CN203846321U - Flexible ironing groove structure of groove type ironing machine - Google Patents
Flexible ironing groove structure of groove type ironing machine Download PDFInfo
- Publication number
- CN203846321U CN203846321U CN201420234549.2U CN201420234549U CN203846321U CN 203846321 U CN203846321 U CN 203846321U CN 201420234549 U CN201420234549 U CN 201420234549U CN 203846321 U CN203846321 U CN 203846321U
- Authority
- CN
- China
- Prior art keywords
- groove
- ironing
- heat block
- boiling hot
- cylinder
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
Links
Abstract
The utility model provides a flexible ironing groove structure of a groove type ironing machine. The ironing machine comprises a cylindrical roller horizontally arranged, and a semicircular ironing groove arranged below the roller. The ironing groove is formed by splicing tile-shaped heating blocks, wherein each heating block is divided into a plurality of sections in the axial direction, and each section is divided into a plurality of block bodies in the circumferential direction. An ironing groove supporting frame with an upward opening is arranged below the ironing groove. The length direction of a groove cavity of the ironing groove supporting frame is consistent with the axial direction of the ironing groove. One pair of ejector extending elements is arranged between each heating block bodies and the ironing groove supporting frame and close to the two ends of each heating block in the axial direction of the ironing groove. The direction of the axis of the ejector extending elements is consistent with the radial direction of the ironing groove. The upper ends/the lower ends of the ejector extending elements are connected with the heating blocks in a rotating mode. According to the flexible ironing groove structure, an ironing mode of ironing fabric with driving three-dimensional pressure servo adjustment and temperature control is provided, and therefore different process control requirements for the ironing quality of different kinds of fabric can be met.
Description
Technical field
The utility model relates to slot type press, relates in particular to a kind of flexibility and scalds groove structure.
Background technology
Press is the visual plant of bearing function of ironing of washing machine, belongs to laundry ironing equipment.Its critical piece is generally that single or multiple cylinders form, and cylinder (low speed at the uniform velocity) rotates, and equipment reaches after uniform temperature, when moist clothing is after cylinder, can remove a large amount of moisture, and reaches the well-pressed effect that plates.Press is for the process that offsets of the cloth grass such as sheet, tablecloth, cloth and carpet.
At present, the automatic press in common laundry comprises two kinds of roller press and slot type press, rotary ironing machine be by ironed cloth grass with certain arc envelope the cylinder surface in heating rotation, dry in transport process.In cloth grass iron process, just pressure is dried, and does not have the flatiron of relative motion to smooth out with the fingers translation work between cylinder and cloth grass; Groove type ironing machine is by being wrapped in the felt scrolling cloth grass on cylinder, on smooth and boiling hot heating groove, relative motion is smoothed out with the fingers and is put down and mistake, the boiling hot groove of pressing makes the moisture evaporation in cloth grass, the smooth area of heating surface makes the setting of cloth grass smooth, slot type press can make cloth grass in pressure flatiron simultaneously, between cloth grass and smooth boiling hot rooved face, there is the flatiron of relative motion to smooth out with the fingers translation work, so the flatiron quality of slot type press exceeds much than roller press.
It is rigid channel that the tradition of slot type press is scalded groove, there is again in recent years a kind of flexible slot, the semicircle vallecular cavity that the former vallecular cavity is solid shape, because it can not be out of shape, during flatiron cloth grass, scalding the pressure forming between groove and head roll can not adjust, therefore even in order to guarantee the ironing press between cylinder and boiling hot groove, the manufacture of cylinder and boiling hot groove and assembling are proposed to very high requirement, even like this, in long-term use procedure, when friction makes the gap between cylinder and boiling hot groove become inhomogeneous, pressure also changes thereupon, makes to press Quality Down; The latter's vallecular cavity is flexible semicircle vallecular cavity, can there is plastic deformation with the variation in gap between cylinder and boiling hot groove, make pressure automatically be tending towards adjusting evenly, thereby make the pressure between cylinder and boiling hot groove become passive adjustable, can lower the manufacture difficulty of cylinder and boiling hot groove like this, and along with the carrying out of using, flexible distortion of scalding groove can make up the gap that between cylinder and boiling hot groove, wearing and tearing constantly increase.
