CN110201605A - Alkali groove mechanism and flaker - Google Patents
Alkali groove mechanism and flaker Download PDFInfo
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- CN110201605A CN110201605A CN201910479171.XA CN201910479171A CN110201605A CN 110201605 A CN110201605 A CN 110201605A CN 201910479171 A CN201910479171 A CN 201910479171A CN 110201605 A CN110201605 A CN 110201605A
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- lye
- alkali
- rotary drum
- diversion channel
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- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J2/00—Processes or devices for granulating materials, e.g. fertilisers in general; Rendering particulate materials free flowing in general, e.g. making them hydrophobic
- B01J2/24—Obtaining flakes by scraping a solid layer from a surface
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Abstract
The embodiment of the present application provides a kind of alkali groove mechanism and flaker, belongs to field of chemical equipment.Alkali groove mechanism includes alkali slot and lye diversion channel.In the liner of alkali slot there is rotary drum to be placed in area, is placed in such a way that its shaft axis extends in a first direction suitable for rotary drum.Lye diversion channel is set in the liner of alkali slot, and the side positioned at first direction in rotary drum merging area has splitter cavity and alkali inlet, opens up the assignment channel through cell wall.Assignment channel has the multiple openings being distributed along first direction far from splitter cavity one end.Flaker includes machine ontology and alkali groove mechanism, and the alkali inlet tube of machine ontology is connected to alkali inlet, and the rotary drum of machine ontology is set to rotary drum and is placed in area.By multiple openings along first direction distribution of assignment channel, so that different location of the lye in rotary drum axial direction is equably flowed to alkali slot, effectively improve alkali alkali in groove liquid distribution situation, keep drum surface consistent with the exposure level of lye.
Description
Technical field
This application involves field of chemical equipment, in particular to a kind of alkali groove mechanism and flaker.
Background technique
Existing flaker alkali slot lye is unevenly distributed, so that drum surface adhesive tape lye is uneven, shows thick middle
The thin phenomenon in both sides, causes effect in blocks poor.
Summary of the invention
The application's is designed to provide a kind of alkali groove mechanism and flaker, can be effectively improved alkali alkali in groove liquid distribution feelings
Condition.
Embodiments herein is achieved in that
In a first aspect, the embodiment of the present application provides a kind of alkali groove mechanism, alkali groove mechanism includes alkali slot and lye diversion channel, alkali
There is rotary drum to be placed in area, rotary drum merging area is suitable for rotary drum and sets in such a way that its shaft axis extends in a first direction in the liner of slot
Enter, lye diversion channel is set in the liner of alkali slot, and the side positioned at first direction in rotary drum merging area;
Lye diversion channel has the splitter cavity for distributing lye and the alkali inlet for flowing into splitter cavity for lye, alkali
Liquid diversion channel offers the assignment channel through cell wall, and one end of the separate splitter cavity of assignment channel has to be distributed along first direction
Multiple openings.
In above-mentioned technical proposal, when being applied to flaker, lye diversion channel is set in the liner of alkali slot, passes through alkali inlet
Realize the connection with the alkali inlet tube of flaker.Lye shunt slot location, positioned at the side for stating first direction, is kept away in rotary drum merging area
Exempt to interfere with the rotary drum of flaker.Lye diversion channel runs through the assignment channel that its cell wall opens up, for making the lye in splitter cavity
It is flowed by assignment channel in the liner of alkali slot.The opening of one end of the separate splitter cavity of assignment channel is used as and distributes into alkali slot
The opening of lye sets the opening to along the multiple of first direction distribution, so that lye is past everywhere from first direction respectively
It is distributed in the liner of alkali slot, so that lye equably flows to alkali slot, effectively improves alkali alkali in groove liquid distribution situation.It is applied to
When flaker, which is the extending direction of the shaft of rotary drum, and lye diversion channel is located at the upstream of rotary drum along first direction
When different location distributes lye, drum surface can be made consistent with the exposure level of lye, guarantee the effect in blocks of flaker.
In some optional embodiments, assignment channel includes the close rotary drum merging area for being opened in lye diversion channel
First passage on side wall.
In above-mentioned technical proposal, assignment channel is opened up close to the side in rotary drum merging area in lye diversion channel, in lye point
It is equably flowed in the liner of alkali slot after the certain liquid level of accumulation by the assignment channel for being opened in the side in chute.Applied to flaker
When, since the first passage is located at lye diversion channel close to the side of flaker rotary drum, as rotary drum constantly rotates simultaneously adhesive tape
Lye is played, the assignment channel outflow that traction lye is opened up from lye diversion channel far from the first cell wall keeps the dynamic of lye flowing
Balance, can preferably be such that lye is evenly distributed in alkali slot.
In the reality that assignment channel includes the first passage on the side wall for being opened in the close rotary drum merging area of lye diversion channel
It applies under mode, in some optional embodiments, assignment channel includes the separate rotary drum merging area for being opened in lye diversion channel
Side wall on second channel.
In above-mentioned technical proposal, assignment channel is opened up far from the side in rotary drum merging area in lye diversion channel, so that lye
Lye in diversion channel can also be flowed in the liner of alkali slot after accumulating to certain liquid level by the assignment channel of the side.One side
Face, two sides are arranged the mode of assignment channel, are capable of increasing the rate of outflow of lye, guarantee the supply of lye.On the other hand, due to
When being worked applied to flaker, lye is played as rotary drum constantly rotates simultaneously adhesive tape, lye is placed in area mainly towards rotary drum
The second channel is arranged in the side far from rotary drum merging area in interior flowing, and lye flows out from the lye diversion channel second channel, makes
The lye obtained in alkali slot liner keeps preferable flow regime, prevents lye from solidifying.
