Not Applicable
Not Applicable
Not Applicable.
The present invention relates a tape applicator or tape head more particularly to a tape applicator for applying tape to seal a soft case (easier to bend or damage) or carton by reducing pressure applied to the case or carton being sealed at the appropriate time and/or one that can be easily transformed to a conventional tape head for taping or sealing a case or carton.
Conventional tape heads as currently used to tape or seal cases or cartons are designed to apply a reasonably strong force on the tape to better ensure a strong bond between the tape and the case or carton. Conventionally most cartons that are taped to seal them on case sealing machines are made from corrugated paperboard that is generally a laminate of two opposed surface layers or liners with a corrugated layer sandwiched therebetween and adhered to each liner which provides a material of sufficient strength for the intended use. Even when the case or carton is made of such material and is not properly or fully filled care must be exercised to ensure the pressure applied during sealing does not unduly deform the closure flaps of the case being sealed as the tape is being applied. This problem of deforming the case or flaps is exacerbated when the case is made of flimsier material and particularly when such a case or carton is not properly filled which normally results in what is referred to as a soft case or carton of the like.
Distortion of the carton closure flaps is a problem that on-line shopping and resulting shipping has magnified significantly and one of was proposed to help solve tis problem requires reduction of the pressure applied to the closure flaps of the case or carton during the taping operation.
Signode U.S. Pat. Nos. 9,517,914 and 9,630,796 provide examples of a device specifically designed to try to overcome this problem and uses a pair of pneumatic cylinders one to reduce pressure applied against the top (as opposed to the ends) of the carton or case to which a sealing tape is being applied by the tape application rollers and a second to reduce pressure applied by the cut-off mechanism of the tape applicator or tape head. The earlier of these 2 patent relates specifically to reducing the pressure applied to by the wipe down roller and the later one to reducing the pressure applied by the cut-off mechanism. As indicated each uses a dedicated pressure cylinder to reduce pressure being applied.
US application 2013/174962 uses a sensor to sense the position of a carton to which a sealing tape is being applied and activate a pressure cylinder to raise and lower the tape applying and pressing rolls to apply different pressures to the tape and thereby the to the carton.
U.S. Pat. No. 9,061,857 increases the spring tension in stages to reduce the forces applied to the leading face of the case being taped with the increased tension being generated using a bar that presses against the case.
Chinese patent CN102092497 uses a pressure cylinder to position the application and pressure roller of the tape applicator. Japanese patent JP4265745 connects a cylinder to the trailing or wipe down arm and another cylinder connects to the cut-off mechanism each via a lost motion connection
U.S. Pat. No. 5,338,384 uses a pressure cylinder to change the pressure applied to the rollers more particularly to increase the pressure to the wipe down roll when wiping the tape onto the trailing face of the carton.
US patent application 2018/022492 also uses a pressure cylinder to adjust the pressure applied to the case being sealed to apply less pressure to the top of the case.
It is also known that devices used to apply what are know as L-clips to seal the flaps by applying short lengths of tape to the flaps adjacent the opposed ends of the flaps so there is no tape application over a significant central portion of the flaps using a cylinder to direct the tape towards the knife to be cut, see, for example, U.S. Pat. No. 8,176,959 issued May 15, 2012 to Lam or German patent DE3820060 both of which manipulate the push bar connecting the front application roll and back wipe down roller to move them way from the box or case between the applications of the L-clips. These devices are not designed to reduce pressure on the case or carton rather the applicator roll is moved up to bring the tape towards the knife for cutting.
None of the reference found to-date teach a simplified system of the present invention wherein an actuator is used to increase the pressure applied to the carton or case by the wipe down roll and the cut-off mechanism at the appropriate times
It is an object of the present invention to provide a tape applicator or tape head to softly apply a tape to a soft carton; a carton with under-filled contents or a “Re-shipper” carton (i.e.: a reusable carton with no flap memory) over a significant portion of the length of the case or carton so that the tape application does not significantly distort the closure flaps of the case or carton being sealed by the tape and to a tape applicator that is easily transformed to apply normal or conventional tape applying forces during the taping operation.
