CN208649593U - A kind of supersonic mould roller covered for manufacturing oral cleaning - Google Patents
A kind of supersonic mould roller covered for manufacturing oral cleaning Download PDFInfo
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- CN208649593U CN208649593U CN201821259404.2U CN201821259404U CN208649593U CN 208649593 U CN208649593 U CN 208649593U CN 201821259404 U CN201821259404 U CN 201821259404U CN 208649593 U CN208649593 U CN 208649593U
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- woven fabrics
- mould roller
- supersonic mould
- cleaning
- cleaning sleeve
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Abstract
The utility model proposes a kind of for manufacturing the supersonic mould roller of oral cleaning set, including a mandrel (4321), fixation is equipped with columnar mold set (4322) on the mandrel (4321), multiple U-shaped protrusions (433) are formed with around the cylinder surface of the mold set (4322), each U-shaped protrusion (433) is corresponding with the bonding crack of each cleaning sleeve (30) shape.The supersonic mould roller of the application using the above structure, it can make non-woven fabrics during conveying, bonding crack is persistently formed for each oral cleaning set in nonwoven surface by the rolling of supersonic mould roller, existing oral cleaning can be covered and carry out continuous automatic production, it solves the problems, such as from scratch, reduce manpower participation, reduces costs the probability with microbiological contamination, improve the homogeneity and reliability of product.
Description
Technical field
The utility model relates to a kind of manufacturing equipments of utensil for oral cleaning more particularly to one kind can be to oral cavity
The part such as internal tongue fur, gum, lip inside, the upper jaw and the lower jaw carries out the manufacturing equipment of clean cleaning sleeve, in particular to available
Non-woven fabric ultrasonic wave is used to bond the manufacturing equipment that the oral cleaning to be formed covers on finger in covering.
Background technique
107693143 A of CN discloses a kind of oral cleaning set, as shown in Figure 1, the oral cleaning set of its display is this reality
With novel manufacturing equipment dedicated for the product of manufacture.The oral cleaning set of the prior art is suitable for covering in finger or utensil
Cavity interior is cleaned in outside, and cleaning sleeve as shown in the figure is flat layer structure, the non-woven fabrics including one by being laminated
The set portion 1 of composition and a grip part 2 being made of single-layer nonwoven, set portion 1 include a working lining 11 and a jacket layer 12,
Working lining 11 and jacket layer 12 form head 13 on the top of cleaning sleeve, form first side 14 and second in the two sides of cleaning sleeve
Side 15;Working lining 11 and jacket layer 12 are formed on head 13 and the connection of first side 14 and second side 15 respectively has insertion
The cover shape structure of mouth 20;Grip part 2 integrally extends from working lining 11.
The working lining 11 and jacket layer 12 of oral cleaning set can be folded by same piece of fabric and be formed, working lining 11 and jacket layer
After 12 fold, bonding crack 30 is formed by way of ultrasonic bonds (in figure in the position of first side 14 and second side 15
Shown in dotted line), so that first side 14 and second side 15 be linked together.Since working lining 11 and jacket layer 12 are by same
Piece fabric, which folds, to be formed, therefore working lining 11 and jacket layer 12 form jointless head 13 on the top of cleaning sleeve.Using folding
The folded mode for forming jointless head 13, so that the head 13 of cleaning sleeve does not need to be formed with ultrasonic bonds, one layer of nothing
Woven fabric simply can fold to form two layers of cloth, avoid head binding site and cut waste material, both reduce processing loss, and
And top is cleverly avoided because of the situation harder with corner caused by ultrasonic heat adhesion technique, and it is each with oral cavity to reduce corner
The usage experience of the stimulation at position, user is more preferable.
Jacket layer 12 has an insertion side 121 opposite with the head 13 of cleaning sleeve, which constitutes insert port
20 mouth rim.
In the structure of the oral cleaning set of the prior art, set portion 1 is used to cover the outside in finger or implements, working lining
11 towards needing clean part to carry out friction clean operation, and jacket layer 12 is used to for being maintained in set portion 1 outside of finger and implements.
Grip part 2 prevents cleaning sleeve from slipping from finger or implements for being fixed when use with hand, as shown in Figure 1.