In some optional embodiments, alkali groove mechanism has the first work shape for laying flat setting to shunt to lye
State, when alkali groove mechanism is in the first working condition, the lower edge of first passage is lower than the lower edge of second channel.
In above-mentioned technical proposal, when alkali groove mechanism is in the first working condition, the close rotary drum of lye diversion channel is placed in area
Side assignment channel position it is relatively low, guarantee lye preferentially from this close to rotary drum side outflow so that the confession of lye
Adhesive tape lye should be rotated with rotary drum and keep preferable dynamic equilibrium, guarantee that lye can be more uniformly in being distributed in alkali slot.
In the reality that assignment channel includes the first passage on the side wall for being opened in the close rotary drum merging area of lye diversion channel
It applies under mode, in some optional embodiments, lye diversion channel has baffle, and baffle is located at splitter cavity in a first direction
Both ends, the baffle at both ends offers out alkali through-hole respectively, and alkali groove mechanism has the first work for laying flat and being arranged to shunt to lye
Make state, when alkali groove mechanism is in the first working condition, the lower edge of alkali through-hole is not less than the lower edge of first passage out.
In above-mentioned technical proposal, the baffle on the lye diversion channel both ends opens up out alkali through-hole, so that lye diversion channel
In lye can also be distributed from both ends into alkali slot, lye is preferably dispersed in alkali slot.First working condition
When, alkali through-hole is not less than the first passage out, guarantees side outflow of the lye preferentially from this close to rotary drum, so that the supply of lye
Preferable dynamic equilibrium is kept with rotary drum rotation adhesive tape lye, guarantees that lye can be more uniformly in being distributed in alkali slot.
In some optional embodiments, the slot bottom of the liner of alkali slot is inclined surface, and is arranged the one of lye diversion channel
End position is lower, and the end position far from lye diversion channel is higher.
In above-mentioned technical proposal, when alkali slot horizontal, lye can be flowed from the high one end in position to the low one end in position, can
The mobility for increasing alkali alkali in groove liquid, prevents lye from solidifying.
In some optional embodiments, alkali slot has the first cell wall of the row's of opening up alkali mouth, the length side of the first cell wall
To extending in a first direction, lye shunt slot location is between the first cell wall and rotary drum merging area.
In above-mentioned technical proposal, the setting of alkali mouth is arranged, the lye in alkali slot is discharged after being shut down for flaker.When alkali slot
Slot bottom when being obliquely installed according to the embodiment above, separate the rotary drum that row's alkali mouth is set to lye diversion channel is placed in area
Side is conducive to sufficiently drain the lye in alkali slot when arranging alkali.When lye diversion channel is according to the embodiment above setting second
When channel, row's alkali mouth is set to the side in the separate rotary drum merging area of lye diversion channel, and flaker is after work terminates to shut down, together
The one end for reducing the setting lye diversion channel of alkali slot in the same manner in the prior art carries out row's alkali, so that lye shunts when alkali slot arranges alkali
Lye in slot is discharged from second channel, and lye is avoided to remain in lye diversion channel, prevents lye from coagulating in lye diversion channel
Gu while improving the service life of lye diversion channel.
In some optional embodiments, perpendicular in the section on first direction, the inner wall of lye diversion channel be in
The arc of outer protrusion or inner wall, the outer wall of lye diversion channel are arc-shaped.
In above-mentioned technical proposal, it is arranged simple, convenient for production.When assignment channel is set as first passage, or works as and divide
When being set as first passage and second channel with channel, the arc-shaped structure of inner wall is set by lye diversion channel, in splitter cavity
Lye dosage needed for liquid level rises is few, can effectively realize the distribution of lye;So that lye diversion channel passes through assignment channel
When distributing lye, lye moves along the inner wall of lye diversion channel and has in its circumferential direction certain speed, is conducive to lye outflow
Assignment channel;Meanwhile so that lye on the inner wall of lye diversion channel can advection, be conducive to tilt lye diversion channel row alkali when
Lye is drained.The outer wall of lye diversion channel is also configured as to the mode of arc simultaneously, moreover it is possible to effectively avoid lye diversion channel logical
In the case where crossing the cell wall that the side far from rotary drum merging area is installed on alkali slot, the inner wall of the outer wall and alkali slot of lye diversion channel is supported
Lean on and influence the lye discharge of the assignment channel of the side.
In some optional embodiments, alkali inlet is set to the top of lye diversion channel, and alkali groove mechanism, which has, to be laid flat
The first working condition to shunt to lye is set, and when alkali groove mechanism is in the first working condition, the close of lye diversion channel turns
Top edge of the top edge of the side in drum merging area lower than the side in the separate rotary drum merging area of lye diversion channel.Meanwhile in alkali
It is flowed into alkali slot convenient for lye from close to the side top edge in rotary drum merging area when liquid level in liquid diversion channel increases, is conducive to make
Lye keeps preferable mobility.
In above-mentioned technical proposal, for alkali inlet in the setting at the top of lye diversion channel, molding is simple, and facilitates flaker
Alkali inlet tube directly protrudes into alkali inlet and carries out lye supply, and the height close to the top edge of the side of rotary drum is relatively low, so that
Alkali slot avoids the edge of alkali inlet to alkali inlet tube when being set as in such a way that alkali is arranged in the one end for reducing setting lye diversion channel
Relative motion with lye diversion channel generates interference.
In some optional embodiments, assignment channel is the multiple dispensing orifices being distributed along first direction.
In above-mentioned technical proposal, it setting assignment channel to the multiple dispensing orifices being distributed along first direction, setting is convenient,
Long service life, while being conducive to lye and being equably distributed in a first direction into alkali slot.
