CN114311985A - Chain type transmission device of automatic elliptical printing machine - Google Patents

Abstract

The invention relates to a transmission device, in particular to a chain type transmission device of an automatic elliptical printing machine. The chain type transmission device for the automatic elliptical printing machine is high in stability, textile fabrics are prevented from shifting, and printing accuracy is improved. The technical scheme is as follows: the utility model provides an automatic oval calico printing machine chain transmission, is including frame, first supporting block, first guide rail, first sliding plate and place board etc. and the symmetry is equipped with first supporting block around the middle part in the frame, is equipped with first guide rail between two first supporting block upper portions, and the first guide rail left and right sides is the arc, and the gliding style is equipped with the first sliding plate of round on the first guide rail, and the first sliding plate outside is equipped with places the board. When placing the board and removing the back, the clutch blocks upwards remove and the contact of first slide bar inner to fixed first slide bar, and then the fixed position of placing the board avoids placing the board and continues to remove because of inertia and lead to the stamp position to change, has further improved the precision of stamp.

Description

Chain type transmission device of automatic elliptical printing machine

Technical Field

The invention relates to a transmission device, in particular to a chain type transmission device of an automatic elliptical printing machine.

Background

The printing is a process of forming various required patterns on the textile by using dyes or paints, the textile is printed on the surface of the textile in the production and processing process in order to improve the ornamental value of the product appearance, and the textile needs to be transported to a printing machine one by using a transmission device in the printing process of the textile.

A patent with a patent publication number of CN103818103B discloses a transmission device of a numerical control chain type automatic printing machine, which comprises a support frame, a guide mechanism and a transmission mechanism, wherein the support frame is provided with the guide mechanism and the transmission mechanism, the transmission mechanism is provided with a printing support plate, one end of the printing support plate is connected with the transmission mechanism, and the other end of the printing support plate is arranged in the guide mechanism; when the transmission mechanism drives the printing support plate to move or stop, the guide mechanism is matched with the transmission mechanism to keep the printing support plate always parallel to the horizontal plane. This transmission passes through drive mechanism and drives the motion of stamp backup pad to the realization carries out the purpose of transporting to fabric, but this transmission is when transporting fabric, and stamp backup pad stability is relatively poor, leads to textile position to take place to remove very easily, thereby influences the stamp quality, and at the in-process that the stamp backup pad removed, can not guarantee that the distance that every stamp backup pad removed is the same, further influences the precision of stamp.

Therefore, it is necessary to provide an automatic elliptical printing machine chain transmission device with high stability, which can prevent the textile fabric from shifting and improve the printing precision.

Disclosure of Invention

In order to overcome current transmission stability relatively poor, and can not guarantee that the distance that every stamp backup pad removed is the same, lead to the relatively poor shortcoming of stamp precision, the technical problem who solves: the chain type transmission device for the automatic elliptical printing machine is high in stability, textile fabrics are prevented from shifting, and printing accuracy is improved.

The technical scheme is as follows: the utility model provides an automatic oval calico printing machine chain transmission, which comprises a frame, first supporting block, first guide rail, first sliding plate and place the board, the symmetry is equipped with first supporting block around the middle part in the frame, be equipped with first guide rail between two first supporting block upper portions, the first guide rail left and right sides is the arc, the gliding style is equipped with the first sliding plate of round on the first guide rail, the first sliding plate outside is equipped with places the board, still including first connecting plate, actuating mechanism and bearing mechanism, equal rotary type is connected with first connecting plate between two adjacent first sliding plates, it is equipped with the actuating mechanism who is used for the drive to place the board removal to place between board and the frame, be equipped with the bearing mechanism who is used for supporting and places the board on the frame.

Further, actuating mechanism is including the head rod, the chain, the fixed block, the connecting block, motor and bevel gear, the equal rotary type in the left and right sides on bottom right side is equipped with the head rod in the frame, there is the chain through the sprocket wire-wound between head rod upper portion, it all is equipped with the fixed block to place the inboard, the left rear side of chain is equipped with the connecting block, the connecting block rotates and the fixed block contact, the bottom right side is equipped with the motor in the frame, be equipped with bevel gear on the output shaft of motor, the head rod lower part on right side is equipped with the same bevel gear, two bevel gear intermeshing.

