CN112589916A - Hot melting cutting machine for wool cotton cloth special-shaped materials - Google Patents

Abstract

The invention relates to a hot melting cutting machine, in particular to a hot melting cutting machine for a plush cotton cloth special-shaped material. The technical problem to be solved is as follows: the plush-cotton-cloth special-shaped material hot melting cutting machine can realize automatic up-and-down pressing and moving. A hot-melting cutting machine for plush cotton cloth special-shaped materials comprises an operating platform and a fixed pile, wherein one side of the top of the operating platform is connected with the fixed pile; the fixing pile is connected with a vertical rod; the vertical rod is connected with a lifting rotating mechanism; the lifting rotating mechanism is connected with the moving mechanism; the moving mechanism is connected with the separating mechanism; and the hot melting mechanism is connected between the moving mechanism and the separating mechanism. Through the cooperation between lifting and rotating mechanism, moving mechanism, hot melt mechanism and the disengagement mechanism, can rotate this device and place the cotton into, carry out the hot melt cutting to the cotton is automatic afterwards, need not artifical continuous luffing motion arm cutting like this, improve people's work efficiency.

Description

Hot melting cutting machine for wool cotton cloth special-shaped materials

Technical Field

The invention relates to a hot melting cutting machine, in particular to a hot melting cutting machine for a plush cotton cloth special-shaped material.

Background

Cloth cutting is the most common technique in garment factories, and cloth with a desired shape can be freely cut out. The traditional method for cutting cloth is to use scissors, a roller knife and a cutting machine to cut, the arm of a person is sore after the cloth is cut manually for a long time, the cloth is not suitable for large-batch cutting, and the scissors and the roller knife belong to manual cutting. In contrast, machine cutting belongs to the choice of factories, and manual operation is not needed, so that the workload of people is reduced, and the yield can be continuously improved.

The plush cotton cloth cutting method cannot simply use a cutter to cut, plush can cause machine jamming, the most common method at present uses a hot melt cutting machine to cut, but the hot melt cutting machine needs to be pressed up and down manually to cut, so that the operation is slow, and the arm pain of people is easily caused, therefore, the plush cotton cloth special-shaped material hot melt cutting machine capable of realizing automatic up and down pressing and moving is developed at present.

Disclosure of Invention

In order to overcome the defects that the ordinary hot-melting cutting machine can cut only by continuously pressing up and down, the operation is slow, and the arm of people is easy to ache, the technical problem to be solved is as follows: the plush-cotton-cloth special-shaped material hot melting cutting machine can realize automatic up-and-down pressing and moving.

The technical implementation scheme of the invention is as follows: a hot-melting cutting machine for plush cotton cloth special-shaped materials comprises:

the device comprises an operation platform and a fixed pile, wherein the fixed pile is connected to one side of the top of the operation platform;

the fixing pile is connected with a vertical rod;

the vertical rod is connected with a lifting rotating mechanism;

the lifting rotating mechanism is connected with the moving mechanism;

the moving mechanism is connected with the separating mechanism;

and the hot melting mechanism is connected between the moving mechanism and the separating mechanism and is connected with the lifting rotating mechanism.

Further, the lifting and rotating mechanism comprises:

the fixed pile is sleeved with the rotating pipe;

the rotating pipe is connected with the connecting block, and the connecting block is connected with the moving mechanism and the hot melting mechanism;

the lower side of the vertical rod is rotatably connected with the rotating disc;

the top of the rotating disc is connected with a first bevel disk;

the two sides of the rear part of the outer wall of the rotating disc are both connected with a first driving plate;

the first driving plate on the right side is connected with a handle;

the outer wall of the lower part of the rotating pipe is connected with the fixed disc;

the front side of the bottom of the fixed disc is connected with a second bevel disk, and the second bevel disk and the first bevel disk are in extrusion press fit;

and the two sides of the front part of the outer wall of the fixed disc are both connected with a second drive plate, and the first drive plate is in extrusion fit with the second drive plate.

Further, the moving mechanism includes:

one side of the connecting block is connected with an inclined plate;

the connecting rods are uniformly connected to two sides of the bottom of the inclined plate;

the fixing frames are connected between the bottoms of the transverse connecting rods;

the connecting block is connected with the speed reducing motor;

the two sides between the fixing frames are rotatably connected with the rollers, and the output shaft of the speed reducing motor is connected with the right roller;

the synchronous belt is wound between the rollers and connected with the separation mechanism.

