CN203317893U

CN203317893U - Solar film thermal transfer marking machine

Info

Publication number: CN203317893U
Application number: CN2013203885243U
Authority: CN
Inventors: 孙加元
Original assignee: VIS FILM TECHNOLOGY Co Ltd
Current assignee: VIS FILM TECHNOLOGY Co Ltd
Priority date: 2013-07-02
Filing date: 2013-07-02
Publication date: 2013-12-04
Anticipated expiration: 2023-07-02

Abstract

The utility model discloses a solar film thermal transfer marking machine. The machine is fixed with a slide block through an adjustment rod. A bottom of the slide block is fixed with a heating block. A bottom surface of the heating block is fixed with a marking device. The structure of the marking device is characterized in that a rectangular pass trough is formed on an upper plane of a block; two ends of the block are fixed with a left baffle plate and a right baffle plate; a marking block is inserted into a central section of the block; a marking pattern is printed an upper plane of a marking block; the upper plane of the marking block is higher than the upper plane of the block; rod portions of a plurality of bolts form bolt joint on the right baffle plate, pass through the right baffle plate and press on a right sidewall of the marking block; the left sidewall of the marking block presses on an inner wall of the left baffle plate; a bottom surface of the block is fixed on the bottom surface of the heating block. The marking block moves up and down and an impact force is small. Simultaneously, the integral marking block can be placed in the rectangular pass trough of the marking device and various kinds of patterns and monograms can be engraved on the upper plane of the integral marking block so that needs of different clients can be satisfied.

Description

The hot transfer printing marking machine of a kind of solar film

Technical field:

The utility model relates to the marking machine equipment technical field, relates in particular the hot transfer printing marking machine of a kind of solar film.

Background technology:

Existing carbon ribbon formula marking machine is generally to adopt pneumatic type to promote mark, what yet pneumatic type promoted to adopt is that cylinder is promoted, its impulsive force is large, simultaneously, form three long through grooves side by side in the mark piece of existing marking machine, this makes the small blocks that can only place split type a plurality of alpha types, the general length of its small blocks and width only have the 0.5cm left and right, and can't place the agglomerate body of depiction on the upper plane of some rectangles, make it can only beat some alphabetic literal dates, its mark is single, can't meet client's different needs.

The heat that heat block on its sliding shoe of existing marking machine produces can pass on whole gripper shoe by sliding shoe, and it is without special heat-proof device.

Simultaneously, what existing marking mechanism generally adopted is Dual-motors Driving, and feeding of a rolling is carried out, and its manufacturing cost is high.

The utility model content:

The purpose of this utility model is to overcome the deficiencies in the prior art, the marking mechanism of the hot transfer printing marking machine of a kind of solar film is provided, it is little that it adopts the rolling disc eccentric center principle to make the mark piece move up and down its impulsive force, simultaneously, the rectangular through slot of its marking device can the holding integrated formula the mark piece, and on all-in-one-piece mark piece, various patterns and combination letter can be carved in plane, make it can meet different clients' needs.

The scheme that the utility model solve the technical problem is:

The hot transfer printing marking machine of a kind of solar film, comprise gripper shoe and servomotor, servomotor is fixed on the gripper shoe back side, the turning cylinder sleeve of servomotor is on gripper shoe and stretch out the front of gripper shoe, the top of turning cylinder is fixed with rolling disc, rolling disc is in the middle and upper part of gripper shoe, adjusting rod is below rolling disc, the upper end of adjusting rod is hinged on the limit section of rolling disc, the lower end of adjusting rod is hinged on the sliding shoe of adjusting rod below, in the slide rail of sliding shoe sleeve on being fixed in the front of gripper shoe, the sliding shoe bottom is fixed with heat block, the bottom surface of heat block is fixed with marking device, the mark piece of marking device is over against the back side of carbon ribbon, the front upper left quarter of gripper shoe is hinged with the carbon ribbon drawing-inroller, the lower left quarter in the front of gripper shoe is hinged with the carbon ribbon material receiving roller, unidirectional belt delivering roller and roller, unidirectional belt delivering roller and roller mutually by and below the carbon ribbon material receiving roller, be hinged with runner in the swing arm formed on the medial extremity sidewall of unidirectional belt delivering roller, runner is pressed against on the hook part of the bottom that the adjusting that is fixed with on sliding shoe hooks, the top of swing arm is fixed with spring, the spring other end is fixed on the gripper shoe of swing arm below,

The marking device structure is, form rectangular through slot on the upper plane of block, the two ends of block are fixed with right baffle-plate and right baffle plate, the middle part of block is inserted with the mark piece, be carved with the mark pattern on the upper plane of mark piece, the upper plane of mark piece is higher than the upper plane of block, and the bar section of many bolts is screwed onto on right baffle plate and through right baffle plate and is pressed against on the right side wall of mark piece, the left side wall of mark piece is pressed against on the inwall of right baffle-plate, and the bottom surface of block is fixed on the bottom surface of heat block.

