CN112160114B - Industrial cloth embossing device - Google Patents
Industrial cloth embossing device Download PDFInfo
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- CN112160114B CN112160114B CN202011002243.0A CN202011002243A CN112160114B CN 112160114 B CN112160114 B CN 112160114B CN 202011002243 A CN202011002243 A CN 202011002243A CN 112160114 B CN112160114 B CN 112160114B
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- roller
- cloth
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- side plate
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06C—FINISHING, DRESSING, TENTERING OR STRETCHING TEXTILE FABRICS
- D06C23/00—Making patterns or designs on fabrics
- D06C23/04—Making patterns or designs on fabrics by shrinking, embossing, moiréing, or crêping
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01B—MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
- G01B21/00—Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant
- G01B21/02—Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant for measuring length, width, or thickness
- G01B21/08—Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant for measuring length, width, or thickness for measuring thickness
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01B—MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
- G01B21/00—Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant
- G01B21/16—Measuring arrangements or details thereof, where the measuring technique is not covered by the other groups of this subclass, unspecified or not relevant for measuring distance of clearance between spaced objects
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- General Physics & Mathematics (AREA)
- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Treatment Of Fiber Materials (AREA)
Abstract
The invention discloses an industrial cloth embossing device, which relates to the technical field of embossing equipment and specifically comprises a left side plate, a right side plate, a cloth roller for placing cloth and a winding roller for winding the embossed cloth, wherein the left side plate and the right side plate are used for fixing, the cloth roller for placing the cloth and the winding roller for winding the embossed cloth are both horizontally and fixedly connected to opposite surfaces of the left side plate and the right side plate through connecting shafts, and a pressing roller, a cloth thickness detection structure and an embossing roller are respectively arranged at positions, close to the upper half part, of the opposite surfaces of the left side plate and the right side plate. Through setting up cloth thickness detection structure, gear motor and elevation structure, reached the effect that the backing roll can be according to the thickness automatically regulated height of cloth, solved some backing rolls and all separately set up and control respectively, and support the fixed of very position, difficult thickness according to the processing cloth carries out the height adjustment, receives great limitation when leading to the use, consequently can bring the problem of production hindrance.
Description
Technical Field
The invention relates to embossing equipment, in particular to an industrial cloth embossing device.
Background
The industrial cloth has wide application, is mainly used for filtering and dedusting, raw materials of a conveyor belt and the like, needs an embossing device for embossing when in use, and has the main components of a supporting roller, a roller, an embossing roller and the like.
Most of current cloth knurling devices can be equipped with the backing roll in the bottom of cloth, and this backing roll is used for the effect of support, but all separately sets up and control respectively with some backing rolls at present, and support the fixed of very position, difficult according to the thickness of processing cloth adjustment at the bottom of going on, receive great limitation when leading to the use, consequently can bring some production obstacles to influence work efficiency, continue to deal with the market and make the adjustment.
Disclosure of Invention
The present invention is directed to an embossing apparatus for industrial fabrics to solve the problems of the prior art.
In order to achieve the purpose, the invention provides the following technical scheme:
the utility model provides an industrial cloth knurling device, including the left side board that is used for fixing, the right side board, a wind-up roll that is used for putting the cloth roller of cloth and carries out the rolling to the cloth that the knurling was accomplished all through the relative face of connecting axle horizontal fixed connection at left side board and right side board, the relative face punishment that the relative face of left side board and right side board is close to first half do not is provided with the compression roller, cloth thickness detects structure and embossing roller, cloth thickness detects the structure and is located the front of compression roller, the compression roller is located the front of embossing roller, the relative face of left side board and right side board is provided with two backing rolls that are used for supporting, two backing rolls that are used for supporting are located compression roller and embossing roller respectively under, the position department that the relative face of left side board and right side board corresponds the backing roll is provided with elevation structure, one side fixedly connected with connection structure near the backing roller, backing roller fixed connection is in one side of keeping away from elevation structure in one side of left side board, the right side of left side board has seted up and has the motor groove, motor groove communicates with elevation structure each other, the inside of motor groove that the reduction of motor groove communicates with elevation structure, the motor groove is provided with the fixed connection of the bottom of elevation structure, the transmission of the bottom of elevation structure. .
