CN206736502U - The hot-press arrangement of Through-Air Thermal Bonded Nonwovens carding machine - Google Patents
The hot-press arrangement of Through-Air Thermal Bonded Nonwovens carding machine Download PDFInfo
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- CN206736502U CN206736502U CN201720167645.3U CN201720167645U CN206736502U CN 206736502 U CN206736502 U CN 206736502U CN 201720167645 U CN201720167645 U CN 201720167645U CN 206736502 U CN206736502 U CN 206736502U
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Abstract
The utility model provides a kind of hot-press arrangement of Through-Air Thermal Bonded Nonwovens carding machine, is related to carding machine for non-woven fabric field.It includes the first hot-pressing roller, the second hot-pressing roller, heater, two ejector pin mechanisms and control system.The both ends of first hot-pressing roller are connected by two ejector pin mechanisms respectively with the both ends of the second hot-pressing roller.Ejector pin mechanism includes base and the first thimble part, base are connected with the second hot-pressing roller, and one end of the first thimble part is connected with the first hot-pressing roller, and the other end of the first thimble part is slidably connected with base;The control system is connected with two ejector pin mechanisms, with the distance between the hot-pressing roller of Intelligent adjustment first and the second hot-pressing roller.Heater is arranged on the inside of the first hot-pressing roller.The hot-press arrangement of Through-Air Thermal Bonded Nonwovens carding machine provided by the utility model can adjust the distance between the first hot-pressing roller and the second hot-pressing roller, can guarantee that hot pressing, shaping and it is fluffy between balance.
Description
Technical field
Carding machine for non-woven fabric field is the utility model is related to, in particular to a kind of Through-Air Thermal Bonded Nonwovens carding machine
Hot-press arrangement.
Background technology
Through-Air Thermal Bonded Nonwovens are under the jurisdiction of one kind in hot blast adhesion (hot rolling, hot blast) non-woven cloth, and hot blast nonwoven is in fibre
After dimension is combed into, fibre web is penetrated using the hot blast on drying plant, is allowed to non-woven cloth that is heated and being able to bonding generation.
Through-Air Thermal Bonded Nonwovens carding machine also realizes the production of non-woven cloth using air-heater or hot-rolling mill at present.Hot rolling is glued
The legal fibre web that is generally suitable for is quantitative in the range of 20g/m~200g/m, and optimum fibre web is quantitative between 20g/m~80g/m
Thin product, fibre web is too thick, and interlayer adhesion effect is poor, is also easy to produce lamination.Hot blast adhesion be suitable for 16g/m~
Product quantitative 2500g/m, application are wider.
But in current Through-Air Thermal Bonded Nonwovens production, hot pressing mechanism regulation underaction, precision is also inadequate, it is difficult to protect
Demonstrate,prove hot pressing, shaping and it is fluffy between balance, cause the non-woven cloth quality produced bad.
Therefore, design a kind of flexible adjustment and precision is high, and the hot pressing of the Through-Air Thermal Bonded Nonwovens carding machine of energy intelligent control
Device, with ensure Through-Air Thermal Bonded Nonwovens produce in hot pressing, shaping and it is fluffy between balance be at present it is in the urgent need to address
Problem.
Utility model content
The purpose of this utility model is to provide a kind of hot-press arrangement of Through-Air Thermal Bonded Nonwovens carding machine, its flexible adjustment and
Precision is high, and can intelligently realize hot pressing in Through-Air Thermal Bonded Nonwovens production process, shaping and it is fluffy between balance.
The utility model, which solves its technical problem, to be realized using following technical scheme:
A kind of hot-press arrangement of Through-Air Thermal Bonded Nonwovens carding machine provided by the utility model includes the first hot-pressing roller, the second heat
Pressure roller, heater, two ejector pin mechanisms and control system.First hot-pressing roller and second hot-pressing roller are oppositely arranged, institute
The one end for stating the first hot-pressing roller is connected with one end of adjacent second hot-pressing roller by ejector pin mechanism one of them described, institute
The other end for stating the first hot-pressing roller is connected with the other end of second hot-pressing roller by ejector pin mechanism another described.The top
Pin mechanism includes base and the first thimble part, and the base is connected with second hot-pressing roller, one end of the first thimble part
It is connected with first hot-pressing roller, the other end and the base of the first thimble part are slidably connected;The control system with
Two ejector pin mechanism connections, with the distance between the first hot-pressing roller described in Intelligent adjustment and second hot-pressing roller.It is described
Heater is arranged on the inside of first hot-pressing roller.
