CN214089039U - Bidirectional symmetrical vertical six-roller sanding machine - Google Patents
Bidirectional symmetrical vertical six-roller sanding machine Download PDFInfo
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- CN214089039U CN214089039U CN202022799138.6U CN202022799138U CN214089039U CN 214089039 U CN214089039 U CN 214089039U CN 202022799138 U CN202022799138 U CN 202022799138U CN 214089039 U CN214089039 U CN 214089039U
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Abstract
The utility model provides a vertical six roller grinds hair machine of two-way symmetry, belongs to weaving and other equipment manufacturing technical field, including the sanding machine board, the sanding unit is one, the sanding unit is two, the dust absorption unit is one, the dust absorption unit is two and main dust removal pipeline, the sanding unit is one and the two symmetries of sanding unit set up in the sanding machine board, the dust absorption unit is one and the two symmetries of dust absorption unit set up in the sanding machine board to the dust absorption unit is one and the two dust absorption unit all are connected to main dust removal pipeline, main dust removal pipeline is connected with outside dust collector. The bidirectional symmetrical vertical six-roller sanding machine has reasonable structural design and convenient use, sands the two sides of the cloth by six sanding rollers, has better flexibility, keeps good hand feeling, reduces the damage of sanding to fibers and improves the working efficiency of the sanding machine; every sanding roller all corresponds and is equipped with the dust absorption mouth, can all carry out effectual feather absorption to the two sides of cloth and handle, has guaranteed the clearance effect like this.
Description
Technical Field
The utility model belongs to the technical field of weaving and other equipment manufacturing, specifically, relate to a vertical six roller sanding machines of two-way symmetry.
Background
After the yarns are woven into the fabric, the surface of the yarns is generally smooth, in order to enhance the hand feeling and the heat retention property of the fabric, single-side sanding treatment and double-side sanding treatment can be performed on the fabric according to needs, sanding refers to a textile treatment process that the fabric is subjected to a sanding machine to form a layer of fabric with short fluff touch feeling on the surface of the fabric, and the fabric forms a layer of short fluff layer on the surface of the fabric through friction action, so that the original characteristics are kept, a new style is given to the fabric, and the heat retention property and the flexibility are increased. The sanding machine generally comprises a plurality of sanding rollers which run at high speed and provide enough friction to generate fluff on the surface of the cloth by giving certain friction force and tension to the surface of the cloth. The double-side sanding machine can be divided into a single roller, four rollers, six rollers, eight rollers and the like according to sanding rollers, wherein the six-roller sanding machine is widely applied to the textile industry.
The existing sanding machine process has the disadvantages that the speed is slow, the working efficiency is low due to the fact that the number of sanding rollers in a sanding box is small, fluff floats in the air in the sanding process and is not environment-friendly, and the fluff sucked into a human body can influence the health of operators.
SUMMERY OF THE UTILITY MODEL
Utility model purpose: the utility model aims at providing a vertical six roller grinds hair machine of two-way symmetry, the sanding speed of the sanding machine who has solved among the prior art is slower, and work efficiency is low, can not adapt to the sanding requirement of multiple product and have the nap and float overhead not environmental protection at the sanding in-process, and the nap inhales the problem that the human body can influence the healthy of operation workman.
The technical scheme is as follows: the utility model provides a vertical six roller grinds hair machine of two-way symmetry, including the sanding machine board, sanding unit one, sanding unit two, dust absorption unit one, dust absorption unit two and main dust removal pipeline, sanding unit one and sanding unit two symmetries set up in the sanding machine board, dust absorption unit one and dust absorption unit two symmetries set up in the sanding machine board to dust absorption unit one and dust absorption unit two are all connected to main dust removal pipeline, main dust removal pipeline is connected with external dust collector, dust absorption unit one is located one side of sanding unit one, and sanding unit one and dust absorption unit one are located one side that the sanding machine entered cloth, dust absorption unit two is located one side of sanding unit two, and sanding unit two and dust absorption unit two are located one side that the sanding machine came out cloth; wherein, sanding unit one and sanding unit two all include three sanding roller, dust absorption unit one and dust absorption unit two all include branch dust removal pipeline and three dust absorption mouth, three dust absorption mouth all is connected to branch dust removal pipeline, branch dust removal pipeline and main dust removal pipeline intercommunication, three dust absorption mouth and three sanding roller one-to-one set up to the dust absorption mouth is just to sanding roller setting, the dust absorption mouth is the toper setting, the one end that the dust absorption mouth is close to the sanding roller sets up to the semicircle cell type, half of setting of sanding roller is in the semicircle cell type.