But, flexible slot type press can only be on cloth grass direct of travel, along scalding, upwards there is certain flexibility adjustment groove week, this adjustment is limited, and be the passive adjustment of carrying out according to the shape of cylinder and wear extent, this adjustability can not change the distribution (such as requiring the low early and high after even increase of ironing press) of scalding pressure between groove and cylinder, also just can not meet the variation of demand of the active of various pressing techniques, in addition, involving great expense of larger monoblock flexible slot, the large heating of area is also inhomogeneous, cause holding at high price of flexible slot type press, hindered it universal fast.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of flexibility of press to scald groove structure, this structure can be carried out initiatively three-dimensional flexible servo pressurization, along scalding groove, circumferentially and axially above on both direction, adjust the pressure between cylinder and boiling hot groove, and initiatively set pressure distribution between the two, realize the different process requirement of dissimilar cloth grass flatiron quality.The utility model is achieved through the following technical solutions:
The flexibility of slot type press is scalded a groove structure, and described press comprises the rotatingcylindrical drum of horizontal arrangement and is configured in the boiling hot groove of semicircle of cylinder below, scalds groove two ends and is openend, it is characterized in that:
Described boiling hot groove is by being divided into vertically some joints, and every joint is along the tile shape heat block that is circumferentially the divided into some semicircular vallecular cavity shape that is spliced, and scalds on the concave surface of groove and covers balanced heat-transfer metal sheet;
Heat block inside is with heater and configure temperature sensor;
Scald the boiling hot groove bracing frame of groove below configuration opening upwards, the length direction of boiling hot groove bracing frame opening is with boiling hot fluted shaft to consistent, and the convex surface that scalds groove is positioned at the opening inner side of scalding groove bracing frame;
Along scald fluted shaft to, near heat block two ends, between every heat block and boiling hot groove bracing frame, configure respectively a pair of top and stretch element;
Element is stretched along scalding groove radial arrangement in described top, top is stretched the convex surface of element upper end by the second rotating shaft and heat block and is rotationally connected, lower end is rotationally connected by the opening inwall of the first rotating shaft and boiling hot groove bracing frame, the first rotating shaft is axial arranged along scalding groove, the second rotating shaft is along the boiling hot geosynclinal convex face arranged tangential of junction, two rotating shafts are mutually vertical, and top is stretched element and can be stretched along self length direction, to change the distance between heat block and cylinder;
On cylinder, the installation site difference setting pressure sensor of element is stretched on corresponding each top, and pressure sensor signal connects the top corresponding with it and stretches element.
Every heat block is stretched element and is carried out independent control by being configured in a pair of top between this piece heat block and cylinder the pressure size of cylinder, on cylinder, the strong point distributing installation pressure sensor of element is stretched on corresponding each top, it can be servo pressurization cylinder that element is stretched on top, and other have the structure of similar functions servo pressurization oil cylinder or automatically controlled expansion link etc.
Take servo pressurization cylinder as example, each servo pressurization cylinder carries out air pressure control by high-precision servo ratio air valve, the electric pressure signal input servo ratio air valve of pressure sensor is adjusted cylinder pressure again, the closed loop of formation control cylinder pressure, the every heat block pair part cylinder servo pressurization corresponding with it, all heat blocks are along the whole servo pressurization of cylinder circumferential and axial, thereby the pressure distribution between the balanced heat-transfer metal sheet of active accommodation and cylinder, the different pressures that meets dissimilar cloth grass flatiron quality is controlled requirement.
Scald groove along circumferentially and being axially divided into several heat blocks, heat block inside is according to the efficient balanced principle heater reasonable in design of heat conduction, heater can be steam pipework, electric heating pipeline, or heating oil pipeline etc. other there is the structure of similar functions, similar with servo pressurization structure, heater in every heat block is the heating system of separate connection press all, when the heat block temperature recording when temperature sensor does not meet setting value, heating system can be adjusted to the heat output in this heater, so that heat block temperature value meets setting value.By heating system, every heat block is carried out respectively to temperature closed loop control, the Temperature Distribution of the whole flatiron face of active accommodation, the different temperatures that meets dissimilar cloth grass flatiron quality is controlled requirement.
