CN113022983A

CN113022983A - Sealing adhesive tape shearing device

Info

Publication number: CN113022983A
Application number: CN202110303981.7A
Authority: CN
Inventors: 刘翠萍
Original assignee: Jiangsu Institute of Architectural Technology
Current assignee: Jiangsu Institute of Architectural Technology
Priority date: 2021-03-22
Filing date: 2021-03-22
Publication date: 2021-06-25
Anticipated expiration: 2041-03-22
Also published as: CN113022983B

Abstract

The invention relates to the technical field of adhesive tape shearing devices, and discloses a sealing adhesive tape shearing device, which comprises: the device comprises a shell, a winding drum, a rotating mechanism, a microprocessor and a power supply, wherein the shell is provided with an opening, a first end face of the opening is connected with a sawtooth plate, a second end face of the opening is fixedly connected with a guide plate, the bottom surface of the guide plate is higher than the first end face, a strain sensor is arranged between the sawtooth plate and the first end face and used for detecting the stress value between the sawtooth plate and the first end face, the winding drum is hinged inside the shell and used for fixing the inner ring of the adhesive tape, the distance from the guide plate to the central axis of the winding drum is shorter than the distance from the sawtooth plate to the central axis of the winding drum, the rotating mechanism is arranged in the shell and connected with the winding drum so as to enable the winding drum to rotate, the microprocessor is respectively in signal connection with the rotating mechanism and the strain sensor, and the power supply is respectively electrically connected.

Description

Sealing adhesive tape shearing device

Technical Field

The invention relates to the technical field of adhesive tape shearing devices, in particular to a box sealing adhesive tape shearing device.

Background

Along with the rapid development of the logistics industry, the using amount of the cartons is increased day by day, and the adhesive tapes are basically used for sealing the carton during carton sealing, so that the using amount and the using rate of the adhesive tapes are increased.

In the logistics industry, because the position that needs convenient removal and cooperation box place adopts hand-held type sticky tape shearing mechanism more, the rationale is for overlapping sticky tape fiber container on the reel, cuts off the sticky tape through the sawtooth of opening part and carries out the shearing of sticky tape, and the operator takes off the sticky tape head from the sawtooth and pulls the sticky tape head and carry out the joint sealing and cut off with the sawtooth once more in the suitable position when next use.

Although the shearing device can rapidly cut off the adhesive tape, when an operator takes off the adhesive tape head adhered to the saw teeth again, the free end of the adhesive tape loses the fixed traction and easily causes the adhesive tape to be reversed, so that the adhesive tape head is reversely wound on the adhesive tape roll at the position of the winding drum, and great inconvenience is brought to the operator.

Disclosure of Invention

The invention provides a box sealing adhesive tape shearing device which can control a winding drum to rotate according to the stress change between a serrated plate and a first end face on a shell so as to release an adhesive tape and avoid the phenomenon that the adhesive tape head is coiled into the shell again due to the fact that the adhesive tape head rotates reversely when the serrated plate is taken down.

The invention provides a sealing adhesive tape shearing device, which comprises:

the shell is provided with an opening, a first end face of the opening is connected with a serrated plate, a second end face of the opening is fixedly connected with a guide plate inclined to the first end face, the bottom face of the guide plate is higher than the first end face, and a strain sensor is arranged between the serrated plate and the first end face and used for detecting a stress value between the serrated plate and the first end face;

the winding drum is hinged inside the shell and used for fixing the inner ring of the adhesive tape, and the distance from the guide plate to the central shaft of the winding drum is shorter than the distance from the serrated plate to the central shaft of the winding drum;

the rotating mechanism is arranged in the shell and connected with the winding drum so as to rotate the winding drum;

the microprocessor is respectively connected with the rotating mechanism and the strain type sensor through signals;

the power supply is electrically connected with the microprocessor and the rotating mechanism respectively;

when the stress value detected by the strain sensor is smaller than the minimum preset stress value in the microprocessor, the microprocessor controls the rotating mechanism to rotate, and when the stress value detected by the strain sensor is larger than the maximum preset stress value in the microprocessor, the microprocessor controls the rotating mechanism to stop rotating.

