CN212240883U - Staple locator - Google Patents

Abstract

The utility model belongs to the stationery field relates to a staple locator, including fixed support body board, the inside drive mechanism that is equipped with of fixed support body board, fixed support body board upper surface left and right sides is equipped with a left side respectively and pushes away the cardboard and push away the cardboard with the right side, fixed support body board front side board is equipped with left setpoint piece and right setpoint piece, be equipped with rectangular spout one on the front side board of left setpoint piece and right setpoint piece below, and a left side pushes away the cardboard, the right side pushes away the cardboard, left setpoint piece and right setpoint piece respectively with drive mechanism fixed connection, left setpoint piece and right setpoint piece are located a left side and push away the cardboard and push away between the cardboard with the right side. The utility model discloses simple structure, reasonable in design, convenient to use, the demarcation position of calibration staple that can be comparatively accurate makes the file bind can the unified position, beautifully when being favorable to the file to be filed.

Description

Staple locator

Technical Field

The utility model relates to a staple locator belongs to the stationery field.

Background

The binding positions of binding needles of different workers are different, and the binding positions are messy and not attractive enough when documents are filed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the staple locator is simple in structure and convenient to use, can accurately mark the marking position of a staple, enables files to be bound at a unified position, and is beneficial to the attractiveness of files during filing.

Staple locator, including fixed support body board, fixed support body inboard inside is equipped with drive mechanism, fixed support body board upper surface left and right sides is equipped with a left side respectively and pushes away cardboard and right side and pushes away the cardboard, fixed support body board front side board is equipped with left setpoint piece and right setpoint piece, be equipped with rectangular spout one on the preceding curb plate of left setpoint piece and right setpoint piece below to a left side pushes away the cardboard, the right side pushes away the cardboard, left setpoint piece and right setpoint piece respectively with drive mechanism fixed connection, left setpoint piece and right setpoint piece are located a left side and push away between cardboard and the right side.

When in use, the left paper pushing plate or the right paper pushing plate is pulled to one side, so that the distance between the left paper pushing plate and the right paper pushing plate approximately meets the requirement of paper to be bound, then the paper is placed between the left paper pushing plate and the right paper pushing plate above the fixed support body plate, then the left paper pushing plate or the right paper pushing plate is reversely pushed, one panel of the left paper pushing plate and one panel of the right paper pushing plate are respectively clung to two sides of the paper to be bound, at the moment, the binding side of the paper to be bound is clung to the other panel of the left paper pushing plate and the right paper pushing plate, the left paper pushing plate and the right paper pushing plate extend out of the fixed support body plate, the binding sides of the paper are suspended up and down to facilitate binding of the paper binding machine, the positions of the left positioning point block and the right positioning point block are relatively displaced when the positions of the left paper pushing plate and the right paper pushing plate are moved, and the positions of the left positioning point block, and then the stapler is taken to staple at the paper positions corresponding to the left positioning point block and the right positioning point. The extending direction of a length of the long sliding chute is the same as the moving direction of the left paper pushing plate and the right paper pushing plate.