Fig. 2 is shown the packed state schematic diagram of cleaning sleeve, as it can be seen that under packed state in figure, grip part 2 is foldable
Covering working lining 11 protects its surface afterwards.Because the needs of working lining 11 of cleaning sleeve are contacted with oral cavity organs, transport is deposited
Its surface should be protected when storage, the cleaning sleeve of the prior art is when producing packaging, directly by grip part 2
Overturning, which is folded up to cover working lining 11, to be protected, and can save protective film or absciss layer paper, the safety of product is defended
Natural disposition is greatly improved.After user buys cleaning sleeve, in a state of use, grip part 2 can be operated from covering work
The state expansion of layer 11 prevents it from disengaging finger or utensil in order to fixed cleaning sleeve.Moreover, during opening, working lining 11
It will not be contacted with finger and other external worlds, reduce the probability of microbiological contamination.
The above-mentioned prior art oral cleaning set be present applicant exploitation complete, but there is no available equipment into
Row manufacture, thus the utility model proposes a kind of manufacturing equipments for being exclusively used in above-mentioned cleaning sleeve, to realize industrialized production, drop
Low human cost, while reducing human factor bring bacteria contamination probability.
Utility model content
The technical problem to be solved by the present invention is to provide a kind of for manufacturing the supersonic mould roller of oral cleaning set,
The problem of being formerly mentioned is reduced or avoided.
Specifically, the utility model provides a kind of for manufacturing the supersonic mould roller of oral cleaning set, can be with
The suture production for carrying out continuous and automatic is covered to existing oral cleaning.
In order to solve the above technical problems, the utility model proposes a kind of for manufacturing the supersonic mould of oral cleaning set
Roller, the oral cleaning set are formed after being bonded and cut by ultrasonic heat after folding by same non-woven fabrics comprising set
Portion and the grip part integrally to be extended out by the set portion;The set portion includes a working lining and a jacket layer, the work
Layer and jacket layer form head on the top of cleaning sleeve, are formed with first side and second side in the two sides of the cleaning sleeve;
After the working lining and jacket layer fold, formed by way of ultrasonic bonds in the position of the first side and second side
Bonding crack;The supersonic mould roller is used for using ultrasonic waveform into the bonding crack;Wherein, the supersonic mould roller includes
One mandrel, fixation is equipped with columnar mold set on the mandrel, and the cylinder surface around mold set is formed with multiple U
Shape protrusion, each U-shaped protrusion are corresponding with the bonding crack shape of each cleaning sleeve.
Preferably, the interval of the adjacent U-shaped protrusion is identical, between the adjacent cleaning sleeve designed on its spacing and non-woven fabrics
Spacing it is identical.
Preferably, fixation is equipped with the mold set respectively at the both ends of the mandrel.
Preferably, the mold set is integrally extended with a mounting portion, and the diameter of the mounting portion is less than the mold set
Diameter.
Preferably, the mounting portion is fixed by screws on the mandrel.
Preferably, the supersonic mould roller is set to the top of non-woven fabrics, the U-shaped protrusion rolling by the nonwoven
Cloth is urged to the surface of ultrasonic wave generating mechanism.
Preferably, the position that the non-woven fabrics is oppressed in each U-shaped protrusion rolling passes through the ultrasonic wave generating mechanism
The ultrasonic energy continuously sent out forms the bonding crack of each oral cleaning set on the non-woven fabrics.
The supersonic mould roller of the utility model, can make non-woven fabrics during conveying, pass through supersonic mould
The rolling of roller persistently forms bonding crack for each oral cleaning set in nonwoven surface, can pack into existing oral cleaning
Row continuous automatic production solves the problems, such as from scratch, to reduce manpower participation, reduce costs the probability with microbiological contamination,
Improve the homogeneity and reliability of product.
Detailed description of the invention
Following drawings are only intended to schematically illustrate and explain the present invention, does not limit the model of the utility model
It encloses.Wherein,
Fig. 1 be shown the utility model for manufacture oral cleaning cover structural schematic diagram;
The packed state schematic diagram of cleaning sleeve is shown in Fig. 2;
The manufacturing equipment for oral cleaning set of a specific embodiment according to the present utility model is shown in Fig. 3
Structural schematic diagram;
In the state that Fig. 4 is shown virtually, by the schematic diagram of the arrangement mode of cleaning sleeve to be formed on non-woven fabrics;
The schematic diagram of the forming step of the cleaning sleeve of the utility model is shown in Fig. 4 a~4f respectively;
The theory structure schematic diagram of the first fold mechanism is shown in Fig. 5;
The partial structural diagram of the manufacturing equipment of the utility model is shown in Fig. 6, and which show the first folding machines
Structure and the first ultrasonic bonds mechanism;
The theory structure schematic diagram of the first ultrasonic bonds mechanism is shown in Fig. 7;
The partial schematic diagram of the utility model is shown in Fig. 8, it is shown that the structural schematic diagram of the first deviation correction mechanism.
