CN211843409U - Automatic adhesive tape device - Google Patents

Abstract

The utility model relates to an automatic water adhesive tape device, which comprises a frame and an adhesive tape supporting bracket arranged at one end of the frame, wherein one end of the frame close to the adhesive tape supporting bracket is arranged as a feed inlet, and the other end is arranged as a discharge outlet; a paper feeding module, a paper cutting module and a wet water module are arranged in the frame, a lower paper feeding tray is arranged between the paper feeding module and the paper cutting module, and a paper receiving tray is arranged between the paper cutting module and the wet water module; the rack is also provided with a paper detection module for detecting the length of the adhesive tape conveyed by the paper feeding module; the paper feeding module is arranged at the feed inlet and used for conveying the adhesive tape on the adhesive tape bearing bracket to the lower paper feeding tray, the paper cutting module is used for enabling the adhesive tape to penetrate through the paper receiving tray and cutting off the adhesive tape when the paper feeding module conveys the adhesive tape with a set length, and the wet water module is used for conveying the adhesive tape to the discharge outlet and simultaneously coating one surface of the adhesive tape with moisture. The utility model discloses have the effect that can use manpower sparingly the cost and improve work efficiency and security.

Description

Automatic adhesive tape device

Technical Field

The utility model belongs to the technical field of mechanical equipment's for the packing technique and specifically relates to an automatic glue tape device is related to.

Background

The main mode of the carton and the carton back-end combined forming of the transportation package has bonding and nailing, but the nailing mode has some defects, such as: the nail head is easy to be scratched, the inner content is scratched, the nail head is easy to rust when being wetted, and the like, so that the transportation package of the industries such as dye, medicine, medical apparatus and instruments, food, foreign trade products and the like adopts a bonding combination mode. The bonding method is more suitable for mass production line type bonding, but when the content is in the forms of powder, bag, granule, viscous liquid and the like with better fluidity, the content can generate larger radial pressure effect on the wall surface of the carton during dynamic transportation, and the phenomenon of bond breaking or degumming is easily caused. In order to solve the hidden trouble, a layer of high-strength adhesive paper-based thread clamping adhesive tape is additionally attached to the joint of the connecting tongue.

The base material of the paper-based thread-clamping adhesive tape is kraft paper and glass fiber thread, the adhesive force is strong after wetting, the base material and the adhesive cannot cause pollution, and the paper-based thread-clamping adhesive tape can be recycled along with packaging. At present, in practical application, an adhesive tape with a certain length can be measured only by manpower, cut off by an art designer knife, and attached to a packing box after being wetted with water and supplied with water by a rag or a sponge.

Referring to fig. 1, in an actual taping work, generally five workers are a work group. One person L is responsible for measuring, cutting and wetting the paper-based thread-clamping adhesive tape at the tool rack 91; two persons T are responsible for pasting the wet paper-based wire clamping adhesive tape to the joint of the paper boxes on the working tables 92 at the two sides of the tool rack 91, placing the pasted paper boxes on the conveying belt 93 and conveying the paper boxes to the packaging machine 94; one person F is responsible for turning and arranging the cartons placed on the conveyor belt 93 at the conveyor belt 93; one person D is responsible for packing the taped cartons at the packer 94.

However, the above prior art solutions have the following drawbacks: each group is necessary to be matched with a person T to measure, cut and wet the paper-based wire clamping adhesive tape, mechanical replacement is not realized in the part of work, the labor cost is high, and the work efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic glue belt device, it has the advantage that can use manpower sparingly cost, improve work efficiency to prior art exists not enoughly.

The above object of the present invention can be achieved by the following technical solutions:

an automatic adhesive tape device comprises a rack and an adhesive tape supporting bracket arranged at one end of the rack, wherein a feeding hole is formed in one end, close to the adhesive tape supporting bracket, of the rack, and a discharging hole is formed in the other end of the rack; a paper feeding module, a paper cutting module and a wet water module are sequentially arranged in the machine frame along the direction from the feeding port to the discharging port, a lower paper feeding tray is arranged between the paper feeding module and the paper cutting module, and a paper receiving tray is arranged between the paper cutting module and the wet water module;

the rack is also provided with a paper detection module for detecting the length of the adhesive tape conveyed by the paper feeding module; the paper feeding module is arranged at the feed inlet and used for conveying the adhesive tape on the adhesive tape bearing bracket to the lower paper feeding tray, the paper cutting module is used for enabling the adhesive tape to penetrate through the paper receiving tray and cutting off the adhesive tape when the paper feeding module conveys the adhesive tape with a set length, and the wet water module is used for conveying the adhesive tape to the discharge outlet and simultaneously coating one surface of the adhesive tape with moisture.

By adopting the technical scheme, the automatic conveying, the accurate length counting, the cutting and the wetting of the wire clamping adhesive tape are realized, the flow line mode of manually pasting the wire clamping wetting adhesive tape in the subsequent process is improved, the personnel allocation can be simplified, the potential safety hazard of the use of an art designer knife is avoided, the automation degree of workshop production can be improved, the working efficiency is greatly improved, and the automatic conveying, the cost reduction and the efficiency improvement of enterprises are of great significance.

The present invention may be further configured in a preferred embodiment as: the paper feeding module comprises an upper paper measuring wheel, a lower paper measuring wheel and a paper feeding side motor; the upper paper measuring wheel and the lower paper measuring wheel are rotatably connected with the frame, the lower paper measuring wheel is positioned below the upper paper measuring wheel, and the upper paper measuring wheel and the lower paper measuring wheel are used for clamping the adhesive tape; survey paper lower wheel coaxial coupling and have first belt pulley, send paper side motor's drive shaft coaxial coupling to have the second belt pulley, first belt pulley and second belt pulley pass through the belt and connect.

