CN219270242U - Clamping and positioning device for clothing processing - Google Patents

Abstract

The utility model discloses a clamping and positioning device for clothing processing, which comprises an operation table, two guide rails, a sliding and positioning mechanism, two rolling and leveling mechanisms, a line drawing mechanism, a rotating platform and a driving mechanism, wherein a through circular mounting through hole is formed in the middle of a table panel; the two guide rails are longitudinally arranged at two sides of the surface of the table top board in parallel; the sliding positioning mechanism is arranged on the two guide rails; the two rolling mechanisms are transversely arranged on the two guide rails at intervals; the line drawing mechanism is arranged above the table panel; the rotary platform is a disc matched with the mounting through hole, and is coaxially and horizontally arranged in the mounting through hole; the driving mechanism is arranged at the bottom of the table top plate and used for driving the rotating platform to lift or rotate. The clamping and positioning device is suitable for clamping and positioning of clothing fabrics with various thicknesses, does not damage the clothing fabrics in the clamping and positioning process, has high clamping and positioning precision, and can flexibly adjust the positions of the clothing fabrics.

Description

Clamping and positioning device for clothing processing

Technical Field

The utility model relates to the technical field of auxiliary equipment for clothing processing, in particular to a clamping and positioning device for clothing processing.

Background

The clothing includes clothing, shoes, caps, socks, gloves, scarves, ties, etc., in daily life, the clothing is divided into many types due to different sizes of each person, and in the clothing production and processing process, the tailoring of the fabric is the initial work of a piece of clothing processing, and the traditional clothing fabric tailoring and sewing method marks the required positioning lines on the fabric by using brushes, and then tailors and sews along the positioning lines, in the positioning mode, whether the positioning lines are accurate or not directly influences the size of the clothing and the quality of the produced clothing, but the positioning lines are difficult to draw flat due to the fact that the cloth is easy to wrinkle, in addition, the prior art aims at the clothing fabric with different lengths, the tailoring of the clothing fabric is mostly carried out manually, in the process of positioning and line drawing, as the garment fabric has certain ductility, deviation is easy to occur in positioning and line drawing, the garment fabric positioning accuracy requirement is higher for the garment with complex shape, and the utility model patent with the patent number of CN202221845640.9 discloses a clamping and positioning device for shirt processing.

Disclosure of Invention

The utility model provides a clamping and positioning device for clothing processing, and aims to solve the problems that the existing clothing fabric clamping and positioning device is low in positioning precision, easy to cause fabric processing deformation due to a clamping structure, low in line drawing precision and large in use limitation.

The utility model adopts the following technical scheme:

a clamping and positioning device for clothing processing comprises an operation table, two guide rails, a sliding and positioning mechanism, two rolling and leveling mechanisms, a line drawing mechanism, a rotating platform and a driving mechanism; the operation table comprises a table panel, a rectangular steel frame and supporting legs, wherein the table panel is horizontally arranged, the rectangular steel frame is fixed at the bottom of the table panel, four supporting legs are arranged around the bottom of the rectangular steel frame to support the operation table, and a through circular mounting through hole is formed in the middle of the table panel; the two guide rails are longitudinally arranged at two sides of the surface of the table top board in parallel; the sliding positioning mechanism is arranged on the two guide rails; the two rolling mechanisms are transversely arranged on the two guide rails at intervals; wherein the two rolling mechanisms are positioned outside the two sliding positioning mechanisms; the line drawing mechanism is arranged above the table panel; the rotary platform is a disc matched with the mounting through hole, and is coaxially and horizontally arranged in the mounting through hole; the driving mechanism is arranged at the bottom of the table top plate and used for driving the rotating platform to lift or rotate.

In the above technical scheme, two same length scale marks are symmetrically arranged on the surface of the table panel on the inner side of the guide rail along the longitudinal direction, and 360-degree angle scale marks are arranged on the table panel around the installation through hole along the circumferential direction.

