CN210652289U - Manual heat transfer pyrography machine - Google Patents

Abstract

A manual heat transfer pyrograph machine comprises an inverted U-shaped handle and a pressure adjusting structure arranged in a rocker arm head; the pressure adjusting structure comprises a fixing plate, positioning plates, a pressure adjusting base, a lead screw and a heating plate mounting seat, wherein the fixing plate is horizontally arranged, one end of the fixing plate is fixedly connected with the stand column, the positioning plates are vertically arranged on two sides of the fixing plate, the pressure adjusting base is arranged between the positioning plates, the lead screw is vertically arranged, and the heating plate mounting seat is horizontally arranged; one end of the pressure adjusting base, which is close to the upright post, is rotatably connected with the positioning plate; the screw rod vertically penetrates through the middle part of the pressure adjusting base and is in threaded connection with the fixing plate; the outer wall of the lower part of the screw rod is clamped with the middle part of the pressure adjusting base through a limiting piece; and then the pressure of the heating plate is more accurately adjusted, and a better printing effect is achieved.

Description

Manual heat transfer pyrography machine

Technical Field

The utility model relates to a lithography apparatus field, especially a manual formula heat-transfer seal pyrography machine.

Background

The heat transfer printing is a novel printing process, and exquisite patterns on a transfer printing film are transferred to the surface of a product through one-step processing of heat transfer printing processing equipment, and an ink layer is integrated with the surface of the product after forming, so that the product is vivid and beautiful, and the grade of the product is greatly improved. Transferring patterns to fabrics such as cotton, hemp, chemical fiber and the like is a form which is widely applied at present.

The problems of the prior manual heat transfer pyrograph machine are as follows: 1. the pressure is generally adjusted by adjusting the vertical distance between a rocker arm head and a printing plate on an upright post of the pyrograph machine, the accuracy of the adjusting mode is not high enough, and the manual pyrograph machine needs to press a handle downwards in the thermoprinting process, so that the upright post of the pyrograph machine can deform, and the thermoprinting accuracy of the pyrograph machine is influenced; 2. the common manual type pyrograph machine is driven by pressing a handle downwards, an eccentric wheel in a rocker arm head rotates clockwise, and an outer convex part of the eccentric wheel downwards pushes a heating plate, so that patterns are transferred to fabrics such as cotton, hemp and the like, but the outer convex part of the eccentric wheel is abraded due to continuous work of the pyrograph machine, so that the thermoprinting accuracy of the pyrograph machine is reduced, the normal work of the pyrograph machine is influenced, and accessories need to be replaced frequently; 3. general manual formula pyrograph machine all rotates the back through the eccentric wheel, and outer convex part roof pressure downwards generates heat the board, makes its generate heat board extrusion downwards, because the eccentric wheel withstands the outer convex part that generates heat the board and be a point, consequently can lead to generating heat the board when pushing down unstable inadequately like this, when pressure is too big, the board that generates heat can take place the slope, and then leads to the thermoprint inhomogeneous, influences the effect of thermoprint.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a manual formula heat-transfer seal pyrograph machine, generate heat the board through the direct adjustment and adjust its and hold the height between the printing plate, and then the more accurate pressure of adjusting the board that generates heat, and be difficult for producing the deviation, and change the eccentric wheel into the pressure regulation structure, make it no longer be a point pair generate heat the board and push down, but through the backup pad on the stationary blade will generate heat the board and push down, the face pushes down with the contact of face like this, the effectual problem that takes place the slope when having prevented to generate heat the board and push down, reach better printing effect.

