CN115299289A - Binding machine - Google Patents

Abstract

The invention discloses a strapping machine relating to the technical field of agricultural production strapping tools, which is provided with: a middle frame formed in a linear shape and capable of pulling out the belt from the front end portion; a bow mounted for rotation relative to the mid-frame; a band holding mechanism which is mounted on the front end of the bow frame and can hold the end of the band; the binding mechanism comprises a needle groove, a needle die and a thimble sheet, wherein the rear end of the needle groove is hinged to the middle frame, the needle die is arranged at the front end part of the bow frame, and the thimble sheet is fixed at the front end part of the middle frame and corresponds to the needle groove and the needle die; the cutter is arranged at the front part of the middle frame and is parallel to the thimble sheet; the strapping machine is characterized in that the strap clamping mechanism is provided with a supporting plate, a strap clamping plate, a reset rod and a trigger rod, the strap clamping plate and the trigger rod are rotatably installed, and the front end of the strap clamping plate is matched with the front end of the supporting plate.

Description

Strapping machine

Technical Field

The invention relates to the technical field of bundling tools in agricultural production, in particular to a bundling machine.

Background

When planting tomato, grape, kiwi and other crops, it is usually necessary to fix vines or branches of plants on bamboo shelves or iron wires to guide the growth or assist fruit bearing, so as to improve the yield and quality of the crops.

The traditional solution method is that ropes or cloth strips are fixed by a mode of binding one by one, the mode is low in efficiency, plants are easy to damage, the requirement of large-scale planting production cannot be met, and the plants are bound and fixed by a common binding machine (also called a branch binding machine) at present.

For example, chinese utility model patent with publication number CN211210728U discloses a branch binding machine, which mainly comprises a binding band clamping device, a bow frame, a handle, a frame, a needle box and a binding band box. The device is characterized in that the binding band clamping device comprises a machine box, a positioning plate, a band pressing needle and a forming anvil; the positioning plate is hinged in the case cavity, and a spring which enables the positioning plate to have a tendency of rotating in an anticlockwise direction is arranged on the positioning plate; the belt pressing needle is hinged in the case cavity, and a torsion spring which enables the belt pressing needle to have a tendency of rotating towards the counterclockwise direction is further arranged on the belt pressing needle; the positioning plate is matched with the pinch pin; the frame is also provided with a collision block which is matched with the press belt needle.

The advantages are that: simple structure, degree of automation is higher, and is laborsaving light, and the blade is not fragile and fixed firm, be liable to change, can avoid the string injury crop branch simultaneously in tying up the branch operation.

The clamping device has the disadvantages that the clamping needle is always in contact with the positioning plate in the rotating process, the relative position change and the friction force exist at the same time, the clamping needle and the positioning plate are easy to wear, the acting force of the clamping needle for overcoming the acting force of the second spring and keeping the acting force at the preset position is provided by the friction force at the mutually matched position of the positioning plate and the clamping plate, when the wear reaches a certain degree, the clamping plate cannot be kept at the preset position, so that the stability of the function of the clamping mechanism is influenced, and the branch binding machine cannot be normally used.

In view of the above-mentioned shortcomings of the prior art, the present invention provides a strapping machine, which has a clamping mechanism with related parts that wear slowly, have better stability and have longer service life.

Disclosure of Invention

In order to achieve the above object, the present invention describes a binding machine having the following features:

(1) A middle frame formed in a linear shape and capable of pulling out the belt from the front end portion; a bow mounted for rotation relative to the mid-frame; a band holding mechanism which is mounted on the front end of the bow frame and can hold the end of the band; the binding mechanism comprises a needle groove with the rear end hinged on the middle frame, a needle die arranged at the front end part of the bow frame, and a needle ejecting sheet which is fixed at the front end part of the middle frame and corresponds to the needle groove and the needle die; the cutter is arranged at the front part of the middle frame and is parallel to the thimble sheet; the belt clamping mechanism is provided with a supporting plate, a belt clamping plate, a reset rod and a firing rod, the belt clamping plate and the firing rod are rotatably installed, and the front end of the belt clamping plate is matched with the front end of the supporting plate.