In some optional embodiments, the open at one end and close splitter cavity of the separate splitter cavity of each dispensing orifice
It is open at one end, positioned at lye diversion channel perpendicular in the same section on first direction.
In above-mentioned technical proposal, the opening of the two sides of dispensing orifice is located at perpendicular in the same section on first direction,
So that assignment channel, when distributing lye into alkali slot, lye, towards flowing in alkali slot, guarantees lye along perpendicular to first direction
Being uniformly distributed in alkali slot.
In some optional embodiments, lye diversion channel is provided with the interconnecting piece for being detachably connected with alkali slot.
In above-mentioned technical proposal, lye diversion channel and alkali slot are detachably connected to by setting interconnecting piece, are convenient for basis
Service condition carries out the attended operations such as the replacement of lye diversion channel.
In some optional embodiments, interconnecting piece includes multiple hooks, for being clamped with the top edge of alkali slot.
In above-mentioned technical proposal, the detachable connection method that the top edge of hook and alkali slot is clamped, so that lye diversion channel
Installation and removal it is convenient, and corrosion-resistant effect is strong, avoid interconnecting piece cause to connect because of the corrosion of lye it is unstable or
Dismantle difficult problem.
Second aspect, the embodiment of the present application provide a kind of flaker, provide including machine ontology and first aspect embodiment
The alkali inlet tube of alkali groove mechanism, machine ontology is connected to the alkali inlet of lye diversion channel, and the rotary drum of machine ontology is set to rotary drum merging area.
In above-mentioned technical proposal, by the way that lye diversion channel is arranged in alkali slot, enable lye uniform in alkali slot
Distribution, effectively improve alkali alkali in groove liquid distribution situation;The first direction is the extending direction of the shaft of rotary drum, lye point
Chute is located at the upstream of rotary drum, and lye is distributed into alkali slot in the axially distinct position along rotary drum, makes connecing for drum surface and lye
Touching degree is consistent, guarantees the effect in blocks of flaker.
In some optional embodiments, the discharge end of alkali inlet tube is communicated with isocon, and isocon prolongs along first direction
It stretches and both ends open.
In above-mentioned technical proposal, lye is flowed into the splitter cavity of lye diversion channel by isocon by the discharge end of alkali inlet tube
In, which is located at the opening at both ends on first direction, and the movement of lye straight down is converted to edge when alkali inlet tube is arranged alkali
The movement of first direction is conducive to lye and is evenly distributed in splitter cavity along first direction, while lye being avoided to splash.
Detailed description of the invention
Technical solution in ord to more clearly illustrate embodiments of the present application, below will be to needed in the embodiment attached
Figure is briefly described, it should be understood that the following drawings illustrates only some embodiments of the application, therefore is not construed as pair
The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this
A little attached drawings obtain other relevant attached drawings.
Fig. 1 is structural schematic diagram of the alkali groove mechanism provided by the embodiments of the present application at the first visual angle;
Fig. 2 is structural schematic diagram of the alkali groove mechanism provided by the embodiments of the present application at the second visual angle;
Fig. 3 is structural schematic diagram of the alkali groove mechanism provided by the embodiments of the present application at third visual angle;
Fig. 4 is the cross-sectional view of alkali groove mechanism provided by the embodiments of the present application in the first operative state;
Fig. 5 is the cross-sectional view of alkali groove mechanism provided by the embodiments of the present application in a second operative state;
Fig. 6 is the structural schematic diagram of lye diversion channel provided by the embodiments of the present application;
Fig. 7 is the cross-sectional view of lye diversion channel provided by the embodiments of the present application in the operating condition.
Icon: 100- alkali groove mechanism;110- alkali slot;The first cell wall of 111-;1111- arranges alkali mouth;The second cell wall of 112-;113-
Third cell wall;The 4th cell wall of 114-;115- rotary drum is placed in area;120- lye diversion channel;121- splitter cavity;122- alkali inlet;
123- first end;124- second end;125- assignment channel;1251- first passage;1252- second channel;126- the first side wall;
127- second sidewall;128- interconnecting piece;129- baffle;1291- goes out alkali through-hole;200- alkali inlet tube;210- isocon;300- turns
Drum.
Specific embodiment
To keep the purposes, technical schemes and advantages of the embodiment of the present application clearer, below in conjunction with the embodiment of the present application
In attached drawing, the technical scheme in the embodiment of the application is clearly and completely described, it is clear that described embodiment is
Some embodiments of the present application, instead of all the embodiments.The application being usually described and illustrated herein in the accompanying drawings is implemented
The component of example can be arranged and be designed with a variety of different configurations.
Therefore, the detailed description of the embodiments herein provided in the accompanying drawings is not intended to limit below claimed
Scope of the present application, but be merely representative of the selected embodiment of the application.Based on the embodiment in the application, this field is common
Technical staff's every other embodiment obtained without creative efforts belongs to the model of the application protection
It encloses.
It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi
It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.
In the description of the present application, it should be noted that term " first ", " second ", " third ", " the 4th " etc. are only used for
Description is distinguished, relative importance is not understood to indicate or imply.
The orientation or positional relationship of the instructions such as term " on ", "lower", "inner", "outside" is orientation based on the figure or position
Set relationship or this application product using when the orientation or positional relationship usually put, be merely for convenience of description the application
It is described with simplifying, rather than the device or element of indication or suggestion meaning must have a particular orientation, with specific orientation structure
It makes and operates, therefore should not be understood as the limitation to the application.
In addition, the terms such as term " vertical ", " parallel ", "horizontal", "vertical" be not offered as requiring component absolute upright or
It is parallel etc., but can be slightly tilted.