Further, foretell vertical six roller sanding machines of two-way symmetry, the upper end of sanding machine board is equipped with into the cloth holder, the lower tip of going into the cloth holder is equipped with into cloth guide sleeve, it sets up along vertical direction to go into cloth guide sleeve to the lower tip symmetry of going into cloth guide sleeve is equipped with two and goes into cloth guide roller one, the upper end of going into cloth guide sleeve and going into the connection of cloth holder is equipped with into cloth guide roller two.
Further, foretell vertical six roller sanding machines of two-way symmetry, it transfers the ware to go into to be equipped with a set of cloth gyro wheel three and manual tension of going into on the cloth holder, manual tension transfers the ware to include fixed disc, tension adjusting roller one and tension adjusting roller two, fixed disc sets up on the horizontal beam who goes into the cloth holder, tension adjusting roller one and tension adjusting roller two set up on fixed disc through the pivot to tension adjusting roller one and tension adjusting roller two are located the same diameter of fixed disc, the cloth between tension adjusting roller one and the tension adjusting roller two is the S type setting.
Further, foretell vertical six roller sanding machines of two-way symmetry, it is equipped with a set of cloth of going into to expand the gyro wheel to go into on the vertical stand that is close to into cloth one side on the cloth frame to go into, a set of cloth of going into expands the gyro wheel setting on the upper end of cloth frame stand to a set of cloth of going into expands the gyro wheel and is located the horizontal position of sanding unit one above, a set of cloth of going into between the cloth expansion gyro wheel is the wave setting.
Further, the vertical six roller sanding machine of foretell two-way symmetry, the lateral symmetry of going into cloth on going into the cloth holder is equipped with two and goes into cloth guide roll, two are gone into cloth guide roll and are located between the dull polish unit one and a set of cloth that goes into and expand the gyro wheel along vertical direction, the lateral symmetry of going out cloth on going into the cloth holder is equipped with two and goes out the cloth guide roll, the lower tip of going into the cloth holder is equipped with two main big rollers of cloth and a set of main little roller of cloth of leading, two main big rollers of cloth and a set of main little roller of cloth of leading are located between dull polish unit one and the dull polish unit two.
Further, foretell vertical six roller sanding machines of two-way symmetry, the side of going out of going into the cloth holder is equipped with vertical support bar, be equipped with a set of static elimination roller on the vertical support bar, a set of static elimination roller is a vertical direction setting of following, the cloth between a set of static elimination roller is the wave setting.
Further, foretell vertical six roller sanding machines of two-way symmetry, the play cloth side of going into the cloth holder is equipped with out cloth pendulum cloth device, it includes hand wheel, eccentric connecting rod, pendulum rod and pendulum cloth roller to go out cloth pendulum cloth device, the hand wheel sets up on going into the cloth holder, the one end and the hand wheel connection of eccentric connecting rod, the one end of pendulum rod is articulated with the one end of eccentric connecting rod, the pendulum cloth roller sets up on the tip that eccentric connecting rod was kept away from to the pendulum rod through the pivot, pendulum cloth roller and cloth laminating.
Further, foretell vertical six roller sanding machines of two-way symmetry, the upper end of vertical support bar is equipped with out the big roller of cloth guide, it sets gradually according to the order from top to bottom to go out the big roller of cloth guide, pendulum cloth roller and a set of static elimination roller.
