CN105325944A - Malaysian squid processing apparatus - Google Patents
Malaysian squid processing apparatus Download PDFInfo
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- CN105325944A CN105325944A CN201510396988.2A CN201510396988A CN105325944A CN 105325944 A CN105325944 A CN 105325944A CN 201510396988 A CN201510396988 A CN 201510396988A CN 105325944 A CN105325944 A CN 105325944A
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Abstract
The invention discloses a Malaysian squid processing apparatus, and aims to provide a processing apparatus capable of continuously producing fish balls and also capable of effectively clearing a fish ball pulp adhered to the inner walls of molding grooves for forming fish balls. The apparatus comprises a gas cavity, a negative pressure cavity, a frame, a left rotating disc and a right rotating disc arranged on the frame and synchronously relatively rotating, and a boiling device, the outer peripheral surfaces of the two rotating discs are respectively provided with a plurality of mutually corresponding molding grooves for forming the fish balls, the end surface of each of the rotating discs is provided with an annular slot coaxial to the corresponding rotating disc, and a gas guide sleeve is arranged in the annular slot; and the bottom surface of each of the molding grooves is provided with a gas guide through hole connected with the annular slot, a rubber cup is arranged in each of the molding grooves, and the port edge of the rubber cap is connected with the port edge of the corresponding molding grooves. The boiling device comprises a boiling box body with an open-ended upper end and a heating device arranged in the boiling box body, and the rotating discs are positioned above the boiling box body.
Description
Technical field
The present invention relates to a kind of ball processing unit (plant), be specifically related to a kind of Malaysian squid processing unit (plant).
Background technology
The mode of traditional fabrication fish ball adopts substantially to be made by hand, and make the technical merit and qualification that depend on operator by hand, not only labour cost is high, and production efficiency is low.In order to address this problem, semi-automation/automation fish ball production equipment arises at the historic moment.
A kind of automation fish ball production equipment common at present, it comprises left and right two synchronous rotating disks in relative rotation, and two rotating disk outer peripheral faces are provided with some shaping grooves for the formation of fish ball corresponded to each other; In the synchronous process in relative rotation of two rotating disks, fed from top to bottom by slurry in corresponding shaping groove, along with the rotation of two rotating disks, fish ball is shaping in the shaping groove of two rotating disks, and under Gravitative Loads Automatic-falling, thus continuous print obtains fish ball.Although current this fish ball production equipment can make fish ball by continuous print, but in fish ball manufacturing process, fish ball slurry easily sticks on shaping groove inwall, and in the continuous manufacturing process of fish ball, because fish ball slurry sticks on shaping groove inwall, this makes often to be difficult to effectively remove the fish ball slurry sticked on shaping groove inwall simply by hairbrush; Cause current this fish ball production equipment to need often to shut down cleaning shaping groove in the process making fish ball, reduce production efficiency, improve labour intensity, be unfavorable for automated production.
Such as, China Patent Publication No. CN103637257A, publication date on March 19th, 2014, the name of innovation and creation is called a kind of manufacture method of fish ball machinery processed of remarkable increase yield, it comprises left side rotating disk, right side rotating disk and the rotating disk tooth be separately positioned on left and right side rotating disk.The fish ball machinery processed of this application case is by left and right side dial rotation, thus obtained fish ball; There is above-mentioned deficiency equally in it.
Summary of the invention
The object of the invention is to overcome deficiency of the prior art; a kind of Malaysian squid processing unit (plant) is provided; it can while fish ball continuous seepage makes; effectively can also clear up the fish ball slurry sticked to for the formation of on the shaping groove inwall of fish ball; thus effective solution in fish ball manufacturing process needs often to shut down cleaning shaping groove; reduce production efficiency, improve labour intensity, be unfavorable for the problem of automated production.
