CN103381710B

CN103381710B - The marking mechanism of the hot transfer printing marking machine of a kind of solar film

Info

Publication number: CN103381710B
Application number: CN201310273252.7A
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: 2015-11-25
Anticipated expiration: 2033-07-02
Also published as: CN103381710A

Abstract

The invention discloses the marking mechanism of the hot transfer printing marking machine of a kind of solar film, servomotor is fixed on the gripper shoe back side, the turning cylinder sleeve of servomotor on the supporting plate and stretch out the front of gripper shoe, the top of turning cylinder is fixed with rolling disc, first oblate portion of the upper joint sleeve bar of retractor device is fixed on the edge of rolling disc, second oblate portion of the lower joint sleeve bar of retractor device is hinged on sliding shoe, in the slide rail of sliding shoe sleeve on the front being fixed on gripper shoe, heat block is fixed with bottom sliding shoe, the bottom surface of heat block is fixed with marking device, the mark block of marking device is just to the back side of carbon ribbon.It drives expansion link to promote up and down by turn disc, the sliding shoe be fixed on expansion link can be moved up and down, and make mark block carry out mark, its impulsive force is little, expansion link can be finely tuned, and can meet the requirement needing mark article of various different-thickness like this.

Description

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

Technical field:

The present invention relates to marking machine equipment technical field, relate to the marking mechanism of the hot transfer printing marking machine of a kind of solar film in particular.

Background technology:

Existing carbon ribbon formula marking machine is generally adopt pneumatic type to promote mark, but pneumatic type promotion employing is that cylinder promotes, large and the existing mark block of its impulsive force is also directly be fixed on the push rod of cylinder, the distance promoted up and down due to the push rod of cylinder is certain, like this when needing must have certain distance between the article of mark and mark block, the distance between the article of mark and mark block will be made excessive or too small when the article of mark are blocked up or excessively thin, affect mark effect, impulsive force greatly easily makes the article of mark damage.

Simultaneously, three long through grooves are side by side formed in the mark block of existing marking machine, this makes the small blocks can only placing split type multiple alpha types, the general length of its small blocks and width only have about 0.5cm, and the agglomerate body of depiction in the upper plane cannot placing some rectangles, make it can only beat some alphabetic literals, its mark is single, cannot meet the different needs of client.

Summary of the invention:

The object of the invention 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 adopts eccentric setting, expansion link is driven to promote up and down by turn disc, the sliding shoe be fixed on expansion link can be moved up and down, mark block is made to carry out mark, its impulsive force is little, expansion link can be finely tuned, the requirement needing mark article of various different-thickness can be met like this, simultaneously, the rectangular through slot of its marking device can the mark block of holding integrated formula, and plane can carve various pattern and combination letter on all-in-one-piece mark block, make it can meet the needs of different client.

The scheme that the present invention solve the technical problem is:

The marking mechanism of 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 on the supporting plate and stretch out the front of gripper shoe, the top of turning cylinder is fixed with rolling disc, first oblate portion of the upper joint sleeve bar of retractor device is fixed on the edge of rolling disc, second oblate portion of the lower joint sleeve bar of retractor device is hinged on sliding shoe, in the slide rail of sliding shoe sleeve on the front being fixed on gripper shoe, heat block is fixed with bottom sliding shoe, the bottom surface of heat block is fixed with marking device, the mark block of marking device is just to the back side of carbon ribbon,

Described retractor device comprises upper joint sleeve bar, lower joint sleeve bar and connecting screw rod, and the top of described connecting screw rod is right-handed thread bar, middle part is six trunk portion, bottom is left hand thread bar; The top of upper joint sleeve bar forms the first oblate portion, and the lower outside wall of upper joint sleeve bar is six cylinders; The bottom of lower joint sleeve bar forms the second oblate portion, and the upper outside wall of lower joint sleeve bar is six cylinders; The right-handed thread bar of connecting screw rod is screwed onto in the dextrorotation screw matched with right-handed thread bar of upper joint sleeve bar, top nut is bolted with in the middle part of right-handed thread bar, the left hand thread bar of connecting screw rod is screwed onto in the left-handed screw matched with left hand thread bar of lower joint sleeve bar, and the middle part of left hand thread bar is bolted with lower nut;