Preferably, the transmission mechanism comprises a paper pushing gear, a first paper pushing rack and a second paper pushing rack are respectively arranged on two sides of the paper pushing gear, the first paper pushing rack and the second paper pushing rack are both meshed with the paper pushing gear, the first paper pushing rack and the second paper pushing rack are respectively and fixedly connected with the left paper pushing plate and the right paper pushing plate through a first paper pushing connecting rod and a second paper pushing connecting rod, and the first paper pushing connecting rod and the second paper pushing connecting rod are respectively arranged on different sides of the paper pushing gear; the paper pushing gear is coaxially connected with the reducing pinion through a first transmission shaft, the reducing pinion is in meshing transmission with a second reducing gear, the second reducing gear is coaxially connected with the positioning gear through a second transmission shaft, a first positioning rack and a second positioning rack are respectively arranged on two sides of the positioning gear, the first positioning rack and the second positioning rack are both meshed with the positioning gear, the first positioning rack and the second positioning rack are respectively fixedly connected with a right positioning point block and a left positioning point block through a first positioning connecting rod and a second positioning connecting rod, and the first positioning connecting rod and the second positioning connecting rod are arranged on different sides of the positioning gear; the reduction pinion, the reduction gear wheel, the paper pushing gear and the positioning gear are respectively connected with the fixed support body plate through rotating shafts. When the paper pushing device is installed, the left paper pushing plate is pulled or pushed manually, the paper pushing gear is driven to rotate by the left paper pushing plate through the paper pushing rack, the paper pushing gear rotates to drive the paper pushing rack II to move, the paper pushing rack II drives the right paper pushing plate to move, and the left paper pushing plate and the right paper pushing plate move towards the middle or away from each other simultaneously; the paper pushing gear rotates to drive the reduction pinion to rotate through the transmission shaft, the reduction pinion drives the reduction gear wheel to rotate, the reduction gear wheel drives the positioning gear to rotate through the transmission shaft II, the positioning gear rotates to drive the positioning rack I and the positioning rack II to move, and the positioning rack I and the positioning rack II respectively drive the right positioning point block and the left positioning point block to move. The transmission ratio of the reduction pinion gear and the reduction gearwheel is determined, so that for the same paper, the moving distances of the left paper pushing plate and the right paper pushing plate are determined, and the moving distances of the right positioning point block and the left positioning point block are also determined, so that the positions indicated by the right positioning point block and the left positioning point block of the same paper are determined. The right positioning point block and the left positioning point block are respectively the same as the moving directions of the corresponding right paper pushing plate and the left paper pushing plate.

Preferably, a gantry support frame is additionally arranged above the fixed support plate, a pressure rod is arranged in the middle of a top rod of the gantry support frame, one end of the pressure rod is hinged to the top rod of the gantry support frame, a pressing block is arranged at the other end of the pressure rod, and the pressing block is hinged to the pressure rod. The briquetting has certain weight, will need to bind the paper and compress tightly, prevents that the paper that needs to bind from being blown away etc to the briquetting is spherical, prevents that the briquetting from the fish tail paper.

Preferably, a second long-strip sliding chute is arranged on the upper surface of the fixed support body plate, a sliding block is arranged in the second long-strip sliding chute, the sliding block is fixedly connected with the upward-pushing paperboard, the upward-pushing paperboard is vertically arranged with the left-pushing paperboard and the right-pushing paperboard, and the sliding block is in sliding fit with the second long-strip sliding chute; the second strip chute is perpendicular to the first strip chute. The push-up paper board is pushed to tightly push the push-up paper board and the different side of the binding paper, so that the four surfaces of the paper to be bound are all aligned.

Preferably, the left positioning point block and the right positioning point block are respectively and fixedly connected with a U-shaped positioning frame, an operation through hole is formed in the middle of the U-shaped positioning frame, and when the paper is assembled, the stapler staples the stapled paper from the operation through hole, so that the positions to be stapled are further accurately positioned.

Compared with the prior art, the utility model beneficial effect who has is:

the utility model discloses simple structure, reasonable in design, convenient to use, the demarcation position of calibration staple that can be comparatively accurate makes the file bind can the unified position, beautifully when being favorable to the file to be filed.

Drawings

FIG. 1 is a schematic view of a staple retainer construction (front view);

FIG. 2 is a schematic view (top view) of a staple retainer;

FIG. 3 is a schematic view of the staple retainer construction (right side view);

FIG. 4 is a schematic structural view of a U-shaped positioning frame;

fig. 5, the structure of the transmission mechanism is schematic.