Further, the disengagement mechanism includes:

the bottom of the synchronous belt is connected with the connecting frame;

the bottom of the connecting frame is connected with a square plate, and the square plate is connected with the hot melting mechanism;

the middle part of the square plate is provided with a square groove, and the square plate is connected with the square ring;

the two sides of the top of the square hole ring are connected with the bracket;

the wire guide wheels are rotatably connected between the brackets;

the sliding sleeves are connected with the brackets;

the sliding rods are connected with the sliding sleeves in a sliding manner;

the round head rod is connected between the bottoms of the sliding rods and is connected with the hot melting mechanism;

the top of the square plate is connected with a wedge-shaped plate;

the pull rope is connected between the wedge-shaped plate and the top of the round-head rod and wound on the wire guide wheel;

the springs are connected between the bottom of the sliding sleeve and the top of the round-head rod and sleeved outside the sliding rod.

Further, the hot melting mechanism comprises:

the fixing column is connected between the inclined plate and the left side of the connecting rod;

the square rod is connected between the lower part of the fixed column and the connecting block, and locking holes are uniformly formed in the square rod and are clamped with the round head rod;

the square hole sleeves are connected to the two sides of the square rod in a sliding mode, and the tops of the square hole sleeves are connected with the square plates;

the guide sleeves are connected to two sides of the square hole sleeve;

the guide rods are connected to the guide sleeves in a sliding manner;

the modeling frame is connected between the bottoms of the guide rods;

the bottom of the modeling frame is connected with the electric heating wire;

the driving frame is connected between the tops of the guide rods and is connected with the round head rod.

Further, still include locking mechanical system, locking mechanical system includes:

the fixing plate is connected to one side, close to the fixing pile, of the top of the operating platform;

the fixing plate is connected with a second fluted disc;

the outer wall of one side of the rotating pipe, which is close to the second gear, is connected with a first gear, and the first gear is meshed with the second gear.

Further, still include adjustment mechanism, adjustment mechanism includes:

one side of the driving frame is connected with a nut;

the screw is connected to the nut in a threaded manner, and the bottom of the screw is in contact with the square rod;

the adjusting ring is connected with the top of the screw rod.

Further, still include reduction gears, reduction gears includes:

the upper part of the rotating pipe is connected with the friction sleeve;

and one side of the vertical rod, which is close to the friction sleeve, is connected with the friction pipe, and the friction sleeve is in contact fit with the friction pipe.

Further, still including positioning mechanism, positioning mechanism includes:

the right front side of the operating platform is connected with a support plate;

the support plate is connected with the magnet;

the iron disc is connected with the connecting block and attracted with the magnet.

The beneficial effects are that: 1. through the cooperation between lifting and rotating mechanism, moving mechanism, hot melt mechanism and the disengagement mechanism, can rotate this device and place the cotton into, carry out the hot melt cutting to the cotton is automatic afterwards, need not artifical continuous luffing motion arm cutting like this, improve people's work efficiency.

2. Through locking mechanical system's cooperation, this equipment can block the rotating tube at the in-process of cutting, makes it unable rotation to influence cutting effect like this, improve the cutting quality.

3. People can adjust the height of the driving frame according to the thickness of cotton cloth, and through rotating the adjusting ring and the screw rod, the driving frame moves up and down to adjust the height, and under the contact and matching of the friction sleeve and the friction pipe, the rotating speed of the rotating pipe is hindered, and the rotating speed is reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the positioning mechanism of the present invention.

Fig. 3 is a schematic perspective view of the lifting rotating mechanism of the present invention.

Fig. 4 is a schematic perspective view of a first part of the present invention.

Fig. 5 is a perspective view of the locking mechanism of the present invention.

Fig. 6 is a perspective view of a second part of the present invention.

Fig. 7 is a perspective view of a third part of the present invention.

Fig. 8 is a schematic perspective view of the moving mechanism of the present invention.

Fig. 9 is a schematic perspective view of the heat-melting mechanism of the present invention.