Technical scheme of the present invention is:
A kind of Malaysian squid processing unit (plant), comprise for air cavity, vacuum cavity, frame, be arranged on left and right two synchronous rotating disk and the steaming plants in relative rotation in frame, two rotating disk outer peripheral faces are provided with some shaping grooves for the formation of fish ball corresponded to each other, the boiling casing that described steaming plant comprises upper end open and the heater be arranged in boiling casing, and described rotating disk is positioned at the top of boiling casing; The end face of each rotating disk is provided with the annular groove coaxial with rotating disk, and is provided with guide sleeve in annular groove; Each shaping groove bottom surface is provided with the air guide through hole be communicated with annular groove, is provided with rubber cup in each shaping groove, and the port edge of described rubber cup is connected with the port edge of shaping groove; Described guide sleeve is fixed in frame by connecting rod, and guide sleeve outer peripheral face is provided with air supply trough and negative pressure trough, and air supply trough and negative pressure trough are positioned at the relative both sides of guide sleeve, and the negative pressure trough of guide sleeve is between the axis of two rotating disks; Guide sleeve outer peripheral face be provided with inside and outside twice circumference extend O-ring seal and two along axially extended first sealing strip of rotating disk, and the first sealing strip connects inside and outside twice O-ring seal, described inside and outside twice O-ring seal is positioned at annular groove, described air supply trough and negative pressure trough are between inside and outside two sealing rings, air supply trough, between two first sealing strips, the guide sleeve outer peripheral face between air supply trough and negative pressure trough is respectively equipped with the first sealing strip described in; The river conjunction of described air guide through hole and annular groove is between inside and outside two sealing rings; Guide sleeve outer face is provided with the negative pressure through-hole supplying vent hole and communicate with negative pressure trough communicated with air supply trough, and the described external port for vent hole is tightly connected with for air cavity by steam line; The external port of described negative pressure through-hole is tightly connected by negative-pressure pipeline and vacuum cavity.
The Malaysian squid processing unit (plant) of this programme can while fish ball continuous seepage makes; effective cleaning sticks to for the formation of the fish ball slurry on the shaping groove inwall of fish ball; thus effective solution in fish ball manufacturing process needs often to shut down cleaning shaping groove; reduce production efficiency; improve labour intensity, be unfavorable for the problem of automated production.On the other hand, boiling is carried out when the upper end open by boiling casing being dropped in boiling casing after fish ball is shaping.
As preferably, be greater than a standard atmospheric pressure for the air pressure in air cavity, the air pressure in vacuum cavity is less than a standard atmospheric pressure.
As preferably, negative pressure trough extends along guide sleeve circumference, and the axis of described two rotating disks is positioned in same level, and with this horizontal plane for datum plane, a part for described negative pressure trough is positioned at above datum plane, and another part is positioned at below datum plane.
As preferably, air supply trough extends along guide sleeve circumference.
As preferably, two first sealing strips are near air supply trough.
As preferably, in frame, be positioned at outside two rotating disks and be respectively equipped with some brush holder supports paralleled with rotating disk axis, and brush holder support and air supply trough are oppositely arranged, each brush holder support is provided with the radial bristle extended, the end of bristle near or lean against on rotating disk outer peripheral face.
As preferably, shaping groove is hemispherical.
As preferably, the port edge of rubber cup is provided with one and encloses stretch flange formability outward, and this flange is close on the rotating disk outer peripheral face of the port edge of shaping groove, and this flange and rotating disk outer peripheral face are tightly connected.
As preferably, steaming plant also comprises whirligig, and described whirligig comprises and is arranged on the net dish in boiling casing and the net disk-drive motor for driving net dish to rotate by vertical rotating shaft is rotating; The upper end open of described net dish, lower end closed.Be provided with the net-like spacer of some vertical settings in net dish, described net-like spacer extends along vertical rotating shaft radial direction and separates the inner chamber of net dish in several placed cavities.
Boiling is carried out when the upper end open by boiling casing and net dish being dropped into after fish ball is shaping in net dish in boiling casing, the fish ball in each placed cavity can be driven to rotate by the rotation of net dish in this process, fish ball is heated more be, and be conducive to the heat time of the fish ball controlled in each placed cavity, be convenient to take out the fish ball boiled.