In the figure: 1. fixing the support plate; 2. a first strip chute; 3. a gantry support frame; 4. pushing the paper board leftwards; 5. a pressure lever; 6. briquetting; 7. pushing the paper board to the right; 8. a second paper pushing connecting rod; 9. positioning the first connecting rod; 10. paper; 11. a second positioning connecting rod; 12. a U-shaped positioning frame; 13. a paper pushing connecting rod I; 14. a second strip chute; 15. a slider; 16. pushing up the paper board; 17. operating the through hole; 18. a paper pushing gear; 19. a paper pushing rack I; 20. positioning a first rack; 21. positioning a second rack; 22. positioning a gear; 23. a second transmission shaft; 24. a deceleration gearwheel; 25. a reduction pinion gear; 26. a first transmission shaft; 27. a second paper pushing rack; 28. a right anchor point block; 29. and locating a point block on the left.

Detailed Description

The invention will be further described with reference to the accompanying drawings:

as shown in fig. 1-5, the staple locator of the present invention comprises a fixed support plate 1, a transmission mechanism is arranged inside the fixed support plate 1, the left and right sides of the upper surface of the fixed support plate 1 are respectively provided with a left paper pushing plate 4 and a right paper pushing plate 7, the front side plate of the fixed support plate 1 is provided with a left positioning point block 29 and a right positioning point block 28, the front side plate below the left positioning point block 29 and the right positioning point block 28 is provided with a long strip chute one 2, and the left paper pushing plate 4, the right paper pushing plate 7, the left positioning point block 29 and the right positioning point block 28 are respectively fixedly connected with the transmission mechanism, and the left positioning point block 29 and the right positioning point block 28 are arranged between the left paper pushing plate 4 and the right paper pushing plate 7; the left paper pushing plate 4 and the right paper pushing plate 7 are both L-shaped.

In this embodiment:

the transmission mechanism comprises a paper pushing gear 18, a first paper pushing rack 19 and a second paper pushing rack 27 are respectively arranged on two sides of the paper pushing gear 18, the first paper pushing rack 19 and the second paper pushing rack 27 are both meshed with the paper pushing gear 18, the first paper pushing rack 19 and the second paper pushing rack 27 are respectively and fixedly connected with the left paper pushing plate 4 and the right paper pushing plate 7 through a first paper pushing connecting rod 13 and a second paper pushing connecting rod 8, and the first paper pushing connecting rod 13 and the second paper pushing connecting rod 8 are respectively arranged on the opposite sides of the paper pushing gear 18; the paper pushing gear 18 is coaxially connected with a reduction pinion 25 through a first transmission shaft 26, the reduction pinion 25 is in meshing transmission with a reduction gear wheel 24, the reduction gear wheel 24 is coaxially connected with a positioning gear wheel 22 through a second transmission shaft 23, a first positioning rack 20 and a second positioning rack 21 are respectively arranged on two sides of the positioning gear wheel 22, the first positioning rack 20 and the second positioning rack 21 are both meshed with the positioning gear wheel 22, the first positioning rack 20 and the second positioning rack 21 are respectively connected and fixed with a left positioning point block 29 and a right positioning point block 28 through a first positioning connecting rod 9 and a second positioning connecting rod 11, and the first positioning connecting rod 9 and the second positioning connecting rod 11 are arranged on different sides of the positioning gear wheel 22; the reduction pinion 25, the reduction gearwheel 24, the paper pushing gear 18 and the positioning gear 22 are respectively connected with the fixed carrier plate 1 through rotating shafts.

The gantry support frame 3 is additionally arranged above the fixed support plate 1, the middle position of the ejector rod of the gantry support frame 3 is provided with a pressure rod 5, one end of the pressure rod 5 is hinged with the ejector rod of the gantry support frame 3, the other end of the pressure rod 5 is provided with a pressing block 6, and the pressing block 6 is hinged with the pressure rod 5. The pressing block 6 has a certain weight, the paper 10 to be bound is pressed tightly, the paper 10 to be bound is prevented from being blown away and the like, and the pressing block 6 is spherical, so that the paper 10 is prevented from being scratched by the pressing block 6.