All heat blocks are neatly by rearranging the semicircle groove that scalds, scald on geosynclinal concave face and cover semicircle balanced heat-transfer metal sheet, the one side that balanced heat-transfer metal sheet participates in flatiron reaches the smooth degree that flatiron requires, to guarantee good ironing effect, reduce the friction of scalding between groove and cloth grass simultaneously.
Heat block is by surrounding and withstand balanced heat-transfer metal sheet and it being applied to radial pressure.During flatiron, by adjusting the air pressure of a pair of servo pressurization cylinder that certain piece heat block is corresponding, adjust separately the pressure of this piece heat block to balanced heat-transfer metal sheet.Because the flexible of each servo pressurization cylinder can be adjusted separately, be that every heat block can independently be adjusted the radial pressure of balanced heat-transfer metal sheet, so this structure can be to controlling along rotary drum radial to, circumferential pressure profile adjustment, thereby realize longitudinal upper with the transversely three-dimensional pressure adjustment of whole Zhang Bucao flatiron operation, to reach the object of isostasy, this pressure adjustment structure can also solve the different problem of diverse location wear extent on long-term use procedure intermediate roll, realizes the active accommodation of pressure distribution and controls.
Servo pressurization cylinder two ends and heat block and boiling hot groove bracing frame are and are rotationally connected, and plane of rotation is mutually vertical, cylinder catching phenomenon in the time of can preventing servo pressurization Telescopic-cylinder adjustment heat block, and when every heat block independently carries out pressure adjustment, can only there is the free degree around self axial wobble, and at the different air pressure and the free degree of overturning under different extension elongations of two servo pressurization cylinders, restriction heat block is along scalding the axially movable free degree of groove.
Three-dimensional active pressure is controlled, it is even that the temperature of recycling control heat block is controlled the temperature of scalding on groove flatiron face, thereby realized active pressure and controlled the combination of controlling with active temperature, for sheet, bed cover, woollen blanket, the different-thickness cloth grass such as tablecloth are the different ironing technology requirements from pressure to temperature, so the utility model structure can meet the different technology controlling and process requirement of dissimilar cloth grass to flatiron quality.
Further, the size of heat block can be not quite similar, but for ease of controlling and processing, preferably heat block size is identical, and heat block is arranged into orthogonal grid shape array along scalding on groove axial and circumferential.
Further again, be balanced adjustment precision and control difficulty, consider the general size of existing press, heat block is along scalding fluted shaft to being divided into 2~3 joints, and every joint circumferentially can be divided into 2~4 along boiling hot groove.
Further again, servo pressurization cylinder lower end can adopt following structure to be rotationally connected: the bottom of servo pressurization cylinder is along scalding two parallel installing plates of groove spaced radial projection; On the correspondence position of boiling hot groove bracing frame inwall, a mounting ear that is " U " shape is installed, the two ends of mounting ear are positioned at installing plate outside and are parallel to each other; The first rotating shaft vertically runs through mounting ear two ends and installing plate.
Further again, servo pressurization cylinder upper end can adopt following structure to be rotationally connected: on heat block convex surface, fixedly mount the mounting blocks that cross section is " T " font, the length direction of mounting blocks along scald fluted shaft to, the perpendicular section of " T " word extends radially out along scalding groove; The perpendicular section of the corresponding mounting blocks of piston rod part of servo pressurization cylinder, along scalding fluted shaft to offering groove one, the perpendicular section of mounting blocks packs in groove; The second rotating shaft vertically runs through the perpendicular section of mounting blocks and piston rod part.
Further again, can be in boiling hot groove bracing frame, perpendicular to opening length direction arranged spaced deep floor, to strengthen the structural strength of scalding groove bracing frame.
Further again, balanced heat-transfer metal sheet divides two-layer, and upper thickness is 0.5~2mm, is the bright and clean titanium alloy flatiron layer of exposed face, and lower thickness is 3~5mm, is the balanced heat conduction layer of metal.
