CN112572943B - Labeling tool and labeling method - Google Patents

Abstract

The invention discloses a labeling tool and a labeling method, belongs to the technical field of labeling, and is designed for solving the problems of low labeling efficiency, low safety and the like of the traditional label attaching method. This subsides mark instrument includes: the film paper labeling device comprises a placing box, a labeling mechanism, a supporting and pushing mechanism and a film paper separating mechanism, wherein the placing box is provided with an exposure opening and a labeling space for accommodating film paper, and the film paper is provided with label points which can correspondingly penetrate through the exposure opening; the labeling mechanism is telescopically arranged in the placing box, the supporting and pushing mechanism is connected with the labeling mechanism, and the labeling mechanism is pushed and pushed by the supporting and pushing mechanism to push and press the label point to penetrate through the exposure opening to be pasted on a labeled object; the film paper separating mechanism is telescopically arranged between the labeling mechanism and the placing box, and the film paper separating mechanism drives the placing box to reversely move relative to the compression direction of the label point so as to separate the film paper from the label point. The labeling tool and the labeling method have the beneficial effects of high labeling efficiency and high labeling operation safety.

Description

Labeling tool and labeling method

Technical Field

The invention relates to the technical field of labeling, in particular to a labeling tool and a labeling method.

Background

Labels are articles which are essential for marking in daily life, and the labels are often required to be adhered at high places (such as the top surface of a floor) in real life. The traditional label attaching method adopts manual attachment, the labor intensity of workers is high, the labeling efficiency is low, and moreover, labeling personnel need to carry out overhead operation, the safety is low, and safety accidents are easy to happen.

Disclosure of Invention

The invention aims to provide a labeling tool and a labeling method, which aim to improve labeling efficiency and labeling operation safety.

To achieve the purpose, on one hand, the invention adopts the following technical scheme:

a labeling tool comprising:

the film paper placing device comprises a placing box, a positioning mechanism and a positioning mechanism, wherein the placing box is provided with an exposure opening and a labeling space for accommodating film paper, and the film paper is provided with label points which can correspondingly penetrate through the exposure opening;

the labeling mechanism is arranged in the placing box in a telescopic manner;

the supporting and pushing mechanism is connected with the labeling mechanism and pushes and presses the labeling mechanism through the supporting and pushing mechanism to push and press the label point to penetrate through the exposure opening and be adhered to a labeled object; and the number of the first and second groups,

and the film paper separating mechanism is telescopically arranged between the labeling mechanism and the placing box, and drives the placing box to reversely move relative to the pressing direction of the label point through the film paper separating mechanism so as to separate the film paper from the label point.

In one embodiment, the film paper separating mechanism comprises a pulling component, the pulling component is detachably connected with the labeling mechanism, the pulling component can be separated from the labeling mechanism through the actuation of the supporting and pushing mechanism, and then the film paper separating mechanism drives the placing box to move reversely relative to the pressing direction of the label point so as to separate the film paper from the label point.

In one of the embodiments, the first and second electrodes are,

the placing box comprises a top plate, a shell and a bottom cover plate, the label placing space is formed between the top plate and the shell, a positioning hole is formed in the shell and corresponds to the exposed opening, and the bottom cover plate is connected to the bottom of the shell and surrounds the shell to form an accommodating cavity for accommodating the labeling mechanism and the film paper separating mechanism;

the labeling mechanism comprises a substrate and an ejector pin, the substrate is arranged in the accommodating cavity and is connected with the supporting and ejecting mechanism, the ejector pin is arranged on the substrate, and the ejector pin corresponds to the positioning hole;

the membrane paper separating mechanism comprises a movable pulling plate, an elastic telescopic piece and a locking component, wherein the movable pulling plate and the elastic telescopic piece form the traction component, the movable pulling plate is arranged on the bottom cover plate, the elastic telescopic piece is arranged between the movable pulling plate and the base plate, the locking component is arranged on the base plate, the movable pulling plate can be actuated to be separated from the base plate through the locking component, the labeling mechanism is connected with the movable pulling plate, the locking component acts to enable the movable pulling plate to be separated from the labeling mechanism, the movable pulling plate is separated from the labeling mechanism and then drives the box to be placed relatively, and the compression direction reverse motion of the label point enables the membrane paper to be separated from the label point.

In one of them embodiment, the hasp subassembly includes trip piece, resets and activity ejector pin, the trip piece includes installation department and trip portion, installation department movable mounting be in on the base plate, trip portion one end with the installation department is connected, and the other end passes in proper order the base plate with behind the activity arm-tie with activity arm-tie joint, the one end that resets with the installation department is connected, the other end that resets with the base plate is connected, the activity of activity ejector pin sets up on the base plate, just activity ejector pin with the installation department is connected, activity ejector pin compels to move the drive on the base plate the installation department rotates, trip portion follows the installation department rotate the back with activity arm-tie separation so that the activity arm-tie breaks away from labeling mechanism.