Further, side of the base away from second hot-pressing roller is set fluted, on the cell wall of the groove
The first skewed slot is provided with, the first thimble part is arranged in the groove, and first skewed slot is relative to first thimble
The glide direction of part is obliquely installed, also, the first sliding part is provided with the first thimble part, first sliding part and institute
The first skewed slot is stated to be slidably connected.
Further, the ejector pin mechanism also includes the first regulating part, first regulating part and the first thimble part
Connection, slided with to adjust first sliding part on first skewed slot or static.
Further, first regulating part is the first bolt, and the first screw thread is provided through on the first thimble part
Hole, first bolt and the first screwed hole screw thread coordinate, and pass through first screwed hole, and with the groove of the groove
Wall screw thread coordinates.
Further, the control system is connected with first regulating part.
Further, the ejector pin mechanism also includes the second thimble part, one end of the second thimble part and described first
Hot-pressing roller connects, and the other end and the base of the second thimble part are slidably connected, the second thimble part and described first
Thimble part is connected with each other, to adjust the distance between first hot-pressing roller and second hot-pressing roller jointly.
Further, the second thimble part is arranged in the groove, and the second skewed slot is provided with the cell wall, described
The second sliding part is provided with second thimble part, second sliding part is slidably connected with second skewed slot.Second top
The second screwed hole is provided through in needle, the first screwed hole described in first screw bolt passes and second screw thread
Hole, and coordinate with the cell wall screw thread.
Further, the ejector pin mechanism also includes the second skewed slot and the second regulating part, and second regulating part is second
Bolt.The second thimble part is arranged in the groove, and second skewed slot is symmetrical arranged with first skewed slot, and described
The second sliding part is provided with two thimble parts, second sliding part is slidably connected with second skewed slot.Second screw thread
Hole and first screwed hole are in opposite direction, and second bolt passes through the cell wall and second screwed hole, and described first
Bolt and second bolt thread coordinate.
Further, the control system is connected with first regulating part and second regulating part.
Further, it is provided with rack on the cell wall of first skewed slot, first sliding part is gear, the rack
Engaged with the gear.First regulating part coordinates with the gear.
The beneficial effect of the utility model embodiment is:
In process of production, heater is heated, and certain pressure is formed between the first hot-pressing roller and the second hot-pressing roller.Work as needs
When adjusting height, the first thimble part of two ejector pin mechanisms by control system, can be adjusted, to realize that the second hot-pressing roller is relative
Move up and down, so as to realize the space regulation between the first rod and lower second hot-pressing roller, further, adjust the first hot-pressing roller
And the second pressure between hot-pressing roller.Therefore, the hot pressing dress for the Through-Air Thermal Bonded Nonwovens carding machine that the utility model embodiment provides
Two ejector pin mechanisms can intelligently be controlled by putting, in Through-Air Thermal Bonded Nonwovens production process, ensure hot pressing, shaping and it is fluffy between
Balance.
Brief description of the drawings
, below will be to required use in embodiment in order to illustrate more clearly of the technical scheme of the utility model embodiment
Accompanying drawing be briefly described, it will be appreciated that the following drawings illustrate only some embodiment of the present utility model, therefore should not be by
Regard the restriction to scope as, for those of ordinary skill in the art, on the premise of not paying creative work, may be used also
To obtain other related accompanying drawings according to these accompanying drawings.
Fig. 1 is the structural representation of the hot-press arrangement for the Through-Air Thermal Bonded Nonwovens carding machine that the utility model first embodiment provides
Figure.
Fig. 2 is the ejector pin mechanism of the hot-press arrangement for the Through-Air Thermal Bonded Nonwovens carding machine that the utility model first embodiment provides
Structural representation.
Fig. 3 is the ejector pin mechanism of the hot-press arrangement for the Through-Air Thermal Bonded Nonwovens carding machine that the utility model second embodiment provides
Structural representation.
Fig. 4 is the ejector pin mechanism of the hot-press arrangement for the Through-Air Thermal Bonded Nonwovens carding machine that the utility model 3rd embodiment provides
Structural representation.