As a further scheme of the invention: the utility model discloses a motor, including bearing A, bearing A and circular vertical setting, the fixed knot that is used for going on location to elevation structure is seted up to right side board's fixed knot that is provided with, the fixed knot that goes on location to elevation structure includes circular recess, bearing A and the dead lever of circular vertical setting, the dead lever fixed connection of circular vertical setting is in bearing A's inside, the position in the bottom correspondence motor groove of elevation structure is seted up to circular recess, elevation structure swing joint is in the inside of recess, bearing A fixed connection is in the inside of recess, elevation structure's bottom and the top fixed connection of the dead lever of circular vertical setting make elevation structure rotate steadily.
As a further scheme of the invention: cloth thickness detects structure includes connecting rod A, the fixed box of cuboid form, a distance inductor for measuring the distance, the response piece, "L" type connecting rod B, a spring A for kick-backing, a fixed roller that is used for the extruded activity roller of lift and supports the cloth bottom, this fixed roller that supports the cloth bottom is located the activity roller under, connecting rod A fixed connection is between left side board and right side board, the fixed box fixed connection of cuboid form is in the one end that left side board and right side board were kept away from to connecting rod A, response piece swing joint is located apart from the inductor in the inside of fixed box under, the response piece drives through the connecting rod B of outside "L" type, the connecting rod B fixed connection of L "type is in the bottom of response piece, spring A activity cup joints the surface at the connecting rod B of" L "type, the connecting rod B of L" type keeps away from the both ends fixed connection of the one end of response piece and activity roller.
As a further scheme of the invention: every elevation structure includes two movable block A, two horizontal poles, movable block B, bearing B, the lead screw of vertical setting, two activity groove A and activity groove B, movable block A swing joint is in activity groove A's inside, the horizontal pole, the equal swing joint of lead screw and movable block B is in activity groove B's inside, activity groove A is located and communicates each other with activity groove B between two activity groove B, activity block B screw thread cup joints the surface at the lead screw of vertical setting, two horizontal poles are fixed connection respectively at activity block B's front and back, the one end that movable block B was kept away from to two horizontal poles and two movable block A's opposite face fixed connection, bearing B fixed connection is at activity groove B inner wall top, lead screw fixed connection is in bearing B's inside, the bottom of lead screw and gear motor's output shaft fixed connection, the fixed inside of cup jointing at the lead screw of drive structure.
As a further scheme of the invention: connection structure includes even circular shape connecting rod C, circular shape connecting rod D, the incision of "L" type shape, threaded connection head and carries out spacing stopper to threaded connection head, and stopper fixed connection sets up in connecting rod C and connecting rod D's looks remote site on connecting rod D's surface, and the incision of "L" type shape is seted up, and threaded connection head screw thread cup joints the incision position at connecting rod C and connecting rod D interconnect, and the stopper setting is close to the backing roll position on connecting rod D's surface.
As a further scheme of the invention: the transmission structure comprises a belt pulley and a belt, the belt pulley is fixedly sleeved on the surface of the lead screw in a sleeved mode, and the belt is tightly connected with the side face of the belt pulley.
As a further scheme of the invention: the surface of the lead screw is movably sleeved with a spring B used for propping against the movable block B, the top of the spring B is movably connected with the bottom of the movable block B, and the bottom of the spring B is movably connected with the bottom of the inner wall of the movable groove B.
As a still further scheme of the invention: the operation steps are as follows:
when the cloth embossing device is used, the embossing device is started to enable the shaft rollers to rotate, the cloth roller discharges materials at the moment, and cloth penetrates through the cloth thickness detection structure, the pressing roller, the supporting roller, the embossing roller and the supporting roller;
step two, when the cloth with different thicknesses is operated, the cloth passes through a cloth thickness detection structure, the cloth lifts the movable roller, the movable roller is lifted upwards through the spring A and the connecting rod B, the connecting rod B is lifted, the sensing block is lifted, the distance between the sensing block and the distance sensor is reduced due to the lifting of the sensing block, and the distance sensor measures the reduced distance;
thirdly, adjusting the lifting structure by controlling the rotation of a speed reducing motor, driving a screw rod on the lifting structure to rotate by the speed reducing motor, so that the screw rod drives a movable block B to move up and down, and the movable block B moves up and down to drive a cross rod and a movable block A to move downwards so as to adjust the height of the supporting roll;
and step four, when the supporting roller needs to be replaced, the threaded connector is only required to be rotated to be separated from the connecting rod D, then the supporting roller and the connecting rod D are taken down from the connecting rod C together, then the new supporting roller can be replaced according to the reverse operation of the steps, the press roller and the supporting roller press the cloth, the embossing roller and the supporting roller press the cloth, the winding roller rolls the cloth, the press roller flattens the cloth, and the embossing roller embosses the cloth.