As preferably, boiling casing is cylindrical, and described net dish is cylindrical, and described boiling casing, net dish and vertical rotating shaft are coaxially arranged.
The invention has the beneficial effects as follows: can while fish ball continuous seepage makes; effective cleaning sticks to for the formation of the fish ball slurry on the shaping groove inwall of fish ball; thus effective solution in fish ball manufacturing process needs often to shut down cleaning shaping groove; reduce production efficiency; improve labour intensity, be unfavorable for the problem of automated production.
Accompanying drawing explanation
Fig. 1 is a kind of structural representation of Malaysian squid processing unit (plant) of the present invention.
Fig. 2 is a kind of cross-sectional view of rotating disk of the present invention.
Fig. 3 is the partial enlarged drawing at A place in Fig. 2.
Fig. 4 is a kind of cross-sectional view of guide sleeve of the present invention.
Fig. 5 is the cross-sectional view at B-B place in Fig. 4.
Fig. 6 is the top view of steaming plant of the present invention.
In figure: rotating disk 1, shaping groove 2, rubber cup 3, flange 31, guide sleeve 4, negative pressure trough 5, air supply trough 6, bristle 7, negative-pressure pipeline 8, connecting rod 9, steam line 10, annular groove 11, air guide through hole 12, O-ring seal 13, the first sealing strip 14, for vent hole 15; Boiling casing 1a, net dish 2a, vertical rotating shaft 3a, net-like spacer 4a, placed cavity 5a.
Detailed description of the invention
Below in conjunction with accompanying drawing and detailed description of the invention, the present invention is described in further detail:
As shown in Figure 1, Figure 3, a kind of Malaysian squid processing unit (plant) comprises for air cavity, vacuum cavity, frame, is arranged on left and right two synchronous rotating disk 1 and steaming plants in relative rotation in frame.Two disk diameters are identical.Two rotating disk outer peripheral faces are provided with some shaping grooves 2 for the formation of fish ball corresponded to each other.Each shaping groove rotate dish circumference uniform.Shaping groove is hemispherical.Rubber cup 3 is provided with in each shaping groove.What rubber cup was corresponding with shaping groove is hemispherical.The port edge of rubber cup and the port edge of shaping groove are tightly connected; Specifically, the port edge of rubber cup is provided with one and encloses stretch flange formability 31 outward, and this flange is close on the rotating disk outer peripheral face of the port edge of shaping groove, and this flange and rotating disk outer peripheral face are tightly connected.
As shown in Figure 1 and Figure 2, the end face of each rotating disk is provided with the annular groove 11 coaxial with rotating disk, and is provided with guide sleeve 4 in annular groove.Each shaping groove bottom surface is provided with the air guide through hole 12 be communicated with annular groove.Air guide through hole extends along rotating disk radial direction.Guide sleeve is fixed in frame by connecting rod 9.
As shown in Figure 1, guide sleeve outer peripheral face is provided with air supply trough 6 and negative pressure trough 5.Air supply trough and negative pressure trough are positioned at the relative both sides of guide sleeve, and the negative pressure trough of guide sleeve is between the axis of two rotating disks.Air supply trough extends along guide sleeve circumference.In dial rotation process, there is the air guide through hole on the shaping groove bottom surface of three or four continuous distributed to be connected with air supply trough simultaneously.Negative pressure trough extends along guide sleeve circumference.The axis of two rotating disks is positioned in same level, and with this horizontal plane for datum plane, a part for negative pressure trough is positioned at above datum plane, and another part is positioned at below datum plane.In dial rotation process, there is the air guide through hole on the shaping groove bottom surface of five or six continuous distributed to be connected with negative pressure trough simultaneously.
As shown in Figure 1, Figure 4, Figure 5, guide sleeve 4 outer peripheral face be provided with inside and outside twice circumference extend O-ring seal 13 and two along axially extended first sealing strip 14 of rotating disk.Two first sealing strips are between inside and outside twice O-ring seal, and the first sealing strip connects inside and outside twice O-ring seal.First sealing strip and inside and outside twice O-ring seal are formed in one structure.Guide sleeve outer peripheral face is provided with the mounting groove corresponding with O-ring seal and the first sealing strip, and each O-ring seal and the first sealing strip are arranged in corresponding mounting groove.Inside and outside twice O-ring seal is positioned at annular groove, and the surface of inside and outside twice O-ring seal and the first sealing strip is resisted against on annular groove medial surface.