Fig. 10 is a perspective view of the detachment mechanism of the present invention.

Wherein the figures include the following reference numerals: 1. an operation table, 2, a fixed pile, 3, a vertical rod, 4, a lifting rotating mechanism, 41, a rotating pipe, 42, a connecting block, 43, a rotating disc, 44, a first bevel disc, 45, a first driving plate, 46, a handle, 47, a fixed disc, 48, a second bevel disc, 49, a second driving plate, 5, a moving mechanism, 51, a bevel plate, 52, a connecting rod, 53, a fixed frame, 54, a speed reducing motor, 55, a roller, 56, a synchronous belt, 6, a hot melting mechanism, 61, a fixed column, 62, a square rod, 63, a locking hole, 64, a square hole sleeve, 65, a guide sleeve, 66, a guide rod, 67, a modeling frame, 68, an electric heating wire, 69, a driving frame, 7, a disengaging mechanism, 71, a connecting frame, 72, a square plate, 73, a square groove, 74, a square hole ring, 75, a support, 76, a guide wire wheel, 77, a pull rope, 78, a wedge plate, 79, a sliding sleeve, 710, a spring, 711, a, Round head rod, 8, locking mechanism, 81, fixed plate, 82, first fluted disc, 83, second fluted disc, 9, adjusting mechanism, 91, nut, 92, screw, 93, adjusting ring, 10, reducing mechanism, 101, friction sleeve, 102, friction tube, 11, positioning mechanism, 111, support plate, 112, magnet, 113, iron disc.

Detailed Description

The invention is further illustrated by the following specific examples in which, unless otherwise explicitly stated and limited, terms such as: the arrangement, installation, connection are to be understood broadly, for example, they may be fixed, detachable, 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.

Example 1

The utility model provides a cotton flannel special-shaped material hot melt cutting machine, as shown in figure 1, including operation panel 1, the spud pile 2, montant 3, lift slewing mechanism 4, moving mechanism 5, hot melt mechanism 6 and disengagement mechanism 7, the right front side in 1 top of operation panel is connected with spud pile 2, be connected with montant 3 on the spud pile 2, be connected with lift slewing mechanism 4 on the montant 3, 4 left sides in lift slewing mechanism are connected with moving mechanism 5, be connected with disengagement mechanism 7 on the moving mechanism 5, be connected with hot melt mechanism 6 between moving mechanism 5 and the disengagement mechanism 7, hot melt mechanism 6 is connected with lift slewing mechanism 4.

When people need to perform hot melting and cutting on the cotton cloth, firstly, the lifting and rotating mechanism 4 is rotated, the lifting and rotating mechanism 4 drives the moving mechanism 5, the hot melting mechanism 6 and the separating mechanism 7 to ascend firstly, then the moving mechanism 5, the hot melting mechanism 6 and the separating mechanism 7 rotate towards the rear side, then, the cotton cloth is placed on the operating platform 1, the rotating and lifting and rotating mechanism 4 is reset, the moving mechanism 5, the hot melting mechanism 6 and the separating mechanism 7 are driven to rotate, reset and descend, then, parts of the moving mechanism 5 are started, the hot melting mechanism 6 and the separating mechanism 7 are driven to move towards the right to perform hot melting and cutting on the cotton cloth, when the hot melting mechanism 6 and the separating mechanism 7 move to the rightmost side, the parts of the separating mechanism 7 are stirred, then, the parts of the moving mechanism 5 are controlled to rotate reversely, the hot melting mechanism 6 and the separating mechanism 7 move towards the left to reset, the, when not in use, the moving mechanism 5 may be closed.

Example 2

On the basis of embodiment 1, as shown in fig. 3, 4, 7 and 8, the lifting rotating mechanism 4 comprises a rotating tube 41, a connecting block 42, a rotating disc 43, a first bevel disc 44, a first driving plate 45, a handle 46, a fixed disc 47, a second bevel disc 48 and a second driving plate 49, the rotating tube 41 is sleeved on the fixing pile 2, the connecting block 42 is connected to the left side of the rotating tube 41, the connecting block 42 is connected with the moving mechanism 5 and the hot melting mechanism 6, the rotating disc 43 is rotatably connected to the lower side of the vertical rod 3, the first bevel disc 44 is connected to the rear side of the top of the rotating disc 43, the first driving plate 45 is connected to the left and right sides of the rear part of the outer wall of the rotating disc 43, the handle 46 is connected to the right side of the first driving plate 45 on the right side, the fixed disc 47 is connected to the lower outer wall of the rotating tube 41, the second bevel disc 48 is connected to the front side of the, the left side and the right side of the front part of the outer wall of the fixed disc 47 are both connected with second driving plates 49, and the first driving plate 45 is in extrusion fit with the second driving plates 49.