Broadly the present invention relates to tape applicator, comprising a frame, a source of tape mounted on said frame, an front applicator assembly including a front applicator to apply a leading end of a tape from said source to a leading face of a carton moving relative to said tape applicator pivotably mounted on said frame on a first pivotal axis, a rear wipe down arm assembly including a rear wipe down roll to wipe a tape applied to said carton along a trailing face of said carton remote from said leading face pivotably mounted on said frame on a second pivotal axis parallel to said first pivotal axis, a push bar link interconnecting said application roll assembly and said wipe down assembly for movement together to form a tape applicator assembly, a cut-off mechanism mounted on said frame on a third pivotal axis parallel to said first and second pivotal axes and positioned between said first and second axes, a cam arm pivotably mounted to said frame on a cam arm axes parallel to said third axis, an applicator cam element and a cut-off cam element fixed to said cam arm, a cooperating applicator cam element connected to said tape applicator assembly and a cooperating cut-off cam element connected to said cut-off mechanism, an actuator interconnecting said cam arm and said frame, a control system controlling power to said actuator to move said cam arm. Preferably, said cooperating applicator cam is mounted on said push bar link.
Preferably, said control system includes a control cam positioned to sense said leading and trailing faces.
Preferably, said activator is a pneumatic pressure cylinder and said control system includes a control valve controlling flow of air to said cylinder Preferably, said activator is an electric solenoid and said control system includes an electric controller controlling power to said solenoid.
Further features, objects and advantages will be evident from the following detailed description of the preferred embodiments of the present invention taken in conjunction with the accompanying drawings in which;
The tape applicator or tape head 10 of the present invention has a frame 12 composed of a pair of opposed sides frame members 12A and 12B (see
The shaft 14 pivotably mounts as indicated at 19 in
A push bar connector link 42 extends between the application arm 18 and the wipe down arm or assembly 44 and is pivotably connected to the arm 18 as indicated at 46 and to the wipe down arm as indicated at 48.
The wipe down arm 44 is pivotably mounted as indicated at 49 in
The application arm 18 and its application roll 38 coupled to the wipe down arm 44 and its wipe down roll 56 via the pus bar link 42 combine to form the application mechanism or assembly.
Also, pivotably mounted as indicated at 68 on the frame 12 between the wipe down assembly 44 and the application arm 18 is a cut-off mechanism 70 which has a first arm 72 connected as indicated at 76 adjacent to its free end to a cut-off spring 74. The opposite end of the spring 74 is connected to the frame 12 as indicated at 78. The spring 74 biases the first arm 72 against a stop 80. A second arm 82 of the cut-off mechanism 70 extends in a second direction from the mounting 68 and terminates in a knife control cam element 84 and mounts a cut-off knife 88 adjacent to the cut-off knife cam element 84.
The device as described above is a conventional tape head currently in use in the industry. The additions and/or changes that are the substance of one embodiment of the invention that transforms the known tape head into a tape head having the option of reducing the pressure applied to the top of the carton or case by the application and wipe down rolls 38 and 56 and the cut-off mechanism 70 device with will now be described.