Compared with the prior art, the invention has the beneficial effects that:
through setting up cloth thickness detection structure, gear motor and elevation structure, cloth thickness detection structure detects the thickness of some portion cloth, and adjust elevation structure through control gear motor, thereby make two thickness of adjusting the backing roll in order to adapt to the cloth together, the effect that the backing roll can be according to the thickness automatically regulated height of cloth has been reached, some backing rolls have been solved and have separately set up and control respectively, and support the fixed of very big position, difficult thickness according to processing cloth carries out the high end adjustment, receive great limitation when leading to using, consequently, can bring the problem of production hindrance.
Through setting up connection structure, rotate threaded connection head and make its and connecting rod D separation, be convenient for take off the backing roll of renewal from connecting rod C with connecting rod D, make the backing roll change very convenient.
Drawings
Fig. 1 is a front sectional view of a cloth thickness detecting structure of an industrial cloth embossing apparatus.
Fig. 2 is an enlarged view of a structure a of an embossing apparatus for industrial cloth in fig. 1.
Fig. 3 is a left side sectional view of a position of a lifting structure in an embossing apparatus for industrial cloth.
Fig. 4 is a front sectional view of an embossing apparatus for industrial fabric at the position of a lifting structure.
Fig. 5 is a front sectional view of an embossing apparatus for industrial fabric at the location of the attachment structure.
Fig. 6 is an enlarged view of a structure B of fig. 5 in an embossing apparatus for industrial fabrics.
Fig. 7 is a left side sectional view of an industrial fabric embossing apparatus.
As shown in the figure: 1. a left side plate; 2. a right side plate; 3. a distributing roller; 4. a wind-up roll; 5. a compression roller; 6. a cloth thickness detection structure; 61. a connecting rod A; 62. a fixing box; 63. a distance sensor; 64. an induction block; 65. a connecting rod B; 66. a spring A; 67. a movable roll; 68. a fixed roller; 7. an embossing roll; 8. a support roll; 9. a lifting structure; 91. a movable block A; 92. a cross bar; 93. a movable block B; 94. a bearing B; 95. a lead screw; 96. a movable groove A; 97. a movable groove B; 10. a connecting structure; 101. a connecting rod C; 102. a connecting rod D; 103. cutting; 104. a threaded connector; 105. a limiting block; 11. a motor slot; 12. a transmission structure; 121. a belt pulley; 122. a belt; 14. a spring B; 15. a speed reducing motor.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.