Air supply trough and negative pressure trough are between inside and outside two sealing rings.Air supply trough is between two first sealing strips.Guide sleeve outer peripheral face between air supply trough and negative pressure trough is respectively equipped with the first sealing strip described in.Above-mentioned air supply trough, first sealing strip, negative pressure trough and another the first sealing strip distribute successively along guide sleeve circumference.Two first sealing strips are near air supply trough.The river conjunction of air guide through hole and annular groove is between inside and outside two sealing rings.
Guide sleeve outer face is provided with the confession vent hole 15 communicated with air supply trough.Guide sleeve outer face is provided with the negative pressure through-hole communicated with negative pressure trough.External port for vent hole is tightly connected with for air cavity by steam line 10.The external port of negative pressure through-hole is tightly connected by negative-pressure pipeline 8 and vacuum cavity.A standard atmospheric pressure is greater than for the air pressure in air cavity.Be provided with air feed pump for air cavity, air feed pump is for keeping for the air pressure in air cavity.Air pressure in vacuum cavity is less than a standard atmospheric pressure.Be provided with aspiration pump for air cavity, aspiration pump is for keeping the air pressure in vacuum cavity.
In frame, be positioned at outside two rotating disks and be respectively equipped with three brush holder supports paralleled with rotating disk axis, and each brush holder support and air supply trough are oppositely arranged.Each brush holder support is provided with the radial bristle 7 extended.Bristle is flexible bristle.The end of bristle near or lean against on rotating disk outer peripheral face.
As shown in Fig. 1, Fig. 6, steaming plant comprises whirligig, the boiling casing 1a of upper end open and the heater be arranged in boiling casing.Boiling casing is cylindrical.Rotating disk is positioned at the top of boiling casing.Shaping groove between two rotating disks is positioned at the upper end open of boiling casing.Whirligig comprises and is arranged on the net dish 2a in boiling casing and the net disk-drive motor for driving net dish to rotate by vertical rotating shaft 3a is rotating.Vertical rotating shaft is arranged in boiling tank floor by bearing is rotating.Net disk-drive motor is positioned at below boiling casing, and the output shaft of net disk-drive motor is connected with vertical rotating shaft.Net dish is cylindrical.The upper end open of net dish, lower end closed.Boiling casing, net dish and vertical rotating shaft are coaxially arranged.The net-like spacer 4a of some vertical settings is provided with in net dish.Net-like spacer extends along vertical rotating shaft radial direction and separates the inner chamber of net dish in several placed cavities 5a.Each placed cavity is uniform around vertical rotating shaft circumference.
The course of work of Malaysian squid processing unit (plant) of the present invention is as follows:
As shown in Figure 1, squid slurry is fed from top to bottom in the shaping groove between two rotating disks, along with the rotation of two rotating disks, shaping in the shaping groove closing course that fish ball is corresponding on two rotating disks, then Automatic-falling under Gravitative Loads, thus continuous print obtains fish ball.
In dial rotation process, the air guide through hole of the shaping groove bottom surface between two rotating disk axis is connected with negative pressure trough; Negative pressure now in vacuum cavity is applied in the shaping groove between two rotating disk axis by negative-pressure pipeline, negative pressure through-hole, negative pressure trough, thus make rubber cup in the shaping groove between two rotating disk axis toward interior system, and rubber cup is resisted against on shaping groove medial surface, and the air guide through hole of shutoff shaping groove bottom surface; Thus ensure after in the shaping groove that squid slurry feeds between two rotating disks from top to bottom, fish ball can be obtained smoothly.