It will be noted that the arms or assemblies 18 and 44 are located adjacent to the frame member 12A and the cut-off mechanism 70 has its arms 72 and 82 adjacent to the opposite frame member 12B to provide an open space 90 therebetween (see
The camming mechanism 100 includes a cam arm or lever 102 pivotably mounted on the shaft 16 spaced from each of the side frames 12a and 12B, in the illustrated arrangement essentially midway between the side frames 12A and 12B. An actuator in the form of a pneumatic pressure cylinder 104 in this embodiment is coupled between the cam arm or lever 102 and the frame 12. In the illustrated arrangement the actuator 104 is pivotably mounted to the frame 12 on a shaft 106 that extends between and interconnects the side frames 12A and 12B and the piston shaft 108 extending from the piston 110 of the pressure cylinder 104 is pivotably connected to the arm 102 as indicated at 112. A spring 114 is connected at one end 116 to the cam lever 102 and at its other end to the 118 to the frame 12 to bias the cam arm 102 toward the case 500 being sealed (downward in the illustration) i.e. to bias the pressure cylinder 104 to extended position as illustrated in
An application cam 120 in the form of a plate projects from the arm 102 adjacent to its free end toward the side frame 12A and the push bar link 42 in position when activated to engage with the cooperating application cam 122 in the form of a cam roller 122 that is connected to the push bar link 42 and lift the push bar 42 and thereby the rolls 38 and 56 to reduce the pressure they can apply to the case or carton 500 (see
A cut-off cam 124 in the form of a second plate projecting on the opposite side of the cam arm 102 than the cam plate 120 (I.e. toward the side frame 12B and the cut-off mechanism 70) and positioned between the pivotal mounting of the cam lever 102 on the shaft 16 and the cam plate 120 to when activated (pressure is applied to the cylinder 104 to retract the piston 110) engage with the cooperating cut-off cam 126 in the form of a roller mounted on an extending from the arm 82 of the cut-off mechanism 70. In the illustrated arrangement the cam 126 extends from an arm 128 that project from the arm 82 (see
It will be apparent that both the application cam 120 and the cut-off cam 124 when not in active positions i.e. engaging with the cooperating cams 122 and 126 respectively, are positioned to allow movement of the push bar 44 and the cut-off mechanism 70. The allowable upwards movement can accommodate cases or carton 500 height variation and machine height adjustment variations. When in active positions as described below they restrict downwards movement towards the case 500. It will be apparent that if the tape head 10 is to apply tape to the bottom of a case or carton it will be inverted and up will be down.
In the embodiment of
The pressure control cam 138 has a case engaging cam surface 140 that senses the presence of the case or carton 500 and a control surface 142 that cooperates with a follower 144 that controls the position of lever 146 that in effect operates the valve 136 to direct flow to and from the cylinder 104.
When the camming system 100 is not the to be used the air from the source 134 need simply be turned off for example by means of a valve schematically at 135.
The pressure control cam 138 in the embodiment shown in
In
The cam 138A as illustrated in
Control of the actuator 650E obviously must be an electrical control which as illustrated employs an electric controller 169F that controls the application of power via line 701E to the actuator 650E based on the triggering of the sensors 617F and 618F.
It will be apparent a cam equivalent to cam 138 and mounted on the tape head as is cam 138 in
In
For the purposes of the present invention the term control system is intended to describe the control devices that control the flow of power to the activator whether it be pneumatic of electrical together with the cam or sensors that activate the control devices at the appropriate times during the cycle of apply the tape to the case or carton 50 as will be described below for the
The operation of the invention will be described using the
Obviously, the roller cam 122 and cam plate 120 must be relatively positioned to engage when the case is in position shown in
As the case 500 travels to the
When the case 500 reaches the position of
It will be apparent that the reciprocal operations of the activators 104 and 650E to move the lever 102 and their timing will be the same regardless of the embodiment of the invention.
Having described the invention, modifications will be evident to those skilled in the art without departing from the scope of the invention as defined in the appended claims.
Number | Name | Date | Kind |
---|---|---|---|
5338384 | Reichert | Aug 1994 | A |
8176959 | Lam | May 2012 | B2 |
9061857 | Johnson | Jun 2015 | B2 |
9517914 | Menta et al. | Dec 2016 | B2 |
9630796 | Menta et al. | Apr 2017 | B2 |
20130174962 | Fasse et al. | Jul 2013 | A1 |
20180022492 | Takahashi et al. | Jan 2018 | A1 |
Number | Date | Country |
---|---|---|
102092497 | Jun 2011 | CN |
3820060 | Dec 1989 | DE |
4265745 | May 2009 | JP |
Number | Date | Country | |
---|---|---|---|
20190352120 A1 | Nov 2019 | US |