In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", etc. indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, which are merely for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may 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 meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
Referring to fig. 1 to 7, in the embodiment of the present invention, an industrial cloth embossing device includes a left side plate 1, a right side plate 2 for fixing, a cloth roller 3 for placing cloth, and a wind-up roller 4 for winding the embossed cloth, wherein the cloth roller 3 for placing cloth and the wind-up roller 4 for winding the embossed cloth are both horizontally and fixedly connected to opposite surfaces of the left side plate 1 and the right side plate 2 through a connecting shaft, and a cloth thickness detection structure 6, a pressure roller 5, and a support roller 8 are all located between the cloth roller 3 and the wind-up roller 4, wherein the cloth roller 3 for placing cloth is arranged on the front surface of the cloth thickness detection structure 6, the positions of the opposite surfaces of the left side plate 1 and the right side plate 2 near the upper half are respectively provided with a pressure roller 5, a cloth thickness detection structure 6, and a pressure roller 7, the cloth thickness detection structure 6 is located on the front surface of the pressure roller 5, the compression roller 5 is positioned on the front side of the embossing roller 7, the compression roller 5 is matched with a supporting roller 8 right below the compression roller 5 to flatten cloth so as to ensure that the subsequent embossing process is stably carried out, the embossing roller 7 embosses the flattened cloth, the embossed cloth is wound by the winding roller 4, two supporting rollers 8 for supporting are arranged on the opposite surfaces of the left side plate 1 and the right side plate 2, the two supporting rollers 8 for supporting are respectively positioned right below the compression roller 5 and the embossing roller 7, a lifting structure 9 for adjusting the height of the supporting roller 8 is arranged at the position, corresponding to the supporting roller 8, of the opposite surfaces of the left side plate 1 and the right side plate 2, a connecting structure 10 is fixedly connected on one side of the lifting structure 9 close to the supporting roller 8, the supporting roller 8 is fixedly connected on one side of the connecting structure 10 far away from the lifting structure 9, a motor groove 11 for placing a speed reducing motor 15 is arranged on the right side of the left side plate 1, and the size of the supporting roller is matched with the size of the speed reducing motor 15, the speed reducing motor 15 is fixed in the lifting structure 9 through a fixing bolt, the motor groove 11 is communicated with the lifting structure 9, the speed reducing motor 15 used for driving the lifting structure 9 to lift is arranged in the motor groove 11, an output shaft of the speed reducing motor 15 is fixedly connected with the bottom of the lifting structure 9, and a transmission structure 12 is fixedly sleeved at the position, located at the motor groove 11, of the bottom of the lifting structure 9.
It should be noted that, elevation structure 9 is driven by gear motor 15 and rotates, and elevation structure 9 rotates then to drive the inside rotation of the dead lever of circular vertical setting at bearing A, and bearing A then fixes in the recess to fix and rotate stably elevation structure 9's bottom.
Cloth thickness detection structure 6 includes connecting rod A61, cuboid form fixed box 62, a distance inductor 63 for measuring distance, response piece 64, "L" type connecting rod B65, a spring A66 for kick-backing, a movable roller 67 for extruded lift and a fixed roller 68 for supporting the cloth bottom, this fixed roller 68 that supports the cloth bottom is located under the movable roller 67, connecting rod A61 fixed connection is between left side board 1 and right side board 2, cuboid form fixed box 62 fixed connection is in the one end that connecting rod A61 kept away from left side board 1 and right side board 2, cuboid form fixed box 62 is located the mid point position of left side board 1 and right side board 2 line, a distance inductor 63 for measuring distance passes through viscose fixed connection at the top of fixed box 62 inner wall, its infrared ray aims at the position of response piece 64, response piece 64 swing joint is located under distance inductor 63 in the inside of fixed box 62, response piece 64 drives through outside "L" type connecting rod B65, "L" type connecting rod B65 fixed connection is at the position of response piece 64, the bottom of response piece 64 of spring A66 "movable connection is connected with the movable roller 67 at the both ends of the surface of fixed roller 67" L "of fixed roller 67.
It should be noted that the fixed roller 68 rotates in a fixed rotation, the movable roller 67 can move up and down through the spring a66, when the cloth passes between the fixed roller 68 and the movable roller 67, the movable roller 67 is lifted by the thickness of the cloth, the movable roller 67 is lifted to drive the sensing block 64 to move up through the L-shaped connecting rod B65, the distance sensor 63 measures the distance between the sensing block 64, the distance is measured by a part which is reduced compared with the previous part, and the reduction motor 15 is controlled to adjust the lifting structure 9.
Each lifting structure 9 includes two movable blocks a91, two horizontal rods 92, movable block B93, bearing B94, the lead screw 95 of vertical setting, two movable grooves a96 and movable groove B97, movable block a91 swing joint is in movable groove a 96's inside, horizontal rod 92, lead screw 95 and the equal swing joint of movable block B93 are in movable groove B97's inside, movable groove a96 is located and communicates each other with movable groove B97 between two movable grooves B97, movable block B93 screw sleeve connects on the surface of the lead screw 95 of vertical setting, two horizontal rods 92 fixed connection respectively are at the front and the back of movable block B93, two horizontal rods 92 keep away from the one end of movable block B93 and the opposite face fixed connection of two movable block a91, bearing B94 fixed connection is in the middle position at movable groove B97 inner wall top, lead screw 95 fixed connection is in bearing B94, the bottom of lead screw 95 and the output shaft fixed connection of gear motor 15, drive structure 12 is fixed in the inside of lead screw 95, the surface of lead screw 95 is cup jointed with the spring B14 that is used for propping up movable block B93, the top of spring B14 is connected with the movable block B14, thereby the bottom of movable block B93 is connected closely with the movable block B through the movable block B97, thereby the movable block B frame B is not connected on the bottom of movable block B.