Further, bearing mechanism is equipped with the second guide rail including second guide rail, bracing piece, first slide bar and coupling spring in the frame, and the second guide rail left and right sides is the arc, and the gliding style is equipped with the first slide bar of round on the second guide rail, and the equal gliding style in first slide bar outer end is equipped with the bracing piece, and the bracing piece top all is connected with the board bottom of placing that is close, all is connected with coupling spring between bracing piece and the close first slide bar.

Further, still including being used for carrying out the card mechanism of fixing a position to the board of placing after removing, card mechanism is including the dead lever, the sliding frame, first reset spring, clutch blocks and second connecting plate, the bottom left and right sides all is equipped with the dead lever in the frame, it is equipped with the sliding frame to control the slidingtype between two dead levers, it has first reset spring all to wind the joint between sliding frame and the dead lever, the even interval in sliding frame top is equipped with the round clutch blocks, the clutch blocks all with the inner contact of close first sliding rod, the right rear side of sliding frame is equipped with the second connecting plate, the both sides on second connecting plate upper portion are the slope setting, the connecting block rotates and contacts with the second connecting plate.

Furthermore, the device also comprises a protection mechanism for shielding and protecting the interior of the frame, the protection mechanism comprises a second supporting block, a sliding block and a second return spring, the utility model provides a safety device, including the bearer bar, first guide bar, second slide bar and third reset spring, the inboard left and right sides of first guide rail is all around the symmetry be equipped with the second supporting shoe, draw-in groove has all been opened on second supporting shoe upper portion, the equal slidingtype of second supporting shoe upper portion is equipped with the sliding block, all the round trip has second reset spring between sliding block and the close second supporting shoe, second reset spring is in compression state, detachable the bearer bar that is equipped with between four second supporting shoes, the horizontal axis position in bearer bar top is equipped with first guide bar, the equal slidingtype in first guide bar left and right sides is equipped with the second slide bar, the second slide bar all cooperates with the draw-in groove on two close second supporting shoes, all the round trip has third reset spring between first guide bar and the second slide bar.

Further, still including the clamping mechanism of fixed fabric, clamping mechanism is including second guide bar, second sliding plate and fourth reset spring, places the board top left and right sides and all is equipped with the second guide bar, all is equipped with the second sliding plate on the second guide bar in the slidingtype, and all around having connect fourth reset spring between second sliding plate and the second guide bar close.

Further, still including release mechanism, release mechanism is including second connecting rod and third connecting plate, and the inside and outside both sides all are equipped with the second connecting rod between two second sliding plate bottoms about on same placing the board, and the first guide rail right side is equipped with the third connecting plate, and inboard second connecting rod rotates all to contact with the third connecting plate.

Furthermore, the friction block is made of one of rubber plastic, plastic or silica gel.

The invention has the beneficial effects that: 1. the motor rotates and makes the chain drive the connecting block and rotate, and then places board intermittent type nature and remove to transport the fabric one by one to calico printing machine department and carry out the stamp, when placing the board and remove, under the effect of first connecting plate, every distance that places the board and remove is the same, makes the position of each fabric stamp unchangeable, thereby has improved the location precision of stamp.

2. Place the board at the in-process that removes, the bracing piece can follow and place the board and remove and support it, increases the bearing capacity of placing the board, has also improved the stability of equipment simultaneously, avoids placing the board and is carrying out the in-process of stamp or the in-process production vibrations or the slope that removes.

3. When placing the board and removing the back, the clutch blocks upwards remove and the contact of first slide bar inner to fixed first slide bar, and then the fixed position of placing the board avoids placing the board and continues to remove because of inertia and lead to the stamp position to change, has further improved the precision of stamp.

4. The second sliding plate presses the textile after moving downwards, so that the textile is prevented from moving or falling in the moving process, and after the printing is finished, the third connecting plate extrudes the second connecting rod to move upwards, so that the second sliding plate moves upwards to loosen the textile, and the textile after the printing is finished is collected by a worker conveniently.