A manual heat transfer pyrograph machine comprises a rocker arm head, a heating plate, a printing plate, a bearing seat and an upright post vertically fixed on one side of the bearing seat, wherein the rocker arm head, the heating plate, the printing plate and the bearing seat are sequentially and horizontally arranged from top to bottom; the heating plate and the printing plate are arranged oppositely up and down; one end of the rocker arm head is fixedly connected with the upper end of the upright post, and the lower part of the other end of the rocker arm head is fixedly connected with the heating plate; the one end of undertaking the printing plate and the lower extreme fixed connection of stand, its characterized in that: comprises an inverted U-shaped handle and a pressure adjusting structure arranged inside a rocker arm head; the pressure adjusting structure comprises a fixing plate, positioning plates, a pressure adjusting base, a lead screw and a heating plate mounting seat, wherein the fixing plate is horizontally arranged, one end of the fixing plate is fixedly connected with the stand column, the positioning plates are vertically arranged on two sides of the fixing plate, the pressure adjusting base is arranged between the positioning plates, the lead screw is vertically arranged, and the heating plate mounting seat is horizontally arranged; one end of the pressure adjusting base, which is close to the upright post, is rotatably connected with the positioning plate, and one end of the positioning plate is fixedly connected with the upright post; the screw rod sequentially penetrates through the rocker arm head shell and the straight through hole of the pressure adjusting base and is in threaded connection with the fixed plate; the screw rods on the upper side and the lower side of the pressure adjusting base are respectively provided with a limiting piece; the screw rod is in axial interference fit with the pressure adjusting base through a limiting piece; two ends of the inverted U-shaped handle are respectively rotatably connected with a handle mounting seat; one end of the handle mounting seat is rotatably connected with the pressure adjusting base, and the other end of the handle mounting seat is rotatably connected with a U-shaped connecting piece; the lower end of the U-shaped connecting piece is rotatably connected with a fixed block; the fixed block is fixed at the upper end of the heating plate mounting seat; the heating plate mounting seat is fixedly connected with the upper end of the heating plate.

Further, the pressure adjusting structure further comprises a double-end threaded rod; the double-end threaded rod sequentially penetrates through the positioning plate and the pressure adjusting base to be close to the side wall of one end of the stand column and the positioning plate.

Furthermore, the limiting part comprises a convex ring, a groove and a clamping ring which are sequentially arranged on the side wall below the screw rod; a snap ring positioned below the straight through hole is clamped with the groove on the side wall of the screw rod.

Furthermore, an inner groove is formed in the inner side wall of the handle mounting seat; both side walls of one end of the pressure adjusting base, which is far away from the upright post, are provided with screw holes; a limiting device is fixed in the screw hole internal thread; the limiting device comprises a bolt, a limiting spring and a limiting ball; one side of the bolt, which is far away from the head, is provided with a movable groove; the movable groove is close to one side wall of the head and is fixedly connected with the limiting ball through a limiting spring.

Furthermore, a positioning ring is arranged at the joint of the guide rod and the fixing plate; conical gaskets are arranged below the convex ring and above the clamping ring.

Furthermore, the pressure adjusting structure further comprises a guide rod vertically arranged between the two fixed blocks, and the guide rod penetrates through the fixed plate and is vertically connected with the heating plate mounting seat.

Furthermore, a positioning ring is arranged at the joint of the guide rod and the fixing plate; the outer wall of the guide rod is sleeved with an assistant spring; the lower end of the assistant spring is fixedly connected with the upper end of the positioning ring, and the upper end of the assistant spring is abutted against an upper nut; the upper nut is in threaded connection with the upper end of the guide rod.

Further, the guide rod is of an internal hollow structure.

Furthermore, a rotary hand wheel is arranged at the upper end of the screw rod; the rotary hand wheel is positioned above the rocker arm head.

The utility model discloses following beneficial effect has:

1. the height between the heating plate and the printing plate is adjusted through directly adjusting the heating plate, so that the pressure of the heating plate is adjusted more accurately, deviation is not easy to generate, the eccentric wheel is changed into a pressure adjusting structure, the eccentric wheel is enabled to be not a point pair to press down the heating plate, the heating plate is pressed down through the fixing plate on the supporting plate, the surface of the heating plate is pressed down through contact with the surface of the heating plate, the problem of inclination when the heating plate is pressed down is effectively prevented, and a better printing effect is achieved.