The top, positive middle part of described gripper shoe is hinged with on backing roll, upper right quarter and is hinged with guide wheel, be fixed with guide rod on the gripper shoe of the below of guide wheel, mark piece both sides also are fixed with guide rod, and each guide rod middle part all is fixed with two spacing silica gel pieces, and carbon ribbon passes between two spacing silica gel pieces.

Shown in the sliding shoe structure be, the back side of rectangle contiguous block is fixed with the partiting thermal insulation piece, the bead formed on back of partiting thermal insulation piece has dovetail tangs, in the dovetail groove formed between two slide rails of dovetail tangs sleeve on being fixed in the front of gripper shoe, the bottom of rectangle contiguous block forms the horizontal projection section parallel with horizontal plane, set bolt successively sleeve horizontal projection section be connected spacer in and be screwed onto on heat block, connect spacer and be clamped between horizontal projection section and heat block.

Described unidirectional belt delivering roller drives the carbon ribbon material receiving roller by rubber strip and rotates.

Be fixed with approach switch on the front of described gripper shoe, the inductive head of approach switch is over against the projection formed in limit, the back side section of rolling disc.

Outstanding effect of the present utility model is:

1, the mark piece that the rectangular through slot of its marking device can the holding integrated formula, and on all-in-one-piece mark piece, various patterns and combination letter can be carved in plane, make it can meet different clients' needs.

2, the back side of the rectangle contiguous block of its sliding shoe is fixed with the partiting thermal insulation piece, when the partiting thermal insulation piece can guarantee to produce amount of heat due to the heating rod be fixed with in heat block, can not make heat be sent on gripper shoe and slide rail in, guarantee the normal use of machine, also can not make the operator iron hand.

3, its unidirectional belt delivering roller can synchronously transport carbon ribbon, thereby and approach switch can be monitored the number that the number of turns of its turn disc is known mark constantly, monitor constantly.

4, it is simple in structure for its conveyer, efficiency is high, just sliding shoe adopts motor to drive, all the other drive without motor, save cost, it adopts the adjusting be fixed with on sliding shoe to hook to make unidirectional belt delivering roller to rotate, and unidirectional belt delivering roller drives the carbon ribbon material receiving roller to rotate to carry out the transmission of carbon ribbon by rubber strip, its synchronous high efficiency.

5, it adopts secured adjusted bar on rolling disc, and eccentric setting moves up and down, and by driven by servomotor, its impulsive force is mild, guarantees the stable of equipment.

The accompanying drawing explanation:

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the structural representation between sliding shoe of the present utility model and slide rail;

Fig. 3 is the structural representation between gripper shoe of the present utility model, servomotor, rolling disc and approach switch;

Fig. 4 is the structural representation of marking device of the present utility model;

Fig. 5 is the syndeton schematic diagram between marking device and heat block;

Fig. 6 is the structural representation between block and heat block.

The specific embodiment:

Embodiment, see as shown in Figures 1 to 6, the hot transfer printing marking machine of a kind of solar film, comprise gripper shoe 100 and servomotor 200, servomotor 200 is fixed on gripper shoe 100 back sides, turning cylinder 2001 sleeves of servomotor 200 are on gripper shoe 100 and stretch out the front of gripper shoe 100, the top of turning cylinder 2001 is fixed with rolling disc 10, rolling disc 10 is in the middle and upper part of gripper shoe 100, adjusting rod 1 is below rolling disc 10, the upper end of adjusting rod 1 is hinged on the limit section of rolling disc 10, the lower end of adjusting rod 1 is hinged on the sliding shoe 20 of adjusting rod 1 below, in the slide rail 30 of sliding shoe 20 sleeves on the front of being fixed in gripper shoe 100, sliding shoe 20 bottoms are fixed with heat block 50, the bottom surface of heat block 50 is fixed with marking device 40, the mark piece 404 of marking device 40 is over against the back side of carbon ribbon 300, the front upper left quarter of gripper shoe 100 is hinged with carbon ribbon drawing-inroller 2, the lower left quarter in the front of gripper shoe 100 is hinged with carbon ribbon material receiving roller 3, unidirectional belt delivering roller 4 and roller 5, unidirectional belt delivering roller 4 and roller 5 mutually by and below carbon ribbon material receiving roller 3, be hinged with runner 42 in the swing arm 41 formed on the medial extremity sidewall of unidirectional belt delivering roller 4, runner 42 is pressed against on the hook part 22 that the adjusting that is fixed with on sliding shoe 20 hooks 21 bottom, the top of swing arm 41 is fixed with spring 6, spring 6 other ends are fixed on the gripper shoe 100 of swing arm 41 belows,