Among the above-mentioned technical scheme, actuating mechanism includes driving motor one, shaft coupling, transmission shaft, guide block one, fixed plate, guide block two, electric putter one, the fixed plate transversely fixes rectangle steel frame bottom, the fixed plate middle part sets up rectangle through-hole one along vertical, fixed plate bottom intermediate position sets up vertical guide block one, guide block one upper end with fixed plate vertical connection is fixed, guide block one along vertical rectangle guiding hole one, guide hole one with through-hole one vertically is linked together, guide hole one with through-hole one is interior wears to set up vertical guide block two, guide block two both sides correspond on the guide block one lateral wall symmetry set up two vertical guide grooves, every guide block in the perpendicular direction guide block two lateral walls set up the ear seat, guide block one both sides symmetry set up two vertical guide block one, every electric putter one upper end be the stiff end with fixed plate connection, the lower extreme be the expansion end with the fixed connection of fixed plate, the guide block one with through-hole one wears to establish vertical through-hole one in the guide block two vertical shaft passes through the transmission shaft hole one, vertical through-hole is perpendicular to be connected with the transmission shaft hole down.

In the above technical scheme, the shell of the first driving motor is fixedly connected with the bottom of the second guide block through a plurality of support rods.

In the above-mentioned technical scheme, slide positioning mechanism includes two first sliders, two second sliders, first crossbeam, second crossbeam, longeron, set screw, clamp plate, first crossbeam, second crossbeam transversely alternate slip respectively set up on two guide rails, two first sliders sliding support on two guide rails are installed through the symmetry at first crossbeam both ends, two second sliders sliding support on two guide rails are installed through the symmetry at second crossbeam both ends, set up two parallel longerons along vertically on first crossbeam, the second crossbeam, every the longeron with the crossover point of first crossbeam, second crossbeam passes through set screw location fixed, the clamp plate of the equal height of the bottom of every longeron, the bottom surface of clamp plate with first crossbeam, second crossbeam bottom surface.

In the above technical scheme, roll flat-bed machine constructs including rolling flat motor, rubber roll, slider one, axle support, the rubber roll transversely sets up the deck plate top, the center pin both ends of deck plate are rotated through two axle supports and are supported, two axle supports are fixed two that symmetry set up on two guide rails on the slider one, one side set up on the axle support and roll flat motor, roll flat motor's output shaft with the center pin connection of rubber roll.

In the above-mentioned technical scheme, line drawing mechanism includes a supporting beam, vertical beam, lead screw one, driving motor two, nut seat one, girder steel, second lead screw, driving motor three, nut seat two, electric putter two, the supporting beam sets up along vertical level the deck plate top, a supporting beam both ends are fixed on the deck plate through two vertical beam supports, the below of supporting beam sets up horizontally lead screw one, the both ends of lead screw one rotate the support through the lead screw seat that sets up respectively in two vertical beam upper ends, lead screw one end with one of them driving motor two's that set up output shaft on the vertical beam lateral wall, a supporting beam bottom sets up horizontal rectangle block nut seat one, nut seat one cover is established on the lead screw one, the top surface laminating of nut seat one is supporting beam bottom, nut seat one bottom fixed horizontal girder steel, the notch of girder steel down, set up horizontally second along the notch of horizontal girder steel in the notch of girder steel, two pivoted support of block nut seat both ends through two rotation support motor that set up at two vertical beam ends, the girder steel beam seat bottom sets up through the electric nut seat one end of two sets up the electric nut seat one end of screw, the nut seat one is fixed with two sets up the electric nut seat one end of screw, the big end of screw seat sets up.

In the technical scheme, the pen vertically arranged is fixed at the telescopic end of the second electric push rod, and the pen point of the pen faces downwards.

The utility model has the following advantages:

according to the utility model, the clothing fabric is paved on the rotary platform, then the two rolling mechanisms are moved to the middle to be above the two ends of the clothing fabric, the rotary platform is controlled to be lifted through the control system until the rubber rollers of the two rolling mechanisms are lifted, the clothing fabric can be completely pressed, reverse rolling force is applied to the two ends through the two rolling mechanisms, the clothing fabric is rolled Ping Lazhan along the two directions, the clothing fabric is uniformly stressed in the flattening process, the clothing fabric cannot be damaged, then the two rolling mechanisms are respectively moved to the two sides and far away from the rotary platform, the rotary platform is driven to rotate through the driving mechanism, the clothing fabric on the rotary platform is driven to rotate, the irregular clothing fabric is rotationally positioned to a position easy to clamp and process, then the rotary platform is lifted, the periphery of the clothing fabric on the rotary platform is clamped through the sliding positioning mechanism, the clothing fabric can not be displaced to the periphery, the drawing line on the flat fabric is controlled through the control system, the drawing line is high in drawing precision, in addition, the clothing fabric positioning and clamping precision is suitable for the clothing fabric clamping positioning with various thicknesses, the positioning precision is not damaged, the positioning process is compact, the positioning of the clothing fabric is flexible, and the positioning structure is compact, and the clothing fabric positioning precision is easy, and the clothing positioning is compact, and the position is easy to clamp, and the clothing fabric is easy to clamp.