Specific embodiment
For a clearer understanding of the technical features, objectives and effects of the utility model, now compareing Detailed description of the invention
Specific embodiment of the present utility model.Wherein, identical component uses identical label.
As described in background, to solve the problems, such as industrialized production, the utility model provides a kind of for oral cavity
The manufacturing equipment of cleaning sleeve, as shown in figure 3, the oral cleaning set that the manufacturing equipment is specific to background technology part description is ground
The corollary equipment issued, wherein the structure of the set of oral cleaning manufactured by the manufacturing equipment for the utility model is simply returned
It receives as follows: as shown in Figure 1, the utility model oral cleaning set to be manufactured includes being made of non-woven fabrics towards first direction folding
Set portion 1 and the grip part 2 integrally to be extended out by set portion 1, grip part 2 is under packed state towards opposite with first direction second
Direction and set portion 1 are laminated;In a state of use, grip part 2 can be unfolded to prevent it de- in order to fixed cleaning sleeve from laminated arrangement
Open finger or utensil.
Set portion 1 includes that a working lining 11 and a jacket layer 12, working lining 11 and jacket layer 12 are formed on the top of cleaning sleeve
Head 13, in the two sides of cleaning sleeve is formed with first side 14 and second side 15;After working lining 11 and jacket layer 12 fold,
The position of first side 14 and second side 15 forms bonding crack 30 by way of ultrasonic bonds;Working lining 11 and jacket layer 12
The cover shape structure with insert port 20 is formed on head 13 and the connection of first side 14 and second side 15 respectively;Jacket layer 12
With an insertion side 121 opposite with the head 13 of cleaning sleeve, which constitutes the mouth rim of insert port 20.
Other structures, effect, function in relation to cleaning sleeve have in detail in the CN107693143A of background technology part reference
A part as the utility model is cited in full text in thin description herein.It is used in Fig. 1-2 similarly attached with the prior art
Icon, which is remembered into, has gone expression, below in the detailed description of manufacturing equipment, referring to representated by the relevant appended drawing reference of cleaning sleeve
Structure is identical as Fig. 1 and Fig. 2, and such as unmarked, then those skilled in the art can be understood by the description of the prior art.
As shown in figure 3, the manufacturing equipment for oral cleaning set of the utility model includes the L-shaped of layout that be rectangular in shape
First workbench 4 and the second workbench 5, the starting point of the first workbench 4 are provided with non-woven fabrics feed roller 41, the second workbench
5 end is provided with oral cleaning set collecting mechanism 51, and the engaging portion of the first workbench 4 and the second workbench 5 is provided with and the
The length direction of one workbench 4 and the second workbench 5 is in the non-woven fabrics turn-over opening 6 of 45 degree of angles.
The oral cleaning set of the utility model will form packed state as shown in Figure 2 after manufacturing, start when
Time is the monolith non-woven fabrics in non-woven fabrics feed roller 41, after oral cleaning set manufacture is completed, with single shape
State be transported to oral cleaning set collecting mechanism 51, in order to it is subsequent artificially collect or by conveyer belt be further conveyed to from
Dynamic packing machine, then gets up each cleaning sleeve sealed package by way of packaging wound membrane or packaging bag etc..This be from
One monolith non-woven fabrics is transformed into the substantially workflow of single clearing set.
The structure that the oral cleaning shown in Fig. 1-2 covers can be seen that the shape that the cleaning sleeve that manufacture is completed is rendered as packaging
State, i.e., appearance as shown in Figure 2.Non-woven fabrics will be by once forming set portion 1 towards the folding of first direction, and grip part 2 will be to
The opposite direction in formation set portion 1 is folded again at towards second direction could form packed state.From the complexity of Machine Design
For, it is simplest for being folded twice using the fold mechanism of identical principle and structure, and cost is also optimal.So will
A problem is brought, the non-woven fabrics in same direction is folded towards first direction for the first time, is rolled over for the second time towards opposite second direction
Folded, identical fold mechanism can not be accomplished, and therefore, the utility model creativeness proposes a kind of structure type,
After completing the first fold, non-woven fabrics is turned, then second of fold mechanism using same principle, so that it may real
Existing opposite direction is folded.