Further, foretell vertical six roller sanding machines of two-way symmetry, be equipped with six compress devices on the sanding machine board, compress device and sanding roller one-to-one set up.
Further, foretell vertical six roller sanding machines of two-way symmetry, the compress device includes compress cylinder and compress roller, the compress cylinder is fixed to be set up on the sanding machine board, the compress roller sets up on the sanding machine board through the pivot to the piston rod of compress roller and compress cylinder is connected, the compress roller is laminated with the cloth.
Above-mentioned technical scheme can find out, the utility model discloses following beneficial effect has: the bidirectional symmetrical vertical six-roller sanding machine has reasonable structural design and convenient use, sands the two sides of the cloth by six sanding rollers, has better flexibility, keeps good hand feeling, reduces the damage of sanding to fibers and improves the working efficiency of the sanding machine; each sanding roller is correspondingly provided with a dust suction port, so that effective hair suction treatment can be performed on both sides of the cloth, the cleaning effect is ensured, the time consumed for cleaning the hair on the sanding roller is saved, and the problem that the body health of an operator is affected by the fact that the hair is sucked into a human body is avoided; the sanding quality is improved through the cloth pressing roller; the tightness degree of the fabric is adjusted through the tension adjusting device, and the tension of the fabric is always balanced in the sanding process.
Drawings
FIG. 1 is a front view of the bidirectional symmetrical vertical six-roller sanding machine of the present invention;
fig. 2 is a left side view of the bidirectional symmetrical vertical six-roller sanding machine of the present invention.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.
In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.
Examples
The bidirectional symmetrical vertical six-roller sanding machine shown in figures 1 and 2 comprises a sanding machine table 1, a sanding unit I2, a sanding unit II 3, a dust suction unit I4, a dust suction unit II 5 and a main dust removal pipeline 6, the first sanding unit 2 and the second sanding unit 3 are symmetrically arranged in the sanding machine table 1, the first dust suction unit 4 and the second dust suction unit 5 are symmetrically arranged in the sanding machine table 1, and the first dust suction unit 4 and the second dust suction unit 5 are both connected to a main dust removal pipeline 6, the main dust removal pipeline 6 is connected with an external dust removal device, the first dust suction unit 4 is positioned at one side of the first sanding unit 2, the first sanding unit 2 and the first dust absorption unit 4 are positioned on the cloth inlet side of the sanding machine, the second dust absorption unit 5 is positioned on one side of the second sanding unit 3, and the second sanding unit 3 and the second dust absorption unit 5 are positioned on the cloth outlet side of the sanding machine; wherein, sanding unit one 2 and sanding unit two 3 all include three sanding roller 21, dust absorption unit one 4 and dust absorption unit two 5 all include branch dust removal pipeline 41 and three dust absorption mouth 42, three dust absorption mouth 42 all is connected to branch dust removal pipeline 41, branch dust removal pipeline 41 and main dust removal pipeline 6 intercommunication, three dust absorption mouth 42 and three sanding roller 21 one-to-one setting to dust absorption mouth 42 is just setting up sanding roller 21, dust absorption mouth 42 is the toper setting, the one end that dust absorption mouth 42 is close to sanding roller 21 sets up to semicircle cell type 421, half of sanding roller 21 sets up in semicircle cell type 421.