Optionally, the method further includes:

the telescopic mechanism is connected to the position, close to the first end face, of the shell, arranged on the same side of the first end face, located between the guide plate and the sawtooth plate, in signal connection with the microprocessor and electrically connected with the power supply;

the support is connected with the telescopic mechanism so as to enable the support to move along the direction vertical to the lower end face of the shell, and lifting wheels are pivoted on the support;

when the stress value detected by the strain sensor is smaller than the minimum preset stress value in the microprocessor, the microprocessor controls the rotating mechanism to rotate and simultaneously controls the telescopic mechanism to shorten the fixed length so that the lifting wheel does not contact the adhesive tape, when the stress value detected by the strain sensor is larger than the maximum preset stress value in the microprocessor, the microprocessor controls the telescopic mechanism to extend the fixed length so that the lifting wheel resets and contacts the adhesive tape, and then the rotating mechanism is controlled to stop rotating.

Optionally, the telescopic mechanism includes:

the sleeve is fixedly connected to the position, close to the first end face, of the shell, an excitation coil is arranged on the inner bottom wall of the sleeve, the excitation coil is electrically connected with a power supply through a relay, and the microprocessor is in signal connection with the relay;

the sliding block is fixed at one end of the support close to the sleeve and is in sliding fit with the inner side wall of the sleeve, and the bottom of the sliding block is fixedly connected with the permanent magnet;

when the microprocessor controls the input of the reverse current to the magnet exciting coil through the relay, the magnet exciting coil and the permanent magnet repel each other to enable the support to move in the direction away from the sleeve.

Optionally, a spring is connected between the sliding block and the excitation coil.

Optionally, the rotation mechanism comprises:

the micro motor is fixed in the shell, an output shaft is parallel to the axial direction of the winding drum, the micro motor is in signal connection with the microprocessor, and the micro motor is electrically connected with the power supply;

the gear is connected with an output shaft of the micro motor, a circle of gear teeth which are arranged in an annular mode are arranged on the inner wall of the winding drum, and the gear is located in the winding drum and is partially meshed with the gear teeth.

Optionally, the housing is detachably connected to a cover plate.

Optionally, the upper end surface of the housing and one side of the guide plate close to the adhesive tape are respectively connected with a guide pulley.

Compared with the prior art, the invention has the beneficial effects that: the strain type sensor arranged between the serrated plate and the first end face can detect the stress values of the serrated plate and the first end face in real time, when a box body is required to be pasted by using an adhesive tape, an operator takes the adhesive tape head off the serrated plate, the adhesive tape head does not pull the serrated plate any more, the strain force between the serrated plate and the first end face is reduced and is smaller than the minimum preset stress value, the microprocessor controls the rotating mechanism to rotate so as to drive the winding drum to rotate so as to enable the adhesive tape roll to rotate, at the moment, the operator only needs to pull the adhesive tape head to stretch and close the box opening without too much force, after the box opening is closed, the operator cuts the adhesive tape along the serrated plate, at the moment, the adhesive tape head pulls the serrated plate again, the strain force between the serrated plate and the first end face is increased and is larger than the maximum preset stress value, and the microprocessor controls the rotating mechanism to stop rotating, the device avoids the phenomenon that the adhesive tape head is turned over when the adhesive tape head is taken down to enable the adhesive tape head to be drawn into the shell again, the use of an operator is greatly facilitated, the distance and the position between the serrated plate and the guide plate in the device reserve a space for the operator to take and paste the adhesive tape head from the serrated plate, the risk that the serrated plate scratches the operator due to the fact that the distance between the serrated plate and the guide plate is too short is avoided, meanwhile, the situation that the operator is scratched by the edge of the adhesive tape in the process of pulling the adhesive tape vigorously is avoided due to the fact that the rotating mechanism is mainly used for assisting manual work in the process of releasing the adhesive tape, and the device is safe, reliable.

Drawings

Fig. 1 is a schematic structural diagram of a sealing tape shearing device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a telescopic mechanism according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a rotating mechanism according to an embodiment of the present invention.

Description of reference numerals:

100-shell, 101-sawtooth plate, 102-guide plate, 103-strain gauge sensor, 104-winding drum, 105-adhesive tape, 106-support, 107-lifting wheel, 108-guide pulley, 2-rotating mechanism, 200-micromotor, 210-gear, 220-gear tooth, 3-telescoping mechanism, 300-sleeve, 310-magnet coil, 320-sliding block, 330-permanent magnet, 340-spring.