In the description of the present application, it is also necessary to which explanation is unless specifically defined or limited otherwise, term " setting ",
" installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be fixedly connected, may be a detachable connection or one
Connect to body;It can be directly connected, it can also be indirectly connected through an intermediary.For those of ordinary skill in the art and
Speech, can understand the concrete meaning of above-mentioned term in this application with concrete condition.
Also referring to Fig. 1-7, below in conjunction with attached drawing to alkali groove mechanism 100 provided by the embodiments of the present application and flaker
It is illustrated.
Embodiment
Fig. 1-3 is please referred to, the embodiment of the present application provides a kind of alkali groove mechanism 100, is used for flaker, the alkali groove mechanism 100
Including alkali slot 110 and lye diversion channel 120.
The structure of alkali slot 110 optionally has the same structure as in the prior art, and illustratively, alkali slot 110 includes successively connecting
The first cell wall 111, the second cell wall 112, third cell wall 113 and the 4th cell wall 114 connect, wherein the first cell wall 111 and third
The setting of 113 relative spacing of cell wall, the second cell wall 112 and 114 relative spacing of the 4th cell wall are arranged, the first cell wall 111, the second cell wall
112, third cell wall 113 and the 4th cell wall 114 surround the cell wall that the generally rectangular shaped ring in 110 section of alkali slot is set.
Referring to Fig. 4, in the liner of alkali slot 110 have rotary drum be placed in area 115, rotary drum be placed in area 115 be suitable for rotary drum 300 with
Its shaft axis extend in a first direction by make rotary drum 300 around first direction rotate in a manner of be placed in, the first party in the application
To referring to the direction a as shown in Figure 1.
Optionally, the length direction of the first cell wall 111 and third cell wall 113 extends in a first direction.Second cell wall, 112 He
The length direction of 4th cell wall 114 extends in a second direction, the second direction in the application, referring to the direction b as shown in Figure 1.
When alkali slot 110 is installed on flaker, the lye that the first cell wall 111 corresponds to flaker passes in and out side.Flaker
Lye passes in and out side, for the side of lye discharge after referring to the alkali inlet tube 200 for being provided with supply lye and shutting down.First cell wall
111 are located at the disengaging alkali side of alkali slot 110, optionally, identical with conventional structure, are provided with after shutdown in alkali slot 110
Row's alkali mouth 1111 of lye discharge, row's alkali mouth 1111 are set to one end close to the 4th cell wall 114 of the first cell wall 111.?
Alkali mouth 1111 is arranged in other embodiments also can be set in other cell walls, or directlys adopt delivery pump and lye is detached alkali slot
110。
Also referring to Fig. 1-5, in embodiments herein, lye diversion channel 120 has point for distributing lye
Flow chamber 121.The lye diversion channel 120 is set in the liner of alkali slot 110, and is located at first party in rotary drum merging area 115
To side.Lye diversion channel 120 is between the first cell wall 111 and rotary drum merging area 115, and is located at close to the first cell wall
111 one end avoids interfering with the rotary drum 300 of flaker, which is located at the upstream of rotary drum 300, has and uses
In the alkali inlet 122 for flowing into splitter cavity 121 for lye, which is connected to alkali inlet tube 200, for flaker into alkali
Lye in pipe 200 flows into splitter cavity 121, so that the lye provided alkali inlet tube 200 is allocated.
It should be noted that the connection of alkali inlet tube 200 and lye diversion channel 120, can be interconnection and internal connection
Mode, such as the discharge end of alkali inlet tube 200 is connected to and in communication with alkali inlet 122, is also possible to not be connected with each other and inside connects
Logical mode, such as the discharge end of alkali inlet tube 200 directly pass through alkali inlet 122 and protrude into splitter cavity 121.
Illustratively, the length of lye diversion channel 120 is extended along first direction, and lye diversion channel 120 is included in
The first end 123 and second end 124 being oppositely arranged on one direction.Illustratively, have between first end 123 and the second cell wall 112
There is gap, there is gap, convenient for the installation of lye diversion channel 120 between second end 124 and the 4th cell wall 114.Optionally, this
Two ends 124 are located at the side far from the 4th cell wall 114 of row's alkali mouth 1111, and lye diversion channel 120 is avoided to influence row's alkali mouth 1111
Row's alkali, while being unlikely to solidify in side flow convenient for lye.
In some alternative embodiments, alkali inlet 122 is opened in the top of lye diversion channel 120, the alkali inlet 122 from
The first end 123 of lye diversion channel 120 extends to second end 124, facilitates the discharge end for alkali inlet tube 200 directly from alkali inlet
122 protrude into.
In embodiments herein, the discharge end that alkali inlet 122 is configured to allow for alkali inlet tube 200 is directly protruding into realization connection
When, alkali inlet 122 is not limited to extend to second end 124 from first end 123.It is required that the width of alkali inlet 122 in a first direction
Not less than the discharge end width in a first direction of alkali inlet tube 200, and the discharging of the position of alkali inlet 122 and alkali inlet tube 200
End is corresponding.
Referring to Figure 4 together and Fig. 5, flaker after a shutdown, are needed one end of third cell wall 113 with respect to the first cell wall
111 one end is lifted, so that the lye in alkali slot 110 is discharged from row's alkali mouth 1111.Wherein, the operating status of corresponding flaker and
The row's of shutdown alkali state, alkali groove mechanism 100, which has, to be laid flat the first working condition being arranged to shunt to lye and is obliquely installed to incline
The second working condition of lye, Fig. 4 are the cross-sectional view of alkali groove mechanism 100 in the first operative state, and Fig. 5 is alkali groove mechanism
100 cross-sectional view in a second operative state.
