CN203832116U - Multifunctional flatness-ironing pattern pressing machine - Google Patents

Multifunctional flatness-ironing pattern pressing machine Download PDF

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Publication number
CN203832116U
CN203832116U CN201420091051.5U CN201420091051U CN203832116U CN 203832116 U CN203832116 U CN 203832116U CN 201420091051 U CN201420091051 U CN 201420091051U CN 203832116 U CN203832116 U CN 203832116U
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China
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roller
live
flattening
plate
mechanism comprises
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CN201420091051.5U
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Chinese (zh)
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张亚楠
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Nantong Sirui Engineering Co Ltd
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Nantong Sirui Engineering Co Ltd
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Abstract

The utility model relates to a multifunctional flatness-ironing pattern pressing machine which comprises a flattening and feeding mechanism, a flatness-ironing pattern pressing mechanism and a cleaning mechanism. The flattening and feeding mechanism comprises a conveying belt, a conveying belt connecting rod and flattening plates. Two flattening plates are arranged at the discharge opening end of the conveying belt, and flattening ribs are distributed on the two flattening plates in a staggered mode. The flatness-ironing pattern pressing mechanism comprises an upper pattern roll, a lower supporting roll, a lower pressing roll, transmission tissue tape and a driving roll, the lower pressing roll is driven by a driving cylinder to move upwards and downwards, and the driving cylinder is of a double-drive structure. The cleaning mechanism comprises a shield, a swing arm, a press strip, a connecting rod and a guide rail. The multifunctional flatness-ironing pattern pressing machine has the advantages that the double-drive structure is adopted for the driving cylinder, the stroke of the driving cylinder can be increased in the limited space, meanwhile, when the lower pressing roll moves, the driving roll is driven to move, and tensioning of the transmission tissue tape is guaranteed; impurities clung to the surface of the upper pattern roll are removed through the press strip, use is very convenient, and the potential safety hazards brought by manual cleaning are avoided.