Further again, scald groove bracing frame opening and be inverted trapezoidal, recessed arc or square.
The beneficial effects of the utility model are:
1, the utility model provides a kind of three-dimensional pressure servo of active that presses cloth grass to adjust structure, servo cylinder by heat block below provides pressure adjustment to control, overcome traditional flexible slot can only be on this single direction of cloth grass traffic direction passive have a limits pressure adjustment;
2, utilize control monolithic heat block to control the temperature on heat block to the heater in the pressure of cylinder and control monolithic heat block, realized active pressure and controlled the combination of controlling with active temperature;
3, due to monoblock is scalded to groove, be divided into some heat blocks, pressure and the temperature of every heat block regulate voluntarily, have reduced like this manufacture difficulty and the temperature of the boiling hot groove of bulk and have controlled uniformly difficulty;
4, for sheet, bed cover, woollen blanket, the different-thickness cloth grass such as tablecloth are the different ironing technology requirements from pressure to temperature, and the utility model structure can meet the quality control requirement of multiple ironing technology, has realized the very big expansion of machine flexibility.
Accompanying drawing explanation
Fig. 1 is the front view of heat block
Fig. 2 is the left view of Fig. 1
Fig. 3 is the schematic perspective view of heat block
Fig. 4 is the assembly structure front view of heat block and boiling hot groove bracing frame
Fig. 5 is the assembly structure schematic perspective view of heat block and boiling hot groove bracing frame
Fig. 6 is cylinder, scalds the assembly structure front view of groove and boiling hot groove bracing frame
Fig. 7 is cylinder, scalds the assembly structure schematic perspective view of groove and boiling hot groove bracing frame
Fig. 8 is the enlarged diagram that in Fig. 7, empty coil inside is divided
In Fig. 1~8: 1 is cylinder, 2 for scalding groove, and 3 is heat block, 301 is heating pipe line, and 4 is balanced heat-transfer metal sheet, and 5 for scalding groove bracing frame, 501 is deep floor, 6 stretch element for top, and 601 is installing plate, and 602 is piston rod, 12 is mounting ear, 13 is the first rotating shaft, and 14 is the second rotating shaft, and 15 is mounting blocks.
The specific embodiment
Below in conjunction with accompanying drawing, the utility model is described in further detail.
In Fig. 6~7, press comprises the rotatingcylindrical drum 1 of horizontal arrangement and is configured in the boiling hot groove 2 of cylinder 1 below, scalds groove 2 two ends and be openend.
As shown in Figures 4 and 5, scald groove 2 by being divided into vertically 2 joints, every joint is spliced into semicircle vallecular cavity along the tile shape heat block 3 that is circumferentially divided into 3, and heat block 3 is arranged into orthogonal grid shape array along scalding on groove 2 axial and circumferential.
As shown in Fig. 1~2, in heat block 3 with heater 301 and configure temperature sensor.
As shown in Fig. 6~4, scald on groove 2 concave surfaces and cover balanced heat-transfer metal sheet 4, the balanced heat-transfer metal sheet of semicircle opening upwards 4 minutes is two-layer, upper thickness is 0.5~2mm, for the smooth titanium alloy flatiron layer of exposed face, lower thickness is 3~5mm, is the balanced heat conduction layer of metal.
As shown in Fig. 4~7, scald the boiling hot groove bracing frame 5 that groove 2 below configuration open tops are inverted trapezoidal, the length direction that scalds groove bracing frame 5 openings is axially consistent with boiling hot groove 2, in boiling hot groove bracing frame 5, perpendicular to opening length direction arranged spaced deep floor 501.The convex surface that scalds groove 2 is positioned at the opening inner side of scalding groove bracing frame 5, and along scalding, groove 2 is axial, near heat block 3 two ends, between every heat block 3 and boiling hot groove bracing frame 5, configures respectively a pair of servo pressurization cylinder 6.The installation site of corresponding each servo pressurization cylinder 6 difference setting pressure sensor on cylinder 1, pressure sensor signal connects the servo-drive system of the servo pressurization cylinder 6 corresponding with it.