In order to realize that the purpose of non-woven fabrics overturning, the manufacturing equipment of the utility model propose L-shaped structure as shown in Figure 3
Workbench, at right angles, non-woven fabrics is first defeated along the length direction of the first workbench 4 for the first workbench 4 and the second workbench 5
It send, has arrived the engaging portion with the second workbench 5, by the non-woven fabrics turn-over opening 6 of 45 degree of angles, make bottom of the non-woven fabrics from side
Portion passes through the top that non-woven fabrics turn-over opening 6 returns to the other side, and perfection forms the turn-over process of non-woven fabrics, later non-woven fabrics
Just just it can continue to transmit along the second workbench 5.The non-woven fabrics of the utility model can completely be presented from Fig. 3 for above procedure
The principle and process of turn-over, those skilled in the art are easily achieved turn-over referring to the attached drawing 3 of the utility model, it is possible thereby to real
The cleaning sleeve of existing the utility model forms the manufacturing process of cleaning sleeve by the folding of different directions twice.
The structural principle of the manufacturing equipment of the utility model in order to facilitate understanding, referring to Fig. 4 and Fig. 4 a~4f couple
The manufacturing method of the cleaning sleeve of the utility model is described in detail, that is, is transformed into single clearing set from a monolith non-woven fabrics
Detailed operation process be further detailed.
Wherein, in the state that Fig. 4 is shown virtually, the showing the arrangement mode of cleaning sleeve to be formed on non-woven fabrics
It is intended to, that is, along the length direction of non-woven fabrics, is respectively formed two rows of cleaning sleeves in two sides of non-woven fabrics, this two is cleared
Clean set is symmetrically arranged relative to the medium line of the length direction of non-woven fabrics, and the head 13 of cleaning sleeve is inserted towards the edge of non-woven fabrics
Medium line of the insertion side 121 towards non-woven fabrics of entrance.Fig. 4 is used for the purpose of more clearly illustrating the arrangement side of cleaning sleeve
Formula, under actual conditions at the beginning of cleaning sleeve be unfolded state, then by cutting, folding, the technologies hand such as ultrasonic bonds
Two rows of cleaning sleeves that section is finally just formed.
General layout form of the cleaning sleeve on non-woven fabrics is described, further illustrates that this is practical referring to Fig. 4 a~4f
The signal of the forming step of the cleaning sleeve of the utility model is shown in the specific steps of novel manufacturing method, upper figure respectively
Figure, what arrow therein indicated is the conveying direction of non-woven fabrics.
Firstly, as shown in fig. 4 a, cutting to two sides of non-woven fabrics, two rows are respectively formed in the two sides of non-woven fabrics
The insertion side 121 of the mouth rim of cleaning sleeve, the redundance for indicating dotted line after cutting removes, such as can be retouched by subsequent
Edge waste dust catcher stated etc. is recycled.Finger auxiliary is facilitated insertion into it is, of course, also possible to further be formed on non-woven fabrics
Fixed opening 21 (107693143 A of prior art CN that may refer to background technology part reference), because to form two rows
Cleaning sleeve, so the opening 21 cut out on non-woven fabrics is also two rows.
Then, as shown in Figure 4 b, two sides of non-woven fabrics are folded upward to centre, is respectively formed with the two sides in non-woven fabrics
The set portion 1 for the cleaning sleeve that the nonwoven layer of one row and bottom gathers into folds.It will be completed due to Fig. 4 b only folding shown
State, so set portion 1 is formed completely not yet, it is also necessary to carry out ultrasonic bonds to two sides in set portion in next step.
Later, as illustrated in fig. 4 c, by the set portion 1 of folding respectively along the first side of the two sides in the set portion 1 of each cleaning sleeve
Position where side 14 and second side 15 (relevant drawings are marked referring to Fig. 1-2) forms combination by way of ultrasonic bonds
30 (in figures shown in dotted line) are stitched, so that the first side 14 in the set portion 1 of each cleaning sleeve and second side 15 are connected to
Together.
Followed by, as shown in figure 4d, entire non-woven fabrics is turned, so that non-woven fabrics one facing of being formed with set portion 1
Under, that is, it is shown in Figure 1, this step needs to provide L-shaped first workbench 4 and the second workbench of the layout that is rectangular in shape
5, the engaging portion of the first workbench 4 and the second workbench 5 is provided with the length direction with the first workbench 4 and the second workbench 5
In the non-woven fabrics turn-over opening 6 of 45 degree of angles.Its specific overturning step are as follows: non-woven fabrics is first along the length of the first workbench 4
Direction conveying, has arrived the engaging portion with the second workbench 5, by the non-woven fabrics turn-over opening 6 of 45 degree of angles, makes non-woven fabrics from one
The bottom of side passes through the top that non-woven fabrics turn-over opening 6 returns to the other side, forms the turn-over process of non-woven fabrics, later nonwoven
Cloth can continue to transmit along the second workbench 5.