2. The pressure adjusting base, the screw rod, the handle mounting seat and the U-shaped connecting piece in the pressure adjusting structure are matched and arranged, so that the height of the heating plate is adjusted, the hot stamping pressure of the hot stamping machine is directly adjusted, the hot stamping pressure is adjusted more accurately, and deviation is not prone to occurring.

3. Through the combination of the guide rod and the heating plate mounting seat in the pressure adjusting structure, the phenomenon that the hot stamping of an object to be printed is uneven and deviation is generated due to the fact that the heating plate is unstable on the horizontal plane in the hot stamping process is effectively prevented.

4. Through leading the inside cavity that sets up to of positive pole, the effectual current pyrograph machine circuit arrangement of having solved is at the outside problem of pyrograph machine, can realize that the line is whole to walk from the pyrograph machine is inside, has reduced the potential safety hazard of pyrograph machine, has improved the pleasing to the eye degree of pyrograph machine simultaneously.

Drawings

Fig. 1 is a perspective view of a manual thermal transfer pyrograph machine of the present invention;

fig. 2 is a sectional view of a manual thermal transfer pyrograph machine of the present invention;

fig. 3 is a perspective view of the internal structure of a manual thermal transfer pyrography machine of the present invention;

fig. 4 is a sectional view of the internal structure of a manual thermal transfer pyrography machine of the present invention;

FIG. 5 is an enlarged view of a portion of the structure at A in FIG. 2;

FIG. 6 is an enlarged view of a portion of the structure shown at D in FIG. 3;

FIG. 7 is an enlarged view of a portion of the structure at B in FIG. 4;

FIG. 8 is an enlarged view of a portion of the structure at C in FIG. 4;

fig. 9 is an assembly schematic view of a screw rod and a pressure adjusting base of the manual thermal transfer pyrography machine of the present invention;

fig. 10 is a schematic structural view of the limiting device in the initial state of the manual thermal transfer pyrography machine of the present invention;

fig. 11 is a schematic structural view of the limiting device of the manual thermal transfer pyrography machine of the present invention in the operating state;

fig. 12 is a perspective assembly view of the inverted U-shaped handle, the handle mounting seat, the U-shaped connecting member and the pressure adjusting base of the manual thermal transfer pyrograph machine of the present invention;

fig. 13 is a surface assembly diagram of the manual thermal transfer pyrograph machine between the inverted U-shaped handle, the handle mounting seat, the U-shaped connecting member, and the pressure adjusting base.

The reference numbers in the figures denote:

1-rocker arm head, 11-inverted U-shaped handle, 111-handle mounting seat, 112-U-shaped connecting piece, 113-fixed block, 2-heating plate, 3-bearing plate, 4-bearing seat, 5-upright post, 6-pressure adjusting structure, 61-pressure adjusting base, 611-straight through hole, 612-screw hole, 613-limiting device, 614-bolt, 615-limiting ball, 616-limiting spring, 617-inner groove, 618-movable groove, 62-positioning plate, 621-convex ring, 622-groove, 623-rotating hand wheel, 624-snap ring, 63-fixed plate, 64-heating plate mounting seat, 65-screw rod, 66-guide rod, 661, assistant spring, 662-positioning ring, 663-upper screw cap, 67-double threaded rod, 7-tapered washer.