Drawings

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

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a schematic perspective view of a first driving mechanism according to the present invention.

Fig. 5 is a schematic perspective view of a second driving mechanism according to the present invention.

Fig. 6 is an enlarged perspective view of the present invention at a.

Fig. 7 is a schematic perspective view of the load bearing mechanism of the present invention.

Figure 8 is a schematic view of a first partial body structure of the load bearing mechanism of the present invention.

Figure 9 is a schematic view of a second partial body structure of the load bearing mechanism of the present invention.

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

Fig. 11 is a schematic perspective view of a first protection mechanism according to the present invention.

Fig. 12 is a schematic perspective view of a second protection mechanism according to the present invention.

Fig. 13 is a schematic view of a first partially assembled body structure of the protection mechanism of the present invention.

Fig. 14 is a schematic view of a second partially separated body structure of the protection mechanism of the present invention.

Fig. 15 is a perspective view of the clamping mechanism of the present invention.

Fig. 16 is a schematic perspective view of a portion of the clamping mechanism of the present invention.

Fig. 17 is a perspective view of the release mechanism of the present invention.

Reference numerals: 1_ frame, 2_ first support block, 3_ first guide rail, 4_ first sliding plate, 5_ placing plate, 6_ first connecting plate, 7_ driving mechanism, 71_ first connecting rod, 72_ chain, 73_ fixed block, 74_ connecting block, 75_ motor, 76_ bevel gear, 8_ bearing mechanism, 81_ second guide rail, 82_ support rod, 83_ first sliding rod, 84_ connecting spring, 9_ seizing mechanism, 91_ fixed rod, 92_ sliding frame, 93_ first return spring, 94_ friction block, 95_ second connecting plate, 10_ protective mechanism, 101_ second support block, 102_ second support block, 103_ second return spring, 104_ protective frame, 105_ first guide rod, 106_ second sliding rod, 107_ third return spring, 11_ clamping mechanism, 111_ second guide rod, 112_ second sliding plate, 113_ fourth return spring, 12_ release mechanism, 121_ second connecting bar, 122_ third connecting bar.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings.

Example 1

An automatic elliptical printing machine chain type transmission device is shown in figures 1-9 and comprises a frame 1, a first supporting block 2, a first guide rail 3 and a first sliding plate 4, place board 5, first connecting plate 6, actuating mechanism 7 and bearing mechanism 8, the symmetry is equipped with first supporting block 2 around the middle part in the frame 1, the welding has first guide rail 3 between 2 upper portions of two first supporting blocks, first guide rail 3 is the ellipse, first guide rail 3 goes up the gliding style is equipped with round first sliding plate 4, the welding has places board 5 in the 4 outside of first sliding plate, place board 5 and be used for placing the fabric, equal rotary type is connected with first connecting plate 6 between two adjacent first sliding plates 4, it is equipped with actuating mechanism 7 to place between board 5 and the frame 1, actuating mechanism 7 can drive and place board 5 and remove, be equipped with bearing mechanism 8 on the frame 1, bearing mechanism 8 can support and place board 5.

When the device is used, a worker moves the printing machine to the rear side of the equipment, then the worker puts the textile fabrics to be printed on the placing plate 5 one by one, after the textile fabrics are placed, the worker drives one of the first sliding plates 4 to slide intermittently clockwise in the first guide rail 3 through the driving mechanism 7, under the action of the first connecting plate 6, the other first sliding plates 4 slide clockwise for the same distance, the first sliding plate 4 slides clockwise to transmit the textile fabrics to the printing machine one by one through the placing plate 5, the textile fabrics are printed when the first sliding plate 4 stops moving, the next textile fabric is transmitted to the printing machine to be printed when the first sliding plate 4 continues moving, the bearing mechanism 8 can support the placing plate 5 while printing is performed, the stability of the placing plate 5 is improved, the printing position is prevented from being inaccurate due to the inclination of the placing plate 5 in the printing or moving process, simultaneously, under first connecting plate 6's effect, every is placed the distance that 5 removed of board and is the same for the position of each fabric stamp is unchangeable, has further improved the location precision of stamp, and the fabric that the stamp was accomplished is transmitted to the equipment right side, and the staff takes off it and collects.