Through adopting above-mentioned technical scheme, the sticky tape can be surveyed the paper upper round and survey the paper lower round and press from both sides tightly and stably carry forward, and at the in-process of carrying, the position that the sticky tape obtained is difficult for squinting, has effectively guaranteed the job stabilization nature of the module of form advancing.

The present invention may be further configured in a preferred embodiment as: an upper paper feeding tray is arranged between the paper feeding module and the paper cutting module and above the lower paper feeding tray, and the distance between the upper paper feeding tray and the lower paper feeding tray is larger than the thickness of the adhesive tape.

Through adopting above-mentioned technical scheme, when the module of form advancing carried the sticky tape forward, because the effect of blockking of last paper tray, the sticky tape can not upwards the perk stretch out the frame or take place folding production fold, has further guaranteed the stability of the module of form advancing conveyer belt, has also guaranteed the planarization of sticky tape.

The present invention may be further configured in a preferred embodiment as: the paper measuring module comprises a paper measuring grating, a paper measuring photoelectric switch and a controller, and the controller is used for controlling the operation of the paper cutting module; the paper measuring grating is circular and is coaxially connected with one end of the paper measuring upper wheel, strip-shaped through grooves are formed in the end face of the paper measuring grating along the radial direction of the paper measuring grating, and a plurality of strip-shaped through grooves are uniformly distributed along the circumferential direction of the paper measuring grating; survey paper photoelectric switch setting in the frame and its and controller electricity is connected, survey paper photoelectric switch and adopt correlation formula photoelectric switch and its transmitting terminal and receiving terminal along the axial distribution in the both sides of surveying the paper grating.

By adopting the technical scheme, the photoelectric switch for paper detection can be converted into the length of the adhesive tape by counting one space and one dark grid of the grating, for example, the grating is 0.18 mm/grid. The infinite circular rotation characteristic of the circular grating is utilized, accurate control of any length can be achieved, and therefore after the paper feeding module conveys the adhesive tape with the set length, the controller controls the paper feeding module and the wet water module to stop and controls the paper cutting module to start to operate.

The present invention may be further configured in a preferred embodiment as: the paper cutting module comprises a cutter motor, a cutter eccentric motion module, an upper cutter and a lower cutter; the upper cutter is positioned above the lower paper feeding tray and the edge of the upper cutter faces downwards, and the lower cutter is positioned below the lower paper feeding tray and the edge of the lower cutter faces upwards; the bottom end of the lower cutter is connected with the cutter eccentric motion module, and the cutter motor is used for driving the cutter eccentric motion module to move along the vertical direction.

By adopting the technical scheme, when the length of the thread clamping adhesive tape reaches a set value, the operation of the cutter motor can be controlled, so that the rotary power motion of the motor is converted into the up-and-down motion of the cutter under the action of the cutter eccentric motion module. When the lower cutter moves to the highest point, the upper cutter and the lower cutter can cut off the thread-clamping adhesive tape.

The present invention may be further configured in a preferred embodiment as: the cutting knife eccentric motion module comprises a sliding block and an eccentric wheel, and the rotating point of the eccentric wheel is connected with the driving shaft of the cutting knife motor; a connecting block is arranged in the rack, a sliding groove penetrates through the connecting block along the vertical direction, the sliding block is connected with the sliding groove in a sliding manner, and the top end of the sliding block extends out of the sliding groove to be connected with the lower cutter; a rectangular through groove is formed in the part, located in the sliding groove, of the sliding block, the long edge of the rectangular through groove is in the horizontal direction, and the eccentric wheel is located in the rectangular through groove and the diameter of the eccentric wheel is equal to the width of the rectangular through groove; the cutter motor is located one side of the connecting block, and a connecting groove for the driving shaft of the cutter motor to extend into the sliding groove and be connected with the eccentric wheel is formed in the side wall, close to the cutter motor, of the connecting block.

By adopting the technical scheme, when the eccentric wheel moves upwards anticlockwise, the sliding block moves upwards, the lower cutter is driven to move upwards, and the upper cutter is static. When the eccentric wheel drives the sliding block to move to the highest point, the upper cutter and the lower cutter complete the cutting-off of the thread clamping adhesive tape. At the moment, the eccentric wheel continues to rotate anticlockwise to drive the sliding block to move to the lowest point, and then the cutter motor is closed, so that the reset of the lower cutter can be realized.

The present invention may be further configured in a preferred embodiment as: the wet water module comprises a small water tank, a water wheel, a paper outlet side pressure wheel and a paper outlet side motor, wherein the small water tank is upwards opened and is borne on the rack, and the lower end of the water wheel extends into the small water tank from the opening of the small water tank; the water wheel and the paper outlet side pressure wheel are both rotationally connected with the rack, the water wheel is positioned below the paper outlet side pressure wheel, and the water wheel and the paper outlet side pressure wheel are used for clamping the adhesive tape; the water wheel is coaxially connected with a third belt pulley, a driving shaft of the paper outlet side motor is coaxially connected with a fourth belt pulley, and the third belt pulley and the fourth belt pulley are connected through a belt; be provided with tray under the play paper between water wheels and the discharge gate, tray bears in the frame and is used for bearing the sticky tape that water wheels carried and come under the play paper.