Detailed Description

For better illustration of the present invention, the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1, fig. 2, fig. 3, fig. 5, fig. 12 and fig. 13, a manual thermal transfer pyrograph machine comprises a rocker arm head 1, a heating plate 2, a printing plate 3, a bearing seat 4 and a vertical column 5 vertically fixed on one side of the bearing seat 4, which are horizontally arranged from top to bottom; the heating plate 2 and the printing plate 3 are arranged oppositely up and down; one end of the rocker arm head 1 is fixedly connected with the upper end of the upright post 5, and the lower part of the other end of the rocker arm head is fixedly connected with the heating plate 2; one end of the printing plate 3 is fixedly connected with the lower end of the upright post 5 and comprises an inverted U-shaped handle 11 and a pressure adjusting structure 6 arranged in the rocker arm head 1; the pressure adjusting structure 6 comprises a fixing plate 63 which is horizontally arranged and one end of which is fixedly connected with the upright post 5, positioning plates 62 which are vertically arranged at two sides of the fixing plate 63, a pressure adjusting base 61 which is arranged between the positioning plates 62, a lead screw 65 which is vertically arranged and a heating plate mounting seat 64 which is horizontally arranged; as shown in fig. 4, 7 and 9, a double-threaded rod 67 sequentially passes through the positioning plate 62, the side wall of the pressure adjusting base 61 near the end of the upright post 5 and the positioning plate 62, one end of the positioning plate 62 is fixedly connected with the upright post, and the pressure adjusting base 61 can be turned over the fixing plate 63 up and down by taking the double-threaded rod 67 as a shaft; the screw rod 65 sequentially penetrates through the shell of the rocker arm head 1 and the straight through hole 611 of the pressure adjusting base 61 and is in threaded connection with the fixed plate 63; the screw rods 65 on the upper side and the lower side of the pressure adjusting base 61 are respectively provided with a limiting piece; the screw rod 65 is in axial interference fit with the pressure adjusting base 61 through a limiting piece; the limiting part comprises a convex ring 621, a groove 622 and a clamping ring 624 which are sequentially arranged on the side wall below the screw rod 65, and the clamping ring 624 below the linear through hole 611 is clamped with the groove 622 on the side wall of the screw rod 65; the diameters of the convex ring 621 and the snap ring 624 are larger than the transverse diameter of the straight through hole 611 and smaller than the longitudinal diameter of the straight through hole, when the screw rod 65 ascends and descends, the convex ring 621 on the screw rod 65 and the snap ring 624 clamped with the groove 622 can clamp the bottom plate of the pressure adjusting base 61, due to the arrangement of the straight through hole 611, the bottom plate at the transverse edge of the straight through hole 611 is clamped, meanwhile, due to the fact that the screw rod 65 ascends or descends upwards, the screw rod 65 can move forwards and backwards in the axial direction of the straight through hole 611, and the pressure adjusting base 61 is turned downwards or downwards; as shown in fig. 3, fig. 6, fig. 10 and fig. 11, both ends of the inverted U-shaped handle 11 are respectively rotatably connected to an outer side wall of a handle mounting seat 111; one end of the inner side wall of the handle mounting seat 111 is rotatably connected with the pressure adjusting base 61, and the other end of the inner side wall of the handle mounting seat is rotatably connected with a U-shaped connecting piece 112; the lower end of the U-shaped connecting piece 112 is rotatably connected with the outer wall of a fixed block 113; the fixing blocks 113 are fixed on both sides of the upper end of the heating plate mounting base 64; the lower end face of the heating plate mounting seat 64 is fixedly connected with the middle part of the upper end face of the heating plate 2; the two fixing blocks 113 are positioned on the same straight line and are vertical to the extension line of the longitudinal axis of the pressure adjusting base 61, and because the pressure adjusting base 61 is turned up and down, the connection point between the pressure adjusting base 61 and the handle mounting base 111 is raised and lowered, and the heating plate 2 is driven to be raised and lowered; an inner groove 617 is formed in the inner side wall of the handle mounting seat 111; both side walls of one end of the pressure adjusting base 61, which is far away from the upright post 5, are provided with screw holes 612; a limiting device 613 is fixed to the screw hole 612 through internal threads, and the limiting device 613 is used for axially overlapping and fixing or staggering and separating the screw hole 612 and the inner groove 617.

Specifically, as shown in fig. 10 and 11, the limiting device 613 includes a bolt 614, a limiting spring 616 and a limiting ball 615; a movable groove 618 is formed in one side, far away from the head, of the bolt 614; the movable groove 618 is fixedly connected with the limiting ball 615 through a limiting spring 616 near one side wall of the head, and can be firmly fixed at the initial position when the inverted U-shaped handle is reset.