Detailed Description

An embodiment of the present invention will be described in detail below with reference to the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the embodiment.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing technical solutions of the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1, an embodiment of the present invention provides a sealing tape cutting device, including: the device comprises a shell 100, a winding drum 104, a rotating mechanism 2, a microprocessor and a power supply, wherein the shell 100 is provided with an opening, a first end face of the opening is connected with a sawtooth plate 101, a second end face of the opening is fixedly connected with a guide plate 102 inclined towards the first end face, the bottom surface of the guide plate 102 is higher than the first end face, a strain type sensor 103 is arranged between the sawtooth plate 101 and the first end face and used for detecting the stress value between the sawtooth plate 101 and the first end face, the winding drum 104 is hinged in the shell 100 and used for fixing the inner ring of an adhesive tape 105, the distance from the guide plate 102 to the central axis of the winding drum 104 is shorter than the distance from the sawtooth plate 101 to the central axis of the winding drum 104, the rotating mechanism 2 is arranged in the shell 100 and connected with the winding drum 104 so as to enable the winding drum 104 to rotate, the microprocessor is respectively in signal connection with the rotating mechanism 2 and the strain type sensor 103, the power supply is, the microprocessor controls the rotating mechanism 2 to rotate, and when the stress value detected by the strain sensor 103 is larger than the maximum preset stress value in the microprocessor, the microprocessor controls the rotating mechanism 2 to stop rotating.

In this embodiment, the microprocessor is disposed inside the casing 100, the power supply is powered by a battery, and the portable tape drive device is convenient to carry and move, the inner ring of the adhesive tape 105 can be fixedly connected with the winding drum 104 in a sticking manner, and can also be fixedly connected in a clamping manner, which is not limited in this embodiment.

The strain type sensor arranged between the serrated plate and the first end face can detect the stress values of the serrated plate and the first end face in real time, when a box body is required to be pasted by using an adhesive tape, an operator takes the adhesive tape head off the serrated plate, the adhesive tape head does not pull the serrated plate any more, the strain force between the serrated plate and the first end face is reduced and is smaller than the minimum preset stress value, the microprocessor controls the rotating mechanism to rotate so as to drive the winding drum to rotate so as to enable the adhesive tape roll to rotate, at the moment, the operator only needs to pull the adhesive tape head to stretch and close the box opening without too much force, after the box opening is closed, the operator cuts the adhesive tape along the serrated plate, at the moment, the adhesive tape head pulls the serrated plate again, the strain force between the serrated plate and the first end face is increased and is larger than the maximum preset stress value, and the microprocessor controls the rotating mechanism to stop rotating, the device avoids the phenomenon that the adhesive tape head is turned over when the adhesive tape head is taken down to enable the adhesive tape head to be drawn into the shell again, the use of an operator is greatly facilitated, the distance and the position between the serrated plate and the guide plate in the device reserve a space for the operator to take and paste the adhesive tape head from the serrated plate, the risk that the serrated plate scratches the operator due to the fact that the distance between the serrated plate and the guide plate is too short is avoided, meanwhile, the situation that the operator is scratched by the edge of the adhesive tape in the process of pulling the adhesive tape vigorously is avoided due to the fact that the rotating mechanism is mainly used for assisting manual work in the process of releasing the adhesive tape, and the device is safe, reliable.

In order to further facilitate the operator to take the adhesive tape head, the sealing adhesive tape cutting device in the embodiment further comprises: the telescopic mechanism 3 is connected to the position, close to the first end face, of the shell 100, the telescopic mechanism 3 is arranged on the same side of the first end face, the telescopic mechanism 3 is located between the guide plate 102 and the sawtooth plate 101, the telescopic mechanism 3 is in signal connection with the microprocessor, the telescopic mechanism 3 is electrically connected with a power supply, the support 106 is connected with the telescopic mechanism 3 so that the support 106 can move in the direction perpendicular to the lower end face of the shell 100, a lifting wheel 107 is pivoted on the support 106, when the stress value detected by the strain sensor 103 is smaller than the minimum preset stress value in the microprocessor, the microprocessor controls the rotating mechanism 2 to rotate and controls the telescopic mechanism 3 to shorten the fixed length so that the lifting wheel 107 does not contact with the adhesive tape 105, when the stress value detected by the strain sensor 103 is larger than the maximum preset stress value in the microprocessor, the microprocessor controls the telescopic mechanism 3 to extend the fixed length so that the lifting wheel 107 resets and contacts with the, the turning mechanism 2 is then controlled to stop turning.