(2) In addition to the feature described in the above (1), the binding machine is characterized in that, in a process in which the bow is rotated from the open position to a predetermined position in the closing direction with respect to the middle frame and then returned to the open position, a gripping operation of gripping and pulling out an end portion of the strap from a front end portion of the middle frame by the strap gripping mechanism is performed, and in a process in which the bow is rotated again from the open position to the closed position in the closing direction with respect to the middle frame after the gripping operation is completed any one time, a binding operation of binding a binding portion of the strap by the binding mechanism and cutting the strap by the cutter is performed, and the bound object can be bound by alternately performing the gripping operation and the binding operation.

(3) In addition to the feature described in the above (2), the strapping machine is further characterized in that a support member adapted to the return plate and a trigger member adapted to the trigger lever are provided at the front end of the middle frame, and the trigger member is hinged to the front end of the middle frame.

(4) Besides the features described in (3), the binding machine is further characterized in that the reset plate is disposed in parallel with the support plate, the reset rod is provided with a linear guide groove, the reset plate is matched with the clamping plate, the reset plate is also matched with the rear portion of the trigger rod, and a spring applies force to the reset plate to enable the reset plate to have a downward movement trend.

(5) In addition to the feature described in (4) above, the binding machine is characterized in that the strap holding plate is rotated between a standby position and a clamping position by the return plate, the strap holding plate is rotated from the standby position to the clamping position when the clamping operation is performed, the support member urges the return rod upward against the urging force of the spring when the binding operation is performed, the return rod urges the strap holding plate to be rotated from the clamping position to the standby position by the urging force of the spring, and the trigger rod holds the strap holding plate at the standby position against the urging force of the spring.

(6) In addition to the features described in any one of (1) to (5), the binding machine is characterized in that the entrainment plate is formed in an S-shape as a whole.

(7) In addition to the features described in (6), the strapping machine is further characterized in that one side of the reset rod is provided with a convex column, the rear end of the strap clamping plate is provided with a through hole, the rear end of the trigger rod is provided with a ratchet, the convex column is arranged in the through hole and matched with the ratchet, the reset rod applies force to the strap clamping plate through the convex column and enables the strap clamping plate to rotate, and when the strap clamping plate moves to the standby position, the ratchet overcomes the acting force of the spring to apply force to the convex column, so that the strap clamping plate is kept at the standby position.

(8) In addition to the feature described in (7), the binding machine is further characterized in that a convex hull is formed in a curved shape on a side where the front end of the trigger lever contacts the trigger member, a rotation radius of the convex hull is larger than that of the ratchet, and when the clamping action is performed, the trigger member applies a force parallel to the arrangement direction of the middle frame to the convex hull, so that the trigger lever rotates, and the ratchet is separated from the convex column.

(9) In addition to the feature described in the above (8), the binding machine is characterized in that the striking member is attached so as to block the convex hull when approaching and interleaving the convex hull, and to retreat the convex hull when separating the convex hull.

(10) In addition to the feature described in the above (8), the binding machine is further characterized in that the striking member includes a hinge ring hinged to the front end portion of the middle frame in a manner parallel to the rotation plane of the bow frame, and a striking block perpendicular to the rotation plane of the hinge ring and corresponding to the convex hull, the striking block being formed by extending a rotation center of the hinge ring rearward along the middle frame, and a side adjacent to the middle frame overlapping an upper edge of the side wall of the middle front end.

After adopting the structure, compared with the prior art, the invention has the advantages that:

simple structure, overall arrangement are ingenious, use the light characteristics of operation feeling, and the belt clamping mechanism wearing and tearing are slower to make the strapper function more stable.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a front view of the strapping machine, showing the bow in an open position with the clamp plate in a standby position.

Fig. 2 is a front view of the strapping machine, in partial section with the bow in a predetermined position (with the clamping plate still in the standby position).

Fig. 3 is a front view of the strapping machine, in partial cross-section, with the bow in a predetermined position (in which the clamping plate has reached the clamping position).

Figure 4 is a front view of the strapping machine with the bow in a partially cut-away view to a closed position.

Fig. 5 is a partial sectional view of the vicinity of the front end of the binding machine enlarged relative to fig. 3.