Specifically, as shown in fig. 9, the tapered spacers 7 are disposed below the protruding ring 621 and above the snap ring 624, so that the inclined surfaces of the tapered spacers 7 abut against the side walls of the straight through hole 611 of the pressure adjustment base 61, thereby reducing the wear of the screw 65 when the screw moves up and down and drives the pressure adjustment base 61 to move up and down.

Specifically, as shown in fig. 3, the pressure adjusting structure 6 further includes a guiding rod 66 vertically disposed between the two fixing blocks 113, and the guiding rod 66 penetrates through the fixing plate 63 and is vertically connected to the heating plate mounting seat 64, so that the heating plate 2 is not prone to tilting during hot stamping.

Specifically, as shown in fig. 3 and 8, a positioning ring 662 is disposed at the junction between the guide rod 66 and the fixing plate 63; the outer wall of the guide rod 66 is sleeved with an assistant spring 661; the lower end of the assistant spring 661 is fixedly connected with the upper end of the positioning ring 662, and the upper end of the assistant spring abuts against an upper nut 663; the upper nut 663 is in threaded connection with the upper end of the pilot rod 66; when the staff downwards presses the inverted U-shaped handle 11, after the hot stamping is finished, the inverted U-shaped handle 11 is only required to be slightly lifted, the inverted U-shaped handle 11 can bounce the inverted U-shaped handle 11 to a certain height due to the reverse acting force of the assistant spring 661, and the staff only needs to slightly press backwards, so that the initial position of the inverted U-shaped handle 11 can be restored.

Specifically, as shown in fig. 8, the guide rod 66 has an internal hollow structure, so as to facilitate the routing of the wires from the inside of the rocker arm head 1.

Specifically, as shown in fig. 2, a rotating hand wheel 623 is arranged at the upper end of the screw rod 65; the rotating handwheel 623 is positioned above the rocker head.

The utility model discloses a theory of operation:

referring to fig. 1 to 11, during operation, the heating plate 2 is heated by electrifying, then the height of the heating plate 2 is adjusted downwards or upwards by the rotating hand wheel 623, further the pressure between the heating plate 2 and the printing plate 3 is adjusted, after the adjustment, an object to be printed is placed on the printing plate 3, then the inverted U-shaped handle 11 is pressed downwards manually, after a certain time, the inverted U-shaped handle 11 is slightly lifted up, due to the directional elastic force generated when the assistant spring 661 presses downwards, the inverted U-shaped handle 11 is sprung upwards to a proper position, then the worker lifts the inverted U-shaped handle 11 to an initial position, at this time, the movable groove 618 and the inner groove 617 are clamped by the limiting ball 615, and the inverted U-shaped handle 11 and the pressure adjusting base 61 are relatively fixed, so that the inverted U-shaped handle 11 is fixed at the initial position.

The above detailed description is not to be considered as limiting the invention, and insubstantial changes from the disclosure herein may be made by those skilled in the art without departing from the scope of the invention.

Claims (9)