It should be noted that, movable block A91 and movable block B93 are square blocks, and laminate with the inner wall of activity groove A96 and activity groove B97, be convenient for when removing difficult two backing rolls 8 take place to incline when removing, lead screw 95 is driven by gear motor 15 and is rotated, lead screw 95 rotates then and drives movable block B93, horizontal pole 92 and movable block A91 reciprocate together, movable block A91 reciprocates alright carry out the height-adjusting through connection structure 10 to backing roll 8, thereby reach the height that can not adapt to the thickness.
It should be noted that the threaded connector 104 is sleeved on the surface of the connecting rod C101 when not connected, then the L-shaped notch 103 on the connecting rod D102 is abutted with the L-shaped notch 103 on the connecting rod C101, the threaded connector 104 is rotated to move to the position of the connecting rod D102 and sleeved on the connecting position of the connecting rod C101 and the connecting rod D102, and the position of the threaded connector 104 is limited by the limiting block 105.
The transmission structure 12 includes a belt pulley 121 and a belt 122, the belt pulley 121 is respectively fixedly sleeved on the surface of the lead screw 95, and the belt 122 is tightly connected with the side surface of the belt pulley 121, so as to prevent the uneven height adjustment of the two ends of the supporting roller 8 caused by the looseness of the belt 122 when the belt pulley 121 rotates.
It should be noted that the reduction motor 15 rotates to drive the left lifting structure 9 to rotate, so as to rotate the left belt pulley 121, and the left belt pulley 121 rotates to drive the right belt pulley 121 to rotate through the belt 122, so as to drive the two lifting structures 9 to rotate simultaneously, so as to adjust the heights of the supporting rollers 8 uniformly.
The operation steps are as follows:
when the cloth embossing device is used, the embossing device is started firstly, all shaft rollers rotate, the cloth roller 3 discharges materials at the moment, and the cloth penetrates through the cloth thickness detection structure 6, the press roller 5, the supporting roller 8, the embossing roller 7 and the supporting roller 8;
step two, when the cloth with different thicknesses is operated, the cloth passes through the cloth thickness detection structure 6, the cloth lifts the movable roller 67, the movable roller 67 is lifted up and then lifted up through the spring A66 and the connecting rod B65, the connecting rod B65 is lifted up and then the sensing block 64 is lifted up, the distance between the sensing block 64 and the distance sensor 63 is reduced due to the lifting up of the sensing block, and the distance sensor 63 measures the reduced distance;
step three, the lifting structure 9 is adjusted by controlling the rotation of the speed reducing motor 15, the screw 95 on the lifting structure 9 is driven by the speed reducing motor 15 to rotate, so that the screw 95 drives the movable block B93 to move up and down, the movable block B93 moves up and down to drive the cross rod 92 and the movable block A91 to move down, so that the height of the supporting roller 8 is adjusted, and the lifting structures 9 on the left side plate 1 and the right side plate 2 are driven by the transmission structure 12, so that the height adjustment of two ends of the supporting roller 8 is consistent;
step four, when the supporting roller 8 needs to be replaced, the threaded connector 104 is only required to be rotated to be separated from the connecting rod D102, then the supporting roller 8 and the connecting rod D102 are taken down from the connecting rod C101 together, then the new supporting roller 8 can be replaced by performing reverse operation according to the steps, the press roller 5 and the supporting roller 8 press the cloth, the embossing roller 7 and the supporting roller 8 also press the cloth, the winding roller 4 winds the cloth, the press roller 5 presses the cloth, and the embossing roller 7 embosses the cloth.
Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof.