Through adopting above-mentioned technical scheme, utilize the inboard that the even coating of doubling sticky tape of water in the little water tank that water wheels can be convenient, under the continuous rotary motion of water wheels, water wheels can carry the sticky tape that scribbles wet and carry on under the play paper on the tray and continue to carry to the discharge gate department.

The present invention may be further configured in a preferred embodiment as: the wet water module also comprises a large water tank and a water pump which are borne on the rack, the small water tank is positioned in the large water tank, and the small water tank is positioned above the bottom wall in the large water tank; the inlet of the water pump is connected with a first hose extending into the large water tank, and the outlet of the water pump is connected with a second hose extending into the small water tank.

Through adopting above-mentioned technical scheme, accessible water pump pours into the little water tank into with the water in the big water tank in, has avoided frequent watered process, has guaranteed the sufficiency of little water tank normal water.

The present invention may be further configured in a preferred embodiment as: be provided with the fish tape that is used for leading the sticky tape to discharge gate department between water wheels and the discharge gate, also twine the fish tape on the water wheels.

Through adopting above-mentioned technical scheme, utilize the fish tape to guide the double-layered line sticky tape to the exit and twine the fish tape on water wheels, can prevent that the double-layered line sticky tape after the wet water from gluing on water wheels and go out the tray under the paper.

To sum up, the utility model discloses a following at least one useful technological effect:

1. through the arrangement of the paper feeding module, the paper measuring module, the paper cutting module and the wet water module, the device integrates automatic conveying, accurate length counting, cutting and wet water, and has the advantages of saving labor cost and improving working efficiency and safety;

2. through the arrangement of the cutter motor, the cutter eccentric motion module, the upper cutter and the lower cutter, the precise cutting of the thread-clamping adhesive tape is realized, and the insecurity when the adhesive tape is cut by using a traditional art knife is avoided;

3. through the setting of little water tank, big water tank, water pump and fish tape, guaranteed that water wheels can be stable scribble water to the sticky tape inboard, also guaranteed that water wheels can be stable with wet sticky tape to delivery of discharge gate department.

Drawings

FIG. 1 is a schematic view showing a structure of a tape-stripping line in the prior art;

FIG. 2 is a schematic view showing the overall structure of an automatic glue tape device in the embodiment;

FIG. 3 is a schematic view showing the internal structure of an automatic glue tape device in the embodiment;

FIG. 4 is an enlarged partial schematic view of portion A of FIG. 2;

FIG. 5 is a schematic view of the internal structure of the automatic gummed tape device in another view in the embodiment;

FIG. 6 is a schematic structural diagram of an eccentric movement module of a cutting knife in an embodiment;

FIG. 7 is an enlarged partial view of portion B of FIG. 5;

fig. 8 is a schematic structural diagram of an electromagnetic compression module in the embodiment.

In the figure, 1, a frame; 11. a feed inlet; 12. a discharge port; 13. a lower paper feed tray; 14. a paper receiving tray; 15. an upper paper feeding tray; 16. a paper-out lower tray; 17. mounting a plate; 171. a foot rest; 172. a fixed mount; 18. a tension pulley; 19. an upper paper outlet baffle; 191. a through hole; 192. a notch; 193. a paper-out photoelectric switch; 2. a tape support bracket; 21. a tape roll support shaft; 3. measuring paper and feeding the paper; 31. measuring a paper lower wheel; 32. a paper feed side motor; 33. a first pulley; 34. a second pulley; 4. measuring a paper grating; 41. a paper testing photoelectric switch; 42. a controller; 43. a strip-shaped through groove; 5. a cutter motor; 51. an upper cutter; 52. a lower cutter; 53. a slider; 54. an eccentric wheel; 55. connecting blocks; 56. a chute; 57. a rectangular through groove; 58. connecting grooves; 59. a cutter photoelectric switch; 6. a small water tank; 61. a water wheel; 62. a paper outlet side pressure wheel; 63. a paper discharge side motor; 64. a third belt pulley; 65. a fourth belt pulley; 66. a large water tank; 67. a water pump; 671. a first hose; 672. a second hose; 68. paper pressing blocks; 7. a heating rod; 8. mounting the cylinder; 81. an annular electromagnet; 82. a pressure head; 83. a connecting rod; 84. an adsorption block; 85. a limit ring plate; 86. a spring; 87. a limiting plate; 91. a tool holder; 92. a work table; 93. a conveyor belt; 94. a baling machine.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Examples

Referring to fig. 2, for the utility model discloses an automatic water adhesive tape device, including frame 1 and the sticky tape support bracket 2 of setting in frame 1 one end, frame 1 and sticky tape support bracket 2 comprise two parallel mounting panels 17 jointly. A tape roll support shaft 21 is arranged between the two mounting plates 17 and at the position of the tape support bracket 2, specifically, the tape roll support shaft 21 is arranged on the tape support bracket 2 in a penetrating manner and can be drawn out from the tape support bracket 2, and the tape roll is sleeved on the tape roll support shaft 21 and is located between the two mounting plates 17. One end of the frame 1 close to the adhesive tape supporting bracket 2 is provided with a feeding hole 11, and the other end is provided with a discharging hole 12; the machine frame 1 is internally provided with a paper feeding module, a paper cutting module and a wet water module in sequence along the direction from the feed inlet 11 to the discharge outlet 12, and after the adhesive tape on the tape roll supporting shaft 21 enters the machine frame 1 from the feed inlet 11, the adhesive tape is processed by the paper cutting module and the wet water module and is sent out from the discharge outlet 12. For the stability when improving the device and placing, both ends that are the lateral wall that sets up mutually away from each other at two mounting panels 17 all are provided with foot rest 171, have set up four foot rests 171 and four foot rests 171 respectively and are located the four corners department of device on the device promptly to provide holding power to whole device and make the device can steadily place.