In dial rotation process, the air guide through hole being positioned at a part of shaping groove bottom surface outside two rotating disk axis is connected with air supply trough; Now for the gas in air cavity by steam line, to enter into for vent hole, air supply trough and air guide through hole in the shaping groove that is communicated with air supply trough, thus the rubber cup in this shaping groove to be bloated outward.By the shrink/expanded deformation of rubber cup and vibration in the process that rubber cup bloats outward, stick to the squid slurry of the overwhelming majority on rubber cup surface by Automatic-falling.On the other hand, the slurry that rubber cup does not come off through bristle, will be removed by bristle by rubber cup further that bloat in dial rotation process; Thus effective cleaning sticks to for the formation of the fish ball slurry on the shaping groove inwall of fish ball further; And the rubber cup be cleaned, again will turn in dial rotation process between two rotating disk axis, and make rubber cup be resisted against on shaping groove medial surface; Thus ensure after in the shaping groove that squid slurry feeds between two rotating disks from top to bottom, fish ball can be obtained smoothly.
Thus processing unit (plant) of the present invention can while fish ball continuous seepage makes; effective cleaning sticks to for the formation of the fish ball slurry on the shaping groove inwall of fish ball; thus effective solution in fish ball manufacturing process needs often to shut down cleaning shaping groove; reduce production efficiency; improve labour intensity, be unfavorable for the problem of automated production.
Boiling is carried out when the upper end open by boiling casing and net dish being dropped into after fish ball is shaping in net dish in boiling casing, the fish ball in each placed cavity can be driven to rotate by the rotation of net dish in this process, fish ball is heated more be, and be conducive to the heat time of the fish ball controlled in each placed cavity, be convenient to take out the fish ball boiled.
Claims (10)
1. a Malaysian squid processing unit (plant), it is characterized in that, comprise frame, be arranged on left and right two synchronous rotating disk and the steaming plants in relative rotation in frame, two rotating disk outer peripheral faces are provided with some shaping grooves for the formation of fish ball corresponded to each other, the boiling casing that described steaming plant comprises upper end open and the heater be arranged in boiling casing, described rotating disk is positioned at the top of boiling casing.
2. the Malaysian squid processing unit (plant) of one according to claim 1, is characterized in that, also comprise for air cavity and vacuum cavity, the end face of each rotating disk is provided with the annular groove coaxial with rotating disk, and is provided with guide sleeve in annular groove; Each shaping groove bottom surface is provided with the air guide through hole be communicated with annular groove, is provided with rubber cup in each shaping groove, and the port edge of described rubber cup is connected with the port edge of shaping groove; Described guide sleeve is fixed in frame by connecting rod, and guide sleeve outer peripheral face is provided with air supply trough and negative pressure trough, and air supply trough and negative pressure trough are positioned at the relative both sides of guide sleeve, and the negative pressure trough of guide sleeve is between the axis of two rotating disks; Guide sleeve outer peripheral face be provided with inside and outside twice circumference extend O-ring seal and two along axially extended first sealing strip of rotating disk, and the first sealing strip connects inside and outside twice O-ring seal, described inside and outside twice O-ring seal is positioned at annular groove, described air supply trough and negative pressure trough are between inside and outside two sealing rings, air supply trough, between two first sealing strips, the guide sleeve outer peripheral face between air supply trough and negative pressure trough is respectively equipped with the first sealing strip described in; The river conjunction of described air guide through hole and annular groove is between inside and outside two sealing rings; Guide sleeve outer face is provided with the negative pressure through-hole supplying vent hole and communicate with negative pressure trough communicated with air supply trough, and the described external port for vent hole is tightly connected with for air cavity by steam line; The external port of described negative pressure through-hole is tightly connected by negative-pressure pipeline and vacuum cavity.
3. the Malaysian squid processing unit (plant) of one according to claim 2, is characterized in that, the air pressure in described confession air cavity is greater than a standard atmospheric pressure, and the air pressure in vacuum cavity is less than a standard atmospheric pressure.
4. the Malaysian squid processing unit (plant) of one according to claim 2, it is characterized in that, described negative pressure trough extends along guide sleeve circumference, the axis of described two rotating disks is positioned in same level, and with this horizontal plane for datum plane, a part for described negative pressure trough is positioned at above datum plane, and another part is positioned at below datum plane.