Fig. 6 is an enlarged partial cross-sectional view of the near-front end of the strapping machine relative to fig. 4.

Fig. 7 is a front view of the tape clamping mechanism, which is a view of a state in which the entrainment plate is in the clamping position (enlarged with respect to fig. 3).

Fig. 8 is a front view of the tape clamping mechanism, and is a view (enlarged relative to fig. 4) showing a state in which the entrainment plate is returned to the standby position.

FIG. 9 is a front view of the support plate, the clamping plate, the reset plate, the firing bar, and the firing components.

FIG. 10 is a perspective view of the support plate, the clamping plate, the reset plate, the firing bar, and the firing components.

Fig. 11 is a perspective view of the needle groove.

Fig. 12 is a perspective view of the middle frame.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The strapping machine provided by the present invention may, however, be embodied in many different forms and is not limited to the embodiments described herein. Rather, embodiments are provided so that this disclosure will be thorough and complete.

As shown in fig. 1, a binding machine according to an embodiment of the present invention includes a middle frame 1 formed in a linear shape and having a U-shaped cross section, a bow 2 having an arc-shaped rear end portion hinged to the middle frame 1, a strap holding mechanism 3 provided at a front end portion of the bow 2, and an operating handle 4 hinged to the bow 2 in an x-shape.

A transverse shaft 11 perpendicular to the middle frame 1 is arranged near the middle part of the middle frame 1, a hook body 41 hung on the transverse shaft 11 is arranged at the front end of the operating handle 4, a tension spring (omitted from the drawing) is arranged at the rear parts of the middle frame 1 and the bow frame 2 for continuously applying force, so that the front parts of the middle frame 1 and the bow frame 2 have the moving tendency of being separated from each other, and therefore, when no external force is applied, the bow frame 2 is kept at the opening position relative to the middle frame 1 as shown in figure 1.

When force is applied by holding and pressing the operating handle 4 and the rear part of the middle frame 1, the bow frame 2 rotates relative to the middle frame 1, the front parts of the bow frame 2 are close to each other until the bow frame cannot rotate continuously, namely, the bow frame reaches a closed position shown in fig. 4, the bow frame 2 reaches a preset position before rotating from the open position to the closed position, the preset position is positioned between the open position and the closed position and close to one side of the closed position, and the specific position is described in detail below. As shown in fig. 2, the band clamp mechanism 3 is mounted on the front portion of the bow 2, and in conjunction with fig. 5 to 10, the band clamp mechanism 3 includes a support plate 31 fixedly mounted, a clamping plate 32 rotatably mounted and formed in an "S" shape as a whole, a return plate 33 slidable up and down, and a rotary firing bar 34, wherein the front end of the clamping plate 32 is matched with the front end of the support plate 31.

In fig. 3, 5 and 7, the position of entrainment plate 32 relative to support plate 31 is a clamping position in which the forward end of entrainment plate 32 is adjacent to and intermeshes with the forward end of support plate 31; in fig. 1, 2, 4, 6, and 8, the position of the entrainment plate 32 with respect to the support plate 31 is the standby position, and the distance between the front end of the entrainment plate 32 and the front end of the support plate 31 is maximized; the clamping plate 32 is rotatable between a standby position and a clamping position.

As shown in fig. 1, in combination with 5, 6, 9, 10, 12, a supporting member 12 matching with the lower end of the reset plate 33 is provided at one side of the front end of the middle frame 1, and the supporting member 12 can apply force to the reset plate 33 to make it slide upwards; a firing component 13 matched with the firing rod 34 is arranged at the other side of the front end of the middle frame 1 in a hinged mode, and the firing component 13 can apply force to the front end of the firing rod 34 to enable the firing rod to rotate.

Preferably, the firing component 13 comprises a hinge ring 131 hinged to the side wall of the middle frame 1 in parallel and a firing block 132 perpendicular to the rotation plane of the hinge ring 131, the firing block 132 corresponds to the front end of the firing rod 34, and the rotation center of the hinge ring 131 is located at the front end side of the firing block 132.