All through hole is formed in the middle part of first oblate portion and the second oblate portion, all connecting bolt is inserted with in two through holes, the connecting bolt that first oblate portion upper sleeve has is screwed onto the edge of rolling disc, the connecting bolt that second oblate portion upper sleeve has is screwed onto on sliding shoe, the diameter of described two through holes is all greater than the maximum gauge in the bar portion of connecting bolt, connecting bolt is all inserted with spacer, the equal sleeve of spacer in through-holes, spacer in first oblate portion is clamped between the connecting bolt that rolling disc and the first oblate portion upper sleeve have, spacer in second oblate portion is clamped between the connecting bolt that sliding shoe and the second oblate portion upper sleeve have,

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

Described marking device structure is, the upper plane of block forms rectangular through slot, the two ends of block are fixed with right baffle-plate and right baffle plate, the middle part of block is inserted with mark block, the upper plane of mark block is carved with mark pattern, and the upper plane of mark block is higher than the upper plane of block, and the bar portion of many bolts to be screwed onto on right baffle plate and to be pressed against on the right side wall of mark block through right baffle plate, the left side wall of mark block 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 connecting bolt that described second oblate portion upper sleeve has is screwed onto on rectangle contiguous block, and spacer is clamped between the connecting bolt that rectangle contiguous block and the second oblate portion upper sleeve have.

Outstanding effect of the present invention is:

1, compared with prior art, it adopts eccentric setting, expansion link is driven to promote up and down by turn disc, the sliding shoe be fixed on expansion link can be moved up and down, mark block is made to carry out mark, its impulsive force is little, and expansion link can be finely tuned, and can meet the requirement needing mark article of various different-thickness like this.

2, the lower outside wall of its upper joint sleeve bar is six cylinders, the upper outside wall of lower joint sleeve bar is six cylinders, this spanner easy to use carries out pulling rotation, and its first oblate portion and the second oblate portion all form through hole and for oblate, can facilitate its hinged with equipment on or be fixed on equipment.

3, the rectangular through slot of its marking device can the mark block of holding integrated formula, and on all-in-one-piece mark block, plane can carve various pattern and combination letter, makes it can meet the needs of different client.

4, when partiting thermal insulation block can ensure the heating rod generation amount of heat owing to being fixed with in heat block, heat can not be made to be sent in gripper shoe and in slide rail, to ensure the normal use of machine, operator also can not be made to iron hand.

Accompanying drawing illustrates:

Fig. 1 is structural representation of the present invention;

Fig. 2 is upper joint sleeve bar of the present invention, structural representation between lower joint sleeve bar and connecting screw rod;

Fig. 3 is the structural representation between sliding shoe of the present invention and slide rail;

Fig. 4 is the structural representation between gripper shoe of the present invention and servomotor;

Fig. 5 is the structural representation of marking device of the present invention;

Fig. 6 is the syndeton schematic diagram between the through hole of connecting bolt and lower joint sleeve bar;

Fig. 7 is the syndeton schematic diagram between marking device and heat block;

Fig. 8 is the structural representation between block and heat block.

Detailed description of the invention:

Embodiment, see as shown in Fig. 1 to 8, the marking mechanism of 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 side, turning cylinder 2001 sleeve of servomotor 200 is in gripper shoe 100 and stretch out the front of gripper shoe 100, the top of turning cylinder 2001 is fixed with rolling disc 10, first oblate portion 11 of the upper joint sleeve bar 1 of retractor device is fixed on the edge of rolling disc 10, second oblate portion 21 of the lower joint sleeve bar 2 of retractor device is hinged on sliding shoe 20, in the slide rail 30 of sliding shoe 20 sleeve on the front being fixed on gripper shoe 100, heat block 50 is fixed with bottom sliding shoe 20, the bottom surface of heat block 50 is fixed with marking device 40, the mark block 404 of marking device 40 is just to the back side of carbon ribbon 300.