Referring to fig. 3, the paper feeding module includes a tension pulley 18, an upper paper measuring pulley 3, a paper feeding side motor 32, and two lower paper measuring pulleys 31. The tension pulley 18 is located at one end of the machine frame 1 close to the adhesive tape support bracket 2 and is rotatably connected with the machine frame 1, and it should be noted that the tension pulley 18 is located below the paper measurement upper pulley 3 and the paper measurement lower pulley 31 and is used for clamping the adhesive tape. Survey paper upper wheel 3 and survey paper lower wheel 31 and set up in the feed inlet 11 department of frame 1 and all rotate with frame 1 and be connected, survey paper upper wheel 3 and be located the top of surveying paper lower wheel 31 and be located two and survey between the paper lower wheel 31, the sticky tape can pass through behind tension pulley 18 survey paper upper wheel 3 and survey between the paper lower wheel 31 and surveyed paper upper wheel 3 and survey paper lower wheel 31 and press from both sides tightly. Referring to fig. 2, the two paper-measuring lower wheels 31 are coaxially connected with a first belt pulley 33, and the first belt pulley 33 is located outside the frame 1; a fixed frame 172 is fixedly arranged in the frame 1 and below the paper-measuring lower wheel 31, the paper-feeding side motor 32 is fixedly arranged in the fixed frame 172, a driving shaft of the paper-feeding side motor penetrates through the frame 1, and is coaxially connected with a second belt wheel 34, and the first belt wheel 33 and the second belt wheel 34 are arranged at the same side of the frame 1 and are connected through a belt.

Referring to fig. 2 and 4, a paper measuring module for detecting the length of the adhesive tape conveyed by the paper feeding module is also carried on the frame 1, and the paper measuring module includes a paper measuring grating 4, a paper measuring photoelectric switch 41 and a controller 42. The controller 42 is electrically connected to the paper-detecting photoelectric switch 41, the paper-feeding side motor 32 and the paper-cutting module, and is configured to control the paper-feeding side motor 32 to stop running and the paper-cutting module to operate to cut off the adhesive tape after the paper-feeding module delivers the adhesive tape with a set length. The paper measuring grating 4 is circular and is coaxially connected with one end of the paper measuring upper wheel 3 through a rotating shaft, and the paper measuring grating 4 is positioned on one side of the rack 1 close to the first belt pulley 33. A plurality of strip-shaped through grooves 43 are formed in the end face of the paper measurement grating 4 along the radial direction of the paper measurement grating, and the strip-shaped through grooves 43 are uniformly distributed along the circumferential direction of the paper measurement grating 4. The paper-testing photoelectric switch 41 is arranged on the side wall of one side of the frame 1 close to the first belt pulley 33 and adopts a correlation type photoelectric switch, and the transmitting end and the receiving end of the paper-testing photoelectric switch 41 are distributed on two sides of the paper-testing grating 4 along the axial direction of the paper-testing grating 4. In the process of rotating the paper measuring upper wheel 3, the paper measuring photoelectric switch 41 can detect the conversion between a blank and a dark lattice on the paper measuring grating 4, the blank is the strip-shaped through groove 43 part, the dark lattice is the solid part between two adjacent strip-shaped through grooves 43, the controller 42 converts the blank and the dark lattice of the paper measuring grating 4 into the length of the adhesive tape by counting, in the embodiment, the length is 0.18 mm/lattice, and the accurate control of any length can be realized by the characteristics of infinite circular paper measuring grating 4 circular circulation rotation.

Referring to fig. 3, the cutting module includes a cutter motor 5, a cutter eccentric motion module, an upper cutter 51, and a lower cutter 52. Referring to fig. 3, a lower paper feeding tray 13 and an upper paper feeding tray 15 are disposed between the paper feeding module and the paper cutting module, the paper feeding module is configured to feed the adhesive tape on the adhesive tape support bracket 2 to the lower paper feeding tray 13, and a distance between the upper paper feeding tray 15 and the lower paper feeding tray 13 is greater than a thickness of the adhesive tape. The upper cutter 51 is located above the lower paper feed tray 13 with its edge facing downward, and the lower cutter 52 is located below the lower paper feed tray 13 with its edge facing upward. Referring to fig. 5, the bottom end of the lower cutter 52 is connected to the cutter eccentric motion module, and the cutter motor 5 is fixedly installed in the fixing frame 172 and is used for driving the cutter eccentric motion module to move in the vertical direction.

Referring to fig. 6, the cutter eccentric motion module includes a slider 53 and an eccentric 54. Referring to fig. 5, a connecting block 55 is fixed to an end of the fixing frame 172 away from the tape support bracket 2, and a driving shaft of the cutter motor 5 extends out of the fixing frame 172 to be connected to a rotation point of the eccentric 54. Referring to fig. 6, a sliding groove 56 penetrates through the connecting block 55 along the vertical direction, the sliding block 53 is connected with the sliding groove 56 in a sliding manner, the top end of the sliding block extends out of the sliding groove 56 to be connected with the lower cutter 52, and the bottom end of the sliding block extends out of the lower part of the connecting block 55. The part of the slide block 53 in the slide slot 56 is provided with a rectangular through slot 57, the long side of the rectangular through slot 57 is along the horizontal direction, the eccentric wheel 54 is positioned in the middle position in the rectangular through slot 57, and the diameter of the eccentric wheel is equal to the width of the rectangular through slot 57. The side wall of the connecting block 55 close to the fixed frame 172 is provided with a connecting groove 58 for the driving shaft of the cutter motor 5 to extend into the sliding groove 56 and be connected with the eccentric wheel 54, when the eccentric wheel 54 rotates anticlockwise and upwards, the sliding block 53 moves upwards along the sliding groove 56, and simultaneously drives the lower cutter 52 to move upwards, and the upper cutter 51 is still; when the eccentric wheel 54 drives the sliding block 53 to move to the highest point, the upper cutter 51 and the lower cutter 52 complete the cutting of the thread-clamping adhesive tape, and the eccentric wheel 54 continues to rotate until the lower cutter 52 returns.