Marking device 40 structures are, form rectangular through slot 4011 on the upper plane of block 401, the two ends of block 401 are fixed with right baffle-plate 402 and right baffle plate 403, the middle part of block 401 is inserted with mark piece 404, be carved with the mark pattern on the upper plane of mark piece 404, the upper plane of mark piece 404 is higher than the upper plane of block 401, the bar section of many bolts 405 is screwed onto on right baffle plate 403 and through right baffle plate 3 and is pressed against on the right side wall of mark piece 404, the left side wall of mark piece 404 is pressed against on the inwall of right baffle-plate 402, the bottom surface of block 401 is fixed on the bottom surface of heat block 50.

The top, positive middle part of described gripper shoe 100 is hinged with on backing roll 7, upper right quarter and is hinged with guide wheel 8, be fixed with guide rod 9 on the gripper shoe 100 of the below of guide wheel 8, mark piece 404 both sides also are fixed with guide rod 9, each guide rod 9 middle part all is fixed with two spacing silica gel pieces 91, and carbon ribbon 300 passes between two spacing silica gel pieces 91.

Shown in sliding shoe 20 structures be, the back side of rectangle contiguous block 201 is fixed with partiting thermal insulation piece 202, the bead formed on back of partiting thermal insulation piece 202 has dovetail tangs 203, in the dovetail groove 301 formed between two slide rails 30 of dovetail tangs 203 sleeves on the front of being fixed in gripper shoe 100, the bottom of rectangle contiguous block 201 forms the horizontal projection section 204 parallel with horizontal plane, set bolt 205 successively sleeve horizontal projection section 204 be connected spacer 206 in and be screwed onto on heat block 50, connect spacer 206 and be clamped between horizontal projection section 204 and heat block 50.

Described unidirectional belt delivering roller 4 drives carbon ribbon material receiving roller 3 by rubber strip 43 and rotates.

Be fixed with approach switch 60 on the front of described gripper shoe 100, the inductive head of approach switch 60 is over against the projection 101 formed in limit, the back side section of rolling disc 10.

Operation principle: servomotor 200 drives rolling disc 10 to rotate, because adjusting rod 1 is eccentric settings with rolling disc 10, just driving adjusting rod 1 when rolling disc 10 rotates moves up and down, thereby sliding shoe 20 is moved up and down along slide rail 30, make the heat block 50 and the marking device 40 that are fixed on sliding shoe 20 move up and down.

And carbon ribbon 300 was the reel encapsulation before this in carbon ribbon drawing-inroller 2, arrive rolling carbon ribbon material receiving rollers 3 along backing roll 7, guide wheel 8 and three guide rods 9 around passing along roller 5 to unidirectional belt delivering roller 4 and between unidirectional belt delivering roller 4 and roller 5 subsequently, be fixed with roller spring 51 on arm due to roller 5, roller spring 51 other ends are fixed on the gripper shoe 100 of roller 5 belows, left and right due to roller spring 51, make roller 5 be pressed against on unidirectional belt delivering roller 4, make the carbon ribbon 300 between unidirectional belt delivering roller 4 and roller 5 be clamped between the two.

When printing, marking device 40 moves down, make mark piece 404 press against the back side of the carbon ribbon 300 of its below, carbon ribbon 300 is printed to downwards and treat on mark article face, like this, due to pressing of mark piece 404, carbon ribbon 300 in carbon ribbon drawing-inroller 2 just is drawn out an end, simultaneously, the adjusting hook 21 now be fixed on sliding shoe 20 also moves down, make lean against the runner 42 that is hinged with in the swing arm 41 regulate hooked on 21 due to the effect of spring 6 also to lower swing, after printing completes, sliding shoe 20 moves up, regulate and hook 21 upwards swings of drive runners 42, make unidirectional belt delivering roller 4 rotate counterclockwise one section, driving carbon ribbon material receiving roller 3 by rubber strip 43 rotates, make the carbon ribbon 300 of fresh out of send forward one section to, be wound around a section of same distance on carbon ribbon material receiving roller 3, rotation along with rolling disc 10, and so forth, carry out work, in this process, approach switch 60 is when rolling disc 10 rotates a circle, with the projection 101 formed in limit, the back side section of rolling disc 10, approach, record once sends data in the marking machine controller, every rotation like this is once just recorded once, total data is recorded in controller, convenient management.