Actuating mechanism 7 is including head rod 71, the chain 72, the fixed block 73, connecting block 74, motor 75 and bevel gear 76, the equal rotary type in the left and right sides on bottom right side is equipped with head rod 71 in frame 1, there is chain 72 through the sprocket round joint between head rod 71 upper portion, it has fixed block 73 all to weld to place the inboard of board 5, the left rear side of chain 72 is equipped with connecting block 74, connecting block 74 rotates and contacts with fixed block 73, bottom right side is equipped with motor 75 in frame 1, motor 75 provides power for the transportation fabric, be equipped with bevel gear 76 on the output shaft of motor 75, head rod 71 lower part key connection on right side has the same bevel gear 76, two bevel gear 76 intermeshing.

When the device is used, a worker starts the motor 75, an output shaft of the motor 75 rotates to drive the bevel gears 76 to rotate, the two bevel gears 76 are meshed to enable the first connecting rod 71 on the right side to rotate, the first connecting rod 71 rotates to drive the chain 72 to rotate, the chain 72 rotates to drive the connecting block 74 to rotate, when the connecting block 74 rotates to be in contact with one of the fixed blocks 73, the connecting block 74 rotates to push one of the fixed blocks 73 to move rightwards, the fixed block 73 moves rightwards to drive the first sliding plate 4 to slide rightwards in the first guide rail 3, further, the placing plate 5 drives the textile fabric to move to the printing machine, when the connecting block 74 rotates to be separated from the fixed block 73, the placing plate 5 stops moving, at the moment, the printing machine conducts printing work on the textile fabric, when the connecting block 74 rotates to be in contact with the next fixed block 73, the actions are repeated to enable the placing plate 5 to transmit the next textile fabric to the printing machine to conduct printing, connecting block 74 constantly rotates and makes and place board 5 and transmit fabric to calico printing machine department one by one and carry out the stamp, and after equipment usage accomplished, the staff closed motor 75, so, can provide power when transporting fabric.

Bearing mechanism 8 is including second guide rail 81, the bracing piece 82, first slide bar 83 and coupling spring 84, the welding has second guide rail 81 in the frame 1, second guide rail 81 is oval, the last gliding style of second guide rail 81 is equipped with the first slide bar 83 of round, first slide bar 83 outer end all is slided and is equipped with bracing piece 82, bracing piece 82 is used for supporting placing board 5, bracing piece 82 top all is connected with the board 5 bottom of placing that is close, all be connected with coupling spring 84 between bracing piece 82 and the first slide bar 83 that is close.

When the device is used, the supporting rod 82 is connected with the first sliding rod 83 to support the placing plate 5, so that the bearing force of the placing plate 5 is increased, the stability of the device is improved, the placing plate 5 is prevented from vibrating or inclining in the printing process or the moving process, the position of textile fabrics is prevented from moving, and the printing quality is affected, meanwhile, in the moving process of the placing plate 5, the first sliding rod 83 moves along with the placing plate 5 in the second guide rail 81, when the first sliding rod 83 moves to the arc-shaped position of the second guide rail 81, the supporting rod 82 slightly slides outwards on the first sliding rod 83, the connecting spring 84 deforms, when the first sliding rod 83 moves to the horizontal position of the second guide rail 81, under the reset action of the connecting spring 84, the supporting rod 82 slides inwards to reset, under the action of the connecting spring 84, it is possible to avoid the placing plate 5 and the first slide lever 83 from being caught when passing through the arc-shaped position.