It should be noted that described in the embodiment of the present application, laying flat for alkali groove mechanism 100 sets under the first working condition
Alkali slot 110 is normal when setting, do not imply that the bottom of alkali slot 110 is in the state of approximate horizontal placement, and referring to flaker work
Setting state is advised, the cell wall that the ring of alkali slot 110 is set at this time is generally in same level in rough vertical state and top edge
In face.
When the discharge end that alkali inlet 122 is configured to allow for alkali inlet tube 200 is directly protruding into realization connection, the alkali inlet 122 setting
In the top of lye diversion channel 120.Width of the alkali inlet 122 in the width direction of the first cell wall 111, wherein the first cell wall
111 width direction is the second direction vertical with first direction, it is desirable that when the state of alkali groove mechanism 100 is converted, into
The both sides of the edge of alkali mouth 122 being located in second direction will not generate the relative motion of alkali inlet tube 200 and lye diversion channel 120
Interference.Optionally, when alkali groove mechanism 100 is in the first working condition, the close rotary drum merging area 115 of lye diversion channel 120
The top edge of side avoids flaker from shutting down lower than the top edge of the side in the separate rotary drum merging area 115 of lye diversion channel 120
When alkali groove mechanism 100 being switched to the second working condition afterwards, the edge of alkali inlet 122 is to alkali inlet tube 200 and lye diversion channel 120
Relative motion generate interference.Meanwhile liquid level in lye diversion channel 120 is when increasing, convenient for lye from lye diversion channel 120
The top edge of side in close rotary drum merging area 115 flow into alkali slot 110, be conducive to make lye to keep preferable mobility.
In some other embodiment of the application, alkali inlet 122 is not limited to above-mentioned set-up mode, if can make into
Lye in alkali pipe 200 flows into the splitter cavity 121 of lye diversion channel 120.For example, it is also possible to which alkali inlet 122 is arranged
It is poroid to be connected to and in communication with alkali inlet tube 200, it is optionally arranged at top, bottom or side of lye diversion channel 120 etc., it should
Metal hose optionally is arranged in alkali inlet 122 under state connect with alkali inlet tube 200, when adaptive state switching alkali inlet tube 200 and
The change of 120 relative position of lye diversion channel.
Please continue to refer to Fig. 1-3, in embodiments herein, it is logical that lye diversion channel 120 offers the distribution through cell wall
Road 125, one end of the separate splitter cavity 121 of assignment channel 125 have the multiple openings being distributed along first direction, multiple opening
For flowing into lye in the liner of alkali slot 110 from the different location of lye diversion channel 120 in a first direction.
Opening of the opening of the side of the separate splitter cavity 121 of assignment channel 125 as the distribution lye into alkali slot 110,
The opening is set as being distributed along first direction it is multiple so that lye is respectively from first direction everywhere in alkali slot 110
It is distributed in gallbladder, so that lye equably flows to alkali slot 110, effectively improves lye distribution situation in alkali slot 110.Continuing with ginseng
Fig. 4 and Fig. 5 is read, when alkali groove mechanism 100 is applied to flaker, the rotary drum 300 of flaker is placed in rotary drum and is placed in area 115, rotary drum
300 shaft extends in a first direction, and lye diversion channel 120 is located at the side positioned at first direction of rotary drum 300, assignment channel
125 above-mentioned set-up mode, so that lye diversion channel 120 distributes lye into alkali slot 110 along the axially distinct position of rotary drum 300
When, 300 surface of rotary drum can be made consistent with the exposure level of lye, effectively improve the lye thick middle contacted with rotary drum 300
The thin phenomenon in both sides guarantees the effect in blocks of flaker.
The assignment channel 125 opened up on lye diversion channel 120 is at least one set, adjacent when multiple groups assignment channel 125 is arranged
Distance of two groups of assignment channels 125 apart from 120 top edge of lye diversion channel is different, may be optionally provided at lye diversion channel 120
Bottom, close to or far from side wall of the first cell wall 111 etc., one end of the separate splitter cavity 121 of every group of assignment channel 125
Multiple openings are distributed along first direction from first end 123 to second end 124.
In embodiments herein, lye diversion channel 120 has be located at splitter cavity 121 far from the first cell wall 111 first
Side wall 126 positioned at the second sidewall 127 close to the first cell wall 111 of splitter cavity 121, and is located at splitter cavity 121 in first party
The baffle 129 at upward both ends.The first side wall 126 and second sidewall 127 are respectively arranged at the bottom of lye diversion channel 120
The two sides of bus on one direction, the two extend in a first direction respectively.
Referring to Fig. 6, in some alternative embodiments, assignment channel 125 includes being opened in the one of the first side wall 126
Group first passage 1251.
When alkali groove mechanism 100 is in the first working condition, which is located at lye diversion channel 120 close to knot
The side of piece machine rotary drum 300, the first passage 1251 that opens up flow into directly in a first direction each of the lye in alkali slot 110
Place flows into alkali slot 110 and flows to rotary drum 300, is conducive to lye and is uniformly distributed in alkali slot 110.The first passage 1251
In the side wall of lye diversion channel 120, when alkali groove mechanism 100 is in the first working condition, the first passage 1251 is apart from lye
The liquid level minimum point of diversion channel 120 has a certain distance so that in liquid diversion channel after the certain liquid level of accumulation by be opened in this
One channel 1251 equably flows in the liner of alkali slot 110, plays lye as rotary drum 300 constantly rotates simultaneously adhesive tape, draws alkali
Liquid is flowed out from first passage 1251, is kept the dynamic equilibrium of lye flowing, so that lye is evenly distributed to alkali slot 110
In and equably adhesive tape in rotary drum 300 it is axial it is upper everywhere in.