Claims (1)
1. The industrial cloth embossing device comprises a left side plate (1), a right side plate (2) for fixation, a cloth roller (3) for placing cloth and a wind-up roller (4) for winding the cloth after embossing, and is characterized in that the cloth roller (3) for placing the cloth and the wind-up roller (4) for winding the cloth after embossing are horizontally and fixedly connected with opposite surfaces of the left side plate (1) and the right side plate (2) through connecting shafts, the positions, close to the upper half, of the opposite surfaces of the left side plate (1) and the right side plate (2) are respectively provided with a press roller (5), a cloth thickness detection structure (6) and an embossing roller (7), the cloth thickness detection structure (6) is positioned in the front of the press roller (5), the press roller (5) is positioned in the front of the embossing roller (7), the opposite surfaces of the left side plate (1) and the right side plate (2) are respectively provided with two supporting rollers (8) for supporting, the two supporting rollers (8) are respectively positioned under the press roller (5) and the embossing roller (7), the corresponding positions of the left side plate (1) and the right side plate (2) are respectively provided with two supporting rollers (8) which are connected with a lifting structure (10), and a lifting structure (10) is connected with a lifting structure (10) close to one side of the supporting roller (9), a motor groove (11) is formed in the right side of the left side plate (1), the motor groove (11) is communicated with the lifting structure (9), a speed reducing motor (15) used for driving the lifting structure (9) to lift is arranged inside the motor groove (11), an output shaft of the speed reducing motor (15) is fixedly connected with the bottom of the lifting structure (9), and a transmission structure (12) is fixedly sleeved at the position, located in the motor groove (11), of the bottom of the lifting structure (9);
the cloth thickness detection structure (6) comprises a connecting rod A (61), a cuboid-shaped fixed box (62), a distance sensor (63) for measuring distance, a sensing block (64), an L-shaped connecting rod B (65), a spring A (66) for rebounding, a movable roller (67) for extruding and a fixed roller (68) for supporting the bottom of cloth, wherein the fixed roller (68) for supporting the bottom of cloth is positioned right below the movable roller (67), the connecting rod A (61) is fixedly connected between a left side plate (1) and a right side plate (2), the cuboid-shaped fixed box (62) is fixedly connected to one end, far away from the left side plate (1) and the right side plate (2), of the connecting rod A (61), the sensing block (64) is movably connected to the inside of the fixed box (62) and is positioned right below the distance sensor (63), the sensing block (64) is driven by the external L-shaped connecting rod B (65), the L-shaped connecting rod B (65) is fixedly connected to the bottom of the sensing block (64), the spring A (66) is sleeved on the surface of the movable roller (65), and two ends of the connecting rod B (64) are connected with the movable roller (67);
each lifting structure (9) comprises two movable blocks A (91), two cross rods (92), a movable block B (93), a bearing B (94), a vertically-arranged screw rod (95), two movable grooves A (96) and a movable groove B (97), the movable blocks A (91) are movably connected in the movable grooves A (96), the cross rods (92), the screw rod (95) and the movable blocks B (93) are movably connected in the movable grooves B (97), the movable grooves A (96) are positioned between the two movable grooves B (97) and are communicated with the movable grooves B (97), the movable blocks B (93) are sleeved on the surface of the vertically-arranged screw rod (95) in a threaded manner, the two cross rods (92) are fixedly connected to the front face and the back face of the movable block B (93) respectively, one ends, far away from the movable blocks B (93), of the two cross rods (92) are fixedly connected with the opposite faces of the two movable blocks A (91), the bearing B (94) is fixedly connected to the top of the inner wall of the movable grooves B (97), the screw rod (95) is fixedly connected to the inside of the bearing B (94), the bearing B (95) is connected with the bottom of the fixed shaft (95) and is connected with a fixed sleeve (15) of the fixed shaft (95), and an output shaft (12) of the motor (95) is connected to the fixed shaft (95);