Described retractor device comprises upper joint sleeve bar 1, lower joint sleeve bar 2 and connecting screw rod 3, and the top of described connecting screw rod 3 is right-handed thread bar 31, middle part is six trunk portion 32, bottom is left hand thread bar 33; The top of upper joint sleeve bar 1 forms the first oblate portion 11, and the lower outside wall of upper joint sleeve bar 1 is six cylinders; The bottom of lower joint sleeve bar 2 forms the second oblate portion 21, and the upper outside wall of lower joint sleeve bar 2 is six cylinders; The right-handed thread bar 31 of connecting screw rod 3 is screwed onto in the dextrorotation screw 12 matched with right-handed thread bar 31 of upper joint sleeve bar 1, top nut 4 is bolted with in the middle part of right-handed thread bar 31, the left hand thread bar 33 of connecting screw rod 3 is screwed onto in the left-handed screw 22 matched with left hand thread bar 33 of lower joint sleeve bar 2, and the middle part of left hand thread bar 33 is bolted with lower nut 5;

Through hole 6 is all formed in the middle part of first oblate portion 11 and the second oblate portion 21, connecting bolt 7 is all inserted with in two through holes 6, the connecting bolt 7 that first oblate portion 11 upper sleeve has is screwed onto the edge of rolling disc 10, the connecting bolt 7 that second oblate portion 21 upper sleeve has is screwed onto on sliding shoe 20, the diameter of described two through holes 6 is all greater than the maximum gauge in the bar portion of connecting bolt 7, connecting bolt 7 is all inserted with spacer 9, the equal sleeve of spacer 9 is in through hole 6, spacer 9 in first oblate portion 11 is clamped between the connecting bolt 7 that rolling disc 10 and the first oblate portion 11 upper sleeve have, spacer 9 in second oblate portion 21 is clamped between the connecting bolt 7 that sliding shoe 20 and the second oblate portion 21 upper sleeve have, upper joint sleeve bar 1 is so just made to be hinged on rolling disc 10, lower joint sleeve bar 2 is hinged on sliding shoe 20.

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

The connecting bolt 7 that described second oblate portion 21 upper sleeve has is screwed onto on rectangle contiguous block 201, and spacer 9 is clamped between the connecting bolt 7 that rectangle contiguous block 201 and the second oblate portion 21 upper sleeve have.

Described marking device 40 structure is, the upper plane of block 401 forms rectangular through slot 4011, 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 block 404, the upper plane of mark block 404 is carved with mark pattern, the upper plane of mark block 404 is higher than the upper plane of block 401, the bar portion of many bolts 405 is screwed onto on right baffle plate 403 and is also pressed against on the right side wall of mark block 404 through right baffle plate 403, the left side wall of mark block 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.

Operation principle: the diameter of through hole 6 is all greater than the maximum gauge in the bar portion of connecting bolt 7, it just has gap, pass through left-handed for connecting screw rod 3 or dextrorotation like this, connecting screw rod 3 can be regulated to be screwed onto distance in upper joint sleeve bar 1 and lower joint sleeve bar 2, thus regulate upper joint sleeve bar 1, the length of the expansion link that lower joint sleeve bar 2 and connecting screw rod 3 form, it regulates length to be the summation of the difference of the maximum radius of two through holes 6 and spacer 9, it can ensure mark block 404 and treat that the distance between mark article remains unchanged, and top nut 4 and lower nut 5 can carry out the effect of locking after position has adjusted.

Servomotor 200 rotates, rolling disc 10 is driven to rotate, the upper joint sleeve bar 1 of retractor device is moved up and down along with rolling disc 10, retractor device is so just made to move up and down, the sliding shoe 20 that lower joint sleeve bar 2 is hinged with is moved up and down, marking device 40 on sliding shoe 20 is moved up and down, the mark block 404 after heating is made to be pressed against the back side of carbon ribbon 300, the carbon dust in the front of carbon ribbon 300 is transferred to according to the pattern on mark block 404 to be treated on the article of mark, wherein the back side of rectangle contiguous block 201 is fixed with partiting thermal insulation block 202 when can ensure that heating rod owing to being fixed with in heat block 50 produces amount of heat, heat can not be made to be sent in gripper shoe 100 with in slide rail 30, ensure the normal use of machine, also operator can not be made to iron hand.

When block 401 installs heat block 50, first rotate hand-held fixed part 406, make through right baffle plate 403, the wrap direction of the bending part 4071 of the bottom of block 401 and the fixed bar 407 of right baffle-plate 402 upwards, then heat block 50 sleeve is entered in the fixing dovetail groove 4012 that the bottom surface of block 401 forms, on the right baffle plate 403 that the right flank of heat block 50 is pressed against lower than block 401 bottom surface portions, then promote hand-held fixed part 406 and rotate, the wrap direction of bending part 4071 is pressed against on the left surface of heat block 50 downwards, spring 408 elastic reaction, heat block 50 is made to be clamped between bending part 4071 and right baffle plate 403, complete installation.