Description of the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic perspective view of the present utility model.

FIG. 3 is a schematic view of the installation position of the driving mechanism of the present utility model.

Fig. 4 is a schematic top view of the structure of the present utility model.

Fig. 5 is a schematic side view of the present utility model.

Fig. 6 is a schematic diagram of a front view structure of the present utility model.

FIG. 7 is a schematic cross-sectional view A-A of FIG. 6 in accordance with the present utility model.

Fig. 8 is a schematic drawing of the drawing structure of the present utility model.

Reference numerals:

1-an operation table; 11-a deck plate; 12-rectangular steel frame; 13-supporting legs; 14-mounting through holes;

2-a guide rail;

3-a slide positioning mechanism; 31-a first slider; 32-a second slider; 33-a first cross beam; 34-a second beam; 35-stringers; 36-set screw; 37-pressing plate;

4-rolling mechanism; 41-rolling a motor; 42-rubber roller; 43-first slide block; 44-shaft support;

5-a line drawing mechanism; 50-a second nut seat; 51-supporting beams; 52-vertical beams; 54-screw one; 55-driving a second motor; 56-a first nut seat; 57-steel channel beams; 58-a second lead screw; 59-driving a motor III; 501-an electric push rod II; 502-painting brushes;

6-rotating a platform;

7-a driving mechanism; 71-driving a first motor; 72-coupling; 73-a drive shaft; 74-guide block one; 75-fixing plates; 76-second guide block; 77-electric push rod one; 711-supporting rods; 741-guide hole one; 742-guide slots; 751-through-hole one; 761-ear mount; 762-shaft hole.

The specific embodiment is as follows:

the following description of the embodiments of the utility model further describes, but is not limited to, the following description in conjunction with the accompanying drawings:

example 1:

referring to fig. 1-8, a clamping and positioning device for clothing processing comprises an operation table 1, two guide rails 2, a sliding and positioning mechanism 3, two rolling and leveling mechanisms 4, a line drawing mechanism 5, a rotating platform 6 and a driving mechanism 7; the operation table 1 comprises a table panel 11, a rectangular steel frame 12 and supporting legs 13, wherein the table panel 11 is horizontally arranged, the rectangular steel frame 12 is welded and fixed at the bottom of the table panel 11, four supporting legs 13 are welded and fixed on the periphery of the bottom of the rectangular steel frame 12 to enable the table panel 11 to be kept in a horizontal state, a through circular mounting through hole 14 is formed in the middle of the table panel 11, a rotary platform 6 is horizontally arranged in the mounting through hole 14, the rotary platform 6 is used for driving clothing processing materials to lift or rotate, the rotary platform 6 is a circular disc matched with the mounting through hole 14, the rotary platform 6 is coaxially and horizontally arranged in the mounting through hole 14, and the diameter of the rotary platform 6 is slightly smaller than that of the mounting through hole 14, so that the rotary platform 6 can coaxially and vertically move relative to the mounting through hole 14; the two guide rails 2 are fixed on two sides of the surface of the table panel 11 in parallel along the longitudinal direction, the sliding positioning mechanisms 3 are arranged on the two guide rails 2 in a sliding manner, the two rolling mechanisms 4 are arranged on the two guide rails 2 at intervals transversely, the two rolling mechanisms 4 roll two ends of clothing materials reversely, so that the two ends of the clothing materials bear two rolling tensile forces, the wrinkled clothing is rolled up quickly, the line drawing work is convenient, the line drawing precision is high, the two rolling mechanisms 4 are positioned on the outer sides of the two sliding positioning mechanisms 3, and the line drawing mechanism 5 is arranged above the table panel 11; the driving mechanism 7 is arranged at the bottom of the table top 11 and is used for driving the rotary table 6 to lift or rotate.