The lifting wheel 107 is higher than the sawtooth plate 101 when the adhesive tape 105 is not used, so that the length of the adhesive tape between the sawtooth plate 101 and the guide plate 102 is increased, and the adhesive tape 105 protrudes upwards, so that an operator can take the adhesive tape from the lifting wheel 107 or the vicinity of the lifting wheel 107 when taking the adhesive tape head, the operator is prevented from directly contacting the sawtooth plate 101, meanwhile, the long taking length of the adhesive tape 105 is reserved for the operator, the use of the operator is further facilitated, and meanwhile, the operator is further prevented from being scratched by the sawtooth plate 101.

Referring to fig. 2, the telescopic mechanism 3 includes: sleeve 300 and sliding block 320, sleeve 300 links firmly in casing 100 near first terminal surface department, the inner bottom wall of sleeve 300 is provided with excitation coil 310, excitation coil 310 is connected with the power through the relay electricity, microprocessor and relay signal connection, sliding block 320 is fixed in the one end that support 106 is close to sleeve 300, sliding block 320 and the inside wall sliding fit of sleeve 300, the bottom of sliding block 320 has linked firmly permanent magnet 330, when microprocessor passes through relay control to the input forward current in excitation coil 310, then excitation coil 310 and permanent magnet 330 attract each other so that support 106 moves to the direction that is close to sleeve 300, when microprocessor passes through relay control to the input backward current in excitation coil 310, then excitation coil 310 and permanent magnet 330 repel each other so that support 106 moves to the direction of keeping away from sleeve 300.

Specifically, the spring 340 is connected between the sliding block 320 and the exciting coil 310, and the exciting coil 310 and the permanent magnet 330 can be prevented from directly contacting through the arranged spring 340, so that the mutual collision between the exciting coil 310 and the permanent magnet 330 is avoided, and the service life is prolonged.

Referring to fig. 3, in the present embodiment, the rotation mechanism 2 includes: the micro-motor 200 is fixed in the shell 100, the output shaft is parallel to the axial direction of the winding drum 104, the micro-motor 200 is electrically connected with a power supply, the micro-motor 200 is controlled by the microprocessor to rotate to enable the winding drum 104 to rotate, the gear 210 is connected with the output shaft of the micro-motor 200, the inner wall of the winding drum 104 is provided with a circle of gear teeth 220 which are arranged in an annular mode, and the gear 210 is located in the winding drum 104 and partially meshed with the gear teeth 220.

Thereby microprocessor control micromotor 200 rotates and drives gear 210 synchronous revolution, gear 210 drives the teeth of a cogwheel 220 rather than the meshing and rotates to make reel 104 rotate, make the sticky tape that is fixed in on it rotate, the transmission of realizing the turning force through the gear engagement mode can make sticky tape 105 rotate more stably and speed reduce to some extent, thereby make the operator speed even and cooperate the manual operation of people when pasting sticky tape 105 with the box, the very big use that has made things convenient for the operator.

Optionally, a cover plate is detachably connected to the housing 100 to facilitate replacement of the adhesive tape 105.

Specifically, the upper end surface of the casing 100 and one side of the guide plate 102 close to the adhesive tape 105 are respectively connected with a guide pulley 108, so that the guiding and isolating effects are achieved, and the adhesive tape 105 is prevented from being too close to the upper end surface of the casing 100, so that the influence of static electricity generated by contact friction between the upper end surface and the guide plate on the use of an operator is avoided.

The above disclosure is only for a few specific embodiments of the present invention, however, the present invention is not limited to the above embodiments, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present invention.