The front end of the right side wall of the middle frame 1 corresponding to the firing block 132 is curled inwards to extend to the lower surface (shown in fig. 12) of the firing block 132 to support the firing block 132 when the firing block 132 is in a horizontal position, so that when a force is applied downwards from above the firing block 132, the firing block 132 cannot rotate downwards due to the side wall supporting function of the middle frame 1, and when a force is applied upwards from below the firing block 132, the firing block 132 rotates upwards (along the clockwise direction).

Referring to fig. 6, 8 and 9, the front end of the strap 32 is hooked and matched with the front portion of the support plate 31, and a torsion spring (not shown) continuously applies force to the strap 32, so that the front end of the strap 32 tends to rotate toward the support plate 31. The reset plate 33 is disposed in parallel with the entrainment plate 32, and the reset plate 33 has a linear guide slot 331, and a spring 35 applies a force to the reset plate from top to bottom, so that the reset plate 32 has a downward movement tendency.

The reset plate 33 mates with the entrainment plate 32: when the clamping plate 32 is at the clamping position, the resetting plate 33 applies force to the through hole 321 at the rear part of the clamping plate 32 through the convex column 332 in an upward sliding manner, so that the clamping plate 32 can rotate from the clamping position to the standby position along the counterclockwise direction.

Reset plate 33 also mates with the rear of firing bar 34: the ratchet 341 is provided at the end of the firing rod 34, a torsion spring (illustration omitted) is provided to apply force to the firing rod 34 to make it have a movement tendency of rotating in a clockwise direction, when the clamping plate 32 is in the clamping position, as shown in fig. 5 to 8, the boss 332 on the reset plate 33 is located below the ratchet 341, the reset plate 33 is upwardly applied with force by the support member 12 to make the reset plate 33 slide upward, so that the boss 332 is upwardly applied with force to the through hole 321 to make the clamping plate 32 rotate from the clamping position to the standby position, on the other hand, the boss 332 simultaneously applies force to the ratchet 341 to make the firing rod 34 rotate a certain angle in a clockwise direction (i.e. the ratchet 341 moves rightward), when the boss 332 moves to the side above the ratchet 341, the force applied by the boss 332 to the ratchet 341 disappears, the ratchet 341 rotates a certain angle in a counterclockwise direction (the ratchet 341 moves leftward) to reset the ratchet 341, and the ratchet 341 is located below the boss 332, as shown in fig. 6 and 8, when the support member 12 is withdrawn to apply force to the ratchet 33, the ratchet 341, the ratchet 33 is applied with force, the ratchet 341 rotates a certain angle (moves counterclockwise) to keep the reset plate 33 stably in a downward direction, and the reset plate 33, which is located in a stable state shown in fig. 1.

Referring to fig. 1, 11 and 12, the binding mechanism includes a linear needle groove 5 for storing the binding needle, the rear part of which is hinged to the middle frame 1 coaxially with the bow frame 2, and the needle groove 5 is located below the horizontal shaft 11 in the U-shaped cross section of the middle frame 1.

A pressure spring (omitted from the drawing) is arranged between the lower surface of the needle groove 5 and the middle frame 1, so that the needle groove 5 has a movement tendency of rotating towards the counterclockwise direction relative to the middle frame 1, the upper surface of the needle groove 5 is abutted against the transverse shaft 11, a certain moving space is formed between the lower surface of the needle groove 5 and the bottom of the middle frame 1, when the front end of the needle groove 5 is subjected to a downward acting force, the needle groove 5 can rotate towards the clockwise direction relative to the middle frame 1, and after the acting force disappears, under the action of the pressure spring (omitted from the drawing), the needle groove 5 rotates towards the counterclockwise direction relative to the middle frame 1 until the upper surface of the needle groove abuts against the transverse shaft 11.

Referring to fig. 1, 5, 6, 11 and 12, the front end of the needle slot 5 has a needle outlet 51, the middle frame 1 is provided with a needle ejecting plate 52 at a position corresponding to the needle outlet 51, the front end of the bow frame 2 is provided with a needle mold 53 at a position adjacent to the support plate 31, the position of the needle mold 53 corresponds to the positions of the needle outlet 51 and the needle ejecting plate 52, and the needle ejecting plate 52 can eject the binding needle installed in the needle slot 5 through the needle outlet 51 and press the binding needle onto the needle mold 53 to complete binding (the principle is the same as the working principle of a conventional stapler).