Icon:The hot-press arrangement of 100- Through-Air Thermal Bonded Nonwovens carding machines;The hot-pressing rollers of 110- first;The hot-pressing rollers of 120- second;
130- ejector pin mechanisms;131- bases;The skewed slots of 13121- first;132- the first thimble parts;The sliding parts of 1321- first;133- first
Regulating part;The hot-press arrangement of 200- Through-Air Thermal Bonded Nonwovens carding machines;230- ejector pin mechanisms;231- bases;The skewed slots of 23121- first;
The skewed slots of 23122- second;232- the first thimble parts;The sliding parts of 2321- first;The regulating parts of 233- first;The thimbles of 234- second
Part;The sliding parts of 2341- second;The hot-press arrangement of 300- Through-Air Thermal Bonded Nonwovens carding machines;330- ejector pin mechanisms;331- bases;
The skewed slots of 33121- first;The skewed slots of 33122- second;332- the first thimble parts;The sliding parts of 3321- first;The regulating parts of 333- first;
334- the second thimble parts;The sliding parts of 3341- second;The regulating parts of 335- second.
Embodiment
It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer
Accompanying drawing in type embodiment, the technical scheme in the embodiment of the utility model is clearly and completely described, it is clear that is retouched
The embodiment stated is the utility model part of the embodiment, rather than whole embodiments.Generally here described in accompanying drawing and
The component of the utility model embodiment shown can be configured to arrange and design with a variety of.
Therefore, the detailed description of the embodiment of the present utility model to providing in the accompanying drawings is not intended to limit requirement below
The scope of the utility model of protection, but it is merely representative of selected embodiment of the present utility model.Based in the utility model
Embodiment, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made, all
Belong to the scope of the utility model protection.
It should be noted that:Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi
It is defined, then it further need not be defined and explained in subsequent accompanying drawing in individual accompanying drawing.
In description of the present utility model, it is necessary to explanation, term " on " etc. instruction orientation or position relationship be base
In orientation shown in the drawings or position relationship, or the utility model product using when the orientation usually put or position close
System, it is for only for ease of and describes the utility model and simplified description, rather than the device or element of instruction or hint meaning is necessary
With specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.
In addition, term " first ", " second " etc. are only used for distinguishing description, and it is not intended that indicating or implying relatively important
Property.
In description of the present utility model, it is also necessary to explanation, unless having more specific regulation in addition and limiting, term
" setting ", " connection " should do more broadly understanding, for example, " connection " can be fixedly connected or be detachably connected, or
It is integrally connected;Can be mechanical connection or electrical connection;Can be joined directly together, can also be by between intermediary
Connect connected, can be the connection of two element internals.For the ordinary skill in the art, can be understood with concrete condition
Concrete meaning of the above-mentioned term in the utility model.
Below in conjunction with the accompanying drawings, several embodiments of the present utility model are elaborated, in the case where not conflicting, under
Feature in the embodiment stated can be mutually combined.
First embodiment
Fig. 1 is the structure of the hot-press arrangement 100 for the Through-Air Thermal Bonded Nonwovens carding machine that the utility model first embodiment provides
Schematic diagram.Fig. 1 is refer to, the hot-press arrangement 100 for the Through-Air Thermal Bonded Nonwovens carding machine that the present embodiment provides includes the first hot-pressing roller
110th, the second hot-pressing roller 120, heater (not shown), two ejector pin mechanisms 130 and control system (not shown).
First hot-pressing roller 110 and the second hot-pressing roller 120 are oppositely arranged, one end of the first hot-pressing roller 110 and adjacent second
One end of hot-pressing roller 120 is connected by one of ejector pin mechanism 130, the other end and the second hot-pressing roller of the first hot-pressing roller 110
120 other end is connected by another ejector pin mechanism 130.Two ejector pin mechanisms 130 are connected with control system.
It is understood that control system can intelligently control two ejector pin mechanisms 130 to act, to realize the first hot-pressing roller
110 and the second space between hot-pressing roller 120.
Heater is arranged on the inside of the first hot-pressing roller 110.
It is understood that in actual production, heater is used to heat to non-woven cloth.In other preferred embodiments
In, the hot-press arrangement 100 of Through-Air Thermal Bonded Nonwovens carding machine can be not provided with control system, and individually control two ejector pin mechanisms 130.