In other optional embodiments, assignment channel 125 further includes one group second for being opened in the second sidewall 127
Channel 1252.
Multiple groups assignment channel 125 opens up, and is capable of increasing the rate of outflow of lye, guarantees the supply of lye.In addition, as schemed
Shown in 4 and Fig. 5, in some alternative embodiments, the slot bottom of alkali slot 110 is obliquely installed, in a state of use, in third
On direction, one end of lye diversion channel 120 is arranged referring to the direction c as shown in Figure 4 in third direction in the application, position compared with
Low, the end position far from lye diversion channel 120 is higher, so that when alkali 110 horizontal of slot, lye can be from the high one end in position to position
One end flowing set low, can increase the mobility of lye in alkali slot 110, prevent lye from solidifying.Meanwhile in the first cell wall 111
It, can will be in alkali slot 110 when so that alkali groove mechanism 100 being in the second working condition in the case where the row's of offering alkali mouth 1111
Lye sufficiently drains.As shown in figure 4, height of the upper surface of 110 bottom of alkali slot on third direction shows, the first cell wall
Height is minimum at one end for 111 institutes, in a second direction towards third cell wall 113 close to when gradually increase, and in 113 institute of third cell wall
Reach highest at one end.
The second channel 1252 that the second sidewall 127 opens up also enables lye from lye diversion channel 120 close to first
The side of cell wall 111 is flowed out, so that the lye in 110 liner of alkali slot keeps preferable flow regime, in particular so that alkali slot 110
The first cell wall 111 where the lower disengaging alkali side in position keep preferably flowing, prevent lye from solidifying.In addition, such as Fig. 5 institute
Show, for flaker after work terminates to shut down, needing the idler wheel of one end where the third cell wall 113 using alkali slot 110 is axis by alkali
One end where the first cell wall 111 of slot 110 is fallen, so that row alkali mouth 1111 of the lye in alkali slot 110 from the first cell wall 111
Discharge, alkali groove mechanism 100 is in the second working condition at this time, the assignment channel 125 which opens up also help by
Lye in 110 diversion channel of alkali slot is discharged together, and lye is avoided to remain in lye diversion channel 120, prevents lye in lye point
It is solidified in chute 120, while improving the service life of lye diversion channel 120.
In some alternative embodiments, when lye diversion channel 120 is in the first working condition, the first side wall 126 is opened up
First passage 1251 the lower edge of second channel 1252 that opens up lower than second sidewall 127 of lower edge.
In above-mentioned technical proposal, the height of first passage 1251 and second channel 1252 on third direction is with the two
Lower edge is compared.As shown in fig. 7, the lower edge of first passage 1251 refers to the edge at its A, under second channel 1252
Edge refers to the edge at its B, and A is in the height that the height on third direction is on third direction lower than B.
It should be noted that in the case where no specified otherwise, it is believed that the one of the separate splitter cavity 121 of assignment channel 125
Height of the end opening on third direction, it is open at one end on third direction with the close splitter cavity 121 of assignment channel 125
Highly, the two is generally identical.But in the biggish situation of the thickness of the cell wall of lye diversion channel 120 or assignment channel
125 on third direction when being obliquely installed, the separate splitter cavity 121 of assignment channel 125 it is open at one end in third party
Upward height, the height open at one end on third direction with the close splitter cavity 121 of assignment channel 125, the two have
Certain difference, at this point, the lower edge of first passage 1251 and second channel 1252, refers respectively at A and B is in third direction
Upper higher one end in position, such as when the open at one end of separate splitter cavity 121 of assignment channel 125 is higher than close to splitter cavity 121
It is open at one end when, the lower edge be subject to assignment channel 125 separate splitter cavity 121 it is open at one end.
In above-mentioned technical proposal, when the first working condition, 1251 position of first passage of lye diversion channel 120 is relatively
It is low, guarantee side outflow of the lye preferentially from this close to rotary drum 300, so that the supply of lye and rotary drum 300 rotate adhesive tape lye
It keeps preferable dynamic equilibrium, guarantees that lye can be more uniformly in being distributed in alkali slot 110.The setting is so that second logical when row's alkali
Road 1252 is located at lower position when falling row's alkali, and the lye in lye diversion channel 120 is drained as far as possible.Optionally,
The setting height of second channel 1252, it is desirable that when alkali groove mechanism 100 is in the second working condition, which is located at alkali
Minimum point of the liquid diversion channel 120 on third direction, sufficiently drains convenient for the lye in lye diversion channel 120.
In other optional embodiments, lye diversion channel 120 is located at the gear at the both ends in a first direction of splitter cavity 121
Plate 129 offers out alkali through-hole 1291 respectively.When alkali groove mechanism 100 is in the first working condition, alkali through-hole 1291 is following out
Edge is not less than the lower edge of first passage 1251.
In above-mentioned technical proposal, the height of alkali through-hole 1291 and first passage 1251 on third direction is equally with two out
The lower edge of person is compared, and the edge at the lower edge of alkali through-hole 1291 C shown in Figure 7, that is, require C to be in third out
Height on direction is in the height on third direction not less than A.Particularly with regard to the definition of 1291 lower edge of alkali through-hole out, same point
Lower edge definition with channel 125.
In above-mentioned technical proposal, so that the lye in lye diversion channel 120 can also be distributed from both ends into alkali slot 110, make
Obtaining lye can preferably be dispersed in alkali slot 110.When the first working condition, the lower edge of alkali through-hole 1291, which is not less than, out is somebody's turn to do
The lower edge of first passage 1251, guarantee lye preferentially from this close to rotary drum 300 side outflow so that the supply of lye with turn
Drum 300 rotates adhesive tape lye and keeps preferable dynamic equilibrium, guarantees that lye can be more uniformly in being distributed in alkali slot 110.