In addition, the upper end of sanding machine board 1 is equipped with into cloth holder 7, the lower tip of going into cloth holder 7 is equipped with into cloth guide sleeve 71, it sets up along vertical direction to go into cloth guide sleeve 71 to the lower tip symmetry of going into cloth guide sleeve 71 is equipped with two and goes into cloth guide roller 72, the upper end of going into cloth guide sleeve 71 and going into cloth holder 7 connection is equipped with into cloth guide roller two 73. The cloth feeding frame 7 is provided with a set of cloth feeding roller three 74 and a manual tension adjuster 75, the manual tension adjuster 75 comprises a fixed disc 751, a tension adjusting roller one 752 and a tension adjusting roller two 753, the fixed disc 751 is arranged on a horizontal beam of the cloth feeding frame 7, the tension adjusting roller one 752 and the tension adjusting roller two 753 are arranged on the fixed disc 751 through rotating shafts, the tension adjusting roller one 752 and the tension adjusting roller two 753 are located on the same diameter of the fixed disc 751, and cloth between the tension adjusting roller one 752 and the tension adjusting roller two 753 is arranged in an S shape. A set of cloth feeding and unfolding rollers 76 are arranged on a vertical upright column on one side, close to the cloth feeding side, of the cloth feeding frame 7, the set of cloth feeding and unfolding rollers 76 are arranged at the upper end of the upright column of the cloth feeding frame 7, the set of cloth feeding and unfolding rollers 76 are located above the horizontal position of the sanding unit I2, and cloth between the set of cloth feeding and unfolding rollers 76 is arranged in a wave shape.
Thirdly, go into cloth rack 7 and go into one side symmetry of cloth and be equipped with two and go into cloth guide roll 77, two are gone into cloth guide roll 77 and are located between the dull polish unit 2 and a set of cloth that goes into exhibition gyro wheel 76 along vertical direction, the one side symmetry of going out cloth on cloth rack 7 is equipped with two play cloth guide roll 78, the lower tip of going into cloth rack 7 is equipped with two main big rollers 79 of leading cloth and a set of main little rollers 710 of leading cloth, two main big rollers 79 of leading cloth and a set of main little rollers 710 of leading cloth are located between dull polish unit 2 and the dull polish unit two 3.
In addition, the cloth outlet side of the cloth inlet frame 7 is provided with a vertical supporting rod 711, the vertical supporting rod 711 is provided with a group of static elimination rollers 712, the group of static elimination rollers 712 are arranged in a row along the vertical direction, and cloth among the group of static elimination rollers 712 is arranged in a wave shape. Go into the side of cloth that cloth holder 7 goes out and be equipped with out cloth pendulum cloth device 8, go out cloth pendulum cloth device 8 and include hand wheel 81, eccentric connecting rod 82, pendulum rod 83 and pendulum cloth roller 84, hand wheel 81 sets up on going into cloth holder 7, the one end and the hand wheel 81 of eccentric connecting rod 82 are connected, the one end of pendulum rod 83 is articulated with the one end of eccentric connecting rod 82, pendulum cloth roller 84 sets up on the tip of keeping away from eccentric connecting rod 82 at pendulum rod 83 through the pivot, pendulum cloth roller 84 and cloth laminating. The upper end of the vertical support rod 711 is provided with a cloth discharging and guiding big roller 713, and the cloth discharging and guiding big roller 713, the cloth swinging roller 84 and the group of static elimination rollers 712 are sequentially arranged from top to bottom.
Example two
Based on the structure of the embodiment, six cloth pressing devices 9 are arranged on the sanding machine table 1, and the cloth pressing devices 9 and the sanding rollers 21 are arranged in a one-to-one correspondence manner. The cloth pressing device 9 comprises a cloth pressing cylinder 91 and a cloth pressing roller 92, the cloth pressing cylinder 91 is fixedly arranged on the sanding machine table 1, the cloth pressing roller 92 is arranged on the sanding machine table 1 through a rotating shaft, the cloth pressing roller 92 is connected with a piston rod of the cloth pressing cylinder 91, and the cloth pressing roller 92 is attached to the cloth.