Example 2

On the basis of embodiment 1, as shown in fig. 1, fig. 2, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16 and fig. 17, the present invention further includes a clamping mechanism 9, the clamping mechanism 9 can position the moving placing plate 5, the clamping mechanism 9 includes a fixing rod 91, a sliding frame 92, a first return spring 93, a friction block 94 and a second connecting plate 95, the fixing rod 91 is welded on the left and right sides of the bottom in the frame 1, the sliding frame 92 is slidably arranged between the left and right fixing rods 91, the first return spring 93 is wound between the sliding frame 92 and the fixing rod 91, the friction block 94 is uniformly arranged on the top of the sliding frame 92 at intervals, the friction block 94 is made of rubber, the friction block 94 is in contact with the inner end of the first sliding rod 83, the second connecting plate 95 is welded on the right rear side of the sliding frame 92, both sides of the upper portion of the second connecting plate 95 are obliquely arranged, the connecting block 74 is rotated to contact the second connecting plate 95.

When the device is used, the chain 72 rotates to drive the connecting block 74 to rotate, when the connecting block 74 rotates to be in contact with the second connecting plate 95, the connecting block 74 rotates to extrude the second connecting plate 95 to move downwards, the second connecting plate 95 moves downwards to drive the sliding frame 92 to slide downwards, the first return spring 93 deforms, the sliding frame 92 slides downwards to drive the friction block 94 to move downwards and not to be in contact with the inner end of the first sliding rod 83, after the connecting block 74 extrudes the second connecting plate 95 to move downwards, the connecting block 74 continues to rotate and then is in contact with one of the fixed blocks 73, the placing plate 5 is further pushed to move, when the connecting block 74 rotates to be separated from one of the fixed blocks 73, the connecting block 74 just rotates to be separated from the second connecting plate 95, at the moment, under the reset action of the first return spring 93, the sliding frame 92 drives the friction block 94 to move upwards to reset, the friction block 94 moves upwards and then is in contact with the inner end of the first sliding rod 83, because the material of clutch blocks 94 is rubber, can increase and first slide bar 83 between frictional force to fixed first slide bar 83's position, and then the fixed position of placing board 5 avoids placing board 5 and first slide bar 83 and continues to remove because of inertia, leads to the stamp precision to be influenced.

The protection mechanism 10 can shield and protect the inside of the frame 1, the protection mechanism 10 comprises a second supporting block 101, a sliding block 102, a second reset spring 103, a protection frame 104, a first guide rod 105, a second sliding rod 106 and a third reset spring 107, the second supporting block 101 is symmetrically arranged at the front and back of the left side and the right side of the inner side of the first guide rail 3, the second supporting block 101 is L-shaped, the upper part of the second supporting block 101 is provided with a clamping groove which is circular, the upper part of the second supporting block 101 is provided with the sliding block 102 in a sliding manner, the second reset spring 103 is wound between the sliding block 102 and the adjacent second supporting block 101, the second reset spring 103 is in a compression state, the protection frame 104 is detachably arranged among the four second supporting blocks 101, the protection frame 104 is used for covering parts inside the frame 1, the first guide rod 105 is welded at the transverse central axis at the top of the protection frame 104, the left side and the right side of the first guide rod 105 are both provided with a second sliding rod 106 in a sliding manner, the second sliding rod 106 is U-shaped, the second sliding rod 106 is matched with the clamping grooves on the two adjacent second supporting blocks 101, and a third return spring 107 is wound between the first guide rod 105 and the second sliding rod 106.

When the device is used, the protection frame 104 can cover the inside of the frame 1, so as to protect the components inside the frame 1, and prevent foreign matters from entering the inside of the frame 1, thereby affecting the normal operation of the device, when the components inside the frame 1 need to be overhauled, a worker can pull the second sliding rod 106 to slide on the first guide rod 105 in the opposite direction without clamping a clamping groove, the third return spring 107 is deformed, at the moment, under the reset action of the second return spring 103, the sliding block 102 slides upwards to push the protection frame 104 to move upwards to open, then the worker takes down the protection frame 104, after the component overhaul inside the frame 1 is completed, the worker covers the protection frame 104 on the frame 1, then pushes the protection frame 104 to move downwards, thereby extruding the sliding block 102 to slide downwards, the second return spring 103 deforms, and the second sliding rod 106 moves downwards while the protection frame 104 moves downwards, when the second sliding rod 106 moves downward to be matched with the clamping groove on the second supporting block 101, under the action of the reset of the third reset spring 107, the second sliding rod 106 slides back to the clamping groove to be clamped into the clamping groove, and the protection frame 104 is further fixed.