Servo pressurization cylinder 6 is along scalding groove 2 radial arrangement, and the first rotating shaft 13 that groove 2 axial arrangement are scalded by edge in servo pressurization cylinder 6 lower ends is rotatably connected in boiling hot groove bracing frame 5 openings; Servo pressurization cylinder 6 upper ends are rotatably connected on heat block 3 convex surfaces by the second rotating shaft 14 of the boiling hot groove 2 convex surface arranged tangential along junction, and two rotating shafts 13,14 are mutually vertical.Servo pressurization cylinder 6 can stretch along self length direction, to change the distance between heat block 3 and cylinder 1.
As shown in Figure 8, the bottom of servo pressurization cylinder 6 is along scalding two parallel installing plates 601 of groove 2 spaced radial projection; On the correspondence position of boiling hot groove bracing frame 5 inwalls, a mounting ear 12 that is " U " shape is installed, the two ends of mounting ear 12 are positioned at installing plate 601 outsides and are parallel to each other; The first rotating shaft 13 vertically runs through mounting ear 12 two ends and installing plate 601.
As shown in Figure 8, fixedly mount the mounting blocks 15 that cross section is " T " font on heat block 3 convex surfaces, the length direction of mounting blocks 15 is axial along boiling hot groove 2, and the perpendicular section of " T " word extends radially out along scalding groove 2; The perpendicular section of the corresponding mounting blocks 15 in piston rod 602 tops of servo pressurization cylinder 6, axially offers groove one along scalding groove 2, and the perpendicular section of mounting blocks 15 packs in groove; The second rotating shaft 14 vertically runs through the perpendicular section of mounting blocks 15 and piston rod 602 tops.
The pressure size of 3 pairs of cylinders 1 of every heat block is carried out independent control by a pair of servo pressurization cylinder 6 being configured between this piece heat block 3 and cylinder 1, servo pressurization cylinder 6 two ends and heat block 3 and boiling hot groove bracing frame 5 are and are rotationally connected, and plane of rotation is mutually vertical, in the time of can preventing the flexible adjustment heat block 3 of servo pressurization cylinder 6, cylinder is stuck, and while guaranteeing that every heat block 3 independently carries out pressure adjustment, can only be around self axial wobble, and overturn under different extension elongations at the different air pressure of two cylinders, prevent that heat block 3 is along scalding the axially movable possibility of groove 2.
All heat blocks 3 are neat by rearranging the semicircle groove 2 that scalds, scald on groove 2 concave surfaces and cover semicircle balanced heat-transfer metal sheet 4, the one side that balanced heat-transfer metal sheet 4 participates in flatiron reaches the smooth degree of flatiron level, to guarantee good ironing effect, reduce the friction of scalding between groove 2 and cloth grass simultaneously.
3 pairs of part cylinder 1 servo pressurizations corresponding with it of every heat block, all heat blocks 3 surround and withstand balanced heat-transfer metal sheet 4 along cylinder 1 circumferential and axial overall coordination servo pressurization, during flatiron, by adjusting the air pressure of a pair of servo pressurization cylinder 6 of certain piece heat block 3 correspondence, adjust separately the pressure of 3 pairs of balanced heat-transfer metal sheets 4 of this piece heat block.Because the flexible of each servo pressurization cylinder 6 can be adjusted separately, the radial pressure that is 3 pairs of balanced heat-transfer metal sheets 4 of every heat block can be adjusted separately, so this structure can be to along cylinder 1 radially, circumferential pressure profile adjustment is controlled, thereby realize longitudinally upper and transversely pressure adjustment in all directions of whole Zhang Bucao flatiron operation, to reach the object of isostasy, in addition, this pressure adjustment structure can also well solve the different problem of upper diverse location wear extent between long-term use procedure intermediate roll 1 and boiling hot groove 2, realizing the three-dimensional servo adjustment of active of pressure distribution controls.
Meanwhile, the heating system of press is carried out respectively temperature closed loop control to every heat block 3, thus the Temperature Distribution of the whole flatiron face of active accommodation, so the utility model structure can meet the different process control requirement of dissimilar cloth grass flatiron quality.