In some alternative embodiments, perpendicular in the section of first direction, which is second direction and third party
To substantially parallel plane, the inner wall of lye diversion channel 120 is in the arc outwardly protruded.
The arc-shaped inner surface of lye diversion channel 120 is arranged simple, convenient for production.First is set in assignment channel 125
When side wall 126 and second sidewall 127, so that the lye dosage needed for liquid level rises in splitter cavity 121 is few, it can effectively realize
The distribution of lye;When so that lye diversion channel 120 distributing lye by assignment channel 125, lye is along lye diversion channel 120
Wall moves and has certain speed in its circumferential direction, is conducive to lye outflow assignment channel 125;Meanwhile so that lye in lye
On the inner wall of diversion channel 120 can advection, be conducive to arrange alkali when lye is drained.
The outer wall of the lye diversion channel 120 may be alternatively arranged as the arc being arranged concentrically with inner wall, and thickness is uniform, is arranged
Simply, at the same avoid the inner surface of the second sidewall 127 and first cell wall 111 against and influence the assignment channel 125 of the side
Lye discharge.
In embodiments herein, the purpose that assignment channel 125 is arranged is to enable the lye in splitter cavity 121
From distributing everywhere into alkali slot 110 on first direction, the conventional structure for arbitrarily realizing above-mentioned purpose may be structured to.
In some alternative embodiments, every group of assignment channel 125 is set as the multiple dispensing orifices being distributed along first direction,
Wherein far from the open at one end of splitter cavity 121 and close to the one-to-one correspondence open at one end of splitter cavity 121.
Set assignment channel 125 to the multiple dispensing orifices being distributed along the length direction of the first cell wall 111, setting side
Just, long service life, while being conducive to lye and being equably distributed into alkali slot 110 on the length direction of the first cell wall 111.
Further, one end open at one end with close to splitter cavity 121 of the separate splitter cavity 121 of each dispensing orifice is opened
Mouthful, positioned at lye diversion channel 120 perpendicular in the same section on first direction.Perpendicular to same section on first direction
Face, the also face parallel with second direction.
The set-up mode, so that assignment channel 125 is when distributing lye into alkali slot 110, lye direction in a second direction
When flowing in alkali slot 110, there is no the componental movements close towards the second cell wall 112 or the 4th cell wall 114, guarantee lye in alkali slot
Being uniformly distributed in 110, so that lye equably flows to rotary drum 300.
It, can also be with one close to splitter cavity when assignment channel 125 is set as dispensing orifice in other optional embodiments
121 it is open at one end, correspond to the set-up mode open at one end of multiple separate splitter cavities 121.Wherein, each to be open optionally
It is provided in round hole, square hole or the strip hole extended in a first direction etc., regular or irregular pore structure.
In embodiments herein, lye diversion channel 120 is optionally fixedly connected with alkali slot 110 or detachably connects
It connects.
In the embodiment being fixedly connected, for example, by using the mode of welding, link position is, for example, the second sidewall
127 close to the outer wall of top edge and the inner wall of the first cell wall 111.
In the embodiment being detachably connected, lye diversion channel 120 is provided with for being detachably connected with alkali slot 110
Interconnecting piece 128, the interconnecting piece 128 are for example attached with the first cell wall 111, either with the second cell wall 112 or the 4th cell wall
114 are attached.
Optionally, interconnecting piece 128 includes multiple hooks, for being clamped with the top edge of alkali slot 110.Illustratively, it connects
Multiple hooks in portion 128 are all set in the second sidewall 127 close to the outer wall of top edge, and multiple hooks uniformly divide along first direction
Cloth is simultaneously clamped with the top edge of the first cell wall 111 respectively.In other embodiments, interconnecting piece 128 can also be set to lye point
The outer wall of the top edge of the baffle 129 at 120 both ends of chute, for the top edge respectively with the second cell wall 112 and the 4th cell wall 114
It is clamped.
In addition, the detachable connection method of interconnecting piece 128 and alkali slot 110 is also other than the snap fit for being set as hook
It can be and be fastenedly connected such as connecting bolt or screw, interconnecting piece 128 is set as supporting with the upper inside edges of the first cell wall 111
Link block is fixed on the upper inside edges of the first cell wall 111 by bolt or screw by the link block leaned on.
Alkali groove mechanism 100 provided by the embodiments of the present application, its working principles are as follows: lye diversion channel 120 is set to alkali slot
In 110 liners, and the side positioned at first direction in the merging of the rotary drum in alkali slot 110 area 115, it opens up for distributing alkali
The splitter cavity 121 of liquid and for for lye flow into splitter cavity 121 alkali inlet 122.It is opened up by running through far from splitter cavity 121
Side has the assignment channel 125 for the multiple openings being distributed along first direction, is made in splitter cavity 121 by assignment channel 125
When lye flows into alkali slot 110, lye into alkali slot 110 respectively from distributing everywhere on first direction, so that lye equably flows to
Alkali slot 110 effectively improves lye distribution situation in alkali slot 110, when alkali groove mechanism 100 is applied to flaker, rotary drum 300
Shaft along the first direction extend, lye diversion channel 120 in the axial direction of rotary drum 300 everywhere in distribute lye into alkali slot 110
When, 300 surface of rotary drum can be made consistent with the exposure level of lye, guarantee the effect in blocks of flaker.