The upper surface of the fixed support plate 1 is provided with a second long-strip sliding groove 14, a sliding block 15 is arranged in the second long-strip sliding groove 14, the sliding block 15 is fixedly connected with an upper paper pushing plate 16, the upper paper pushing plate 16 is vertically arranged with the left paper pushing plate 4 and the right paper pushing plate 7, and the sliding block 15 is in sliding fit with the second long-strip sliding groove 14; the second strip chute 14 is perpendicular to the first strip chute 2. The push-up paper board 16 is pushed to tightly push the push-up paper board 16 and the binding side of the binding paper 10, so that the four surfaces of the paper 10 to be bound are all aligned.

The left positioning point block 29 and the right positioning point block 28 are respectively and fixedly connected with the U-shaped positioning frame 12, an operation through hole 17 is formed in the middle of the U-shaped positioning frame 12, and when the binding is carried out, the binding machine binds the binding paper 10 from the operation through hole 17, so that the position needing to be bound is further accurately positioned.

When the binding machine is used, the left paper pushing plate 4 or the right paper pushing plate 7 is pulled to one side, so that the distance between the left paper pushing plate 4 and the right paper pushing plate 7 approximately meets the requirement of paper 10 to be bound, then the paper 10 is placed between the left paper pushing plate 4 and the right paper pushing plate 7 above the fixed support plate 1, then the left paper pushing plate 4 or the right paper pushing plate 7 is pushed reversely, one panel of the left paper pushing plate 4 and one panel of the right paper pushing plate 7 are respectively clung to two sides of the paper 10 to be bound, at the moment, the binding side of the paper 10 to be bound is clung to the other panel of the left paper pushing plate 4 and the right paper pushing plate 7, the left paper pushing plate 4 and the right paper pushing plate 7 extend out of the fixed support plate 1, the binding side of the paper 10 is suspended up and down, the binding of the binding machine is convenient, the positions of the left positioning point 29 and the right positioning point 28 are relatively displaced when the positions of the left paper pushing plate 4 and the right paper pushing plate 7 are moved, when the paper 10 to be bound is clamped, the positions of the left positioning point block 29 and the right positioning point are determined immediately, and then the stapler is taken to staple the paper 10 corresponding to the left positioning point block 29 and the right positioning point. The length of the first long sliding chute 2 extends in the same direction as the moving direction of the left paper pushing plate 4 and the right paper pushing plate 7.

When the paper pushing device is installed, the left paper pushing plate 4 is pulled or pushed manually, the left paper pushing plate 4 drives the paper pushing gear 18 to rotate through the paper pushing rack I19, the paper pushing gear 18 rotates to drive the paper pushing rack II 27 to move, the paper pushing rack II 27 drives the right paper pushing plate 7 to move, and the left paper pushing plate 4 and the right paper pushing plate 7 move towards the middle or away from each other simultaneously; the paper pushing gear 18 rotates to drive the reduction pinion 25 to rotate through the first transmission shaft 26, the reduction pinion 25 drives the reduction big gear 24 to rotate, the reduction big gear 24 drives the positioning gear 22 to rotate through the second transmission shaft 23, the positioning gear 22 rotates to drive the first positioning rack 20 and the second positioning rack 21 to move, and the first positioning rack 20 and the second positioning rack 21 respectively drive the right positioning point block 28 and the left positioning point block 29 to move. The transmission ratio of the reduction pinion 25 and the reduction gearwheel 24 is determined, so that for the same paper 10, the distance the left push board 4 and the right push board 7 move is determined, and therefore the distance the right positioning point block 28 and the left positioning point block 29 move is also determined, so that the same paper 10 is determined when the positions indicated by the right positioning point block 28 and the left positioning point block 29 are determined. A ratio of 3:1 is typically selected, with the two staple positions abutting the binding side of the sheets 10 at 1/3 and 2/3, respectively. The right positioning point block 28 and the left positioning point block 29 are respectively identical with the moving directions of the corresponding right paper pushing plate 7 and the left paper pushing plate 4.