Fig. 4 d is simpler intuitive in order to illustrate getting up, and the state of Fig. 4 c has been carried out simple mirror image processing, it is shown that
State after overturning.Under actual conditions, in the manufacturing equipment of the utility model, non-woven fabrics is the nonwoven by 45 degree of angles
What cloth turn-over opening 6 was overturn, the non-woven fabrics after overturning not only becomes mirror image, actually the two of non-woven fabrics side
It has exchanged.Namely non-woven fabrics is turned on the second workbench 5 it by non-woven fabrics turn-over opening 6 from the first workbench 4
Afterwards, non-woven fabrics is not only overturn, and direction has also been exchanged in two sides, and the conveying direction of non-woven fabrics also deflects
90 degree.Therefore when those skilled in the art understand referring to attached drawing, the minute differences shown in figure should be ignored, it is not necessary to
The difference of stubborn non-woven fabrics layout type and attached drawing under actual conditions.
Then, as shown in fig 4e, the two sides of non-woven fabrics are folded to centre upward again, non-woven fabrics two sides is formed
The nonwoven layer that the set portion 1 of cleaning sleeve is turned to upward with bottom gathers into folds.In this state, 2 layers of the grip part of cleaning sleeve
It is stacked in the lower section in set portion 1, the working lining 11 in the set portion 1 of cleaning sleeve is covered in a manner of stacking, the jacket layer 12 in set portion 1
In state upward (relevant drawings are marked referring to Fig. 1-2).
Finally, as shown in fig. 4f, cut along the outline edge of each cleaning sleeve, by each cleaning sleeve from non-woven fabrics
On cut down, last extra part is removed after cutting.
It further, still as shown in fig. 4f, can be will be every for the ease of disposably removing last extra part
Before a cleaning sleeve is cut down from non-woven fabrics, the redundance without constituting cleaning sleeve that non-woven fabrics is folded up (is schemed
It is shown as the waste material that shape between adjacent cleaning sleeve is similar to triangle in 4f) by way of ultrasonic bonds and bottom
Non-woven fabrics vertically connect (diagram dotted line 40 indicate be ultrasonic combined formation suture), thus can be by non-woven fabrics
Upper last extra part has all connected into entirety, disposably can integrally remove, such as can pass through the useless of subsequent descriptions
Material recovering mechanism etc. is recycled.Each of cutting down individual cleaning sleeve can be transmitted by cleaning sleeve collecting mechanism
It collects, is sealed packaging to be encased in such as packaging wound membrane or packaging bag by artificial or machine mode.
It can be seen that the utility model by the specific steps for being manufactured method of the above-mentioned cleaning sleeve of the utility model
By overturning and the folding step of two sides, two rows of cleaning sleeves can be formed along the length direction of non-woven fabrics, and can be by
The cleaning sleeve of the packed state of stacking is conveniently formed according to set process, is connected with the industrialization that this can solve cleaning sleeve
The problem of continuous production.
The introduction of each step by the above-mentioned manufacture method, can refer again to Fig. 3 below and subsequent drawings are further
The thin portion structure of the manufacturing equipment of the utility model is described in detail.
In the manufacturing equipment of the utility model as shown in Figure 3, it is provided on the first workbench 4 by non-woven fabrics feed roller 41
The first fold mechanism 42 that the non-woven fabrics of offer is folded towards first direction, the effect of the first fold mechanism 42 are by towards first party
To the first fold, non-woven fabrics two sides formed cleaning sleeve set portion 1 (step as shown in Figure 4 b).Fig. 5 is shown
The partial structural diagram of the manufacturing equipment of the utility model is shown in the theory structure schematic diagram of one fold mechanism, Fig. 6,
In show the first fold mechanism and subsequent the first ultrasonic bonds mechanism that will be described in detail.