In addition the embodiment of the present application provides a kind of flaker, including machine ontology and alkali groove mechanism provided by the above embodiment
100, the alkali inlet tube 200 of machine ontology is connected to the alkali inlet 122 of lye diversion channel 120, and the rotary drum 300 of machine ontology is set to rotary drum
It is placed in area 115.The rotary drum 300 is set to the side far from the first cell wall 111 of lye diversion channel 120, the shaft edge of rotary drum 300
First direction extends.
It enables lye uniformly to distribute in alkali slot 110 by the setting lye diversion channel 120 in alkali slot 110,
Effectively improve lye distribution situation in alkali slot 110, lye diversion channel 120 is along the axially distinct position of rotary drum 300 to alkali slot
When distributing lye in 110,300 surface of rotary drum can be made consistent with the exposure level of lye, guarantee the effect in blocks of flaker.
Please continue to refer to Fig. 1-3, in some alternative embodiments, the discharge end of alkali inlet tube 200 is communicated with isocon
210, isocon 210 extends in a first direction and both ends open.
The discharge end of alkali inlet tube 200 is flowed into lye by isocon 210 in the splitter cavity 121 of lye diversion channel 120, should
Isocon 210 is located at the opening at both ends on first direction, and the movement of lye when 200 row's alkali of alkali inlet tube straight down is converted to edge
Movement on first direction is conducive to lye and is evenly distributed in splitter cavity 121 along first direction, while lye being avoided to fly
It splashes.
The foregoing is merely preferred embodiment of the present application, are not intended to limit this application, for the skill of this field
For art personnel, various changes and changes are possible in this application.Within the spirit and principles of this application, made any to repair
Change, equivalent replacement, improvement etc., should be included within the scope of protection of this application.
Claims (10)
1. a kind of alkali groove mechanism, which is characterized in that the alkali groove mechanism includes alkali slot and lye diversion channel, the liner of the alkali slot
In there is rotary drum to be placed in area, rotary drum merging area is suitable for rotary drum and is placed in such a way that its shaft axis extends in a first direction,
The lye diversion channel is set in the liner of the alkali slot, and is located at the first direction in rotary drum merging area
Side;
The lye diversion channel have splitter cavity for distributing lye and for for lye flow into the splitter cavity into alkali
Mouthful, the lye diversion channel offers the assignment channel through cell wall, one end far from the splitter cavity of the assignment channel
With the multiple openings being distributed along the first direction.
2. alkali groove mechanism according to claim 1, which is characterized in that the assignment channel includes being opened in the lye point
The first passage on the side wall in rotary drum merging area of chute.
3. alkali groove mechanism according to claim 2, which is characterized in that the assignment channel includes being opened in the lye point
Second channel on the side wall far from rotary drum merging area of chute;Optionally, the alkali groove mechanism have lay flat setting with
To the first working condition that lye shunts, when the alkali groove mechanism is in first working condition, under the first passage
Edge is lower than the lower edge of the second channel;
And/or the lye diversion channel has baffle, the baffle is located at two of the splitter cavity in said first direction
End, the baffle at both ends offer out alkali through-hole respectively, and the alkali groove mechanism has lay flat setting to shunt to lye the
One working condition, when the alkali groove mechanism is in first working condition, the lower edge of the alkali through-hole out is not less than described
The lower edge of first passage.
4. alkali groove mechanism according to claim 1, which is characterized in that the slot bottom of the liner of the alkali slot is inclined surface, and
The end position that the lye diversion channel is arranged is lower, and the end position far from the lye diversion channel is higher.
5. alkali groove mechanism according to claim 1-4, which is characterized in that the alkali slot has the row's of opening up alkali mouth
The length direction of first cell wall, first cell wall extends along the first direction, and the lye shunt slot location is in described first
Between cell wall and rotary drum merging area.
6. alkali groove mechanism according to claim 1-4, which is characterized in that perpendicular to cutting on the first direction
In face, the inner wall of the lye diversion channel is arc-shaped or inner wall, the outer wall of the lye diversion channel are arc-shaped;Optionally, institute
The top that alkali inlet is set to lye diversion channel is stated, the alkali groove mechanism has the first work for laying flat setting to shunt to lye
State, when the alkali groove mechanism is in first working condition, the lye diversion channel is placed in area close to the rotary drum
Top edge of the top edge of side lower than the side far from rotary drum merging area of the lye diversion channel.
7. alkali groove mechanism according to claim 1-4, which is characterized in that the assignment channel is along described first
Multiple dispensing orifices of directional spreding;Optionally, the open at one end and close institute far from the splitter cavity of each dispensing orifice
The open at one end of splitter cavity is stated, positioned at the lye diversion channel perpendicular in the same section on the first direction.
8. alkali groove mechanism according to claim 1, which is characterized in that the lye diversion channel be provided with for the alkali
The interconnecting piece that slot is detachably connected;Optionally, the interconnecting piece includes multiple hooks, for the top edge card with the alkali slot
It connects.
9. a kind of flaker, which is characterized in that described including machine ontology and the described in any item alkali groove mechanisms of claim 1-8
The alkali inlet tube of machine ontology is connected to the alkali inlet of the lye diversion channel, and the rotary drum of the machine ontology is set to the rotary drum
It is placed in area.
10. flaker according to claim 9, which is characterized in that the discharge end of the alkali inlet tube is communicated with isocon, institute
Isocon is stated to extend along the first direction and both ends open.
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Effective date of registration: 20211224 Address after: 402761 No. 666, Qinggang Avenue, Qinggang street, Bishan District, Chongqing (plant 2) Patentee after: Chongqing Bozhang Intelligent Equipment Co.,Ltd. Address before: No.281-6, Xiaolongkan Main Street, Shapingba District, Chongqing Patentee before: CHONGQING BOZHANG MECHANO-ELECTRONIC EQUIPMENT CO.,LTD. |