When cotton cloth needs to be placed, the handle 46 is held by a hand to rotate forwards to drive the first bevel disk 44 and the first driving plate 45 to rotate forwards, so that the second bevel disk 48 is extruded with the first bevel disk 44 to drive the second bevel disk 48, the second driving plate 49, the fixed disk 47, the rotating pipe 41, the connecting block 42, the moving mechanism 5, the hot melting mechanism 6 and the release mechanism 7 to move upwards, when the second driving plate 49 on the right side is in contact with the first driving plate 45, the second driving plate 49 is driven to rotate backwards to drive the second bevel disk 48, the fixed disk 47, the rotating pipe 41, the connecting block 42, the moving mechanism 5, the hot melting mechanism 6 and the release mechanism 7 to rotate backwards, then the cotton cloth can be placed on the operating platform 1, then the handle 46 is held by a hand to rotate backwards to drive the first bevel disk 44 and the first driving plate 45 to rotate backwards, and when the second bevel disk 48 is separated from the first bevel disk 44, the second bevel disk 48, the first bevel disk, Under the action of gravity of the second driving plate 49, the fixed disk 47, the rotating tube 41, the connecting block 42, the moving mechanism 5, the hot melting mechanism 6 and the disengaging mechanism 7, the second bevel disk 48, the second driving plate 49, the fixed disk 47, the rotating tube 41, the connecting block 42, the moving mechanism 5, the hot melting mechanism 6 and the disengaging mechanism 7 are driven to move downwards for resetting, and when the second driving plate 49 on the left side is in contact with the first driving plate 45, the second driving plate 49 is driven to rotate forwards to drive the second bevel disk 48, the fixed disk 47, the rotating tube 41, the connecting block 42, the moving mechanism 5, the hot melting mechanism 6 and the disengaging mechanism 7 to rotate forwards for resetting.

The moving mechanism 5 comprises an inclined plate 51, connecting rods 52, a fixing frame 53, a speed reducing motor 54, a roller 55 and a synchronous belt 56, the inclined plate 51 is connected to the upper portion of the left side of the connecting block 42, the connecting rods 52 are evenly connected to the front side and the rear side of the bottom of the inclined plate 51, the fixing frame 53 is connected between the bottoms of the transverse connecting rods 52, the speed reducing motor 54 is connected to the rear side of the connecting block 42, the roller 55 is rotatably connected to the left side and the right side between the fixing frames 53, an output shaft of the speed reducing motor 54 is connected with the roller 55 on the right side.

When the hot melting mechanism 6 and the separation mechanism 7 need to be moved, the speed reducing motor 54 is started, the output shaft of the speed reducing motor 54 rotates to drive the roller 55 and the synchronous belt 56 to rotate, the hot melting mechanism 6 and the separation mechanism 7 are driven to move rightwards, when the hot melting mechanism 6 and the separation mechanism 7 need to be moved and reset, the speed reducing motor 54 is controlled to rotate reversely, the output shaft of the speed reducing motor 54 rotates reversely to drive the roller 55 and the synchronous belt 56 to rotate reversely, the hot melting mechanism 6 and the separation mechanism 7 are driven to move leftwards to reset, and the speed reducing motor 54.

