absorb water is passed to going out on the tank carriage 2, absorbed water can body 8 pushing away under cage shoe 22 drives on the chain 21, be transported to next process.The moisture content of drawing in the tank enters into the vacuum reservoir 42 of vacuum stabilizing device, and when the water level in the vacuum reservoir 42 reached setting height, water level detector 45 sent signal, and the drain solenoid valve 46 of bottom is opened automatically, and the water in the vacuum reservoir 42 is discharged.
Claims (5)
1. canned vacuum control wetting system, comprise into the tank carriage, go out the tank carriage, the vacuum stabilizing device, water absorber, transmission device, describedly advance the tank carriage and go out to be equipped with the chain that band pushes away cage shoe on the tank carriage, the both sides of chain are provided with gear tank bar, it is characterized in that: described transmission device enter advancing the tank carriage and being connected the tank carriage and being axial and being connected of tank rotating disk and both sides, and their workplatform is on same level, the rotating shaft of advancing the tank rotating disk connects into the tank eccentric wheel, motor-driven advances the tank eccentric wheel and rotates, make into the tank rotating disk and rotatablely move as batch (-type), water absorber is positioned at into tank rotating disk top, the sucking tube of water absorber axially connects cylinder and pressure head, pressure head with enter the hole, tank position of tank rotating disk on same line of centers, moving up and down with advancing the tank rotating disk and do the hole, tank position in batch (-type) when rotation of pressure head cooperates synchronously, going out the tank carriage is provided with and pushes away tank spare, pushing away tank spare connects fork and goes out the tank eccentric wheel, described vacuum stabilizing device is comprised of vacuum pump and vacuum reservoir, vacuum pump connects vacuum reservoir by pipeline, the sidewall of vacuum reservoir is provided with water level detector, the bottom is provided with drain solenoid valve, vacuum reservoir draws the tracheae that picks out and is connected with the sucking tube of water absorber, tracheae in this junction is provided with vacuum solenoid, and the cylinder of vacuum solenoid and water absorber is electrically connected with controller.
2. a kind of canned vacuum control wetting system according to claim 1, it is characterized in that: a described end that pushes away tank spare is curved end, curved end is positioned at into tank rotating disk below, to do time of intermittent rotary opposite with advancing the tank rotating disk to push away time that tank spare produces intermittently transverse reciprocating slippage, and the curved end can body that will absorb water is pushed to out on the tank carriage.
3. a kind of canned vacuum control wetting system according to claim 1, it is characterized in that: the plane of described pressure head is furnished with the suction hole, is provided with sheet rubber with the can body contact surface.
4. a kind of canned vacuum control wetting system according to claim 1 is characterized in that: describedly advance the tank rotating disk and be provided with impartial to arranging 6 holes, tank position of carrying can bodies.
5. a kind of canned vacuum control wetting system according to claim 1, it is characterized in that: described tracheae and sucking tube junction are provided with flexible pipe.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012104101163A CN102874441A (en) | 2012-10-16 | 2012-10-16 | Canning vacuum water-controlling equipment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012104101163A CN102874441A (en) | 2012-10-16 | 2012-10-16 | Canning vacuum water-controlling equipment |
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| Publication Number | Publication Date |
|---|---|
| CN102874441A true CN102874441A (en) | 2013-01-16 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2012104101163A Pending CN102874441A (en) | 2012-10-16 | 2012-10-16 | Canning vacuum water-controlling equipment |
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| CN (1) | CN102874441A (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103215778A (en) * | 2013-04-09 | 2013-07-24 | 广州番禺高勋染整设备制造有限公司 | Ultra-low bath ratio yarn dyeing machine water-squeezing device and squeezing method thereof |
| CN103395523A (en) * | 2013-08-14 | 2013-11-20 | 胡海明 | Draining machine used for canning |
| CN104676788A (en) * | 2015-03-13 | 2015-06-03 | 中山市蓝水能源科技发展有限公司 | Water cold storage system pressure difference type water discharging device |
| CN110054135A (en) * | 2019-05-13 | 2019-07-26 | 杭州力鑫科技有限公司 | A kind of milk canning line |
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| CN201643006U (en) * | 2010-03-25 | 2010-11-24 | 上海博正名荣包装机有限公司 | Disc-type empty can cleaning and sterilizing machine |
| CN102700781A (en) * | 2012-06-19 | 2012-10-03 | 胡海明 | Canning automatic water control machine |
| CN202828233U (en) * | 2012-10-16 | 2013-03-27 | 胡海明 | Tanked vacuum water controlling device |
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2012
- 2012-10-16 CN CN2012104101163A patent/CN102874441A/en active Pending
Patent Citations (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN2614768Y (en) * | 2003-04-09 | 2004-05-12 | 李根林 | Continuous Horizontal Vacuum Belt Filter |
| CN2761539Y (en) * | 2004-10-13 | 2006-03-01 | 王成楷 | Automatic drainage device of vacuum tank |
| JP4253358B1 (en) * | 2008-10-20 | 2009-04-08 | 新宅工業株式会社 | Method and apparatus for removing water droplets in can container |
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103215778A (en) * | 2013-04-09 | 2013-07-24 | 广州番禺高勋染整设备制造有限公司 | Ultra-low bath ratio yarn dyeing machine water-squeezing device and squeezing method thereof |
| CN103215778B (en) * | 2013-04-09 | 2014-03-12 | 广州番禺高勋染整设备制造有限公司 | Ultra-low bath ratio yarn dyeing machine water-squeezing device and squeezing method thereof |
| CN103395523A (en) * | 2013-08-14 | 2013-11-20 | 胡海明 | Draining machine used for canning |
| CN104676788A (en) * | 2015-03-13 | 2015-06-03 | 中山市蓝水能源科技发展有限公司 | Water cold storage system pressure difference type water discharging device |
| CN110054135A (en) * | 2019-05-13 | 2019-07-26 | 杭州力鑫科技有限公司 | A kind of milk canning line |
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