Fig. 2 is the thimble of the hot-press arrangement 100 for the Through-Air Thermal Bonded Nonwovens carding machine that the utility model first embodiment provides
The structural representation of mechanism 130.It refer to Fig. 2, it is preferable that in the present embodiment, ejector pin mechanism 130 pushes up including base 131, first
The regulating part 133 of needle 132 and first.
Base 131 is connected with the second hot-pressing roller 120, and side of the base 131 away from the second hot-pressing roller 120 sets fluted
(not shown), the groove are used to house the first thimble part 132.
One wall opening (not shown) of groove.The first skewed slot 13121, the first skewed slot 13121 are provided with the cell wall of groove
It is obliquely installed relative to the glide direction of the first thimble part 132, first skewed slot 13121 is used to coordinate with the first thimble part 132,
To realize movement of the base 131 relative to the first thimble part 132.
First thimble part 132 is set in a groove.One end of first thimble part 132 is connected with the first hot-pressing roller 110, and first
It is provided with the first sliding part 1321 in the one side that thimble part 132 contacts with the cell wall of groove, the first sliding part 1321 and first oblique
Groove 13121 is slidably connected.
Preferably, in the present embodiment, the first sliding part 1321 is sliding block, and sliding block is slidably connected with the first skewed slot 13121.
Also extended through on first thimble part 132 and be provided with the first screwed hole (not shown), the bearing of trend of the first screwed hole with
The bearing of trend of first thimble part 132 is vertical.First screwed hole is used to coordinate with the first regulating part 133.
First regulating part 133 is connected with the first thimble part 132, to adjust the first sliding part 1321 in the first skewed slot 13121
Upper slip or static.Preferably, in the present embodiment, the first regulating part 133 is the first bolt, and the first bolt connects with control system
Connect, the first bolt passes through the first screwed hole, and coordinates with the cell wall screw thread (not shown) of groove.
It is understood that in other preferred embodiments, the structure of the first regulating part 133 can have different changes,
Accordingly, the structure of the first skewed slot 13121 and the first sliding part 1321 also has different changes.For example, the first skewed slot 13121
Rack is provided with cell wall, the first sliding part 1321 is gear, and rack and pinion engages.First regulating part 133 is adjustment gear,
Adjustment gear coordinates with gear.
Certainly, in other preferred embodiments, the first sliding part 1321 can directly be adjusted to control base 131 relative first
Thimble part 132 is moved, and the distance between the first hot-pressing roller 110 and the second hot-pressing roller 120 are adjusted to realize, and is not provided with the first tune
Save part 133.The hot-press arrangement 100 for the Through-Air Thermal Bonded Nonwovens carding machine that the present embodiment provides, can be with use, heater can heat
The first bolt is controlled to rotate by control system, the distance between cell wall of the first thimble part 132 of regulation to groove, so as to drive
First sliding part 1321 slides on the first skewed slot 13121, further, drives base 131 with respect to the first thimble part about 132
It is mobile.So as to realize that the space between the first hot-pressing roller 110 and the second hot-pressing roller 120 is adjusted.
Second embodiment
The (not shown) of hot-press arrangement 200 for the Through-Air Thermal Bonded Nonwovens carding machine that the present embodiment provides includes the first hot-pressing roller
110th, the second hot-pressing roller 120, heater (not shown), two ejector pin mechanisms 230 and control system (not shown).
Fig. 3 is the thimble of the hot-press arrangement 200 for the Through-Air Thermal Bonded Nonwovens carding machine that the utility model second embodiment provides
The structural representation of mechanism 230.Fig. 3 is refer to, ejector pin mechanism 230 includes base 231, the first thimble part 232, the second thimble
The regulating part 233 of part 234 and first.
Base 231 is connected with the second hot-pressing roller 120, and side of the base 231 away from the second hot-pressing roller 120 sets fluted
(not shown), the groove are used to house the first thimble part 232 and the second thimble part 234.
One wall opening (not shown) of groove.The first skewed slot 23121 and the second skewed slot are provided with the cell wall of groove
23122, the first skewed slot 23121 is obliquely installed relative to the glide direction of the first thimble part 232, and first skewed slot 23121 is used for
Coordinate with the first thimble part 232, to realize movement of the base 231 relative to the first thimble part 232.
Preferably, in the present embodiment, the second skewed slot 23122 be arranged in parallel with the first skewed slot 23121, the second skewed slot 23122
For coordinating with the second thimble part 234, to realize movement of the base 231 relative to the second thimble part 234.