Claims

1. the marking mechanism of 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) is gone up in gripper shoe (100) and stretches out the front of gripper shoe (100), it is characterized in that: the top of turning cylinder (2001) is fixed with rolling disc (10), first oblate portion (11) of the upper joint sleeve bar (1) of retractor device is fixed on the edge of rolling disc (10), second oblate portion (21) of the lower joint sleeve bar (2) of retractor device is hinged on sliding shoe (20), in the slide rail of sliding shoe (20) sleeve on the front being fixed on gripper shoe (100) (30), 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 block (404) of marking device (40) is just to the back side of carbon ribbon (300),

Described retractor device comprises upper joint sleeve bar (1), lower joint sleeve bar (2) and connecting screw rod (3), and the top of described connecting screw rod (3) is right-handed thread bar (31), middle part is six trunk portion (32), bottom is left hand thread bar (33); The top of upper joint sleeve bar (1) forms the first oblate portion (11), and the lower outside wall of upper joint sleeve bar (1) is six cylinders; The bottom of lower joint sleeve bar (2) forms the second oblate portion (21), and the upper outside wall of lower joint sleeve bar (2) is six cylinders; The right-handed thread bar (31) of connecting screw rod (3) is screwed onto in the dextrorotation screw (12) matched with right-handed thread bar (31) of upper joint sleeve bar (1), right-handed thread bar (31) middle part is bolted with top nut (4), the left hand thread bar (33) of connecting screw rod (3) is screwed onto in the left-handed screw (22) matched with left hand thread bar (33) of lower joint sleeve bar (2), and the middle part of left hand thread bar (33) is bolted with lower nut (5);

First oblate portion (11) and middle part, the second oblate portion (21) all form through hole (6), connecting bolt (7) is all inserted with in two through holes (6), the connecting bolt (7) that first oblate portion (11) upper sleeve has is screwed onto the edge of rolling disc (10), the connecting bolt (7) that second oblate portion (21) upper sleeve has is screwed onto on sliding shoe (20), the diameter of described two through holes (6) is all greater than the maximum gauge in the bar portion of connecting bolt (7), connecting bolt (7) is all inserted with spacer (9), the equal sleeve of spacer (9) is in through hole (6), spacer (9) in first oblate portion (11) is clamped between the connecting bolt (7) that rolling disc (10) and the first oblate portion (11) upper sleeve have, spacer (9) in second oblate portion (21) is clamped between the connecting bolt (7) that sliding shoe (20) and the second oblate portion (21) upper sleeve have,

Described sliding shoe (20) structure is, the back side of rectangle contiguous block (201) is fixed with partiting thermal insulation block (202), the bead formed on back of partiting thermal insulation block (202) has dovetail tangs (203), in the dovetail groove (301) formed between two slide rails (30) of dovetail tangs (203) sleeve on the front being fixed on gripper shoe (100), the bottom of rectangle contiguous block (201) forms and the horizontal protrusions of plane-parallel (204), set bolt (205) successively sleeve horizontal protrusions (204) with to be connected in spacer (206) and to be screwed onto on heat block (30), connecting spacer (206) is clamped between horizontal protrusions (204) and heat block (50),

Described marking device (40) structure is, the upper plane of block (401) forms rectangular through slot (4011), 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 block (404), the upper plane of mark block (404) is carved with mark pattern, the upper plane of mark block (404) is higher than the upper plane of block (401), the bar portion of many bolts (405) is screwed onto right baffle plate (403) and goes up and pass right baffle plate (403) and be pressed against on the right side wall of mark block (404), the left side wall of mark block (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 marking mechanism of the hot transfer printing marking machine of a kind of solar film according to claim 1, it is characterized in that: the connecting bolt (7) that described second oblate portion (21) upper sleeve has is screwed onto on rectangle contiguous block (201), spacer (9) is clamped between the connecting bolt (7) that rectangle contiguous block (201) and the second oblate portion (21) upper sleeve have.