Still including clamping mechanism 11, clamping mechanism 11 can fix the fabric, clamping mechanism 11 is including second guide bar 111, second sliding plate 112 and fourth reset spring 113, place the board 5 top left and right sides and all weld second guide bar 111, the equal slidingtype is equipped with second sliding plate 112 on the second guide bar 111, second sliding plate 112 can compress tightly the fabric, all around having fourth reset spring 113 between second sliding plate 112 and the second guide bar 111 that is close.

When using the device, the staff stimulates second sliding plate 112 and upwards slides on second guide bar 111, and fourth reset spring 113 takes place deformation, then the staff puts the fabric on placing board 5, puts the back, and the staff loosens second sliding plate 112, and under the effect that fourth reset spring 113 resets, second sliding plate 112 slides downwards thereupon and resets and compress tightly the fabric, avoids the fabric to take place the displacement or drop at the in-process that removes.

The device is characterized by further comprising a loosening mechanism 12, wherein the loosening mechanism 12 comprises a second connecting rod 121 and a third connecting plate 122, the second connecting rod 121 is welded on the inner side and the outer side between the bottoms of the left second sliding plate 112 and the right second sliding plate 112 on the same placing plate 5, the third connecting plate 122 is welded on the right side of the first guide rail 3, and the inner second connecting rod 121 rotates to be in contact with the third connecting plate 122.

When using the device, the fabric of accomplishing the stamp is placed board 5 and is transported to the equipment right side, when placing board 5 and drive second connecting rod 121 and remove to when contacting with third connecting plate 122, second connecting rod 121 is by the extrusion rebound, second connecting rod 121 rebound drives second sliding plate 112 and upwards slides and loosen the fabric, the staff will accomplish the fabric of stamp and take off and collect, when second connecting rod 121 remove to break away from the back with third connecting plate 122, second sliding plate 112 drives second connecting rod 121 rebound along with it, so, can be after the stamp is accomplished automatic second sliding plate 112 of loosening, make things convenient for the staff to take off the fabric.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (8)

1. A chain type transmission device of an automatic elliptical printing machine comprises a frame (1), first supporting blocks (2), first guide rails (3), first sliding plates (4) and a placing plate (5), wherein the first supporting blocks (2) are symmetrically arranged in the middle of the frame (1) front and back, the first guide rails (3) are arranged between the upper portions of the two first supporting blocks (2), the left and right sides of each first guide rail (3) are arc-shaped, a circle of first sliding plate (4) is arranged on each first guide rail (3) in a sliding mode, the placing plate (5) is arranged on the outer side of each first sliding plate (4), the chain type transmission device is characterized by further comprising a first connecting plate (6), a driving mechanism (7) and a bearing mechanism (8), the first connecting plate (6) is connected between every two adjacent first sliding plates (4) in a rotating mode, and a driving mechanism (7) for driving the placing plate (5) to move is arranged between the placing plate (5) and the frame (1), the frame (1) is provided with a bearing mechanism (8) for supporting the placing plate (5).

2. The chain transmission of an automatic elliptical printing machine according to claim 1, characterized in that the driving mechanism (7) comprises a first connecting rod (71), a chain (72) and a fixed block (73), connecting block (74), motor (75) and bevel gear (76), the equal rotary type in the left and right sides on bottom right side is equipped with head rod (71) in frame (1), there is chain (72) through the sprocket round joint between head rod (71) upper portion, place board (5) inboard and all be equipped with fixed block (73), the rear left side of chain (72) is equipped with connecting block (74), connecting block (74) rotate and fixed block (73) contact, bottom right side is equipped with motor (75) in frame (1), be equipped with bevel gear (76) on the output shaft of motor (75), head rod (71) lower part on right side is equipped with same bevel gear (76), two bevel gear (76) intermeshing.