Claims (5)

1. A staple retainer characterized by: the fixing support plate comprises a fixing support plate (1), a transmission mechanism is arranged inside the fixing support plate (1), the left side and the right side of the upper surface of the fixing support plate (1) are respectively provided with a left paper pushing plate (4) and a right paper pushing plate (7), the front side plate of the fixing support plate (1) is provided with a left positioning point block (29) and a right positioning point block (28), the front side plate below the left positioning point block (29) and the right positioning point block (28) is provided with a long-strip sliding groove I (2), the left paper pushing plate (4), the right paper pushing plate (7), the left positioning point block (29) and the right positioning point block (28) are respectively and fixedly connected with the transmission mechanism, and the left positioning point block (29) and the right positioning point block (28) are arranged between the left paper pushing plate; the left paper pushing plate (4) and the right paper pushing plate (7) are L-shaped.

2. The staple locator of claim 1, wherein: the transmission mechanism comprises a paper pushing gear (18), a first paper pushing rack (19) and a second paper pushing rack (27) are arranged on two sides of the paper pushing gear (18) respectively, the first paper pushing rack (19) and the second paper pushing rack (27) are meshed with the paper pushing gear (18), the first paper pushing rack (19) and the second paper pushing rack (27) are fixedly connected with the left paper pushing plate (4) and the right paper pushing plate (7) respectively through a first paper pushing connecting rod (13) and a second paper pushing connecting rod (8), and the first paper pushing connecting rod (13) and the second paper pushing connecting rod (8) are arranged on different sides of the paper pushing gear (18) respectively; the paper pushing gear (18) is coaxially connected with a reduction pinion (25) through a first transmission shaft (26), the reduction pinion (25) is in meshing transmission with a reduction gear wheel (24), the reduction gear wheel (24) is coaxially connected with a positioning gear wheel (22) through a second transmission shaft (23), a first positioning rack (20) and a second positioning rack (21) are respectively arranged on two sides of the positioning gear wheel (22), the first positioning rack (20) and the second positioning rack (21) are both meshed with the positioning gear wheel (22), the first positioning rack (20) and the second positioning rack (21) are respectively connected and fixed with a right positioning point block (28) and a left positioning point block (29) through a first positioning connecting rod (9) and a second positioning connecting rod (11), and the first positioning connecting rod (9) and the second positioning connecting rod (11) are arranged on different sides of the positioning gear wheel (22); the reduction pinion (25), the reduction gear wheel (24), the paper pushing gear (18) and the positioning gear (22) are respectively connected with the fixed support plate (1) through rotating shafts.

3. The staple locator of claim 1 or 2, wherein: the gantry supporting frame (3) is additionally arranged above the fixed support plate (1), the middle of an ejector rod of the gantry supporting frame (3) is provided with a pressing rod (5), one end of the pressing rod (5) is hinged to the ejector rod of the gantry supporting frame (3), the other end of the pressing rod (5) is provided with a pressing block (6), and the pressing block (6) is hinged to the pressing rod (5).

4. The staple locator of claim 1 or 2, wherein: a second long-strip sliding groove (14) is formed in the upper surface of the fixed support plate (1), a sliding block (15) is arranged in the second long-strip sliding groove (14), the sliding block (15) is fixedly connected with an upward pushing paper plate (16), the upward pushing paper plate (16) is perpendicular to the left pushing paper plate (4) and the right pushing paper plate (7), and the sliding block (15) is in sliding fit with the second long-strip sliding groove (14); the second strip chute (14) is perpendicular to the first strip chute (2).

5. The staple locator of claim 1 or 2, wherein: the left positioning point block (29) and the right positioning point block (28) are respectively fixedly connected with the U-shaped positioning frame (12), and the middle part of the U-shaped positioning frame (12) is provided with an operation through hole (17).

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