The front end of the middle frame 1 is also provided with a cutter 14 which is arranged in parallel with the thimble sheet 52, the position of the cutter 14 corresponds to the support plate 31, a tape outlet 15 with a leading-out direction parallel to the cutter 14 is arranged at the front side of the cutter 14 on the middle frame 1, the tape outlet 15 can guide the tape from the lower part of the middle frame 1 to the upper part of the middle frame 1, the position of the tape outlet 15 corresponds to the clamping plate 32 and the support plate 31, and when the front end of the clamping plate 32 is kept separated from the support plate 31, namely when the clamping plate 32 is at a standby position and the front end of the bow frame 2 rotates to be close to the front end of the middle frame 1, the end part of the tape led out from the tape outlet 15 is sent into an opening formed by the front end of the clamping plate 32 and the support plate 31 along with the mutual approaching of the bow frame 2 and the middle frame 1.

Fig. 1 is an initial state of the binding machine before binding, in which the position of the bow 2 with respect to the middle frame 1 is an open position, fig. 8 is a structural view of the strap clamping mechanism corresponding to the state of fig. 1, the entrainment plate 32 is in a standby position, the front end thereof is kept separated from the support plate 31, the boss 332 on the return plate 33 is located on the upper side of the ratchet 341 at the end of the firing rod 34, the spring 35 is in a compressed state to force the return plate 33 downward, and the ratchet 341 keeps the entrainment plate 32 in the standby position against the force of the spring 35.

Preferably, a convex hull 342 is curvilinearly formed at the front end of the firing rod 34 near the side of the firing member 13, and the distance from the convex hull 342 to the rotation center of the firing rod 34 is greater than the distance from the ratchet 341 to the rotation center of the firing rod 34, i.e., the rotation radius of the convex hull 342 is greater than the rotation radius of the ratchet 341. From the state shown in fig. 1, the operating handle 4 and the rear part of the middle frame 1 are pressed to apply force, the bow frame 2 rotates from the open position to the closed position relative to the middle frame 1 along the clockwise direction, when the needle die 53 moves to the needle outlet 51 close to the front end of the needle slot 5 (no interaction is generated between the needle die 53 and the needle outlet 51) along with the rotation of the bow frame 2, the convex hull 342 at the front end of the firing rod 34 collides with the firing block 132 along with the rotation of the bow frame 2 and starts to generate an interaction force, and the position of the bow frame 2 is a preset position (as shown in fig. 2, 3 and 5).

In the above process, the clamping plate 32 is in the standby position, i.e. the clamping plate 32 is kept separated from the front end of the supporting plate 31, as the bow 2 rotates from the open position to the predetermined position, the needle mold 53 is drawn close to the needle outlet 51, when the bow 2 moves to the predetermined position, the tape outlet 15 moves to the lower part of the opening between the clamping plate 32 and the supporting plate 31, the end of the tape guided out from the tape outlet 15 is gradually fed into the space between the clamping plate 32 and the front end of the supporting plate 31, and at the same time, the convex hull 342 at the front end of the firing rod 34 and the firing block 132 on the firing member 13 approach to each other and collide with each other to generate interaction, the firing member 32 applies a force to the convex hull 342 on the firing rod 34 in the direction parallel to the arrangement direction of the middle rack 1 against the action force of the torsion spring (illustration is that the firing member 32 applies a resistance to the convex hull 342 when approaching to and crossing it), the firing rod 34 is rotated by a certain angle clockwise, the ratchet 341 is also rotated by a certain angle clockwise, the ratchet 341 is separated from the convex column 332 and moves to the right side of the convex column 332, under the action of the spring 35, the reset rod 33 moves downwards and applies force to the through hole 321 through the convex column 332 to enable the clamping plate 32 to rotate clockwise, the front end part of the clamping plate 32 is close to the front end part of the supporting plate 31 and presses the end part of the belt led out from the belt outlet 15 onto the supporting plate 31, and therefore the clamping plate 32 rotates to a clamping position from a standby position and clamps the end part of the belt led out from the belt outlet 15 with the supporting plate 31; then the operating handle 4 is released, the bow 2 rotates from the preset position to the opening position along the anticlockwise direction, the front end part of the bow 2 is separated from the front end part of the middle frame 1, the belt clamping mechanism 3 pulls the belt out of the belt outlet 15 by a section, and a section of belt for bundling is formed between the belt clamping mechanism and the belt outlet 15.