5. the Malaysian squid processing unit (plant) of one according to claim 2, is characterized in that, described air supply trough extends along guide sleeve circumference.
6. the one Malaysia squid processing unit (plant) according to Claims 2 or 3 or 4, it is characterized in that, in described frame, be positioned at outside two rotating disks and be respectively equipped with some brush holder supports paralleled with rotating disk axis, and brush holder support and air supply trough are oppositely arranged, each brush holder support is provided with the radial bristle extended, the end of bristle near or lean against on rotating disk outer peripheral face.
7. the one Malaysia squid processing unit (plant) according to Claims 2 or 3 or 4, it is characterized in that, described shaping groove is hemispherical.
8. the one Malaysia squid processing unit (plant) according to Claims 2 or 3 or 4, it is characterized in that, the port edge of described rubber cup is provided with one and encloses stretch flange formability outward, and this flange is close on the rotating disk outer peripheral face of the port edge of shaping groove, and this flange and rotating disk outer peripheral face are tightly connected.
9. the one Malaysia squid processing unit (plant) according to claim 1 or 2 or 3 or 4, it is characterized in that, described steaming plant also comprises whirligig, and described whirligig comprises and is arranged on the net dish in boiling casing and the net disk-drive motor for driving net dish to rotate by vertical rotating shaft is rotating; The upper end open of described net dish, lower end closed.
10. the Malaysian squid processing unit (plant) of one according to claim 9, is characterized in that, is provided with the net-like spacer of some vertical settings in described net dish, and described net-like spacer extends along vertical rotating shaft radial direction and separates the inner chamber of net dish in several placed cavities.
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CN201510396988.2A CN105325944B (en) | 2015-07-03 | 2015-07-03 | Malaysia squid processing device |
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CN201510396988.2A CN105325944B (en) | 2015-07-03 | 2015-07-03 | Malaysia squid processing device |
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CN105325944A true CN105325944A (en) | 2016-02-17 |
CN105325944B CN105325944B (en) | 2020-08-18 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106184635A (en) * | 2016-09-23 | 2016-12-07 | 浙江海洋大学 | A kind of squid dredger |
CN114468012A (en) * | 2022-01-28 | 2022-05-13 | 扬州市海牛厨房设备有限公司 | Rapid processing equipment for large meatballs |
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CN101513232A (en) * | 2009-03-16 | 2009-08-26 | 秦皇岛正大有限公司 | A novel ball water-boiling machine |
CN103537226A (en) * | 2013-10-09 | 2014-01-29 | 芜湖三六机械有限公司 | Internal air injection discharging double-roller granulator |
CN103610130A (en) * | 2013-12-03 | 2014-03-05 | 青岛金龙一食品有限公司 | Fish ball production machinery capable of remarkably improving yield |
CN204093523U (en) * | 2014-08-21 | 2015-01-14 | 福建省华普新材料有限公司 | A kind of modified paint pulverizer |
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Patent Citations (5)
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CN200994679Y (en) * | 2006-12-30 | 2007-12-26 | 广东亿龙电器股份有限公司 | Steamer with boiling function |
CN101513232A (en) * | 2009-03-16 | 2009-08-26 | 秦皇岛正大有限公司 | A novel ball water-boiling machine |
CN103537226A (en) * | 2013-10-09 | 2014-01-29 | 芜湖三六机械有限公司 | Internal air injection discharging double-roller granulator |
CN103610130A (en) * | 2013-12-03 | 2014-03-05 | 青岛金龙一食品有限公司 | Fish ball production machinery capable of remarkably improving yield |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106184635A (en) * | 2016-09-23 | 2016-12-07 | 浙江海洋大学 | A kind of squid dredger |
CN106184635B (en) * | 2016-09-23 | 2018-02-27 | 浙江海洋大学 | A kind of squid dredger |
CN114468012A (en) * | 2022-01-28 | 2022-05-13 | 扬州市海牛厨房设备有限公司 | Rapid processing equipment for large meatballs |
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