3. The chain transmission device of the automatic elliptical printing machine according to claim 2, wherein the bearing mechanism (8) comprises a second guide rail (81), a support rod (82), a first sliding rod (83) and a connecting spring (84), the second guide rail (81) is arranged in the frame (1), the left side and the right side of the second guide rail (81) are arc-shaped, a circle of the first sliding rod (83) is arranged on the second guide rail (81) in a sliding manner, the support rod (82) is arranged at the outer end of the first sliding rod (83) in a sliding manner, the top of the support rod (82) is connected with the bottom of the adjacent placing plate (5), and the connecting spring (84) is connected between the support rod (82) and the adjacent first sliding rod (83).

4. The chain type transmission device of the automatic elliptical printing machine according to claim 3, characterized by further comprising a clamping mechanism (9) for positioning the moving placing plate (5), wherein the clamping mechanism (9) comprises a fixing rod (91), a sliding frame (92), a first return spring (93), a friction block (94) and a second connecting plate (95), the fixing rod (91) is arranged on the left side and the right side of the bottom in the frame (1), the sliding frame (92) is slidably arranged between the left fixing rod and the right fixing rod (91), the first return spring (93) is wound between the sliding frame (92) and the fixing rod (91), a circle of friction blocks (94) are uniformly arranged on the top of the sliding frame (92) at intervals, the friction blocks (94) are both contacted with the inner end of the first sliding rod (83) which is close to the sliding frame (92), the second connecting plate (95) is arranged on the right rear side of the sliding frame (92), and both sides of the upper part of the second connecting plate (95) are obliquely arranged, the connecting block (74) is rotated to contact the second connecting plate (95).

5. The automatic elliptical printing machine chain type transmission device according to claim 4, characterized by further comprising a protection mechanism (10) for shielding and protecting the interior of the frame (1), wherein the protection mechanism (10) comprises a second supporting block (101), a sliding block (102), a second return spring (103), a protection frame (104), a first guide rod (105), a second sliding rod (106) and a third return spring (107), the second supporting block (101) is symmetrically arranged at the front and back of the left and right sides of the inner side of the first guide rail (3), a clamping groove is formed in the upper portion of the second supporting block (101), the sliding block (102) is arranged at the upper portion of the second supporting block (101) in a sliding manner, the second return spring (103) is wound between the sliding block (102) and the adjacent second supporting block (101), the second return spring (103) is in a compressed state, the protection frame (104) is detachably arranged among the four second supporting blocks (101), a first guide rod (105) is arranged at the top of the protective frame (104) along the horizontal central axis, second sliding rods (106) are arranged on the left side and the right side of the first guide rod (105) in a sliding mode, the second sliding rods (106) are matched with clamping grooves in two adjacent second supporting blocks (101), and third reset springs (107) are wound between the first guide rod (105) and the second sliding rods (106).

6. The chain transmission device of the automatic elliptical printing machine according to claim 5, characterized by further comprising a clamping mechanism (11) for fixing textile fabrics, wherein the clamping mechanism (11) comprises a second guide rod (111), a second sliding plate (112) and a fourth return spring (113), the second guide rod (111) is arranged on each of the left side and the right side of the top of the placing plate (5), the second sliding plate (112) is arranged on each of the second guide rods (111) in a sliding manner, and the fourth return spring (113) is wound between each of the second sliding plates (112) and the adjacent second guide rod (111).

7. The chain transmission device of the automatic elliptical printing machine according to claim 6, characterized by further comprising a loosening mechanism (12), wherein the loosening mechanism (12) comprises a second connecting rod (121) and a third connecting plate (122), the second connecting rod (121) is arranged on the inner side and the outer side between the bottoms of the left second sliding plate (112) and the right second sliding plate (112) on the same placing plate (5), the third connecting plate (122) is arranged on the right side of the first guide rail (3), and the inner second connecting rod (121) rotates and is in contact with the third connecting plate (122).

8. The chain transmission of claim 7, wherein the friction block (94) is made of one of rubber plastic, plastic or silicon rubber.

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