In the embodiment, the clothing fabric is paved on the rotating platform, the two rolling mechanisms are moved to the middle to the upper parts of the two ends of the clothing fabric, the rotating platform is lifted until the rubber rollers of the two rolling mechanisms are lifted to completely press the clothing fabric, reverse rolling forces are applied to the clothing fabric from the two ends through the two rolling mechanisms, the clothing fabric is rolled and stretched in two directions, then the two rolling mechanisms are respectively moved to the two sides to be far away from the rotating platform, the rotating platform is driven to rotate through the driving mechanism, the clothing fabric is driven to rotate, the irregular clothing fabric is positioned to an orientation easy to clamp, then the rotating platform is lifted, the periphery of the clothing fabric on the rotating platform is clamped through the sliding positioning mechanism, so that the clothing fabric can not be displaced to the periphery, and the positioning and clamping of the irregular fabric are very advantageous.

In the above embodiment, the sliding positioning mechanism 3 includes two first sliders 31, two second sliders 32, a first beam 33, a second beam 34, longitudinal beams 35, positioning screws 36, and pressing plates 37, the first beam 33 and the second beam 34 are respectively and laterally arranged on the two guide rails 2 in a sliding manner at intervals, two ends of the first beam 33 are fixedly supported in a sliding manner by two first sliders 31 symmetrically arranged on the two guide rails 2, two ends of the second beam 34 are fixedly supported in a sliding manner by two second sliders 32 symmetrically arranged on the two guide rails 2, two parallel longitudinal beams 35 are longitudinally arranged on the first beam 33 and the second beam 34, each longitudinal beam 35 and a cross joint of the first beam 33 and the second beam 34 are fixedly positioned by the positioning screws 36, the bottom of each longitudinal beam 35 is fixedly provided with a horizontal pressing plate 37, the bottom of each pressing plate 37 is as high as the bottom of the first beam 33 and the bottom of the second beam 34, the two longitudinal beams 35 are fixedly arranged in the direction of the extrusion fabric, the two longitudinal beams 35 are respectively and fixedly connected with the two pressing plates 33 and 34 in a different vertical positioning direction, and the two pressing plates can be flexibly and flexibly connected with the two pressing plates 37 in a different positioning direction, and can be positioned in a vertical positioning direction and can be flexibly and flexibly positioned together.

In the above embodiment, two same length scale marks are symmetrically arranged on the surface of the table top 11 on the inner side of the guide rail 2 along the longitudinal direction, the first beam 33 and the second beam 34 precisely clamp the boundary of the longitudinal range of the region needing to be painted through the scale marks, the two boundaries of the transverse range of the clothing fabric are tightly pressed by the pressing plates 37 on the bottom of the two parallel longitudinal beams 35, the periphery of the clothing fabric can be fixedly clamped, in addition, 360-degree angle scale marks are arranged on the table top 11 on the periphery of the mounting through hole 14 along the circumferential direction, 360-degree angle scale marks are arranged on the outer ring edge of the rotary table 6 along the circumferential direction, and the clothing fabric is positioned and painted after being precisely deflected by a certain angle by rotating the rotary table 6.

In the above embodiment, the driving mechanism 7 includes a first driving motor 71, a coupling 72, a driving shaft 73, a first guide block 74, a fixing plate 75, a second guide block 76, and a first electric push rod 77, where the fixing plate 75 is transversely fixed at the bottom of the rectangular steel frame 12, a first rectangular through hole 751 is vertically disposed in the middle of the fixing plate 75, a first vertical guide block 74 is disposed in the middle of the bottom of the fixing plate 75, the upper end of the first guide block 74 is vertically connected and fixed with the fixing plate 75, the first guide block 74 is vertically provided with a first rectangular guide hole 741, the first guide hole 741 is vertically communicated with the first through hole 751, the first guide hole 741 and the second guide block 76 vertically disposed in the first through hole 751 are penetrated, two vertical guide grooves 742 are symmetrically disposed on the side walls of the first guide block 74 corresponding to the two sides of the second guide block 76, an ear seat 761 is arranged in each guide groove 742 and perpendicular to the side wall of the second guide block 76, two vertically arranged first electric push rods 77 are symmetrically arranged on two sides of the first guide block 74, the upper end of each first electric push rod 77 is a fixed end and fixedly connected with the fixed plate 75, the lower end of each first electric push rod 77 is a telescopic end and is hinged with the ear seat 761, the second guide block 76 is vertically provided with a cylindrical shaft hole 762 which penetrates vertically, the transmission shaft 73 vertically penetrates through the shaft hole 762, the upper end of the transmission shaft 73 is fixedly connected with the bottom of the rotary platform 6, the lower end of the transmission shaft 73 extends downwards and penetrates through the shaft hole 762 and is connected with the output shaft of the first driving motor 71 through the shaft hole 762, the first driving motor 71 drives the transmission shaft 73 to rotate through the shaft 72, the transmission shaft 73 rotates to drive the rotary platform 6 to rotate, angle scale marks are arranged on the periphery of the rotary platform 6, according to the actual need, the angle scale marks on the table top plate 11 around the installation through hole 14 rotate by a certain angle, so that the clothing fabric on the rotary platform 6 is processed after being adjusted to the right position, the height of the rotary platform 6 is adjusted by two electric push rods 77, the telescopic ends of the electric push rods 77 extend, the rotary platform 6 lowers the height downwards, the telescopic ends of the electric push rods 77 retract, and the rotary platform 6 rises upwards.