Because the distance from the convex hull 342 to the rotation center of the firing rod 34 is greater than the distance from the ratchet 341 to the rotation center of the firing rod 34, under the action of the lever principle, the firing block 132 can drive the firing rod 34 to rotate clockwise only by applying a small force parallel to the arrangement direction of the middle frame 1 and toward the left to the convex hull 342, so that the ratchet 341 is separated from the convex column 332.

When the strapping machine is in an initial state, the bow frame 2 is rotated to a preset position from an opening position by holding and pressing the operating handle 4, the trigger rod 34 and the trigger component generate interaction, and then the clamping plate 32 is rotated to a clamping position from a standby position to clamp a strap led out from the strap outlet 15, and then the operating handle 4 is released, so that the bow frame 2 is returned to the opening position from the preset position, a section of strap for strapping is formed at the front ends of the bow frame 2 and the middle frame 1, and the whole process is the clamping action. It should be noted that, in the process of performing the clamping operation, when the bow 2 rotates from the open position to the predetermined position, no interaction force is generated between the needle mold 53 and the needle outlet 51 (i.e. the front end of the needle groove), the needle groove 5 does not rotate relative to the middle frame 1, the boss 332 collides with the firing block 132 to rotate the firing rod 34 in the counterclockwise direction, the reset plate 33 moves downward under the force of the spring 35, and the lower end of the reset plate 33 is close to the support member 12 but does not generate interaction yet.

In addition, when the bow 2 reaches the predetermined position during the clamping operation, the clamping plate 32 is rotated from the standby position to the clamping position.

After the clamping action is completed, the object to be bound is supported against the strap for binding between the bow frame 2 and the front end of the middle frame 1 in the direction perpendicular to the rotation plane of the bow frame 2 and is guided into the arc bend of the bow frame 2, then the operating handle 4 is held and pressed again to enable the bow frame 2 to rotate from the open position, the strap for binding is used for passing around the object to be bound and gradually surrounds the object to be bound until the bow frame 2 reaches the closed position, the binding part of the strap is pressed onto the needle outlet 51 at the front end of the needle groove 5 by the needle die 53, the needle ejecting piece 52 ejects out the binding needle in the needle groove 5 and presses the needle die 53, thereby binding the binding part of the strap, forming a closed strap ring on the object to be bound, and then the operating handle 4 is released to enable the bow frame 2 to return to the open position.

After the clamping action is completed once, the bound object is abutted against the belt and guided into the arc bend of the bow frame 2, the bow frame 2 is rotated from the open position to the closed position by holding and pressing the operating handle 4 so as to bind and cut off the joint part of the belt, and then the operating handle 4 is released so that the action process of returning the bow frame 2 to the open position is the binding action.

The process of operating the pivoting of the bow 2 from the open position to the closed position after the clamping action is completed can in fact be divided into two phases:

the first stage is as follows: the bow frame 2 rotates to a preset position from an opening position, the needle die 53 moves to be close to the needle outlet 51 along with the bow frame 2, the firing rod 34 and the firing block 132 are interacted (the firing block 132 does not rotate due to the blocking of the middle frame 1), the firing block 132 overcomes the acting force of a torsion spring (illustration omission) on the firing rod 34 to apply force to the firing rod, the firing rod 34 rotates a certain angle clockwise, and the clamping plate 32 rotates to a clamping position from a standby position after the clamping action is completed, so that the position of the clamping plate 32 cannot be changed.