Description

A kind of multi-functional burnishing embossing machine
Technical field
The utility model relates to leather manufacture field, particularly relates to a kind of multi-functional burnishing embossing machine.
Background technology
Burnishing, embossing machine are mainly used in burnishing, embossing on various fabrics, crumple, press trade mark, also can be at colored type, the decorative pattern of nonwoven, coating, people's leather, paper, artificial leather decorative pattern and all kinds of depths.At present, there is the inspection of several important indicators for the performance quality of leather burnishing embossing machine: i.e. definition when flat fineness when burnishing, permeability, brightness, flexibility, embossing.
At present, the burnishing embossing machine using on existing market, carries out leather in the process of burnishing embossing, in the time completing the embossing of leather burnishing and stop operation, need to separate with flower roller descending lower compression roller, and now there will be: 1, transmission felt can become relaxed state from tensioning state; 2, transmission felt can not separate with flower roller, causes transmission felt to scald, and has a strong impact on the service life of woollen blanket transmission felt.Leather is in the process of burnishing embossing, because the surface of leather may be with some impurity, when burnishing embossing, this part impurity will adsorb or adhere to the surface of colored roller, therefore need regular flower roller is cleaned, embossing machine is carried out in clean process, traditional way is manually to clean, or fixed cleaning mechanism; While particularly manually cleaning, flower roller need to ceaselessly rotate, and cleaning course is cumbersome, and exists certain potential safety hazard; Fixed cleaning mechanism, bad to flower roller cleaning effect.Therefore,, for above aspect, need to reasonably improve prior art.
Utility model content
The technical problems to be solved in the utility model is to provide a kind of multi-functional burnishing embossing machine that can keep at any time transmission felt tensioning state, can automatically clean upper colored roller.
In order to solve the problems of the technologies described above, the technical solution of the utility model is: a kind of multi-functional burnishing embossing machine, and its innovative point is: comprise frame, flatten feed mechanism, burnishing embossing mechanism and cleaning mechanism;
Described flattening feed mechanism comprises conveyer belt, flatten plate, conveyer belt is along the long axis direction setting of frame, be provided with two at the discharge port end of conveyer belt and flatten plate, be respectively and flatten plate A and flatten plate B, flatten the upper end that plate A is arranged on conveyer belt, flatten the lower end that plate B is arranged on conveyer belt, between flattening plate A and flattening plate B, leave and hold the gap that leather passes through, at the outer surface that flattens plate A and flattening plate B, some equally distributed flattening guiding ribs are all set, described flattening guiding rib is obliquely installed, and flattening plate A is interspersed by leather texture characteristic with the upper guiding rib that flattens of flattening plate B,
Described burnishing embossing mechanism comprises colored roller, lower support roll, lower compression roller, transmission felt tensioning compensation mechanism, transmission felt tensioning compensation mechanism comprises live-roller, transmission felt and synchronous tension compensation mechanism, live-roller upper, lower two ends are arranged on live-roller mounting bracket by slide block, described slide block moves horizontally along the long axis direction of the guide rail of installing on live-roller mounting bracket, on live-roller, be equipped with one deck transmission felt, both sides at live-roller arrange respectively regulating roller, carrying roller, opposite side at regulating roller is provided with jockey pulley, the below of the transmission felt of described carrying roller adjacent position is provided with two lower compression rollers, above lower compression roller, be provided with flower roller, between upper colored roller and two lower compression rollers, being triangular shape distributes, lower support roll is between two lower compression rollers, described lower compression roller links by synchronous tension compensation mechanism and live-roller, thereby drive live-roller to carry out a left side along the long axis direction of live-roller mounting bracket, move right, described lower compression roller upper, lower two ends are connected with lower compression roller mounting bracket by slide block, and can by driving cylinder drive along the long axis direction of lower compression roller mounting bracket away from or near upper colored roller, described driving cylinder is double driving mechanism,