First thimble part 232 is set in a groove.One end of first thimble part 232 is connected with the first hot-pressing roller 110, and first
It is provided with the first sliding part 2321 in the one side that thimble part 232 contacts with the cell wall of groove, the first sliding part 2321 and first oblique
Groove 23121 is slidably connected.
Second thimble part 234 is set in a groove.One end of second thimble part 234 is connected with the first hot-pressing roller 110, and second
The second sliding part 2341, the second sliding part 2341 and the second groove are provided with the one side that thimble part 234 contacts with the cell wall of groove
It is slidably connected.
Preferably, in the present embodiment, the second sliding part 2341 is sliding block, and sliding block is slidably connected with the second skewed slot 23122.
The first screwed hole (not shown), the bearing of trend of the first screwed hole and are provided through on first thimble part 232
The bearing of trend of one thimble part 232 is vertical.First screwed hole is used to coordinate with the first regulating part 233.
The second screwed hole (not shown), the bearing of trend of the second screwed hole and are provided through on second thimble part 234
The bearing of trend of two thimble parts 234 is vertical.Second screwed hole is used to coordinate with the first regulating part 233.
Second thimble part 234 is connected with each other with the first thimble part 232 by the first regulating part 233, and first is adjusted with common
The distance between hot-pressing roller 120 of hot-pressing roller 110 and second.
Preferably, in the present embodiment, the first regulating part 233 is the first bolt.First bolt is connected with control system, and first
The screwed hole of screw bolt passes first and the second screwed hole, and coordinate with cell wall screw thread.
The embodiment of NM other parts is identical with first embodiment in the present embodiment, no longer superfluous here
State.
The hot-press arrangement 200 for the Through-Air Thermal Bonded Nonwovens carding machine that the present embodiment provides, can be with use, heater can heat
The first bolt is controlled to rotate by control system, the distance between cell wall of the first thimble part 232 of regulation to groove, regulation the
Two thimble parts 234 arrive the distance between cell wall of groove, so as to drive the first sliding part 2321 to be slided on the first skewed slot 23121
Dynamic, the second sliding part 2341 slides on the second skewed slot 23122-, further, drives base 231 with respect to the first thimble part
232 and second thimble part 234 move up and down.So as to realize that the space between the first hot-pressing roller 110 and the second hot-pressing roller 120 is adjusted
Section.
3rd embodiment
The (not shown) of hot-press arrangement 300 for the Through-Air Thermal Bonded Nonwovens carding machine that the present embodiment provides includes the first hot-pressing roller
110th, the second hot-pressing roller 120, heater (not shown), two ejector pin mechanisms 330 and control system (not shown).
Fig. 4 is the thimble of the hot-press arrangement 300 for the Through-Air Thermal Bonded Nonwovens carding machine that the utility model 3rd embodiment provides
The structural representation of mechanism 330.Fig. 4 is refer to, ejector pin mechanism 330 includes base 331, the first thimble part 332, the second thimble
Part 334, the first regulating part 333 and the second regulating part 335.
Base 331 is connected with the second hot-pressing roller 120, and side of the base 331 away from the second hot-pressing roller 120 sets fluted
(not shown), the groove are used to house the first thimble part 332 and the second thimble part 334.
One wall opening (not shown) of groove.The first skewed slot 33121 and the second skewed slot are provided with the cell wall of groove
33122, the first skewed slot 33121 is obliquely installed relative to the glide direction of the first thimble part 332, and first skewed slot 33121 is used for
Coordinate with the first thimble part 332, to realize movement of the base 331 relative to the first thimble part 332.
Preferably, in the present embodiment, the second skewed slot 33122 is symmetrical arranged with the first skewed slot 33121, the second skewed slot 33122
For coordinating with the second thimble part 334, to realize movement of the base 331 relative to the second thimble part 334.
First thimble part 332 is set in a groove.One end of first thimble part 332 is connected with the first hot-pressing roller 110, and first
It is provided with the first sliding part 3321 in the one side that thimble part 332 contacts with the cell wall of groove, the first sliding part 3321 and first oblique
Groove 33121 is slidably connected.
Second thimble part 334 is set in a groove.One end of second thimble part 334 is connected with the first hot-pressing roller 110, and second
The second sliding part 3341, the second sliding part 3341 and the second groove are provided with the one side that thimble part 334 contacts with the cell wall of groove
It is slidably connected.