Referring to fig. 5 and 6, a cutter photoelectric switch 59 electrically connected with the controller 42 is fixedly arranged below the connecting block 55, and the cutter photoelectric switch 59 adopts a direct photoelectric switch U-shaped photoelectric coupler with the model number of H92B 4125C 51. In the initial state, the bottom end of the slider 53 extends through the sliding groove 56 to between the emitting end and the receiving end of the cutter photoelectric switch 59. When the cutter motor 5 drives the slider 53 to move upward along the slide groove 56 through the eccentric wheel 54, the bottom end of the slider 53 is separated from the emitting end and the receiving end of the cutter photoelectric switch 59, so that the receiving end of the cutter photoelectric switch 59 receives the light emitted from the emitting end. When the slider 53 moves to the highest point to cut off the thread-clamping adhesive tape, the slider 53 moves downwards along the sliding groove 56, and when the slider 53 moves downwards to a position between the emitting end and the receiving end of the cutter photoelectric switch 59 to block the opposite rays, the controller 42 controls the cutter motor 5 to stop rotating, so that the lower cutter 52 is reset.

Referring to fig. 5, the wet water module includes a large water tank 66, a small water tank 6, a water wheel 61, a paper discharge side pressure wheel 62, and a paper discharge side motor 63, and the paper discharge side motor 63 is fixed below the cutter photoelectric switch 59 and drives the water wheel 61 to rotate. The opening of the big water tank 66 is upward and fixed between the two mounting plates 17, the opening of the small water tank 6 is upward and fixed in the big water tank 66, the top end of the big water tank 66 is flush with the top end of the small water tank 6, and the small water tank 6 is positioned above the inner bottom wall of the big water tank 66. The water wheel 61 and the paper outlet side pressure wheel 62 are rotatably connected with the frame 1, the small water tank 6 is positioned under the water wheel 61, and the lower end of the water wheel 61 extends into the small water tank 6 from the opening of the small water tank 6. The paper outlet side pressure wheels 62 are arranged in two and are positioned above the water wheel 61, the water wheel 61 is positioned between the two paper outlet side pressure wheels 62, and the adhesive tape passing through the paper cutting module passes between the water wheel 61 and the paper outlet side pressure wheel 62 and is clamped by the water wheel 61 and the paper outlet side pressure wheel 62. Referring to fig. 3, a paper receiving tray 14 is further disposed on the inner wall of the frame 1 between the lower cutter 52 and the water wheel 61, and the adhesive tape passing through the paper cutting module drops onto the paper receiving tray 14, moves forward to the water wheel 61 under the action of the paper feeding module, and is wound between the paper discharging side pressure wheel 62 and the water wheel 61 by the water wheel 61. It should be noted that, the length of each section of tape is set to be greater than the length of the path from the water wheel 61 to the cutter, so that the front end of the tape is located between the water wheel 61 and the paper outlet side pressure wheel 62 when the paper cutting module cuts the tape, thereby ensuring that the cut tape can be continuously conveyed to the discharge port 12. In addition, in order to prevent the adhesive tape passing through the paper cutting module from warping upward and extending out of the frame 1, a paper pressing block 68 for blocking the adhesive tape from moving out of the frame 1 is further provided directly above the paper receiving tray 14, and the distance between the paper pressing block 68 and the paper receiving tray 14 allows the adhesive tape to pass through.

Referring to fig. 2 and 3, the water wheel 61 is coaxially connected with a third belt pulley 64 through a rotating shaft, a driving shaft of the paper output side motor 63 is coaxially connected with a fourth belt pulley 65, the third belt pulley 64 and the fourth belt pulley 65 are both positioned on one side of the frame 1 close to the first belt pulley 33, and the third belt pulley 64 and the fourth belt pulley 65 are connected through a belt. A paper discharging lower tray 16 and a paper discharging upper baffle 19 are arranged between the water wheel 61 and the discharging port 12, the paper discharging lower tray 16 is fixed on the frame 1 and is used for supporting the adhesive tape conveyed by the water wheel 61, and the paper discharging upper baffle 19 is positioned above the paper discharging lower tray 16 and forms a channel between the two sides for the adhesive tape to pass through.