Described cleaning mechanism comprises guard shield, swing arm, press strip, connecting rod and guide rail, the two ends of guard shield are fixed on by back shaft on the wallboard of frame both sides, the bottom of described guard shield is connected with driving cylinder by swing arm, and can by drive air cylinder driven away from or near upper colored roller, in guard shield, be provided with press strip, the two ends of press strip are fixed by pressing plate respectively, described press strip is along the long axis direction setting of guard shield, be fixed with two connecting rods in the upper end of press strip, described connecting rod and guide rail are fixedly connected, described guide rail is driven and is carried out a left side by motor, move right, motor is arranged on inwall place, guard shield upper strata.
Further, described driving cylinder comprises outer cylinder body, inner cylinder body, piston rod and seal cover, between inside and outside cylinder body, be flexibly connected, bottom at outer cylinder body is provided with air inlet, piston rod is arranged in inner cylinder body, top at inner cylinder body is provided with seal cover, seal cover is sleeved on piston rod, be provided with a horizontal run in the center of piston rod, be provided with a hydraulic fluid port A who is connected with horizontal run on the top of piston rod, the bottom of horizontal run communicates with inner cylinder body, is provided with a hydraulic fluid port B who communicates with inner cylinder body on seal cover.
Further, described synchronous tension compensation mechanism comprises drive connecting rod and follower link, hinged forming between described drive connecting rod and follower link, the slide block that is positioned at lower end on the other end of drive connecting rod and lower compression roller is hinged, and the slide block that is positioned at lower end on the other end of follower link and live-roller is hinged.
Further, described synchronous tension compensation mechanism comprises driving leading screw, power transmission shaft and bevel gear, drive leading screw one to have two, be connected with the upper and lower slide block of live-roller respectively, drive the tail end of leading screw to be connected with power transmission shaft by bevel gear, described power transmission shaft is driven by motor, and can drive two driving leading screws to turn round simultaneously.
Further, described synchronous tension compensation mechanism comprises cylinder, and described cylinder one has two, is connected respectively with the upper and lower slide block of live-roller, is filled with the gas of certain pressure in cylinder.
Further, described synchronous tension compensation mechanism comprises hydraulic cylinder, pressure detecting instrument and controller, described hydraulic cylinder one has two, be connected with the upper and lower slide block of live-roller respectively, oil-out or oil-in place at hydraulic cylinder are provided with a pressure detecting instrument, the oil-feed of described pressure monitor by controller control hydraulic cylinder and fuel-displaced.
The utility model has the advantage of: in burnishing, embossing mechanism, driving cylinder adopts the structure of double acting driving, can adapt to the technological requirement of leather different pressures, make burnishing embossing machine obtain wider pressure processing scope; In the time of the upper and lower activity of lower compression roller, by transmission felt auto-tensioning compensation mechanism, ensure the tensioning of transmission felt simultaneously; Flattening in feed mechanism, utilize two to flatten the flattening muscle being crisscross arranged on plates leather is flattened, avoid it entering the phenomenon that occurs fold in embossing mechanism, and affect leather burnishing, embossing effect; In cleaning mechanism, utilize press strip to remove the sticky impurity in flower roller surface, very convenient, avoided the artificial clean potential safety hazard of bringing simultaneously.
Brief description of the drawings
Fig. 1 is the schematic diagram of multi-functional burnishing embossing machine of the present utility model.
Fig. 2 is the schematic diagram of the flattening plate A of the flattening feed mechanism of multi-functional burnishing embossing machine of the present utility model.
Fig. 3 is the schematic diagram of the flattening plate B of the flattening feed mechanism of multi-functional burnishing embossing machine of the present utility model.
Fig. 4 is the schematic diagram of the burnishing embossing mechanism driving cylinder of multi-functional burnishing embossing machine of the present utility model.
Fig. 5 is the schematic diagram of the cleaning mechanism of multi-functional burnishing embossing machine of the present utility model.