In the above embodiment, the housing of the first driving motor 71 is fixedly connected to the bottom of the second guide block 76 through a plurality of support rods 711.

In the above embodiment, the leveling mechanism 4 includes a leveling motor 41, a rubber roller 42, a first slider 43, and a shaft support 44, the rubber roller 42 is transversely disposed above the table panel 11, two ends of a central shaft of the table panel 11 are rotatably supported by two shaft supports 44, the two shaft supports 44 are fixed on the two first sliders 43 symmetrically disposed on the two guide rails 2, the leveling motor 41 is disposed on one side of the shaft support 44, and an output shaft of the leveling motor 41 is connected with the central shaft of the rubber roller 42.

In the above embodiment, the two roll-off mechanisms 4 operate on the principle: before the clothing fabric is clamped, the two rolling mechanisms 4 are lifted up by the rotating platform 6 until the two ends of the clothing fabric on the upper surface of the rotating platform 6 are pressed by the rubber rollers 42 of the two rolling mechanisms 4, then the two rubber rollers 42 rotate reversely, the two ends of the clothing fabric are respectively driven to move reversely to the two sides by rotation, the clothing fabric is pulled to be in a flat state, and then the two rubber rollers 42 stop rotating synchronously.

In the above embodiment, the line drawing mechanism 5 includes a support beam 51, a vertical beam 52, a first screw rod 54, a second driving motor 55, a first nut seat 56, a steel channel beam 57, a second screw rod 58, a third driving motor 59, a second nut seat 50, and a second electric push rod 501, where the support beam 51 is horizontally disposed above the table plate 11 in a longitudinal direction, two ends of the support beam 51 are supported and fixed on the table plate 11 by two vertical beams 52, a horizontal first screw rod 54 is disposed below the support beam 51, two ends of the first screw rod 54 are rotatably supported by screw rod seats respectively disposed at the upper ends of the two vertical beams 52, one end of the first screw rod 54 is connected with an output shaft of the second driving motor 55 disposed on an outer sidewall of one of the vertical beams 52, a first transverse rectangular nut seat 56 is disposed at a bottom of the support beam 51, the first nut seat 56 is sleeved on the first screw rod 54, the first nut seat 56 is provided with a screw hole matched with the screw driving screw rod of the first screw rod 54, the first screw rod 54 rotates to drive the first nut seat 56 to move spirally in the axial direction of the first nut seat 56, the top surface of the first nut seat 56 is attached to the bottom of the supporting beam 51, the first nut seat 56 can not rotate but only move, the bottom of the first nut seat 56 is fixedly provided with a transverse steel channel beam 57, the notch of the steel channel beam 57 faces downwards, the notch of the steel channel beam 57 is internally provided with a horizontal second screw rod 58 along the transverse direction, two ends of the second screw rod 58 are rotatably supported by two screw rod seats two arranged at two ends of the steel channel beam 57, one end of the second screw rod 58 is driven to rotate by a driving motor three 59 arranged at one end of the steel channel beam 57, the second screw rod 58 rotates to drive the second nut seat 50 to move, the notch of the steel channel beam 57 is internally provided with a rectangular block nut seat two 50 matched with the notch of the steel channel beam, the bottom of the second nut seat 50 is fixed with a second vertical electric push rod 501, and the fixed end of the second electric push rod 501 is fixed with the second nut seat 50.