The utility model discloses a six vertical roller sanding machines of two-way symmetry's theory of operation does:
the cloth is penetrated into a cloth guide sleeve 71, firstly passes through two cloth inlet guide rollers one 72, then passes through a cloth inlet guide roller two 73, a group of cloth inlet guide rollers three 74 and a manual tension adjuster 75, the cloth is wound between a tension adjusting roller one 752 and a tension adjusting roller two 753 into an S shape at the position of the manual tension adjuster 75, then passes through a group of cloth inlet spreading rollers 76, then passes through two cloth inlet guide rollers 77, and is wound into the S shape at the position of the two cloth inlet guide rollers 77, the cloth sequentially passes through three sanding rollers 21 of a sanding unit one 2 along the vertical direction, is guided to two main cloth guide large rollers 79 and a group of main cloth guide small rollers 710, and is bent into the U shape between the sanding unit one 2, the two main cloth guide large rollers 79, the group of main cloth guide small rollers 710 and the sanding unit two 3 at the three sanding rollers 21 guided to the sanding unit two 3, the cloth after the sanding enters the big cloth discharging and guiding roller 713 through the two cloth discharging and guiding rollers 78, the cloth is wound into an S shape between the two cloth discharging and guiding rollers 78, the cloth is guided into a group of static eliminating rollers 712 through the cloth swinging roller 84, and static elimination is carried out between the group of static eliminating rollers 712, so that the sanding of the cloth is completely finished.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.
Claims (10)
1. The bidirectional symmetrical vertical six-roller milling machine is characterized in that: comprises a sanding machine table (1), a sanding unit I (2), a sanding unit II (3), a dust absorption unit I (4), a dust absorption unit II (5) and a main dust removal pipeline (6), the first sanding unit (2) and the second sanding unit (3) are symmetrically arranged in the sanding machine table (1), the first dust absorption unit (4) and the second dust absorption unit (5) are symmetrically arranged in the sanding machine table (1), and the first dust suction unit (4) and the second dust suction unit (5) are both connected to the main dust removal pipeline (6), the main dust removal pipeline (6) is connected with an external dust removal device, the first dust absorption unit (4) is positioned at one side of the first sanding unit (2), and the first sanding unit (2) and the first dust absorption unit (4) are positioned at one side of the cloth of the sanding machine, the second dust absorption unit (5) is positioned at one side of the second sanding unit (3), the second sanding unit (3) and the second dust absorption unit (5) are positioned on the cloth outlet side of the sanding machine;
wherein, sanding unit one (2) and sanding unit two (3) all include three sanding roller (21), dust absorption unit one (4) and dust absorption unit two (5) all include branch dust removal pipeline (41) and three dust absorption mouth (42), three dust absorption mouth (42) all are connected to branch dust removal pipeline (41), branch dust removal pipeline (41) and main dust removal pipeline (6) intercommunication, three dust absorption mouth (42) and three sanding roller (21) one-to-one set up to dust absorption mouth (42) are just setting up sanding roller (21), dust absorption mouth (42) are the toper setting, the one end that dust absorption mouth (42) are close to sanding roller (21) sets up to semicircle cell type (421), half of sanding roller (21) sets up in semicircle cell type (421).
2. The bilaterally symmetrical vertical six-roller sanding machine according to claim 1, characterized in that: the upper end of sanding machine board (1) is equipped with into cloth holder (7), the lower tip of going into cloth holder (7) is equipped with into cloth guide sleeve (71), it sets up along vertical direction to go into cloth guide sleeve (71) to the lower tip symmetry of going into cloth guide sleeve (71) is equipped with two and goes into cloth guide roller (72), it is equipped with into cloth guide roller two (73) to go into cloth guide sleeve (71) and the upper end of going into cloth holder (7) connection.
3. The bilaterally symmetrical vertical six-roller sanding machine according to claim 2, characterized in that: go into to be equipped with a set of cloth roller three (74) and manual tension and transfer ware (75) of going into on cloth frame (7), manual tension transfers ware (75) including fixed disc (751), tension adjust roller (752) and tension adjust roller (753), fixed disc (751) sets up on the horizontal beam of going into cloth frame (7), tension adjust roller (752) and tension adjust roller (753) through the pivot setting on fixed disc (751), and tension adjust roller (752) and tension adjust roller (753) are located the same diameter of fixed disc (751), the cloth between tension adjust roller (752) and tension adjust roller (753) is the setting of S type.