Example 3

Based on the embodiment 2, as shown in fig. 2, 3, 5, 6, 9 and 10, the detaching mechanism 7 comprises a connecting frame 71, a square plate 72, a square hole ring 74, a support frame 75, a wire guiding wheel 76, a pulling rope 77, a wedge plate 78, a sliding sleeve 79, a spring 710, a sliding rod 711 and a round rod 712, the connecting frame 71 is connected to the left side of the bottom of the synchronous belt 56, the square plate 72 is connected to the bottom of the connecting frame 71, the square plate 72 is connected to the hot melting mechanism 6, a square groove 73 is formed in the middle of the square plate 72, the square hole ring 74 is connected to the middle of the square plate 72, the supports 75 are connected to the front and rear sides of the top of the square hole ring 74, the wire guiding wheel 76 is rotatably connected between the upper portions of the supports 75, the sliding sleeve 79 is connected to the left side of the supports 75, the sliding sleeve 79 is slidably connected to the sliding rod 711, the round rod 712 is connected between the bottoms, a pull rope 77 is connected between the left upper side of the wedge plate 78 and the right side of the top of the round-head rod 712, the pull rope 77 is wound on the wire guide wheel 76, springs 710 are connected between the bottom of the sliding sleeve 79 and the top of the round-head rod 712, and the springs 710 are sleeved outside the sliding rod 711.

When the synchronous belt 56 rotates forwards, the connecting frame 71, the square plate 72 and the wedge plate 78 are driven to move rightwards, so that the pulling rope 77 is pulled rightwards to drive the round head rod 712 to move upwards, so that the round head rod 712 is separated from the hot melting mechanism 6, the sliding rod 711 moves upwards, the spring 710 is compressed, then the round head rod 712, the sliding rod 711, the spring 710 and the heat fusing mechanism 6 move rightwards along with the pulling rope 77, when the round head rod 712 is clamped with the heat fusing mechanism 6, under the action of the spring 710, the round-head rod 712 and the sliding rod 711 are driven to move downwards, so that the hot melting mechanism 6 moves downwards to cut cotton cloth, then, as the pulling rope 77 moves rightward again, when the round bar 712, the sliding bar 711, the spring 710 and the heat fusing mechanism 6 move to the rightmost side, one moves the sliding bar 711 and the round bar 712 upward, so that the synchronous belt 56 rotates reversely to drive the connecting frame 71, the square plate 72, the round-head rod 712, the sliding rod 711, the spring 710 and the hot-melting mechanism 6 to move leftwards and return.

The hot melting mechanism 6 comprises a fixed column 61, a square rod 62, a square hole sleeve 64, a guide sleeve 65, a guide rod 66, a modeling frame 67, an electric heating wire 68 and a driving frame 69, wherein the fixed column 61 is connected between the inclined plate 51 and the left side of the connecting rod 52, the square rod 62 is connected between the right side of the lower part of the fixed column 61 and the connecting block 42, the square rod 62 is uniformly provided with locking holes 63, the locking holes 63 are clamped with the round rod 712, the square rod 62 is provided with the square hole sleeve 64 in a sliding manner on the left side and the right side, the top of the square hole sleeve 64 is connected with the square plate 72, the front side and the rear side of the square hole sleeve 64 are respectively connected with the guide sleeve 65, the guide rod 66 is provided with the sliding manner on the guide sleeve 65, the modeling frame 67 is connected between the bottoms of the guide rod 66.

When the round head rod 712 moves upwards to be separated from the locking hole 63, the driving frame 69, the guide rod 66, the modeling frame 67 and the heating wire 68 are driven to move upwards, the square plate 72 moves rightwards, the square hole sleeve 64, the guide sleeve 65, the guide rod 66, the modeling frame 67, the heating wire 68 and the driving frame 69 are driven to move rightwards, when the round head rod 712 moves rightwards to be in contact with the next locking hole 63, the round head rod 712 moves downwards to be clamped with the locking hole 63, the driving frame 69, the guide rod 66, the modeling frame 67 and the heating wire 68 are driven to move downwards to cut the cotton cloth, and the cotton cloth can be cut continuously by repeating the above operations.

The locking mechanism 8 comprises a fixing plate 81, a first fluted disc 82 and a second fluted disc 83, the fixing plate 81 is connected to the front right side of the top of the operating platform 1, the second fluted disc 83 is connected to the right side of the fixing plate 81, the first fluted disc 82 is connected to the outer wall of the lower portion of the rotating pipe 41, and the first fluted disc 82 is meshed with the second fluted disc 83.