In the above embodiment, the pen 502 is fixed at the telescopic end of the second electric putter 501, and the nib of the pen 502 faces downward.

The working principle of the line drawing mechanism 5 is as follows: the drawing mechanism 5 works after the cloth fabric is clamped and positioned, the PLC control system is used for programming, the processing drawing shape of the cloth is designed, then a program is led into the control system, and the control system controls the drawing mechanism 5 to realize the combination of transverse movement and longitudinal movement, so that the drawing of the specific shape is completed. Specifically, the driving motor II 55 drives the screw rod I54 to rotate, drives the nut seat I56 to move along the bottom surface of the longitudinal joint supporting beam 51, the nut seat I56 drives the steel channel beam 57 to move along the longitudinal direction, the driving motor III 59 drives the second screw rod 58 to rotate, drives the nut seat II 50 to move in the groove of the steel channel beam 57, the nut seat II 50 drives the electric push rod II 501 to move, the electric push rod II 501 drives the painting brush 502 to move downwards and joint the clothing fabric to move, different curves or straight lines are drawn by combining the transverse and longitudinal movements of the painting brush 502, the line drawing precision of the clamped and positioned clothing fabric is high, and the automatic line drawing painting brush 502 is matched to work, and the efficiency is high.

The above embodiments are merely for illustrating the technical concept and technical features of the present utility model, and should not be construed as limiting the scope of the present utility model. All equivalent changes or modifications made according to the essence of the present utility model should be included in the scope of the present utility model.

Claims (8)

1. A clamping and positioning device for clothing processing, comprising:

the operation table (1), the operation table (1) comprises a table panel (11), a rectangular steel frame (12) and supporting legs (13), wherein the rectangular steel frame (12) is fixed at the bottom of the table panel (11), four supporting legs (13) are arranged around the bottom of the rectangular steel frame (12) to support, and a circular mounting through hole (14) is formed in the middle of the table panel (11);

the two guide rails (2) are longitudinally arranged at two sides of the surface of the table top plate (11) in parallel;

the sliding positioning mechanism (3), the sliding positioning mechanism (3) is arranged on the two guide rails (2);

the two rolling mechanisms (4) are transversely arranged on the two guide rails (2) at intervals;

wherein the two rolling mechanisms (4) are positioned outside the two sliding positioning mechanisms (3);

the line drawing mechanism (5) is arranged above the table panel (11);

the rotary platform (6) is a disc matched with the mounting through hole (14), and the rotary platform (6) is coaxially and horizontally arranged in the mounting through hole (14);

the driving mechanism (7) is arranged at the bottom of the table panel (11) and used for driving the rotary platform (6) to lift or rotate.

2. The clamping and positioning device for clothing processing according to claim 1, wherein two identical length scale marks are symmetrically arranged on the surface of the table top plate (11) on the inner side of the two guide rails (2) along the longitudinal direction, and 360-degree angle scale marks are arranged on the table top plate (11) around the installation through hole (14) along the circumferential direction.

3. A clamping and positioning device for clothing processing according to claim 1, characterized in that the sliding and positioning mechanism (3) comprises two first sliding blocks (31), two second sliding blocks (32), a first cross beam (33), a second cross beam (34), longitudinal beams (35), positioning screws (36) and pressing plates (37), the first cross beam (33) and the second cross beam (34) are respectively and transversely arranged on the two guide rails (2) in a sliding manner at intervals, two ends of the first cross beam (33) are slidably supported by two first sliding blocks (31) symmetrically arranged on the two guide rails (2), two ends of the second cross beam (34) are slidably supported by two second sliding blocks (32) symmetrically arranged on the two guide rails (2), two parallel longitudinal beams (35) are longitudinally arranged on the first cross beam (33) and the second cross beam (34), the cross joint point of each longitudinal beam (35) and the first cross beam (33) is fixedly positioned by the positioning screws (36), the bottom of each longitudinal beam (35) is fixedly arranged on the horizontal bottom surface (37) of the second cross beam (34), and the bottom surface (37) of each longitudinal beam (35) is fixedly arranged on the horizontal bottom surface (37), and the like.