Referring to fig. 5, the wet water module further includes a water pump 67 fixed to the top end of the fixing frame 172, a first hose 671 extending into the large water tank 66 is connected to an inlet of the water pump 67, and a second hose 672 extending into the small water tank 6 is connected to an outlet of the water pump 67. The water pump 67 is electrically connected to the controller 42, and since the water wheel 61 continuously transfers the water in the small water tank 6 to the tape, in order to ensure the water in the small water tank 6 is sufficient, the controller 42 controls the water pump 67 to operate to replenish a part of the water in the large water tank 66 to the small water tank 6 after the paper cutting module completes the cutting operation. The viscidity side can strengthen behind the doubling sticky tape wet water, but when winter, because the temperature degree is lower, the reaction time of the last viscidity of doubling sticky tape and water can prolong, leads to the viscidity of doubling sticky tape not enough, so when puting up the sticky tape, the manual work need make a round trip to press 3-4 times at least and can make the sticky tape laminate with the carton completely, has seriously influenced work efficiency. In order to solve the problem, a heating rod 7 is additionally arranged in the small water tank 6 and positioned at one side of the water wheel 61, the heating rod 7 is connected with the controller 42, and the heating rod 7 is started to heat the water in the small water tank 6 to increase the temperature in the winter working mode, so that the sticking starting speed of the thread-clamping adhesive tape is accelerated. In addition, in order to adapt to different temperatures in four seasons, 4 heating gears are set for the heating control of the controller 42, and 4 seconds is one period; 4, 4 th gear: heating all the time, and programming to be 1 in 4 seconds; 3, gear: heating for 3 seconds, and cutting off the power for 1 second; the 2 nd gear: heating for 2 seconds, and cutting off the power for 2 seconds; 1 st gear: heating for 1 second and powering off for 3 seconds.

Referring to fig. 3, a plurality of fishing lines arranged in the horizontal direction for guiding the adhesive tape to the discharge port 12 are disposed between the water wheel 61 and the discharge port 12, one end of each fishing line is fixed at the discharge port 12, and the other end of each fishing line is fixed at one side of the water wheel 61 close to the discharge port 12. The fish line is located between the paper output lower tray 16 and the paper output upper baffle 19, one end of the fish line close to the discharge port 12 is lower than one end of the fish line close to the water wheel 61, and the adhesive tape conveyed by the water wheel 61 enters between the fish line above the paper output lower tray 16 and the paper output upper baffle 19. In addition, in order to prevent the wet-wet string-sandwiching tape from sticking to the water wheel 61, a plurality of fishing strings are wound around the water wheel 61.

Referring to fig. 5 and 7, a paper output photoelectric switch 193 is further disposed at the paper output port of the chassis 1, and the paper output photoelectric switch 193 is connected to the controller 42 and also adopts a correlation type photoelectric switch. The discharge end of discharge photoelectric switch 193 is located above discharge upper flapper 19, and the receiving end of discharge photoelectric switch 193 is located below discharge lower tray 16. A notch 192 is formed in one end of each of the paper output upper flap 19 and the paper output lower tray 16 in the same direction, the notch 192 of the paper output upper flap 19 corresponds to the transmitting end of the paper output photoelectric switch 193, the notch 192 of the paper output lower tray 16 corresponds to the receiving end of the paper output photoelectric switch 193, when the adhesive tape between the paper output upper flap 19 and the paper output lower tray 16 is pulled out, the transmitting end of the paper output photoelectric switch 193 and the receiving end of the paper output photoelectric switch 193 form an optical path through the notch 192, and the controller 42 controls the paper feeding side motor 32 and the paper output side motor 63 to operate, so that the paper feeding module feeds the adhesive tape of a set length forward. It should be noted that, when the adhesive tape at the discharge hole 12 is not pulled out, the adhesive tape at the side of the upper cutter 51 close to the discharge hole 12 is divided into two sections, one section is completely located in the rack 1, and a part of the other section is located in the rack 1; specifically, one end of a section of adhesive tape completely positioned in the frame 1 is clamped between the water wheel 61 and the paper outlet side pressure wheel 62, and the other end is positioned on the paper receiving tray 14; one end of a section of adhesive tape partially positioned in the machine frame 1 is positioned between the paper output upper baffle plate 19 and the paper output lower tray 16, and the other end extends out of the machine frame 1 from the material outlet 12.

Referring to fig. 5, an electromagnetic pressurizing module is further disposed at the discharge port 12, and the electromagnetic pressurizing module is mounted above the paper discharge upper baffle 19. Combine fig. 8, electromagnetism pressurization module is including installation section of thick bamboo 8, annular electromagnet 81, pressure head 82, connecting rod 83, adsorb piece 84, spacing ring board 85, spring 86 and limiting plate 87, and installation section of thick bamboo 8 and the equal vertical setting of connecting rod 83, and annular electromagnet 81 fixes the bottom at the installation section of thick bamboo 8 inner chamber, and connecting rod 83 one end is located installation section of thick bamboo 8 and is connected with limiting plate 87, and the other end passes annular electromagnet 81 and stretches out to installation section of thick bamboo 8 outside and be connected with pressure head 82. Spring 86, limit ring plate 85 and adsorption block 84 set gradually in installation section of thick bamboo 8 from top to bottom, and limit ring plate 85 and installation section of thick bamboo 8's inner wall fixed connection and centre are equipped with the aperture that supplies connecting rod 83 to pass, adsorb block 84 for the iron plate and with the outer wall fixed connection of connecting rod 83, spring 86 cover is established on connecting rod 83, and spring 86's one end offsets with limiting plate 87, the other end offsets with limit ring plate 85. The mounting cylinder 8, the connecting rod 83, the limiting ring plate 85 and the limiting plate 87 are all made of plastic, and the pressure head 82 is made of soft rubber. Referring to fig. 7, a through hole 191 through which the pressing head 82 passes is formed in the paper output upper baffle 19, the annular electromagnet 81 is connected to the controller 42, when the paper output photoelectric switch 193 senses that the wet water cut-off adhesive tape reaches the discharge port 12 and the paper feeding module conveys the adhesive tape with a set length, the electromagnetic pressurizing module receives an energizing signal, that is, the annular electromagnet 81 is energized, and the pressing head 82 moves downward to clamp the thread clamping adhesive tape at the discharge port 12, so that the thread clamping adhesive tape cannot fall off or separate from the discharge port 12 due to the action of self weight or external wind force. After the worker takes the adhesive tape at the discharge port 12 away, the emitting end and the receiving end of the paper discharge photoelectric switch 193 form an optical path, the controller 42 sends a power-off signal of the electromagnetic pressurizing module, that is, the annular electromagnet 81 is electrified, and the connecting rod 83 drives the pressure head 82 to move upwards under the action of the spring 86 to return to the original position; meanwhile, the paper feeding module and the wet water module receive signals and enter the next working cycle.