Preferably, in the present embodiment, the second sliding part 3341 is sliding block, and sliding block is slidably connected with the second skewed slot 33122.
The first screwed hole (not shown), the bearing of trend of the first screwed hole and are provided through on first thimble part 332
The bearing of trend of one thimble part 332 is vertical.First screwed hole is used to coordinate with the first regulating part 333.
Also extended through on second thimble part 334 and be provided with the second screwed hole (not shown), the bearing of trend of the second screwed hole with
The bearing of trend of second thimble part 334 is vertical.Second screwed hole and the first screwed hole are in opposite direction.Second screwed hole is used for and the
One regulating part 333 coordinates.
Preferably, in the present embodiment, the first regulating part 333 is the first bolt.Second regulating part 335 is the second bolt.The
One bolt and the second bolt are connected with control system.
First bolt passes through the first screwed hole, and the second bolt passes through cell wall and the second screwed hole.First bolt and the second spiral shell
Bolt screw thread coordinates.Second thimble part 334 is interconnected with the first thimble part 332 by the first regulating part 333 and the phase of the second regulating part 335
Connect, the distance between the first hot-pressing roller 110 and the second hot-pressing roller 120 are adjusted with common.
It is understood that in other preferred embodiments, settable two openings of groove, two openings are oppositely arranged.
First bolt passes through the first screwed hole, and the second bolt passes through the second screwed hole.First bolt and the second bolt thread coordinate.With altogether
With regulation the distance between the first hot-pressing roller 110 and the second hot-pressing roller 120.
The embodiment of NM other parts is identical with second embodiment in the present embodiment, no longer superfluous here
State.
The hot-press arrangement 300 for the Through-Air Thermal Bonded Nonwovens carding machine that the present embodiment provides, can be with use, heater can heat
Control the first bolt and the second bolt to rotate by control system, adjust between the first thimble part 332 and the second thimble part 334
Distance, so as to drive the first sliding part 3321 to be slided on the first skewed slot 33121, the second sliding part 3341 is in the second skewed slot
Slided on 33122, further, drive base 331 to be moved up and down with respect to the first thimble part 332 and the second thimble part 334.From
And realize the space between the first hot-pressing roller 110 and the second hot-pressing roller 120 and adjust.
To sum up, (hot blast is non-to be knitted the hot-press arrangement 100 for the Through-Air Thermal Bonded Nonwovens carding machine that the utility model embodiment provides
Make the hot-press arrangement 200 of cloth carding machine or the hot-press arrangement 300 of Through-Air Thermal Bonded Nonwovens carding machine) it can intelligently control two thimbles
Mechanism 130 (ejector pin mechanism 230 or ejector pin mechanism 330), and flexible adjustment and precision height, can guarantee that and produced in Through-Air Thermal Bonded Nonwovens
During hot pressing, shaping and it is fluffy between balance.
Preferred embodiment of the present utility model is the foregoing is only, is not limited to the utility model, for this
For the technical staff in field, the utility model can have various modifications and variations.It is all in the spirit and principles of the utility model
Within, any modification, equivalent substitution and improvements made etc., it should be included within the scope of protection of the utility model.
Claims (10)
- A kind of 1. hot-press arrangement of hot blast non-thermoplastic cloth carding machine, it is characterised in that including the first hot-pressing roller, the second hot-pressing roller, Heater, two ejector pin mechanisms and control system;First hot-pressing roller and second hot-pressing roller are oppositely arranged, and described first One end of hot-pressing roller is connected with one end of adjacent second hot-pressing roller by ejector pin mechanism one of them described, and described first The other end of hot-pressing roller is connected with the other end of second hot-pressing roller by ejector pin mechanism another described;The ejector pin mechanism Including base and the first thimble part, the base is connected with second hot-pressing roller, one end of the first thimble part with it is described First hot-pressing roller connects, and the other end and the base of the first thimble part are slidably connected;The control system and two institutes Ejector pin mechanism connection is stated, with the distance between the first hot-pressing roller described in Intelligent adjustment and second hot-pressing roller;The heater It is arranged on the inside of first hot-pressing roller.