When the rotating tube 41 moves upward, the first toothed disc 82 is driven to move upward, so that the first toothed disc 82 is separated from the second toothed disc 83, and when the rotating tube 41 moves downward, the first toothed disc 82 is driven to move downward to be meshed with the second toothed disc 83, so that when cutting is performed, the rotating tube 41 is clamped and cannot rotate, and the cutting effect is not affected.

The front side of the driving frame 69 is connected with the nut 91, the nut 91 is connected with the screw 92 in a threaded manner, the bottom of the screw 92 is in contact with the square rod 62, and the top of the screw 92 is connected with the adjusting ring 93.

People can adjust the height of the driving frame 69 according to the thickness of the cotton cloth, and the height of the driving frame 69 is adjusted by moving the adjusting ring 93 and the screw 92 up and down.

The speed reducing mechanism 10 comprises a friction sleeve 101 and a friction pipe 102, the friction sleeve 101 is connected to the upper portion of the rotating pipe 41, the friction pipe 102 is connected to the upper portion of the vertical rod 3, and the friction sleeve 101 is in contact fit with the friction pipe 102.

When the rotating pipe 41 rotates, the friction sleeve 101 is driven to rotate, and under the contact fit of the friction sleeve 101 and the friction pipe 102, the rotating speed of the rotating pipe 41 can be hindered, and the rotating speed can be reduced.

The positioning device comprises a positioning mechanism 11, the positioning mechanism 11 comprises a support plate 111, a magnet 112 and an iron disc 113, the support plate 111 is connected to the right front side of the operating platform 1, the magnet 112 is connected to the rear side of the upper portion of the support plate 111, the iron disc 113 is connected to the front portion of the connecting block 42, and the iron disc 113 is attracted to the magnet 112.

When the connecting block 42 rotates to drive the iron disc 113 to reset, the iron disc 113 and the connecting block 42 are driven to rotate to reset under the attraction of the magnet 112.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (9)

1. The utility model provides a cotton flannel special-shaped material hot melt cutting machine, characterized by, including:

the device comprises an operating platform (1) and a fixed pile (2), wherein the fixed pile (2) is connected to one side of the top of the operating platform (1);

the vertical rod (3) is connected to the fixed pile (2);

the lifting rotating mechanism (4) is connected to the vertical rod (3);

the moving mechanism (5) is connected with the lifting rotating mechanism (4);

the separation mechanism (7) is connected with the moving mechanism (5);

the hot melting mechanism (6) is connected between the moving mechanism (5) and the separating mechanism (7), and the hot melting mechanism (6) is connected with the lifting rotating mechanism (4).

2. The hot-melting cutting machine for plush cotton cloth special-shaped materials as claimed in claim 1, characterized in that the lifting and rotating mechanism (4) comprises:

the fixed pile (2) is sleeved with the rotating pipe (41);

the rotating pipe (41) is connected with the connecting block (42), and the connecting block (42) is connected with the moving mechanism (5) and the hot melting mechanism (6);

the lower side of the vertical rod (3) is rotatably connected with the rotating disc (43);

the top of the rotating disc (43) is connected with the first bevel disk (44);

the two sides of the rear part of the outer wall of the rotating disc (43) are connected with the first driving plate (45);

a handle (46), wherein the handle (46) is connected with the first driving plate (45) on the right side;

the outer wall of the lower part of the rotating pipe (41) is connected with the fixed disc (47);

the front side of the bottom of the fixed disc (47) is connected with a second bevel disc (48), and the second bevel disc (48) is in extrusion fit with the first bevel disc (44);

the two sides of the front part of the outer wall of the fixed disc (47) are both connected with a second driving plate (49), and the first driving plate (45) is in extrusion fit with the second driving plate (49).

3. A lint cotton cloth profile material hot-melt cutting machine according to claim 2, wherein the moving mechanism (5) comprises:

one side of the connecting block (42) is connected with the inclined plate (51);

the connecting rods (52) are uniformly connected to the two sides of the bottom of the inclined plate (51);

the fixing frames (53) are connected between the bottoms of the transverse connecting rods (52);

the speed reducing motor (54) is connected with the connecting block (42);

the two sides of the fixed frame (53) are rotatably connected with the rollers (55), and the output shaft of the speed reducing motor (54) is connected with the right roller (55);

synchronous belts (56) are wound among the rollers (55), and the synchronous belts (56) are connected with the separation mechanism (7).