When block 401 is installed heat block 50, first to rotate hand-held fixed part 406, make through right baffle plate 403, the wrap direction of the bending part 4071 of the fixed bar 407 of the bottom of block 401 and right baffle-plate 402 upwards, then heat block 50 sleeves are entered in the fixedly dovetail groove 4012 formed on the bottom surface of block 401, the right flank of heat block 50 is pressed against on the right baffle plate 403 lower than block 401 bottom surface portions, then promote hand-held fixed part 406 rotation, the wrap direction of bending part 4071 is pressed against downwards on the left surface of heat block 50, spring 408 elastic reactions, heat block 50 is clamped between bending part 4071 and right baffle plate 403, complete installation.

Claims

1. the hot transfer printing marking machine of solar film, comprise gripper shoe (100) and servomotor (200), servomotor (200) is fixed on gripper shoe (100) back side, turning cylinder (2001) sleeve of servomotor (200) goes up and stretches out the front of gripper shoe (200) in gripper shoe (100), it is characterized in that: the top of turning cylinder (2001) is fixed with rolling disc (10), rolling disc (10) is in the middle and upper part of gripper shoe (100), adjusting rod (1) is in the below of rolling disc (10), the upper end of adjusting rod (1) is hinged on the limit section of rolling disc (10), the lower end of adjusting rod (1) is hinged on the sliding shoe (20) of adjusting rod (1) below, in the slide rail (30) of sliding shoe (20) sleeve on the front of being fixed in gripper shoe (100), sliding shoe (20) bottom is fixed with heat block (50), the bottom surface of heat block (50) is fixed with marking device (40), the mark piece (404) of marking device (40) is over against the back side of carbon ribbon (300), the front upper left quarter of gripper shoe (100) is hinged with carbon ribbon drawing-inroller (2), the lower left quarter in the front of gripper shoe (100) is hinged with carbon ribbon material receiving roller (3), unidirectional belt delivering roller (4) and roller (5), unidirectional belt delivering roller (4) and roller (5) mutually by and in carbon ribbon material receiving roller (3) below, be hinged with runner (42) in the swing arm (41) formed on the medial extremity sidewall of unidirectional belt delivering roller (4), runner (42) is pressed against on the hook part (22) of bottom that the adjusting that is fixed with on sliding shoe (20) hooks (21), the top of swing arm (41) is fixed with spring (6), spring (6) other end is fixed on the gripper shoe (200) of swing arm (41) below,

Marking device (40) structure is, form rectangular through slot (4011) on the upper plane of block (401), the two ends of block (401) are fixed with right baffle-plate (402) and right baffle plate (403), the middle part of block (401) is inserted with mark piece (404), be carved with the mark pattern on the upper plane of mark piece (404), the upper plane of mark piece (404) is higher than the upper plane of block (401), the bar section of many bolts (405) is screwed onto right baffle plate (403) and goes up and pass right baffle plate (3) and be pressed against on the right side wall of mark piece (404), the left side wall of mark piece (404) is pressed against on the inwall of right baffle-plate (402), the bottom surface of block (401) is fixed on the bottom surface of heat block (50).

2. the hot transfer printing marking machine of a kind of solar film according to claim 1, it is characterized in that: the top, positive middle part of described gripper shoe (100) is hinged with on backing roll (7), upper right quarter and is hinged with guide wheel (8), be fixed with guide rod (9) on the gripper shoe (100) of the below of guide wheel (8), mark piece (404) both sides also are fixed with guide rod (9), each guide rod (9) middle part all is fixed with two spacing silica gel pieces (91), and carbon ribbon (300) passes between two spacing silica gel pieces (91).

3. the hot transfer printing marking machine of a kind of solar film according to claim 1, it is characterized in that: shown in sliding shoe (20) structure be, the back side of rectangle contiguous block (201) is fixed with partiting thermal insulation piece (202), the bead formed on back of partiting thermal insulation piece (202) has dovetail tangs (203), in the dovetail groove (301) formed between two slide rails (30) of dovetail tangs (203) sleeve on the front of being fixed in gripper shoe (100), the bottom of rectangle contiguous block (201) forms the horizontal projection section (204) parallel with horizontal plane, set bolt (205) successively sleeve horizontal projection section (204) be connected spacer (206) in and be screwed onto on heat block (50), connecting spacer (206) is clamped between horizontal projection section (204) and heat block (50).

4. the hot transfer printing marking machine of a kind of solar film according to claim 1 is characterized in that: described unidirectional belt delivering roller (4) drives carbon ribbon material receiving roller (3) by rubber strip (43) and rotates.

5. the hot transfer printing marking machine of a kind of solar film according to claim 1, it is characterized in that: be fixed with approach switch (60) on the front of described gripper shoe (100), the inductive head of approach switch (60) is over against the projection (101) formed in limit, the back side section of rolling disc (10).