The implementation principle of the above embodiment is as follows:

in the initial state, the adhesive tape on the side of the lower cutter 52 close to the discharge hole 12 is divided into two sections, one section is completely positioned in the machine frame 1, and the other section is only partially positioned in the machine frame 1. One end of a piece of adhesive tape completely positioned in the frame 1 is clamped between the water wheel 61 and the paper outlet side pressure wheel 62, and the other end is positioned on the paper receiving tray 14. One end of a section of adhesive tape partially positioned in the machine frame 1 is positioned between the paper output upper baffle plate 19 and the paper output lower tray 16 and is pressed by the pressure head 82 of the electromagnetic pressurizing module, and the other end of the adhesive tape extends out of the machine frame 1 from the material outlet 12.

When the worker takes out the adhesive tape at the discharge port 12, an optical path is formed between the emitting end and the receiving end of the discharge photoelectric switch 193, and at this time, the controller 42 controls the annular electromagnet 81 to be powered off, and the annular electromagnet 81 loses the adsorption effect on the adsorption block 84, so that the pressure head 82 moves upwards to be reset under the elastic force of the spring 86. Meanwhile, the controller 42 controls the paper feeding side motor 32 and the paper discharging side motor to operate, thereby operating both the paper feeding module and the wet water module.

When the conveying length of the adhesive tape reaches a set value, the controller 42 controls the paper feeding side motor 32 and the paper discharging side motor 63 to stop, and controls the cutter motor 5 to operate, so that the rotary motion of the cutter motor 5 is converted into the up-and-down motion of the lower cutter 52 under the action of the cutter eccentric motion module. Specifically, when the eccentric wheel 54 moves counterclockwise and upward, the slider 53 moves upward, and simultaneously drives the lower cutter 52 to move upward, and the upper cutter 51 is stationary. When the eccentric wheel 54 drives the slide block 53 to move to the highest point, the upper cutter 51 and the lower cutter 52 complete the cutting of the thread-clamping adhesive tape. Subsequently, the eccentric 54 continues to rotate counterclockwise and drives the slider 53 downward. When the slider 53 moves to the lowest point, the optical path of the cutter photoelectric switch 59 is cut off, and the controller 42 controls the cutter motor 5 to stop, thereby completing the homing of the lower cutter 52.

At this time, the adhesive tape on the side of the lower cutter 52 close to the discharge hole 12 still has two sections, the lengths of the two sections of adhesive tape are equal and are consistent with the set length, one section of the two sections of adhesive tape is completely positioned in the frame 1, one end of the two sections of adhesive tape is clamped by the water wheel 61 and the discharge-side pressure wheel 62, and only one part of the other section of adhesive tape is positioned in the frame 1, and one end of the other section of adhesive tape is pressed by the pressure head 82 of the electromagnetic. The staff can continue to take the adhesive tape at the discharge port 12, so that the step of manually wetting water is omitted, and the working efficiency is greatly accelerated. Then, the cutter cuts the adhesive tape once, and the controller 42 counts 1 time. The count of the controller 42 accumulates the number of operations of a single device per day, and the data can be transmitted to the management system, and the data recorded in the controller 42 can be reset to zero by the reset key so as to be recounted next time. Therefore, on one hand, the workload of each worker per day can be well counted, and on the other hand, refined efficient production management can be achieved.

The water wheel 61 is driven by the paper-discharging side motor 63 to rotate during operation, so that the water wheel 61 uniformly coats the water in the small water tank 6 on the inner side of the thread-clamping adhesive tape. Because the fish wire is wound on the water wheel 61 and the fish wire guiding the wire clamping adhesive tape to the discharge port 12 is arranged, the wire clamping adhesive tape after wet water is not easy to stick on the water wheel 61 and the paper discharge lower tray 16, and the normal conveying of the wet water adhesive tape is ensured. In winter, the controller 42 can also control the heating rod 7 to heat the ice-cold water in the small water tank 6, so that the condition that the ice water influences the viscosity of the wire-clamping adhesive tape after wet water is avoided, and the working efficiency is ensured.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. An automatic glue tape device is characterized in that: the device comprises a rack (1) and an adhesive tape supporting bracket (2) arranged at one end of the rack (1), wherein a feeding hole (11) is formed in one end, close to the adhesive tape supporting bracket (2), of the rack (1), and a discharging hole (12) is formed in the other end of the rack; a paper feeding module, a paper cutting module and a wet water module are sequentially arranged in the machine frame (1) along the direction from the feeding hole (11) to the discharging hole (12), a lower paper feeding tray (13) is arranged between the paper feeding module and the paper cutting module, and a paper receiving tray (14) is arranged between the paper cutting module and the wet water module;

the machine frame (1) is also provided with a paper detection module for detecting the length of the adhesive tape conveyed by the paper feeding module; the paper feeding module is arranged at the feed inlet (11) and used for conveying adhesive tapes on the adhesive tape bearing bracket (2) to the lower paper feeding tray (13), the paper cutting module is used for enabling the adhesive tapes to penetrate through the paper receiving tray (14) and cutting off the adhesive tapes when the paper feeding module conveys the adhesive tapes with set length, and the wet water module is used for wetting one surface of the adhesive tapes while conveying the adhesive tapes to the discharge outlet (12).