Then the second stage: when the bow frame 2 reaches a predetermined position and then continues to rotate clockwise, the needle die 53 starts to apply force to the needle outlet 51 (namely the front part of the needle groove 5), the needle groove 5 starts to rotate along with the rotation of the bow frame 2, on one hand, the top needle sheet 52 fixed on the middle frame 1 enters the needle outlet 51, the binding needles pre-installed in the needle groove 5 are pressed to the needle die 53, the binding parts of the tapes are pressed on the needle outlet 51 by the needle die 53, when the bow frame 2 moves to a closed position, the binding needles upwards pushed out by the top needle sheet 52 bind the binding parts of the tapes together under the action of the needle die 53 (the binding process is similar to the binding action of a common stapler), and meanwhile, the tapes guided out from the tape outlet 15 are cut along with the action of pressing down of the needle die 53 due to the action of the cutter 14; on the other hand, as the front end of the bow 2 and the front end of the middle frame 1 are further closed, the convex pillar 332 moves below the trigger block 132, and the lower end of the reset plate 33 abuts against the support member 12, the support member 12 overcomes the force of the spring 35 to force the reset plate 33 upwards to drive the reset plate 33 to move upwards, when the bow 2 moves to the closed position, the convex pillar 332 also moves upwards to the upper side of the ratchet 341 and applies force to the through hole 321, so that the tape clamping plate 32 rotates from the clamping position to the standby position along the counterclockwise direction, and meanwhile, the convex hull 342 moves to the lower side of the trigger block 132, the interaction force between the convex hull 342 and the trigger block 132 disappears, the trigger rod 34 rotates to the counterclockwise direction by a certain angle, and the ratchet 341 moves to the position right below the convex pillar 332 along with the rotation.

Then the operating handle 4 is applied, the bow 2 starts to rotate from the closed position to the open position, the supporting part 12 is separated from the lower end of the reset plate 33, the interaction force between the supporting part 12 and the reset plate 33 disappears, the reset plate 33 has the tendency of moving downwards under the action of the spring 35, the ratchet 341 which has moved to the position right below the convex column 332 starts to act, the position of the firing rod 34 is kept unchanged, the reset plate 33 is kept at the current position by the ratchet 341 against the action force of the spring 35, and the convex column 332 in the through hole 321 keeps the clamping plate 32 at the standby position.

It should be noted that, in the process of moving the bow 2 from the open position to the closed position, the convex hull 342 approaches the firing member 13 and moves to the lower side of the firing block 132, that is, the convex hull 342 and the firing member 13 are staggered, the firing block 132 remains stationary and applies force to the convex hull, and the convex hull 342 receives significant resistance and rotates the firing rod 34 clockwise by a certain angle.

After the bow 2 reaches the closed position, in the process that the bow 2 rotates from the closed position to the open position by applying the operating handle 4, the convex hull 342 starts to move upwards relative to the firing block 132 from the lower side of the firing block 132 and is separated from the firing block 132, when the convex hull 342 moves upwards to be in contact with the firing block 132, slight force is applied to the firing block 132 to enable the firing block 132 to rotate clockwise by a certain angle to avoid the convex hull 342, the reaction force of the firing block 132 on the convex hull 342 at the moment is insufficient to drive the firing rod 34 to rotate, after the convex hull 342 is separated from the firing block 132, the firing rod 34 does not rotate, and the entrainment plate 32 is kept at the standby position.

After the stapling operation is completed, the bow 2 is returned to the open position, the clamp plate 32 is rotated to the standby position, and the binding machine enters a ready state before the next binding, and the next binding can be performed by alternately performing the clamping operation and the stapling operation.

When the strapping machine carries out the centre gripping action, through the interact between percussion piece 132 and the convex closure 342, trigger the clamp strap board 32 and rotate to the clamping position by the stand-by position, and it is less to trigger required dynamics, make the operation strapping machine comparatively laborsaving, when carrying out the binding action, rely on the supporting component 12 and reset plate 33 interact and make the clamp strap board 32 rotate to the stand-by position by the clamping position, namely in a complete binding process, the rotation of clamp strap board 32 between different positions relies on different assorted part interact to realize, and the great atress reset plate 33 and supporting component 12 only take place once and collide each other, compare in accomplishing to tie up in the prior art once and accomplish that the corresponding structure of needs accomplishes at least twice collisions, the degree of wear is lower, so make the fault rate of taking clamping mechanism reduce, the stability of strapping machine has been improved.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent structures or equivalent processes performed by the present invention or directly applied to other related technical fields are also included in the scope of the present invention.