4. The bilaterally symmetrical vertical six-roller sanding machine according to claim 2, characterized in that: go into and be equipped with a set of cloth of going into and expand gyro wheel (76) on cloth rack (7) being close to the vertical stand of going into cloth one side, a set of cloth of going into expands gyro wheel (76) and sets up on the upper end of going into cloth rack (7) stand to a set of cloth of going into expands gyro wheel (76) and is located more than the horizontal position of sanding unit one (2), the cloth of a set of cloth of going into between the gyro wheel (76) is the wave setting.
5. The bilaterally symmetrical vertical six-roller sanding machine according to claim 4, characterized in that: go into cloth rack (7) and go into one side symmetry of cloth and be equipped with two cloth guide rolls (77) of going into, two cloth guide rolls (77) of going into are located between sanding unit (2) and a set of cloth of going into exhibition gyro wheel (76) along vertical direction, the one side symmetry of going into cloth rack (7) and going out cloth is equipped with two play cloth guide rolls (78), the lower tip of going into cloth rack (7) is equipped with two main big rollers of cloth (79) of leading and a set of main little roller of leading (710), two main big rollers of leading cloth (79) and a set of main little roller of leading (710) are located between sanding unit (2) and sanding unit two (3).
6. The bilaterally symmetrical vertical six-roller sanding machine according to claim 2, characterized in that: go into the side of cloth holder (7) and be equipped with vertical support pole (711), be equipped with a set of static elimination roller (712) on vertical support pole (711), a set of static elimination roller (712) are a set of and set up along vertical direction, cloth between a set of static elimination roller (712) is the wave setting.
7. The bilaterally symmetrical vertical six-roller sanding machine according to claim 6, characterized in that: go into the side of cloth that goes out of cloth holder (7) and be equipped with out cloth pendulum cloth device (8), go out cloth pendulum cloth device (8) and include hand wheel (81), eccentric connecting rod (82), pendulum rod (83) and pendulum cloth roller (84), hand wheel (81) set up on going into cloth holder (7), the one end and the hand wheel (81) of eccentric connecting rod (82) are connected, the one end of pendulum rod (83) and the one end of eccentric connecting rod (82) are articulated, pendulum cloth roller (84) set up on the tip of keeping away from eccentric connecting rod (82) in pendulum rod (83) through the pivot, pendulum cloth roller (84) and cloth laminating.
8. The bilaterally symmetrical vertical six-roller sanding machine according to claim 7, characterized in that: the upper end of the vertical support rod (711) is provided with a cloth discharging and guiding large roller (713), and the cloth discharging and guiding large roller (713), the cloth swinging roller (84) and the group of static elimination rollers (712) are sequentially arranged from top to bottom.
9. The bilaterally symmetrical vertical six-roller sanding machine according to claim 1, characterized in that: six cloth pressing devices (9) are arranged on the sanding machine table (1), and the cloth pressing devices (9) and the sanding rollers (21) are arranged in a one-to-one correspondence mode.
10. The bilaterally symmetrical vertical six-roller sanding machine according to claim 9, characterized in that: cloth pressing device (9) include compress cylinder (91) and compress roller (92), compress cylinder (91) is fixed to be set up on sanding machine board (1), compress roller (92) set up on sanding machine board (1) through the pivot to compress roller (92) and compress cylinder's (91) piston rod are connected, compress roller (92) and cloth laminating.
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CN202022799138.6U CN214089039U (en) | 2020-11-27 | 2020-11-27 | Bidirectional symmetrical vertical six-roller sanding machine |
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CN202022799138.6U CN214089039U (en) | 2020-11-27 | 2020-11-27 | Bidirectional symmetrical vertical six-roller sanding machine |
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Address after: 215400 group 3, Yongle Village, Huangjing Town, Taicang City, Suzhou City, Jiangsu Province Patentee after: Taicang chirong Machinery Equipment Co.,Ltd. Address before: 215400 No.101 Xiexing Road, Shaxi Town, Taicang City, Suzhou City, Jiangsu Province Patentee before: Taicang chirong Machinery Equipment Co.,Ltd. |