- 2. the hot-press arrangement of hot blast non-thermoplastic cloth carding machine as claimed in claim 1, it is characterised in that the base is away from institute It is fluted to state the side setting of the second hot-pressing roller, the first skewed slot is provided with the cell wall of the groove, the first thimble part is set To put in the groove, first skewed slot is obliquely installed relative to the glide direction of the first thimble part, also, described The first sliding part is provided with one thimble part, first sliding part is slidably connected with first skewed slot.
- 3. the hot-press arrangement of hot blast non-thermoplastic cloth carding machine as claimed in claim 2, it is characterised in that the ejector pin mechanism is also Including the first regulating part, first regulating part is connected with the first thimble part, to adjust first sliding part described Slided on first skewed slot or static.
- 4. the hot-press arrangement of hot blast non-thermoplastic cloth carding machine as claimed in claim 3, it is characterised in that first regulating part For the first bolt, the first screwed hole, first bolt and first screwed hole are provided through on the first thimble part Screw thread coordinates, and passes through first screwed hole, and coordinates with the cell wall screw thread of the groove.
- 5. the hot-press arrangement of hot blast non-thermoplastic cloth carding machine as claimed in claim 3, it is characterised in that the control system with The first regulating part connection.
- 6. the hot-press arrangement of hot blast non-thermoplastic cloth carding machine as claimed in claim 4, it is characterised in that the ejector pin mechanism is also Including the second thimble part, one end of the second thimble part is connected with first hot-pressing roller, the second thimble part it is another End is slidably connected with the base, the interconnection of the second thimble part and the first thimble part, to adjust described the jointly The distance between one hot-pressing roller and second hot-pressing roller.
- 7. the hot-press arrangement of hot blast non-thermoplastic cloth carding machine as claimed in claim 6, it is characterised in that the second thimble part It is arranged in the groove, the second skewed slot is provided with the cell wall, the second sliding part, institute are provided with the second thimble part The second sliding part is stated to be slidably connected with second skewed slot;The second screwed hole is provided through on the second thimble part, it is described First screwed hole described in first screw bolt passes and second screwed hole, and coordinate with the cell wall screw thread.
- 8. the hot-press arrangement of hot blast non-thermoplastic cloth carding machine as claimed in claim 7, it is characterised in that the ejector pin mechanism is also Including the second skewed slot and the second regulating part, second regulating part is the second bolt;The second thimble part is arranged on described recessed In groove, second skewed slot is symmetrical arranged with first skewed slot, and the second sliding part is provided with the second thimble part, described Second sliding part is slidably connected with second skewed slot;Second screwed hole and first screwed hole are in opposite direction, described Second bolt passes through the cell wall and second screwed hole, and first bolt and second bolt thread coordinate.
- 9. the hot-press arrangement of hot blast non-thermoplastic cloth carding machine as claimed in claim 8, it is characterised in that the control system with First regulating part and second regulating part connection.
- 10. the hot-press arrangement of hot blast non-thermoplastic cloth carding machine as claimed in claim 3, it is characterised in that first skewed slot Cell wall on be provided with rack, first sliding part is gear, and the rack engages with the gear;First regulating part Coordinate with the gear.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720167645.3U CN206736502U (en) | 2017-02-23 | 2017-02-23 | The hot-press arrangement of Through-Air Thermal Bonded Nonwovens carding machine |
Applications Claiming Priority (1)
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113463279A (en) * | 2021-06-02 | 2021-10-01 | 湖州创塑新材科技有限公司 | Medical absorbent cotton film closing device of gauze mask non-woven fabrics processing usefulness |
CN114561772A (en) * | 2022-02-17 | 2022-05-31 | 常熟市正太纺织有限公司 | Anti-hair-shedding warp knitting process method |
CN115305648A (en) * | 2022-07-14 | 2022-11-08 | 安徽创荣非织造有限公司 | Flame-retardant high-elasticity antibacterial non-glue cotton and preparation method thereof |
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2017
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113463279A (en) * | 2021-06-02 | 2021-10-01 | 湖州创塑新材科技有限公司 | Medical absorbent cotton film closing device of gauze mask non-woven fabrics processing usefulness |
CN114561772A (en) * | 2022-02-17 | 2022-05-31 | 常熟市正太纺织有限公司 | Anti-hair-shedding warp knitting process method |
CN115305648A (en) * | 2022-07-14 | 2022-11-08 | 安徽创荣非织造有限公司 | Flame-retardant high-elasticity antibacterial non-glue cotton and preparation method thereof |
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