4. The clamping and positioning device for clothing processing according to claim 1, wherein the rolling mechanism (4) comprises a rolling motor (41), a rubber roller (42), a first sliding block (43) and a shaft support (44), the rubber roller (42) is transversely arranged above the table panel (11), two ends of a central shaft of the table panel (11) are rotatably supported through the two shaft supports (44), the two shaft supports (44) are fixed on the two first sliding blocks (43) symmetrically arranged on the two guide rails (2), the rolling motor (41) is arranged on the shaft support (44) on one side, and an output shaft of the rolling motor (41) is connected with the central shaft of the rubber roller (42).

5. The clamping and positioning device for clothing processing according to claim 1, wherein the line drawing mechanism (5) comprises a supporting beam (51), a vertical beam (52), a first lead screw (54), a second driving motor (55), a first nut seat (56), a steel channel beam (57), a second lead screw (58), a third driving motor (59), a second nut seat (50) and a second electric push rod (501), wherein the supporting beam (51) is horizontally arranged above the table plate (11) along the longitudinal direction, two ends of the supporting beam (51) are supported and fixed on the table plate (11) through two vertical beams (52), a horizontal first lead screw (54) is arranged below the supporting beam (51), two ends of the first lead screw (54) are rotatably supported through lead screw seats respectively arranged at the upper ends of the two vertical beams (52), one end of the first lead screw (54) is connected with an output shaft of the second driving motor (55) arranged on the outer side wall of one of the steel beam (52), a transverse rectangular block nut seat (56) is arranged at the bottom of the supporting beam (51), one nut seat (56) is sleeved on the top of the first nut seat (56), the groove seat (56) is fixed towards the bottom of the first lead screw seat (57), the groove is characterized in that a horizontal second screw rod (58) is arranged in the groove opening of the steel channel beam (57) along the length direction, two screw rod seats arranged at two ends of the second screw rod (58) are rotatably supported through two screw rod seats arranged at two ends of the steel channel beam (57), one end of the second screw rod (58) is driven to rotate through a driving motor III (59) arranged at one end of the steel channel beam (57), a rectangular block-shaped nut seat II (50) matched with the groove opening of the steel channel beam (57) in size is arranged in the groove opening of the steel channel beam, an electric push rod II (501) is fixedly arranged at the bottom of the nut seat II (50), and the fixed end of the electric push rod II (501) is fixed with the nut seat II (50).

6. The clamping and positioning device for clothes processing according to claim 5, wherein a vertically arranged painting brush (502) is fixed at the telescopic end of the second electric push rod (501), and the pen point of the painting brush (502) faces downwards.

7. The clamping and positioning device for clothing processing according to claim 1, wherein the driving mechanism (7) comprises a driving motor I (71), a coupling (72), a transmission shaft (73), a guide block I (74), a fixing plate (75), a guide block II (76) and an electric push rod I (77), the fixing plate (75) is transversely fixed at the bottom of the rectangular steel frame (12), a rectangular through hole I (751) is vertically arranged in the middle of the fixing plate (75), a vertically arranged guide block I (74) is arranged in the middle of the bottom of the fixing plate (75), the upper end of the guide block I (74) is vertically connected and fixed with the fixing plate (75), the guide block I (74) is vertically provided with a rectangular guide hole I (741), the guide hole I (741) is vertically communicated with the guide block II (76) which is vertically arranged in the through hole I (751), two symmetrical guide blocks (742) are arranged on the side walls of the guide block I (74) corresponding to the two sides of the guide block I (76), two symmetrical guide blocks (742) are arranged in the two side walls of the electric push rod I (761), two symmetrical guide blocks (742) are arranged in the two side walls of the electric push rod I (76), each electric putter one (77) upper end be the stiff end with fixed plate (75) are connected fixedly, the lower extreme for flexible end with ear seat (761) are articulated to be connected, guide block two (76) are along cylindrical shaft hole (762) that link up from top to bottom of vertical setting, transmission shaft (73) are vertically worn to establish in shaft hole (762), transmission shaft (73) upper end with rotary platform (6) bottom is connected fixedly, transmission shaft (73) lower extreme downwardly extending and wear in shaft hole (762) are through shaft coupling (72) and driving motor one (71) output shaft.

8. The clamping and positioning device for clothing processing according to claim 7, wherein the shell of the first driving motor (71) is fixedly connected with the bottom of the second guide block (76) through a plurality of supporting rods (711).

Images