4. A lint cotton cloth profile material hot-melt cutting machine according to claim 3, wherein the detachment mechanism (7) comprises:

the bottom of the synchronous belt (56) is connected with the connecting frame (71);

the bottom of the connecting frame (71) is connected with a square plate (72), and the square plate (72) is connected with the hot melting mechanism (6);

the middle part of the square plate (72) is provided with a square groove (73), and the square plate (72) is connected with the square ring (74);

the two sides of the top of the square hole ring (74) are connected with the bracket (75);

the wire guide wheels (76) are rotatably connected between the brackets (75);

the sliding sleeves (79) are connected with the brackets (75);

the sliding rods (711) and the sliding sleeves (79) are connected with the sliding rods (711) in a sliding manner;

the bottom of the sliding rod (711) is connected with a round-head rod (712), and the round-head rod (712) is connected with the hot melting mechanism (6);

the top of the square plate (72) is connected with the wedge plate (78);

the pull rope (77) is connected between the wedge-shaped plate (78) and the top of the round-head rod (712), and the pull rope (77) is wound on the wire guide wheel (76);

the springs (710) are connected between the bottoms of the sliding sleeves (79) and the tops of the round-head rods (712), and the springs (710) are sleeved on the outer sides of the sliding rods (711).

5. A hot-melt cutting machine for plush cotton cloth profile material as claimed in claim 4, characterized in that the hot-melt mechanism (6) comprises:

the fixed column (61) is connected between the inclined plate (51) and the left side of the connecting rod (52);

the square rod (62) is connected between the lower part of the fixed column (61) and the connecting block (42), the square rod (62) is uniformly provided with locking holes (63), and the locking holes (63) are clamped with the round-head rod (712);

the square hole sleeve (64) is connected to the two sides of the square rod (62) in a sliding mode, and the top of the square hole sleeve (64) is connected with the square plate (72);

the guide sleeve (65) is connected with the two sides of the square hole sleeve (64);

the guide rods (66) are connected to the guide sleeve (65) in a sliding manner;

the modeling frame (67) is connected between the bottoms of the guide rods (66);

the bottom of the modeling frame (67) is connected with the heating wire (68);

the driving frame (69) is connected between the tops of the driving frames (69) and the guide rods (66), and the driving frames (69) are connected with the round head rods (712).

6. A lint cotton cloth profile material hot melt cutting machine according to claim 5, further comprising a locking mechanism (8), wherein the locking mechanism (8) comprises:

the fixing plate (81) is connected to one side, close to the fixing pile (2), of the top of the operating platform (1);

the fixed plate (81) is connected with the second fluted disc (83);

the outer wall of one side, close to the second fluted disc (83), of the rotating pipe (41) is connected with the first fluted disc (82), and the first fluted disc (82) is meshed with the second fluted disc (83).

7. The hot-melting cutting machine for the plush cotton cloth special-shaped materials as claimed in claim 6, characterized by further comprising an adjusting mechanism (9), wherein the adjusting mechanism (9) comprises:

the nut (91) is connected with one side of the driving frame (69);

the screw (92) is connected to the nut (91) in a threaded manner, and the bottom of the screw (92) is in contact with the square rod (62);

the adjusting ring (93) is connected to the top of the screw (92).

8. The hot-melting cutting machine for the plush cotton cloth special-shaped materials as claimed in claim 7, characterized in that the machine further comprises a speed reducing mechanism (10), and the speed reducing mechanism (10) comprises:

the upper part of the rotating pipe (41) is connected with the friction sleeve (101);

the friction pipe (102) is connected to one side, close to the friction sleeve (101), of the vertical rod (3), and the friction sleeve (101) is in contact fit with the friction pipe (102).

9. The hot-melting cutting machine for the plush cotton cloth special-shaped materials as claimed in claim 8, characterized by further comprising a positioning mechanism (11), wherein the positioning mechanism (11) comprises:

the support plate (111) is connected to the right front side of the operating platform (1);

the magnet (112) is connected with the support plate (111);

the iron disc (113) is connected to the connecting block (42), and the iron disc (113) is attracted to the magnet (112).

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