Specifically, as seen in figs. 5-6, the first fold mechanism 42 includes being set to the middle part of non-woven fabrics and being less than non-woven fabrics
Width flanging angle bar 421, the two sides of flanging angle bar 421 are respectively arranged with a plaiting briquetting 422, and non-woven fabrics is along flanging
The edge of angle bar 421 folds the set portion 1 to form cleaning sleeve by plaiting briquetting 422 to the middle part of non-woven fabrics.Flanging angle bar 421 is whole
Body is the stainless steel plate of one piece of bending, and one end towards non-woven fabrics charging is upturned, to block non-woven fabrics and by nonwoven
Cloth struts.The width of flanging angle bar 421 is narrower than the width of non-woven fabrics, thus the non-woven fabrics meeting that the two sides of flanging angle bar 421 exceed
It is collapsed slightly inwardly along the outer surface of flanging angle bar 421, at this point, the plaiting briquetting 422 in 421 two sides of flanging angle bar just can
The non-woven fabrics inwardly collapsed downwardly against (pushed down after needing manually to collapse non-woven fabrics at first with plaiting briquetting 422,
In the case where continuous running, non-woven fabrics can persistently be pressed in the lower section of plaiting briquetting 422 in the case where tensioning), with non-woven fabrics
Advance, the edge of non-woven fabrics is pushed down by plaiting briquetting 422 has been folded into required width.In addition, in order to realize better folding
Folded effect, avoids fold, is additionally provided with limited block 424 in the outside of flanging angle bar 421, for limiting after non-woven fabrics folds
The side that creased edges are close to flanging angle bar 421 is mobile, so as to be further ensured that the neat zero deflection of folded edge, is convenient for
It folds and control folds accuracy, be also convenient for folding forming.In addition, in order to which flanging angle bar 421 against non-woven fabrics is pushed down, is being rolled over
The top of corner iron 421 is provided with a pressure block 423, and for pressure block 423 downwardly against flanging angle bar 421, lower pressure can be with
It is adjusted by screw rod etc..
Further, referring again to Fig. 3, the downstream along the first fold mechanism 42 of non-woven fabrics moving direction is provided with
Ultrasonic bonds form the first ultrasonic bonds mechanism 43 in set portion 1, and the effect of the first ultrasonic bonds mechanism 43 is to form set
The bonding crack 30 (step as illustrated in fig. 4 c) in portion 1.The theory structure signal of the first ultrasonic bonds mechanism 43 is shown in Fig. 7
Figure.
Specifically, the first ultrasonic bonds mechanism 43 includes the ultrasonic wave generating mechanism 431 below non-woven fabrics, with
And the supersonic mould roller 432 positioned at the top of non-woven fabrics, pass through the set formed after 42 the first fold of the first fold mechanism
Portion 1 needs the shape for each independent cleaning sleeve to form the bonding crack 30 of specific shape by ultrasonic bonds mechanism 43,
Thus need to provide the supersonic mould roller 432 of specific structure.
From figure 7, it is seen that the supersonic mould roller 432 of the application is generally at roller shape comprising a mandrel 4321,
It is fixed on mandrel 4321 to be equipped with columnar mold set 4322, it is prominent that multiple U-shapeds are formed with around the cylinder surface of mold set 4322
433 are played, each U-shaped protrusion 433 is corresponding with 30 shape of bonding crack of each cleaning sleeve.The interval phase of adjacent U-shaped protrusion 433
Together, the spacing between adjacent cleaning sleeve designed on its spacing and non-woven fabrics is identical.In order to correspond to two rows of cleanings on non-woven fabrics
Set, the both ends of mandrel 4321 are fixed respectively to be equipped with a mold set 4322.Mold set 4322 is integrally extended with a mounting portion
4323, the diameter of mounting portion 4323 is less than the diameter of mold set 4322.Mounting portion 4323 is fixed on mandrel by screw 4324
On 4321.Since the diameter of mounting portion 4323 is less than the diameter of mold set 4322, the prominent screw except mounting portion 4323
4324 rotations that will not cover 4322 to mold interfere.With the rotation of supersonic mould roller 432, it is set to the upper of non-woven fabrics
433 rolling of U-shaped protrusion of the supersonic mould roller 432 of side non-woven fabrics is urged to the surface of ultrasonic wave generating mechanism 431, from
And as the ultrasonic energy that ultrasonic wave generating mechanism 431 is continuously sent out makes the surface for being urged to ultrasonic wave generating mechanism 431
Non-woven fabrics links together in the position moment hot melt that U-shaped protrusion 433 is oppressed.Nothing is oppressed in namely each 433 rolling of U-shaped protrusion
The position of woven fabric forms each oral cleaning by the ultrasonic energy that ultrasonic wave generating mechanism 431 is continuously sent out on non-woven fabrics
The bonding crack 30 of set.Technology in relation to ultrasonic bonds be all it is existing, ultrasonic wave generating mechanism 431 can use any existing
The equipment suitable for ultrasonic bonds, can commercially obtain.The supersonic mould of the application using the above structure
Roller can make non-woven fabrics during conveying, be directed to each mouth in nonwoven surface by the rolling of supersonic mould roller
Chamber cleaning sleeve persistently forms bonding crack, can to existing oral cleaning cover carry out continuous automatic production, solve from without to
The problem of having, reduces manpower participation, reduces costs the probability with microbiological contamination, improve the homogeneity and reliability of product.