1. A manual heat transfer pyrograph machine comprises a rocker arm head (1), a heating plate (2), a printing plate (3), a bearing seat (4) and an upright post (5) which is vertically fixed on one side of the bearing seat (4), wherein the rocker arm head, the heating plate, the bearing seat (4) and the upright post are sequentially and horizontally arranged from top to bottom; the heating plate (2) and the printing plate (3) are arranged oppositely up and down; one end of the rocker arm head (1) is fixedly connected with the upper end of the upright post (5), and the lower part of the other end of the rocker arm head is fixedly connected with the heating plate (2); the one end of undertaking printing plate (3) and the lower extreme fixed connection of stand (5), its characterized in that: comprises an inverted U-shaped handle (11) and a pressure adjusting structure (6) arranged in the rocker arm head (1); the pressure adjusting structure (6) comprises a fixing plate (63) which is horizontally arranged and one end of which is fixedly connected with the upright post (5), positioning plates (62) which are vertically arranged at two sides of the fixing plate (63), a pressure adjusting base (61) which is arranged between the positioning plates (62), a lead screw (65) which is vertically arranged and a heating plate mounting seat (64) which is horizontally arranged; one end of the pressure adjusting base (61), which is close to the upright post (5), is rotatably connected with the positioning plate (62), and one end of the positioning plate (62) is fixedly connected with the upright post; the screw rod (65) sequentially penetrates through the shell of the rocker arm head (1) and the straight through hole (611) of the pressure adjusting base (61) and is in threaded connection with the fixed plate (63); the screw rods (65) on the upper side and the lower side of the pressure adjusting base (61) are respectively provided with a limiting piece; the screw rod (65) is in axial interference fit with the pressure adjusting base (61) through a limiting piece; two ends of the inverted U-shaped handle (11) are respectively and rotatably connected with a handle mounting seat (111); one end of the handle mounting seat (111) is rotatably connected with the pressure adjusting base (61), and the other end of the handle mounting seat is rotatably connected with a U-shaped connecting piece (112); the lower end of the U-shaped connecting piece (112) is rotationally connected with a fixed block (113); the fixed block (113) is fixed at the upper end of the heating plate mounting seat (64); the heating plate mounting seat (64) is fixedly connected with the upper end of the heating plate (2).

2. A manual heat transfer pyrograph machine according to claim 1, characterized in that: the pressure adjusting structure (6) further comprises a double-end threaded rod (67); the double-end threaded rod (67) sequentially penetrates through the positioning plate (62) and the pressure adjusting base (61) to be close to the side wall of one end of the upright post (5) and the positioning plate (62).

3. A manual heat transfer pyrograph machine according to claim 1, characterized in that: the limiting part comprises a convex ring (621), a groove (622) and a clamping ring (624) which are sequentially arranged on the side wall below the screw rod (65); a snap ring (624) positioned below the straight through hole (611) is clamped with the groove (622) on the side wall of the screw rod (65).

4. A manual heat transfer pyrograph machine according to claim 1, characterized in that: an inner groove (617) is formed in the inner side wall of the handle mounting seat (111); two side walls of one end of the pressure adjusting base (61) far away from the upright post (5) are respectively provided with a screw hole (612); a limiting device (613) is fixed in the screw hole (612) through internal threads; the limiting device (613) comprises a bolt (614), a limiting spring (616) and a limiting ball (615); one side of the bolt (614) far away from the head is provided with a movable groove (618); the movable groove (618) is fixedly connected with a limiting ball (615) through a limiting spring (616) near one side wall of the head.

5. A manual heat transfer pyrograph machine according to claim 3, characterized in that: conical gaskets (7) are arranged below the convex ring (621) and above the clamping ring (624).

6. A manual heat transfer pyrograph machine according to claim 2, characterized in that: the pressure adjusting structure (6) further comprises a guide rod (66) vertically arranged between the two fixing blocks (113), and the guide rod (66) penetrates through the fixing plate (63) and is vertically connected with the heating plate mounting seat (64).

7. A manual heat transfer pyrograph machine according to claim 6, characterized in that: a positioning ring (662) is arranged at the joint of the guide rod (66) and the fixing plate (63); the outer wall of the guide rod (66) is sleeved with an assistant spring (661); the lower end of the assistant spring (661) is fixedly connected with the upper end of the positioning ring (662), and the upper end of the assistant spring is abutted against an upper nut (663); the upper nut (663) is in threaded connection with the upper end of the guide rod (66).

8. A manual heat transfer pyrograph machine according to claim 7, characterized in that: the guide rod (66) is of an internal hollow structure.

9. A manual heat transfer pyrograph machine according to claim 5, characterized in that: a rotating hand wheel (623) is arranged at the upper end of the screw rod (65); the rotating hand wheel (623) is positioned above the rocker arm head.

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