Fig. 6 is the A-A view of Fig. 5.
Fig. 7 is synchronous tension compensation mechanism the second structural representation of multi-functional burnishing embossing machine of the present utility model.
Fig. 8 is the third structural representation of synchronous tension compensation mechanism of multi-functional burnishing embossing machine of the present utility model.
Fig. 9 is the 4th kind of structural representation of synchronous tension compensation mechanism of multi-functional burnishing embossing machine of the present utility model.
Detailed description of the invention
Schematic diagram is as shown in Figure 1 known, and multi-functional burnishing embossing machine of the present utility model comprises flattening feed mechanism, burnishing embossing mechanism and cleaning mechanism.
Schematic diagram is as shown in Figures 2 and 3 known, flatten feed mechanism and comprise conveyer belt 12, conveyer belt connecting rod 13 and flattening plate, conveyer belt 12 extends along the long axis direction of support 13, be provided with two at the discharge port end of conveyer belt 12 and flatten plate, be respectively and flatten plate A14 and flatten plate B15, flatten the upper end that plate A14 is arranged on conveyer belt 12, flatten the lower end that plate B15 is arranged on conveyer belt 12, between flattening plate A14 and flattening plate B15, leave and hold the gap that leather passes through, at the outer surface that flattens plate A14 and flattening plate B15, some equally distributed flattening muscle 16 are all set, flattening muscle 16 is obliquely installed, and flattening plate A14 is interspersed by leather texture characteristic with the upper muscle 16 that flattens of flattening plate B15.
Burnishing embossing mechanism comprises colored roller 1, lower support roll 4, lower compression roller 3, transmission felt tensioning compensation mechanism, transmission felt tensioning compensation mechanism comprises live-roller 10, transmission felt 8 and synchronous tension compensation mechanism, live-roller 10 upper, lower two ends are arranged on live-roller mounting bracket by slide block 102, on live-roller 10, be equipped with one deck transmission felt 8, both sides at live-roller 10 arrange respectively regulating roller 9, carrying roller 7, be provided with jockey pulley 6 at the opposite side of regulating roller 9, below the transmission felt 8 of carrying roller 7 adjacent position, be provided with two lower compression rollers 2, above lower compression roller 2, be provided with flower roller 1, between upper colored roller 1 and two lower compression rollers 2, being triangular shape distributes, lower support roll 4 is between two lower compression rollers 2, transmission felt 8 starts from live-roller 10 carrying roller 7 of reeling successively, lower compression roller 2, lower support roll 4, lower compression roller 2, jockey pulley 6 and regulating roller 9, wherein be connected with live-roller 10 by synchronous tension compensation mechanism away from the lower compression roller 2 of live-roller 10, lower compression roller 2 is on carrying out, drive live-roller 10 to carry out a left side along the long axis direction of live-roller mounting bracket when mobile down, move right, lower compression roller 2 upper, lower two ends are by being arranged on lower compression roller mounting bracket 3, and lower compression roller 2 can by driving cylinder 5 drive along the long axis direction of lower compression roller mounting bracket 3 away from or near upper colored roller 1, driving cylinder 5 adopts Dual Drive structure.In the present embodiment, synchronous tension compensation mechanism comprises drive connecting rod 100 and follower link 101, hinged forming between drive connecting rod 100 and follower link 101, the slide block that is positioned at lower end on the other end of drive connecting rod 100 and lower compression roller 2 is hinged, and the slide block that is positioned at lower end on the other end of follower link 101 and live-roller 10 is hinged.
Schematic diagram is as shown in Figure 7 known, synchronous tension compensation mechanism the second structure comprises driving leading screw 103, power transmission shaft 104 and bevel gear 105, drive leading screw 103 1 to have two, be connected with the upper and lower slide block 102 of live-roller 10 respectively, drive the tail end of leading screw 103 to be connected with power transmission shaft 104 by bevel gear 105, power transmission shaft 104 is driven by motor 106, and can drive two driving leading screws 103 to turn round simultaneously.Carrying out when synchronous, set the time of the required rotation of motor 106, in the time that driving cylinder 5 drives lower compression roller 2 to move up and down, motor 106 turns round simultaneously, drives live-roller 10 to move left and right, and ensures the tensioning of transmission felt 8.
