RU2240964C2 - Manual device for binding items by plastic band - Google Patents

Abstract

FIELD: packing equipment, particularly binding machines.

SUBSTANCE: device has support plate and operative arm. Operative arm comprises pressure mechanism installed in body, cutting mechanism and tightening mechanism kinematically connected one to another. Kinematical connection is made as pressure mechanism of single-stage cam 7 mounted on shaft and cutting mechanism of two-stage cam 9 installed on shaft and having two pushers 10, 11. Pusher 10 is connected to engagement means 8. Pusher 11 is connected to tightening mechanism through operative arm. In one embodiment cam 7 has quasi-sinusoidal engagement means with working surface made as cylindrical surface facing inside cam 7 profile. Pusher 10 of cam 9 adjoining cylindrical surface have working profile of cycloid shape subjected to the following relation: 1.25<R/r<3.5, where R is radius of working surface 12 of engagement means 8, mm; r is radius of cycloid generating circle, mm. In another embodiment profile of working cam 7 surface and working profile of two-stage cam 9 pusher adjoining thereof are made as sections of Archimedes's spiral.

EFFECT: increased reliability, possibility of packing cylindrical items of small diameter along with provision of sufficient band tension.

3 cl, 8 dwg

Description

The claimed invention relates to packaging technology and can be used in various industries when forming group packages of products, tying cardboard boxes, paper rolls, wallpaper, bales, etc.

Known manual device for tying objects with plastic tape, containing a support platform and installed in the housing clamping, cutting and tensioning mechanisms, each of which is equipped with a working handle and a kinematic link (see US patent No. 5181546, publ. 26.01.93, M. C. B 21 F 9/02).

The disadvantage of this device for tying objects with plastic tape is the low reliability of the design, due to the presence of three working handles and three kinematic links for actuating, respectively, clamping, tensioning and detachable mechanisms, which leads to the formation of a large number of slip pairs in the kinematic links and increased wear of rubbing surfaces . The device is also inconvenient in operation, since the operator, firstly, is forced to manipulate the three working handles and, secondly, to exert considerable efforts to overcome sliding friction in each kinematic link. However, the device has a significant length of the supporting platform of the housing, due to the placement along it of the clamping, tensioning and cutting mechanisms, which limits the scope of this device by strapping only large items having an external flat surface of sufficient length to accommodate the supporting platform of the housing of the device.

Also known is a manual device for tying objects with plastic tape, adopted as a prototype, containing a support pad and a work handle, and a clamping mechanism, a cutting mechanism and a tensioning mechanism kinematically connected to each other (see US patent No. 6047742, publ. 04/11/00, M. cl. B 21 F 9/00).

This device, in comparison with the analogue, is more convenient in operation, has smaller dimensions and a simpler design, as it contains one working handle, which is kinematically connected to the clamping, cutting and tensioning mechanisms installed in the housing. In this case, the kinematic connection is made in the form of longitudinal traction with three grooves arranged sequentially in a row, in which axes are mounted, fixed in the clamping, tensioning and detachable mechanisms, respectively, and the mentioned mechanisms are also installed sequentially in a row in a row one after another. This implementation of the kinematic connection in the form of longitudinal traction with grooves in which the axes of the clamping, tensioning and cutting mechanisms are located is associated with the formation of several slip pairs in the clamping, tensioning and cutting mechanisms, which leads to the inconvenience of using the device, due to the need for significant efforts to overcome friction in each slip pair. In the slip pairs there is increased wear of the rubbing surfaces, as a result of which the known device quickly fails. The arrangement of the working mechanisms sequentially in a row one after another leads to an increase in the length of the supporting platform of the housing, which limits the scope of this device by strapping only large items having an external flat surface of sufficient length to accommodate the supporting platform of the housing of the device. In particular, the known device is practically not suitable for tying cylindrical objects of small diameter (rolls of wallpaper, roofing felt, linoleum, etc.). This is explained by the fact that after tying, tensioning and fastening the ends of the tape and pulling out from under it a hand-held device for tying objects on the loop obtained, a "slack" forms and the tape sags, i.e. The required belt tension is not ensured. The magnitude of the resulting sagging is greater, the greater the length of the supporting platform of the device body and the smaller the diameter of the packaged item.

The present invention is the creation of a convenient and reliable hand-held device for tying objects with plastic tape, which allows you to pack items with small diameters with a sufficient degree of tension of the tape, due to the optimal implementation of the kinematic connection between the mechanisms of the device.