Claims (10)
1. the flexibility of slot type press is scalded a groove structure, and described press comprises the rotatingcylindrical drum (1) of horizontal arrangement and is configured in the boiling hot groove (2) of semicircle of cylinder (1) below, scalds groove (2) two ends and is openend, it is characterized in that:
Described boiling hot groove (2) is by being divided into vertically some joints, and every joint is along the tile shape heat block (3) that is circumferentially the divided into some semicircular vallecular cavity shape that is spliced, and scalds on the concave surface of groove (2) and covers balanced heat-transfer metal sheet (4);
Heat block (3) inside is with heater (301) and configure temperature sensor;
The boiling hot groove bracing frame (5) that scalds groove (2) below configuration opening upwards, the length direction that scalds groove bracing frame (5) opening is axially consistent with boiling hot groove (2), and the convex surface that scalds groove (2) is positioned at the opening inner side of scalding groove bracing frame (5);
Along scalding, groove (2) is axial, near heat block (3) two ends, configures respectively a pair of top and stretch element between every heat block (3) and boiling hot groove bracing frame (5);
Element is stretched along scalding groove (2) radial arrangement in described top, top is stretched element upper end and is rotationally connected by the second rotating shaft (14) and the convex surface of heat block (3), lower end is rotationally connected by the first rotating shaft (13) and the opening inwall of boiling hot groove bracing frame (5), the first rotating shaft (13) is axial arranged along scalding groove (2), the second rotating shaft is along boiling hot groove (2) the convex surface arranged tangential of junction, and two rotating shafts (13,14) mutually vertical, top is stretched element and can be stretched along self length direction, to change the distance between heat block (3) and cylinder (1);
The installation site difference setting pressure sensor of stretching element on upper corresponding each top of cylinder (1), pressure sensor signal is connected to corresponding top and stretches element.
2. the flexibility of slot type press according to claim 1 is scalded groove structure, it is characterized in that: described heat block (3) size is identical, and heat block (3) is arranged into orthogonal grid shape array along scalding on groove (2) axial and circumferential.
3. the flexibility of slot type press according to claim 1 is scalded groove structure, it is characterized in that: described heat block (3) axially can be divided into 2~3 joints along scalding groove (2), and every joint circumferentially can be divided into 2~4 along scalding groove (2).
4. the flexibility of slot type press according to claim 1 is scalded groove structure, it is characterized in that: it is servo pressurization cylinder (6), servo pressurization oil cylinder or automatically controlled expansion link that element is stretched on described top.
5. the flexibility of slot type press according to claim 4 is scalded groove structure, it is characterized in that:
The bottom of described servo pressurization cylinder (6) is along scalding groove (2) two parallel installing plates of spaced radial projection (601);
On the correspondence position of boiling hot groove bracing frame (5) inwall, a mounting ear (12) that is " U " shape is installed, the two ends of mounting ear (12) are positioned at installing plate (601) outside and are parallel to each other;
The first rotating shaft (13) vertically runs through mounting ear (12) two ends and installing plate (601).
6. the flexibility of slot type press according to claim 4 is scalded groove structure, it is characterized in that:
On described heat block (3) convex surface, fixedly mount the mounting blocks (15) that cross section is " T " font, the length direction of mounting blocks (15) is along scalding groove (2) axially, and the perpendicular section of " T " word extends radially out along scalding groove (2);
The perpendicular section of the corresponding mounting blocks in piston rod (602) top (15) of servo pressurization cylinder (6), axially offers groove one along scalding groove (2), and the perpendicular section of mounting blocks (15) packs in groove;
The second rotating shaft (14) vertically runs through the perpendicular section of mounting blocks (15) and piston rod (602) top.
7. the flexibility of slot type press according to claim 1 is scalded groove structure, it is characterized in that: in described boiling hot groove bracing frame (5), perpendicular to opening length direction arranged spaced deep floor (501).
8. the flexibility of slot type press according to claim 1 is scalded groove structure, it is characterized in that: described balanced heat-transfer metal sheet (4) divides two-layer, and upper thickness is 0.5~2mm, is the titanium alloy flatiron layer that exposed face is bright and clean, lower thickness is 3~5mm, is the balanced heat conduction layer of metal.