Schematic diagram is as shown in Figure 8 known, and the third structure of synchronous tension compensation mechanism comprises cylinder 107, and cylinder 107 1 has two, is connected respectively with the upper and lower slide block 102 of live-roller 10, is filled with the gas of certain pressure in cylinder 107.When driving cylinder 5 drives while moving on lower compression roller 2,8 tensionings of transmission felt, now live-roller 10 can apply certain pressure to cylinder 107, gas in cylinder 107 can be compressed, in the time that driving cylinder 5 drives lower compression roller 2 to move down, transmission felt 8 can become slack, and now live-roller 10 is not just exerted pressure to cylinder 107, gas in cylinder 107 will eject live-roller 10, has ensured the tensioning of transmission felt 8.
Schematic diagram is as shown in Figure 9 known, the 4th kind of structure of synchronous tension compensation mechanism comprises hydraulic cylinder 108, pressure detecting instrument 109 and controller, hydraulic cylinder 108 1 has two, be connected with the upper and lower slide block 102 of live-roller 10 respectively, oil-out or oil-in place at hydraulic cylinder 108 are provided with a pressure detecting instrument 109, the oil-feed of pressure monitor 109 by controller control hydraulic cylinder 108 and fuel-displaced.When driving cylinder 5 drives while moving on lower compression roller 2,8 tensionings of transmission felt, now live-roller 10 can apply certain pressure to hydraulic cylinder 108, pressure detecting instrument 109 is in the time this strand of pressure being detected, can control hydraulic cylinder 108 starts fuel-displaced, in the time that driving cylinder 5 drives lower compression roller 2 to move down, transmission felt 8 can become slack, now live-roller 10 is not just exerted pressure to hydraulic cylinder 108, now pressure detecting instrument 109 can start oil-feed by control hydraulic cylinder 108, in the time that the pressure detecting reaches certain value, stop oil-feed at pressure detecting instrument 109, ensured the tensioning of transmission felt 8.
Schematic diagram is as shown in Figure 4 known, driving cylinder 5 comprises outer cylinder body 17, inner cylinder body 18, piston rod 19 and seal cover 20, inner cylinder body 18 is arranged in outer cylinder body 17, the outer surface of inner cylinder body 18 is close to the inwall of outer cylinder body 17, and be flexibly connected between inner cylinder body 18 and outer cylinder body 17, be provided with air inlet 21 in the bottom of outer cylinder body 17, by passing into air from air inlet 21, can drive inner cylinder body 18 to move up, then utilize the Action of Gravity Field of inner cylinder body 18 self to decline, thereby realize the upper of inner cylinder body 18, lower activity, piston rod 19 is arranged in inner cylinder body 18, on the top of inner cylinder body 18, seal cover 20 is installed, seal cover 20 is sleeved on piston rod 19, be provided with a horizontal run 21 in the center of piston rod 19, be provided with a hydraulic fluid port A22 who is connected with horizontal run 21 on the top of piston rod 19, the bottom of horizontal run 21 communicates with inner casing 18 bodies, on seal cover 20, be provided with a hydraulic fluid port B23 who communicates with inner cylinder body 18, by can piston rod 19 moving up from hydraulic fluid port A22 oil-feed, by can piston rod 19 moving down from hydraulic fluid port B23 oil-feed.
Schematic diagram is as shown in Figures 5 and 6 known, cleaning mechanism comprises guard shield 24, swing arm 28, press strip 29, connecting rod 26 and guide rail 27, the two ends of guard shield 24 are fixed on conveyer belt connecting rod 13 by back shaft 25, bottom at guard shield 24 is connected with driving cylinder 30 by swing arm 28, and guard shield 24 can by drive cylinder 30 drive away from or near upper colored roller 1, in guard shield 24, be provided with press strip 29, the two ends of press strip 29 are fixed by pressing plate 30 respectively, press strip 29 is along the long axis direction setting of guard shield 24, be fixed with two connecting rods 26 in the upper end of press strip 29, connecting rod 26 is fixedly connected with guide rail 27, cross section after connecting rod 26 is connected with guide rail 27 is L shape, and two groups of connecting rods 26 are relative or opposing setting with guide rail 27, guide rail 27 is driven and is carried out a left side by motor 31, move right, motor 31 is arranged on the inwall place, upper strata of guard shield 24.
More than show and described general principle of the present utility model and feature and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; that in above-described embodiment and description, describes just illustrates principle of the present utility model; do not departing under the prerequisite of the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (6)