the connecting structure (10) comprises a connecting rod C (101) which is connected with a circle, a connecting rod D (102) which is circular, a notch (103) which is in an L shape, a threaded connector (104) and a limiting block (105) which limits the threaded connector (104), wherein the limiting block (105) is fixedly connected to the surface of the connecting rod D (102), the notch (103) which is in the L shape is arranged at the opposite end of the connecting rod C (101) and the connecting rod D (102), the threaded connector (104) is sleeved at the position of the notch (103) which is mutually connected with the connecting rod C (101) and the connecting rod D (102) in a threaded manner, and the limiting block (105) is arranged at the position, close to the supporting roller (8), of the surface of the connecting rod D (102);
the transmission structure (12) comprises a belt pulley (121) and a belt (122), the belt pulley (121) is fixedly sleeved on the surface of the lead screw (95) respectively, and the belt (122) is tightly connected with the side surface of the belt pulley (121);
a spring B (14) used for propping against the movable block B (93) is movably sleeved on the surface of the lead screw (95), the top of the spring B (14) is movably connected with the bottom of the movable block B (93), and the bottom of the spring B (14) is movably connected with the bottom of the inner wall of the movable groove B (97);
the use method of the industrial cloth embossing device comprises the following operation steps:
when the cloth embossing device is used, the embossing device is started firstly, all shaft rollers rotate, the cloth roller (3) discharges materials at the moment, and cloth penetrates through the cloth thickness detection structure (6), the pressing roller (5) and the supporting roller (8) and between the embossing roller (7) and the supporting roller (8);
step two, when the cloth with different thicknesses is operated, the cloth passes through the cloth thickness detection structure (6), the cloth lifts the movable roller (67), the movable roller (67) is lifted up and then is lifted up through the spring A (66) and the connecting rod B (65), the connecting rod B (65) is lifted up and then the sensing block (64) is lifted up, the distance between the sensing block (64) and the distance sensor (63) is reduced due to the lifting up of the sensing block, and the distance sensor (63) measures the reduced distance;
step three, the lifting structure (9) is adjusted by controlling the rotation of the speed reducing motor (15), a lead screw (95) on the lifting structure (9) is driven by the speed reducing motor (15) to rotate, so that the lead screw (95) drives a movable block B (93) to move up and down, the movable block B (93) moves up and down to drive a cross rod (92) and a movable block A (91) to move downwards, so that the height of the supporting roller (8) is adjusted, the lifting structure (9) on the left side plate (1) and the right side plate (2) is driven by a transmission structure (12), so that the height adjustment of two ends of the supporting roller (8) is consistent;
and step four, when the supporting roller (8) needs to be replaced, the supporting roller (8) only needs to be separated from the connecting rod D (102) by rotating the threaded connector (104), then the supporting roller (8) and the connecting rod D (102) are taken down from the connecting rod C (101), then the new supporting roller (8) can be replaced by reversely operating according to the steps, the press roller (5) and the supporting roller (8) press cloth, the embossing roller (7) and the supporting roller (8) also press cloth, the winding roller (4) winds the cloth, the press roller (5) flattens the cloth, and the embossing roller (7) embosses the cloth.
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CN113176266B (en) * | 2021-04-28 | 2023-12-12 | 伟宸科技(武汉)有限公司 | Automatic nondestructive testing device |
CN115219513B (en) * | 2022-06-24 | 2024-04-05 | 江苏南星家纺有限公司 | Intelligent textile detection table for quality detection |
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JPH07171456A (en) * | 1993-12-17 | 1995-07-11 | Toppan Printing Co Ltd | Roll coater |
JP2004142905A (en) * | 2002-10-25 | 2004-05-20 | Konica Minolta Holdings Inc | Thin film web take-up apparatus |
CN104103120A (en) * | 2014-08-01 | 2014-10-15 | 广州御银科技股份有限公司 | Banknote thickness detection system and method |
CN204896912U (en) * | 2015-08-03 | 2015-12-23 | 福建省晋江市恒丰喷胶棉织造有限公司 | Novel machine of book of beating cuts |
CN106087329A (en) * | 2016-07-29 | 2016-11-09 | 芜湖华烨工业用布有限公司 | Infant industry cloth embossing device |
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CN208121398U (en) * | 2018-01-31 | 2018-11-20 | 徐建军 | A kind of new type auto cutter lifting system and device |
CN208180564U (en) * | 2018-05-15 | 2018-12-04 | 福建鸣友新材料科技有限公司 | A kind of heat transfer printing carbon tape box |
CN208394447U (en) * | 2018-06-26 | 2019-01-18 | 广州市赞晨塑胶科技有限公司 | For plastic film wrap-up |
CN209508645U (en) * | 2019-02-10 | 2019-10-18 | 海宁市宏源无纺布业有限公司 | A kind of ultra-thin shoes leather base cloth process units |
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