9. the flexibility of slot type press according to claim 1 is scalded groove structure, it is characterized in that: described boiling hot groove bracing frame (5) opening is inverted trapezoidal, recessed arc or square.
10. the flexibility of slot type press according to claim 1 is scalded groove structure, it is characterized in that: described heater (301) is steam pipework, electric heating pipeline or heating oil pipeline.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420234549.2U CN203846321U (en) | 2014-05-08 | 2014-05-08 | Flexible ironing groove structure of groove type ironing machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420234549.2U CN203846321U (en) | 2014-05-08 | 2014-05-08 | Flexible ironing groove structure of groove type ironing machine |
Publications (1)
Publication Number | Publication Date |
---|---|
CN203846321U true CN203846321U (en) | 2014-09-24 |
Family
ID=51559358
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420234549.2U Withdrawn - After Issue CN203846321U (en) | 2014-05-08 | 2014-05-08 | Flexible ironing groove structure of groove type ironing machine |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN203846321U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104018329A (en) * | 2014-05-08 | 2014-09-03 | 上海威士机械有限公司 | Flexible ironing groove structure of groove type ironing machine |
CN104928878A (en) * | 2015-07-09 | 2015-09-23 | 济南绿洲清洗设备有限公司 | Flexible groove of groove type ironing machine for washhouse and manufacturing technology |
-
2014
- 2014-05-08 CN CN201420234549.2U patent/CN203846321U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104018329A (en) * | 2014-05-08 | 2014-09-03 | 上海威士机械有限公司 | Flexible ironing groove structure of groove type ironing machine |
CN104018329B (en) * | 2014-05-08 | 2016-03-23 | 上海威士机械有限公司 | A kind of flexibility of slot type press scalds groove structure |
CN104928878A (en) * | 2015-07-09 | 2015-09-23 | 济南绿洲清洗设备有限公司 | Flexible groove of groove type ironing machine for washhouse and manufacturing technology |
CN104928878B (en) * | 2015-07-09 | 2016-09-14 | 济南绿洲清洗设备有限公司 | The flexible slot of the slot type press of a kind of laundry and processing technology |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN104018329B (en) | A kind of flexibility of slot type press scalds groove structure | |
CN207056886U (en) | A kind of textile cloth paste applying device | |
CN108914473A (en) | A kind of cloth ironing equipment | |
CN203846321U (en) | Flexible ironing groove structure of groove type ironing machine | |
CN108560184A (en) | A kind of overflow dyeing machine and its operating method for dyeing and finishing | |
CN104609248A (en) | Cloth pressing machine with ironing function | |
CN205803967U (en) | A kind of special full-automatic ironing machine of weaving | |
CN103668746B (en) | Synchronous setting circular knitting machine and method for producing knitted fabric containing thermoplastic fibers through same | |
CN203668699U (en) | Microcomputer-controlled preshrinking machine for rubber blankets with arc-shaped angled edges | |
CN204963485U (en) | Spinning drying machine | |
CN206847293U (en) | A kind of fabric baking oven | |
CN213951640U (en) | Automatic setting and drying device | |
CN106436244A (en) | Combined groove-type ironing machine | |
CN203700676U (en) | Synchronous setting circular knitting machine | |
CN203305627U (en) | Uniform-temperature film-coating and calendering machine | |
CN108891990B (en) | Cloth spreading device for clothing | |
CN103047840B (en) | For the dryer of flexible and ductile textile | |
CN206015294U (en) | A kind of new type high temperature printing and dyeing cylinder | |
CN203855814U (en) | Dyeing machine | |
CN205474410U (en) | Drying -machine is used in weaving | |
CN206109729U (en) | Middle filter screen formula tentering setting machine | |
CN207567527U (en) | Slot scalds machine with cellular heating tank | |
CN210657599U (en) | Garment materials embossing device | |
CN203346701U (en) | Cloth face brand ironing mechanism | |
CN209443238U (en) | A kind of simple coiling device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20140924 Effective date of abandoning: 20160323 |
|
C25 | Abandonment of patent right or utility model to avoid double patenting |