1. a multi-functional burnishing embossing machine, is characterized in that: comprise frame, flatten feed mechanism, burnishing embossing mechanism and cleaning mechanism;
Described flattening feed mechanism comprises conveyer belt, flatten plate, conveyer belt is along the long axis direction setting of frame, be provided with two at the discharge port end of conveyer belt and flatten plate, be respectively and flatten plate A and flatten plate B, flatten the upper end that plate A is arranged on conveyer belt, flatten the lower end that plate B is arranged on conveyer belt, between flattening plate A and flattening plate B, leave and hold the gap that leather passes through, at the outer surface that flattens plate A and flattening plate B, some equally distributed flattening guiding ribs are all set, described flattening guiding rib is obliquely installed, and flattening plate A is interspersed by leather texture characteristic with the upper guiding rib that flattens of flattening plate B,
Described burnishing embossing mechanism comprises colored roller, lower support roll, lower compression roller, transmission felt tensioning compensation mechanism, transmission felt tensioning compensation mechanism comprises live-roller, transmission felt and synchronous tension compensation mechanism, live-roller upper, lower two ends are arranged on live-roller mounting bracket by slide block, described slide block moves horizontally along the long axis direction of the guide rail of installing on live-roller mounting bracket, on live-roller, be equipped with one deck transmission felt, both sides at live-roller arrange respectively regulating roller, carrying roller, opposite side at regulating roller is provided with jockey pulley, the below of the transmission felt of described carrying roller adjacent position is provided with two lower compression rollers, above lower compression roller, be provided with flower roller, between upper colored roller and two lower compression rollers, being triangular shape distributes, lower support roll is between two lower compression rollers, described lower compression roller links by synchronous tension compensation mechanism and live-roller, thereby drive live-roller to carry out a left side along the long axis direction of live-roller mounting bracket, move right, described lower compression roller upper, lower two ends are connected with lower compression roller mounting bracket by slide block, and can by driving cylinder drive along the long axis direction of lower compression roller mounting bracket away from or near upper colored roller, described driving cylinder is double driving mechanism,
Described cleaning mechanism comprises guard shield, swing arm, press strip, connecting rod and guide rail, the two ends of guard shield are fixed on by back shaft on the wallboard of frame both sides, the bottom of described guard shield is connected with driving cylinder by swing arm, and can by drive air cylinder driven away from or near upper colored roller, in guard shield, be provided with press strip, the two ends of press strip are fixed by pressing plate respectively, described press strip is along the long axis direction setting of guard shield, be fixed with two connecting rods in the upper end of press strip, described connecting rod and guide rail are fixedly connected, described guide rail is driven and is carried out a left side by motor, move right, motor is arranged on inwall place, guard shield upper strata.
2. multi-functional burnishing embossing machine according to claim 1, it is characterized in that: described driving cylinder comprises outer cylinder body, inner cylinder body, piston rod and seal cover, in, between outer cylinder body, be flexibly connected, bottom at outer cylinder body is provided with air inlet, piston rod is arranged in inner cylinder body, top at inner cylinder body is provided with seal cover, seal cover is sleeved on piston rod, be provided with a horizontal run in the center of piston rod, be provided with a hydraulic fluid port A who is connected with horizontal run on the top of piston rod, the bottom of horizontal run communicates with inner cylinder body, on seal cover, be provided with a hydraulic fluid port B who communicates with inner cylinder body.
3. multi-functional burnishing embossing machine according to claim 1, it is characterized in that: described synchronous tension compensation mechanism comprises drive connecting rod and follower link, hinged forming between described drive connecting rod and follower link, the slide block that is positioned at lower end on the other end of drive connecting rod and lower compression roller is hinged, and the slide block that is positioned at lower end on the other end of follower link and live-roller is hinged.
4. multi-functional burnishing embossing machine according to claim 1, it is characterized in that: described synchronous tension compensation mechanism comprises driving leading screw, power transmission shaft and bevel gear, drive leading screw one to have two, be connected with the upper and lower slide block of live-roller respectively, drive the tail end of leading screw to be connected with power transmission shaft by bevel gear, described power transmission shaft is driven by motor, and can drive two driving leading screws to turn round simultaneously.
5. multi-functional burnishing embossing machine according to claim 1, is characterized in that: described synchronous tension compensation mechanism comprises cylinder, described cylinder one has two, is connected respectively with the upper and lower slide block of live-roller, is filled with the gas of certain pressure in cylinder.
6. multi-functional burnishing embossing machine according to claim 1, it is characterized in that: described synchronous tension compensation mechanism comprises hydraulic cylinder, pressure detecting instrument and controller, described hydraulic cylinder one has two, be connected with the upper and lower slide block of live-roller respectively, oil-out or oil-in place at hydraulic cylinder are provided with a pressure detecting instrument, the oil-feed of described pressure monitor by controller control hydraulic cylinder and fuel-displaced.
CN201420091051.5U 2014-03-03 2014-03-03 Multifunctional flatness-ironing pattern pressing machine Withdrawn - After Issue CN203832116U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
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Application Number Priority Date Filing Date Title
CN201420091051.5U CN203832116U (en) 2014-03-03 2014-03-03 Multifunctional flatness-ironing pattern pressing machine

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CN203832116U true CN203832116U (en) 2014-09-17

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103898250A (en) * 2014-03-03 2014-07-02 南通思瑞机器制造有限公司 Multifunctional ironing embossing machine
CN111363861A (en) * 2020-03-17 2020-07-03 南京俊达诚数控科技有限公司 Embossing equipment with impurity removing function for leather processing

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103898250A (en) * 2014-03-03 2014-07-02 南通思瑞机器制造有限公司 Multifunctional ironing embossing machine
CN103898250B (en) * 2014-03-03 2015-09-30 南通思瑞机器制造有限公司 A kind of multi-functional burnishing embossing machine
CN111363861A (en) * 2020-03-17 2020-07-03 南京俊达诚数控科技有限公司 Embossing equipment with impurity removing function for leather processing

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Granted publication date: 20140917

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