To solve the problem in a known manual device for tying objects with plastic tape containing a support platform and a working handle with a clamping mechanism installed in the housing, a cutting mechanism and a tensioning mechanism kinematically connected to each other, according to the invention, the kinematic connection is made in the form of a clamping device mounted on the shaft the mechanism of a single-stage cam and a detachable mechanism of a two-stage cam with two pushers mounted on the shaft, one of which is adjacent single-stage working surface of the cam, and the other through the operating handle is connected to a tensioning mechanism.

In the particular case of execution, the single-stage cam is equipped with a quasi-sinusoidal hook, the working surface of which is made in the form of a cylindrical surface facing the cam profile, and the working profile of the pusher of the two-stage cam adjacent to it is formed by a cycloid, in accordance with the following dependence:

1.25 <R / r <3.5, where

R is the radius of the working surface of the quasi-sinusoidal mesh, mm;

r is the radius of the generating circle forming the cycloid, mm.

In another embodiment, the profile of the working surface of a single-stage cam and the working profile of the pusher of a two-stage cam adjacent to it are made in the form of a section of an Archimedean spiral.

This implementation of the kinematic connection allows you to place the tension mechanism over the clamping and cutting mechanisms in the device body, and not in a row with them. This significantly reduces the length of the supporting platform of the device housing and eliminates the sagging and weakening of the tension of the tape after the output from under the device when tying cylindrical objects of small diameter. The technological capabilities of the device are expanding, which provides reliable strapping of both large-sized and small-sized objects with an insignificant length of the external surface suitable for placement of the supporting platform of the device case. The implementation of the working surface of the quasi-sinusoidal hook in the form of a cylindrical surface facing inward of the cam profile, which interacts with the working profile of the two-stage cam follower formed by the cycloid, allows this kinematic pair to provide rolling friction on a preselected section of the working handle stroke and thereby reduce the force applied by the operator to the handle of the device at the time of cutting the plastic tape. In a particular embodiment, the profile of the working surface of a single-stage cam and the working profile of the pusher of a two-stage cam adjacent to it are made in the form of a section of an Archimedean spiral, which also allows for rolling friction in this kinematic pair on a pre-selected section of the stroke of the working handle. At the same time, the above arrangement of the tensioning, pressing and cutting mechanisms led to such a change in the ratio of the shoulders of the working handle, which allowed to reduce the force exerted by the operator on the handle of the device at the time of cutting the plastic tape by 30%.

The search in the patent and scientific and technical literature did not reveal technical solutions characterized by a similar or identical set of essential features, which allows us to conclude that the proposed technical solution meets the criteria of novelty and inventive step.

At the same time, the proposed technical solution was implemented in the production environment of the applicant, which confirms its industrial applicability.

The essence of the invention is illustrated by drawings, where figure 1 shows a General view of the proposed device; figure 2 is a section aa of figure 1; figure 3 is a section bB of figure 2; figure 4 - section bb In figure 1; on figa, 5b - diagram of the kinematic interaction of the cams in the initial and final positions, respectively; on figa, 6b - diagrams of the kinematic interaction of the cams, made in the form of a section of the Archimedean spiral, in the initial and final positions, respectively.

The device comprises a support pad 1, a work handle 2 and a clamping mechanism 4 installed in the housing 3, a cutting mechanism 5 and a tensioning mechanism 6, kinematically connected to each other. The kinematic connection is made in the form of a single-stage cam 7 mounted on the shaft of the clamping mechanism 4 with a quasi-sinusoidal hook 8 and a two-stage cam 9 mounted on the shaft of the cutting mechanism 5 with the pushers 10, 11. The two-stage cam 9 interacts with the one-stage cam 7 and the other pusher 11 through the working handle 2 is connected with the tensioning mechanism 6. The working surface 12 of the quasi-sinusoidal hook 8 of the single-stage cam 7 adjacent to the pusher 10 is made in the form of a reversed minutes inside the cam profile of the cylindrical surface 7, and the working profile 13 of the pusher 10, the two-stage cam 9 is formed a cycloid, in accordance with the following relationship:

1.25 <R / r <3.5, where

R is the radius of the working surface 12 of the quasi-sinusoidal hook 8, mm;

r is the radius of the generating circle forming the cycloid, mm.

In a particular embodiment (see FIG. 6), the profile of the working surface 12 'of the one-stage cam 7 and the working profile 13' of the pusher of the two-stage cam 9 adjacent to it are made in the form of a portion of an Archimedean spiral. A deflecting roller 14 is mounted on the housing 3. The tensioning mechanism 6 is provided with a ratchet mechanism 15. The pressure mechanism 4 is provided with a spring 16, a movable clamp 17 and a fixed heel 18 installed in the base of the housing 3. The housing 3 is provided with a tide in the form of a visor 19 located above the drum 20 tensioning mechanism 6. The cutting mechanism 4 is made in the form of a split sleeve 21, inside of which a knife 22 is installed.