Further, referring again to Fig. 3, it is provided with 6 directions that will be open from non-woven fabrics turn-over on the second workbench 5 and conveyed
The second fold mechanism 52 that the non-woven fabrics come is folded towards second direction, under the second fold mechanism 52 of non-woven fabrics moving direction
Trip is provided with the second ultrasonic bonds mechanism 53 that ultrasonic bonds link into an integrated entity waste material.Wherein, preferably the first folding
Folded mechanism 42 is identical with the structure of the second fold mechanism 52, can reduce die cost with this.Certainly, the nothing due to folding twice
The edge of woven fabric is of different sizes, thus all parts of two fold mechanisms interval can with the of different sizes of folded edge and
Be varied, and the size of the second fold mechanism 52 with after the first fold non-woven fabrics width narrow it is also corresponding
Reduced.
Further, the downstream of the second ultrasonic bonds mechanism 53 is provided with material cutting mechanism 54, the downstream of material cutting mechanism 54
It is provided with Waste recovery mechanism 55, the downstream of Waste recovery mechanism 55 is provided with aforementioned oral cleaning set collecting mechanism 51.Wherein
Material cutting mechanism 54 can be using existing any cutting structure, such as the cross cutting structure of roll profile etc..Waste recovering machine
Structure 55 can be common waste material container, be also possible to be provided with the roller of winding mechanism, for winding the waste material cut
Come to reduce volume.
In addition, the upstream of the first fold mechanism 42 is also provided with circle of contact arc mechanism 44 and edge waste dust catcher
45.Circle of contact arc mechanism 44 can equally use the cross cutting structure etc. of existing roll profile.Edge waste dust catcher 45 is set as
Structure type with dust collector host 451 and pipeline 452 generates suction using dust collector host 451, and pipeline is close to excision
Near arc-shaped edge waste, so as to which the edge waste scaled off is siphoned away.
Further, 44 upstream of circle of contact arc mechanism is provided with the first deviation correction mechanism 46.Likewise, 52 He of the second fold mechanism
The second deviation correction mechanism 56 is provided between non-woven fabrics turn-over opening 6.It is preferred that the first deviation correction mechanism 46 and the second deviation correction mechanism 56
Structure is identical.Deviation rectifier is to keep cloth smooth to correct non-woven fabrics and move left and right and unidirectionally deviate in process, with
Conducive to the operation such as subsequent trimming, folding.In addition, the manufacturing equipment due to the utility model has multiple and different steps, often
A step requires to ensure that the position of the structure on non-woven fabrics is consistent, therefore setting deviation correction mechanism can also pass through sensor
(not shown) perceives the edge of non-woven fabrics, the marginal position to adjust automatically non-woven fabrics.Also that is, shown in the earlier figures 4a
The step of before, that is, preferably further include being entangled to non-woven fabrics before being cut to two sides of non-woven fabrics
The step of operating partially, such as correction operation is carried out to the non-woven fabrics before cutting side by the first deviation correction mechanism 46.Likewise,
Before the step shown in earlier figures 4e, that is, by the two sides of non-woven fabrics again to it is intermediate fold upward before, preferably into one
Step includes the steps that carrying out the non-woven fabrics after overturning correction operation, for example, by 56 pairs of the second deviation correction mechanism overturnings after
Non-woven fabrics carries out correction operation.
The partial schematic diagram of the utility model is shown in Fig. 8, it is shown that the structural schematic diagram of the first deviation correction mechanism 46.Tool
For body, as shown in figures 3 and 8, the identical deviation correction mechanism of two structures of the utility model includes two disposed in parallel
The composition of connection frame 562 at roller bearing 561, two roller bearings 561 and both ends can be with movable parallelogram, (in figure not by motor
Show) angular deflection that controls the parallelogram, the position for the non-woven fabrics being tightened on two roller bearings 561 can be made to occur
Variation, so that the edge of non-woven fabrics is maintained in the normal range (NR) of sensor settings, thereby may be ensured that non-woven fabrics transmission location
It is consistent.
In conclusion the supersonic mould roller of the utility model, can make non-woven fabrics during conveying, by super
The rolling of sound wave mold roller persistently forms bonding crack for each oral cleaning set in nonwoven surface, can be to existing oral cavity
Cleaning sleeve carries out continuous automatic production, solves the problems, such as from scratch, to reduce manpower participation, reduce costs and microbiological contamination
Probability, improve the homogeneity and reliability of product.