Claims

1. The utility model provides a joint sealing sticky tape shearing mechanism which characterized in that includes:

the shell (100) is provided with an opening, a serrated plate (101) is connected to a first end face of the opening, a guide plate (102) inclined towards the first end face is fixedly connected to a second end face of the opening, the bottom surface of the guide plate (102) is higher than the first end face, and a strain sensor (103) is arranged between the serrated plate (101) and the first end face and used for detecting a stress value between the serrated plate (101) and the first end face;

the winding drum (104) is hinged inside the shell (100) and used for fixing the inner ring of the adhesive tape (105), and the distance from the guide plate (102) to the central axis of the winding drum (104) is shorter than the distance from the serrated plate (101) to the central axis of the winding drum (104);

a rotating mechanism (2) which is arranged in the shell (100) and is connected with the winding drum (104) so as to rotate the winding drum (104);

the microprocessor is respectively in signal connection with the rotating mechanism (2) and the strain sensor (103);

the power supply is electrically connected with the microprocessor and the rotating mechanism (2) respectively;

when the stress value detected by the strain sensor (103) is smaller than the minimum preset stress value in the microprocessor, the microprocessor controls the rotating mechanism (2) to rotate, and when the stress value detected by the strain sensor (103) is larger than the maximum preset stress value in the microprocessor, the microprocessor controls the rotating mechanism (2) to stop rotating.

2. The box sealing tape cutting apparatus of claim 1, further comprising:

the telescopic mechanism (3) is connected to the position, close to the first end face, of the shell (100), the telescopic mechanism (3) is arranged on the same side of the first end face, the telescopic mechanism (3) is located between the guide plate (102) and the sawtooth plate (101), the telescopic mechanism (3) is in signal connection with the microprocessor, and the telescopic mechanism (3) is electrically connected with the power supply;

the support (106) is connected with the telescopic mechanism (3) so that the support (106) can move along the direction vertical to the lower end face of the shell (100), and a lifting wheel (107) is pivoted on the support (106);

when the stress value that strain gauge sensor (103) detected is less than the minimum preset stress value in the microprocessor, microprocessor control slewing mechanism (2) pivoted while control telescopic machanism (3) shorten the fixed length so that lifting wheel (107) contactless sticky tape (105), when the stress value that strain gauge sensor (103) detected is greater than the maximum preset stress value in the microprocessor, microprocessor control telescopic machanism (3) extension fixed length is so that lifting wheel (107) reset and contact sticky tape (105), control slewing mechanism (2) stall afterwards.

3. A box sealing tape cutting device according to claim 2, wherein the telescopic mechanism (3) comprises:

the sleeve (300) is fixedly connected to the position, close to the first end face, of the shell (100), the inner bottom wall of the sleeve (300) is provided with an excitation coil (310), the excitation coil (310) is electrically connected with a power supply through a relay, and the microprocessor is in signal connection with the relay;

the sliding block (320) is fixed at one end, close to the sleeve (300), of the support (106), the sliding block (320) is in sliding fit with the inner side wall of the sleeve (300), and the bottom of the sliding block (320) is fixedly connected with the permanent magnet (330);

when the microprocessor inputs forward current into the exciting coil (310) through the relay control, the exciting coil (310) and the permanent magnet (330) attract each other to enable the support (106) to move towards the direction close to the sleeve (300), and when the microprocessor inputs reverse current into the exciting coil (310) through the relay control, the exciting coil (310) and the permanent magnet (330) repel each other to enable the support (106) to move towards the direction far away from the sleeve (300).

4. The box sealing tape cutting device according to claim 3, wherein a spring (340) is connected between the sliding block (320) and the exciting coil (310).

5. A box sealing tape cutting device according to claim 1, wherein the rotating mechanism (2) comprises:

the miniature motor (200) is fixed in the shell (100), an output shaft is parallel to the axial direction of the winding drum (104), the miniature motor (200) is in signal connection with the microprocessor, and the miniature motor (200) is electrically connected with a power supply;

the gear (210) is connected with an output shaft of the micro motor (200), a circle of gear teeth (220) which are arranged in an annular mode are arranged on the inner wall of the winding drum (104), and the gear (210) is located in the winding drum (104) and partially meshed with the gear teeth (220).

6. A box sealing tape cutting apparatus according to claim 1, wherein a cover plate is detachably attached to the housing (100).

7. A box sealing tape cutting device according to claim 1, wherein a guide pulley (108) is attached to the upper end surface of the housing (100) and a side of the guide plate (102) adjacent to the tape (105), respectively.