The device operates as follows. To perform the operation of tying objects with plastic tape, the device is installed in the operating position so that the supporting platform 1 is adjacent to the outer surface of the packaged object. Then, the working handle 2 is rotated clockwise (see FIG. 1) relative to the housing 3, while the handle 2 acts on the plunger 11 of the two-stage cam 9 of the cutting mechanism 5 and rotates the cam 9 counterclockwise. A two-stage cam 9, interacting with its pusher 10 with a single-stage cam 7, rotates the latter, as shown in FIG. 3, clockwise. The clamping mechanism 4, overcoming the force of the spring 16, raises the movable clamp 17 above the fixed heel 18 installed at the base of the housing 3 by a predetermined amount. A tape is introduced into the gap formed between the clamp 17 and the fifth 18, the free end of which is fed to the floor by the cutting mechanism 5. After that, the working the handle 2 is released and under the action of the spring 16, the clamping mechanism 4 fixes the tape between the movable clamp 17 and the fixed heel 18. Then the tape is wrapped around the object to be packed and the second free end of the tape is passed through the section knowing the sleeve 21 and the knife 22 of the cutting mechanism 5, circled under the deflecting roller 14 and inserted into one of the grooves of the drum 20 of the tensioning mechanism 6. Holding the housing 3 with one hand, turn the operating handle 2 with the other hand counterclockwise ("away from you") and back . The ratchet mechanism 15 thus holds the drum 20 from turning back. This movement is repeated several times until the desired belt tension is achieved. The free end of the tape then abuts against the visor 19 and, thus, occupies a position that does not prevent the operator from performing the tape fastening operation. Then carry out the fastening of the free ends of the tape using a special device (not shown in the drawings). After that, the working handle 2 is turned clockwise until it stops (in the lower position), while by means of the pusher 11, the rotation is transmitted to the two-stage cam 9, which rotates the knife 22 relative to the split sleeve 21, as a result of which the tape is cut off. At the same time, the two-stage cam 9 with the pusher 10 acts on the quasi-sinusoidal hook 8 of the one-stage cam 7, which lifts the movable clamp 17 above the fixed heel 18 and releases the tape. The movement of the working profile 13 of the pusher 10 formed by the cycloid along the working cylindrical surface 12 of the quasi-sinusoidal hook 8 allows this kinematic pair to provide rolling friction in a preselected stroke of the working handle 2 and, thereby, reduce the force exerted by the operator on the handle 2 of the device. In a particular embodiment, the profile of the working surface 12 ^{1 of the} single-stage cam 7 and the working profile 13 ^{1 of the} pusher 10 of the two-stage cam 9 adjacent to it are made in the form of a section of an Archimedean spiral, which also allows for rolling friction in this kinematic pair on a pre-selected section of the working stroke handles 2. This improves the usability and reliability of the claimed device.

Then the device is shifted to the side and removed from under the tape. After removing the device from its working position as a result of the reduced length of the support pad 1, no sagging of the tape is observed, which ensures the reliability of the strapping of the packaged item.

Claims (3)

1. A manual device for tying objects with plastic tape, containing a support platform and a work handle with a clamping mechanism, a cutting mechanism and a tensioning mechanism installed in the housing, kinematically connected to each other, characterized in that the kinematic connection is made in the form of a single-stage clamping mechanism mounted on the shaft cam and mounted on the shaft of the detachable mechanism of a two-stage cam with two pushers, one of which is adjacent to the working surface of a single-stage cam ka, and the other through the operating handle is connected to the tensioning mechanism. 2. The manual device for tying objects with a plastic tape according to claim 1, characterized in that the one-stage cam is equipped with a quasi-sinusoidal hook, the working surface of which is made in the form of a cylindrical surface facing the cam profile, and the working profile of the two-stage cam follower adjacent to it is formed by a cycloid , in accordance with the following relationship: 1.25 <R / r <3.5, where R is the radius of the working surface of the hook, mm; r is the radius of the generating circle forming the cycloid, mm. 3. A manual device for tying objects with plastic tape according to claim 1, characterized in that the profile of the working surface of the one-stage cam and the working profile of the pusher of the two-stage cam adjacent to it are made in the form of a section of an Archimedean spiral.

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