2. The automatic gummed tape device as claimed in claim 1, wherein: the paper feeding module comprises an upper paper measuring wheel (3), a lower paper measuring wheel (31) and a paper feeding side motor (32); the paper measuring upper wheel (3) and the paper measuring lower wheel (31) are rotatably connected with the rack (1), the paper measuring lower wheel (31) is positioned below the paper measuring upper wheel (3), and the paper measuring upper wheel (3) and the paper measuring lower wheel (31) are used for clamping an adhesive tape; survey paper lower wheel (31) coaxial coupling and have first belt pulley (33), send the drive shaft coaxial coupling of paper side motor (32) to have second belt pulley (34), first belt pulley (33) and second belt pulley (34) pass through the belt and connect.

3. The automatic gummed tape device of claim 2, wherein: an upper paper feeding tray (15) is arranged between the paper feeding module and the paper cutting module and above the lower paper feeding tray (13), and the distance between the upper paper feeding tray (15) and the lower paper feeding tray (13) is larger than the thickness of the adhesive tape.

4. The automatic gummed tape device of claim 2, wherein: the paper measuring module comprises a paper measuring grating (4), a paper measuring photoelectric switch (41) and a controller (42), and the controller (42) is used for controlling the operation of the paper cutting module; the paper measurement grating (4) is circular and is coaxially connected with one end of the paper measurement upper wheel (3), strip-shaped through grooves (43) are formed in the end face of the paper measurement grating (4) along the radial direction of the paper measurement grating, and a plurality of strip-shaped through grooves (43) are uniformly distributed along the circumferential direction of the paper measurement grating (4); survey paper photoelectric switch (41) setting on frame (1) and its and controller (42) electricity is connected, survey paper photoelectric switch (41) and adopt correlation formula photoelectric switch and its transmitting terminal and receiving terminal along the axial distribution who surveys paper grating (4) in the both sides of surveying paper grating (4).

5. The automatic gummed tape device as claimed in claim 1, wherein: the paper cutting module comprises a cutter motor (5), a cutter eccentric motion module, an upper cutter (51) and a lower cutter (52); the upper cutter (51) is positioned above the lower paper feeding tray (13) and has a downward knife edge, and the lower cutter (52) is positioned below the lower paper feeding tray (13) and has an upward knife edge; the bottom end of the lower cutter (52) is connected with the cutter eccentric motion module, and the cutter motor (5) is used for driving the cutter eccentric motion module to move along the vertical direction.

6. The automatic gummed tape device of claim 5, wherein: the cutting knife eccentric motion module comprises a sliding block (53) and an eccentric wheel (54), and the rotating point of the eccentric wheel (54) is connected with the driving shaft of the cutting knife motor (5); a connecting block (55) is arranged in the rack (1), a sliding groove (56) penetrates through the connecting block (55) along the vertical direction, the sliding block (53) is connected with the sliding groove (56) in a sliding manner, and the top end of the sliding block extends out of the sliding groove (56) to be connected with the lower cutter (52); a rectangular through groove (57) is formed in the part, located in the sliding groove (56), of the sliding block (53), the long edge of the rectangular through groove (57) is in the horizontal direction, the eccentric wheel (54) is located in the rectangular through groove (57), and the diameter of the eccentric wheel is equal to the width of the rectangular through groove (57); the cutting knife motor (5) is located on one side of the connecting block (55), and a connecting groove (58) for enabling a driving shaft of the cutting knife motor (5) to extend into the sliding groove (56) and be connected with the eccentric wheel (54) is formed in the side wall, close to the cutting knife motor, of the connecting block (55).

7. The automatic gummed tape device as claimed in claim 1, wherein: the wet water module comprises a small water tank (6), a water wheel (61), a paper outlet side pressure wheel (62) and a paper outlet side motor (63), wherein the small water tank (6) is upwards opened and is supported on the rack (1), and the lower end of the water wheel (61) extends into the small water tank (6) from the opening of the small water tank (6); the water wheel (61) and the paper outlet side pressure wheel (62) are both rotationally connected with the rack (1), the water wheel (61) is positioned below the paper outlet side pressure wheel (62), and the water wheel (61) and the paper outlet side pressure wheel (62) are used for clamping an adhesive tape; the water wheel (61) is coaxially connected with a third belt pulley (64), a driving shaft of the paper outlet side motor (63) is coaxially connected with a fourth belt pulley (65), and the third belt pulley (64) is connected with the fourth belt pulley (65) through a belt; tray (16) under being provided with out paper between water wheels (61) and discharge gate (12), tray (16) bear in frame (1) and are used for bearing the sticky tape that water wheels (61) carried and come under the play paper.

8. The automatic gummed tape device as claimed in claim 7, wherein: the wet water module further comprises a large water tank (66) and a water pump (67) which are borne on the rack (1), the small water tank (6) is positioned in the large water tank (66), and the small water tank (6) is positioned above the inner bottom wall of the large water tank (66); the inlet of water pump (67) is connected with first hose (671) that stretches into big water tank (66), the exit linkage of water pump (67) has second hose (672) that stretches into little water tank (6).

9. The automatic gummed tape device as claimed in claim 7, wherein: be provided with between waterwheel (61) and discharge gate (12) and be used for leading the sticky tape to the fish tape of discharge gate (12) department, also twine the fish tape on waterwheel (61).

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