Claims (10)

1. A binding machine is provided with:

a middle frame formed in a linear shape and capable of pulling out the belt from the front end portion;

a bow mounted for rotation relative to the mid-frame;

a band holding mechanism which is mounted on the front end of the bow frame and can hold the end of the band;

the binding mechanism comprises a needle groove, a needle die and a thimble sheet, wherein the rear end of the needle groove is hinged to the middle frame, the needle die is arranged at the front end part of the bow frame, and the thimble sheet is fixed at the front end part of the middle frame and corresponds to the needle groove and the needle die;

the cutter is arranged at the front part of the middle frame and is parallel to the thimble sheet;

the strapping machine is characterized in that,

the belt clamping mechanism is provided with a supporting plate, a belt clamping plate, a reset rod and a firing rod, the belt clamping plate and the firing rod are installed in a rotatable mode, and the front end of the belt clamping plate is matched with the front end of the supporting plate.

2. The strapping machine in accordance with claim 1,

in a process in which the bow is rotated from an open position to a predetermined position in a closing direction with respect to the middle frame and then returned to the open position, a gripping action of gripping and pulling out an end portion of the belt from a front end portion of the middle frame by the belt gripping mechanism is performed, and,

the bow frame performs a binding operation of binding a binding portion of the tape by the binding mechanism and cutting the tape by the cutter in a process of rotating from the open position to the closed position in the closing direction with respect to the middle frame again after completing the clamping operation at any time,

the objects to be bundled can be bundled by alternately performing the clamping operation and the binding operation.

3. The strapping machine in accordance with claim 2,

the front end of the middle frame is provided with a supporting component matched with the reset plate and a firing component matched with the firing rod, and the firing component is hinged to the front end part of the middle frame.

4. The strapping machine in accordance with claim 3,

reset the board with backup pad configuration parallelly have the guide slot that is the linear type on the release link, reset the board with smuggle the board and match secretly, reset the board simultaneously still with the trigger pole rear portion phase-match has a spring right it has the motion trend of downstream to reset the board application of force messenger.

5. The strapping machine in accordance with claim 4 wherein,

the clamping plate rotates between a standby position and a clamping position under the action of the reset plate, when the clamping action is executed, the clamping plate rotates to the clamping position from the standby position, when the binding action is executed, the support component overcomes the acting force of the spring to drive the reset rod to move upwards, the reset rod applies force to the clamping plate to enable the clamping plate to rotate to the standby position from the clamping position, and meanwhile, the trigger rod overcomes the acting force of the spring to enable the clamping plate to be kept at the standby position.

6. The strapping machine in accordance with any of claims 1 to 5,

the entrainment plate is formed in an overall "S" shape.

7. The strapping machine in accordance with claim 6 wherein,

the band clamping plate is characterized in that one side of the reset rod is provided with a convex column, the rear end of the band clamping plate is provided with a through hole, the rear end of the trigger rod is provided with a ratchet, the convex column is arranged in the through hole and matched with the ratchet, the reset rod applies force to the band clamping plate through the convex column and enables the band clamping plate to rotate, and when the band clamping plate moves to the standby position, the ratchet overcomes the acting force of the spring to apply force to the convex column so as to enable the band clamping plate to be kept at the standby position.

8. The strapping machine in accordance with claim 7 wherein,

when the clamping action is executed, the triggering component applies a force to the convex hull, which is parallel to the configuration direction of the middle frame, so that the triggering rod rotates, and the ratchet is separated from the convex column.

9. The strapping machine in accordance with claim 8,

the firing member is mounted in a manner such that the convex hull is obstructed as it approaches and interleaves with it, while being clear of the convex hull as it separates from it.

10. The strapping machine in accordance with claim 8 wherein,

the firing component comprises a hinge ring and a firing block, the hinge ring is hinged to the front end part of the middle frame in a manner of being parallel to the rotation surface of the bow frame, the firing block is perpendicular to the rotation plane of the hinge ring and corresponds to the convex hull, the firing block is formed by extending the rotation center of the hinge ring backwards along the middle frame, and one side of the firing block adjacent to the middle frame covers the upper edge of the side wall of the middle front end.

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