It will be appreciated by those skilled in the art that although the utility model is described in the way of multiple embodiments
, but not each embodiment only contains an independent technical solution.So narration is in specification just for the sake of clear
For the sake of, the skilled in the art should refer to the specification as a whole is understood, and by skill involved in each embodiment
Art scheme, which is regarded as, can be combined with each other into the modes of different embodiments to understand the protection scope of the utility model.
The above descriptions are merely exemplary embodiments of the present utility model, the model being not intended to limit the utility model
It encloses.Any those skilled in the art, under the premise of not departing from the conceptions and principles of the utility model made equivalent variations,
Modification and combination, should belong to the range of the utility model protection.
Claims (7)
1. a kind of for manufacturing the supersonic mould roller of oral cleaning set, the oral cleaning set is by same non-woven fabrics through folding
It is formed after bonding and cut by ultrasonic heat afterwards comprising set portion (1) and the gripping integrally to be extended out by the set portion (1)
Portion (2);The set portion (1) includes a working lining (11) and a jacket layer (12), and the working lining (11) and jacket layer (12) exist
The top of cleaning sleeve forms head (13), is formed with first side (14) and second side in the two sides of the cleaning sleeve
(15);It is logical in the position of the first side (14) and second side (15) after the working lining (11) and jacket layer (12) fold
The mode for crossing ultrasonic bonds forms bonding crack (30);The supersonic mould roller (432) is used for using ultrasonic waveform at described
Bonding crack (30);It is characterized in that, the supersonic mould roller (432) includes a mandrel (4321), the mandrel (4321)
Upper fixation is equipped with columnar mold set (4322), and it is prominent to be formed with multiple U-shapeds around the cylinder surface of the mold set (4322)
It rises (433), each U-shaped protrusion (433) is corresponding with the bonding crack of each cleaning sleeve (30) shape.
2. supersonic mould roller as described in claim 1, which is characterized in that the interval phase of the adjacent U-shaped protrusion (433)
Together, the spacing between adjacent cleaning sleeve designed on its spacing and non-woven fabrics is identical.
3. supersonic mould roller as claimed in claim 1 or 2, which is characterized in that the both ends of the mandrel (4321) are solid respectively
Surely it is equipped with the mold set (4322).
4. supersonic mould roller as claimed in claim 3, which is characterized in that the mold set (4322) is integrally extended with one
Mounting portion (4323), the diameter of the mounting portion (4323) are less than the diameter of the mold set (4322).
5. supersonic mould roller as claimed in claim 4, which is characterized in that the mounting portion (4323) passes through screw (4324)
It is fixed on the mandrel (4321).
6. supersonic mould roller as described in claim 1, which is characterized in that the supersonic mould roller (432) is set to nothing
The top of woven fabric, U-shaped protrusion (433) rolling the non-woven fabrics is urged to the surfaces of ultrasonic wave generating mechanism (431).
7. supersonic mould roller as claimed in claim 6, which is characterized in that institute is oppressed in each U-shaped protrusion (433) rolling
State ultrasonic energy that the position of non-woven fabrics is continuously sent out by the ultrasonic wave generating mechanism (431) shape on the non-woven fabrics
The bonding crack (30) covered at each oral cleaning.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821259404.2U CN208649593U (en) | 2018-08-06 | 2018-08-06 | A kind of supersonic mould roller covered for manufacturing oral cleaning |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821259404.2U CN208649593U (en) | 2018-08-06 | 2018-08-06 | A kind of supersonic mould roller covered for manufacturing oral cleaning |
Publications (1)
Publication Number | Publication Date |
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CN208649593U true CN208649593U (en) | 2019-03-26 |
Family
ID=65788918
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201821259404.2U Active CN208649593U (en) | 2018-08-06 | 2018-08-06 | A kind of supersonic mould roller covered for manufacturing oral cleaning |
Country Status (1)
Country | Link |
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CN (1) | CN208649593U (en) |
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2018
- 2018-08-06 CN CN201821259404.2U patent/CN208649593U/en active Active
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Effective date of registration: 20230404 Address after: 4th Floor, Building 2, No. 99 Cangqing Road, Xincang Town, Pinghu City, Jiaxing City, Zhejiang Province, 314200 Patentee after: Zhejiang Yudingxiang Technology Co.,Ltd. Address before: 4 / F, building 2, 526 BINKANG Road, Changhe street, Binjiang District, Hangzhou City, Zhejiang Province, 310052 Patentee before: HANGZHOU JADE CLOVE SCIENCE & TECHNOLOGY Co.,Ltd. |