In one embodiment, a protruding portion is arranged on the inner wall of the shell, a roller is arranged at the end portion of one end, close to the protruding portion, of the movable ejector rod, the movable ejector rod is connected to two sides of the installation portion respectively, under the action of the supporting and pushing mechanism, the roller rolls to pass through the protruding surface of the protruding portion, the movable ejector rod is forced to move, the movable ejector rods on two sides move in opposite directions to push the installation portion, and therefore the installation portion rotates.

In one embodiment, the top plate is arranged on the housing in an openable and closable manner, one of the top plate and the housing is provided with a locking magnet, the other one of the top plate and the housing is provided with a magnetic attraction piece, the top plate and the housing enclose the housing to form the mark placing space when buckled with the housing, and the locking magnet and the magnetic attraction piece are connected in a magnetic attraction manner.

In one embodiment, the movable pulling plate comprises a metal base plate and a plastic base plate, the plastic base plate is provided with a clamping protrusion used for being matched with the clamping hook part and a limiting protrusion used for installing the elastic expansion piece, the metal base plate is provided with a through hole, the clamping protrusion and the limiting protrusion penetrate through the corresponding through hole, and the plastic base plate is connected with the metal base plate in a bonding mode.

In one embodiment, the labeling tool further comprises a spatial resetting assembly disposed between the labeling mechanism and the placing box and/or between the film-paper separating mechanism and the placing box to reset the labeling mechanism.

In one embodiment, the supporting and pushing mechanism comprises a holding rod and an adjusting block, the adjusting block is mounted on the placing box, the adjusting block is provided with a first connecting portion, the adjusting block is connected with the holding rod through the first connecting portion, and the holding rod can swing or disturb relative to the placing box.

In another aspect, the present invention further provides a labeling method, which uses the labeling tool, including the following steps:

placing the membrane paper in the labeling space;

pushing the supporting and pushing mechanism upwards until the placing box is attached to the placing object;

and continuously pushing the supporting and pushing mechanism to enable the labeling mechanism to press the label point until the label point passes through the exposing opening on the placing box and is attached to the attached object, and meanwhile, the film paper separating mechanism is pushed by the supporting and pushing mechanism continuously and is forced to separate so as to drive the placing box to move reversely relative to the pressing direction of the label point, so that the film paper is separated from the label point.

The labeling tool comprises a placing box, a labeling mechanism, a supporting and pushing mechanism and a film paper separating mechanism, wherein the placing box is provided with an exposure opening and a labeling space for accommodating film paper, and the film paper is provided with label points which can correspondingly penetrate through the exposure opening; the labeling mechanism is telescopically arranged in the placing box, the supporting and pushing mechanism is connected with the labeling mechanism, and the labeling mechanism is pushed and pushed by the supporting and pushing mechanism to push and press the label point to penetrate through the exposure opening to be pasted on a labeled object; the film paper separating mechanism is telescopically arranged between the labeling mechanism and the placing box, and the film paper separating mechanism drives the placing box to reversely move relative to the compression direction of the label point so as to separate the film paper from the label point. By using the labeling tool, a labeler stands on the ground and holds the labeling tool to label a high place, so that the labeling is high in safety and is not easy to cause safety accidents. Moreover, the film paper separating mechanism is arranged between the placing box and the labeling mechanism of the labeling tool, the film paper separating mechanism can drive the film paper to move in the direction opposite to the pressing direction of the label point after the label point is pasted on a labeled object so as to separate the film paper from the label point, a labeling person only needs to hold the supporting and pushing mechanism to push the film paper all the time in the whole labeling process, other operations are not needed, the operation is simple and convenient, the labeling person can stably hold the supporting and pushing mechanism with two hands, the holding is stable and reliable, the label point and the film paper are thoroughly separated, and the labeling efficiency can be effectively improved.

The labeling method has the beneficial effects of simple operation, high labeling efficiency and high labeling operation safety by applying the labeling tool.

Drawings

FIG. 1 is a schematic view of the construction of a labelling tool in one embodiment;

fig. 2 is a top view of the labelling tool in one embodiment;

FIG. 3 is a schematic diagram of the structure of the placing case in one embodiment;

FIG. 4 is a schematic structural view of the housing in one embodiment;

FIG. 5 is a schematic structural view of a top plate in one embodiment;

fig. 6 is a cross-sectional view of the labelling tool in one embodiment;

FIG. 7 is a schematic view showing a connection structure of the labeling mechanism and the film-paper separating mechanism in one embodiment;

fig. 8 is a schematic view of a part of the construction of the labelling tool in an embodiment;

FIG. 9 is a schematic view of the construction of the snap hook in one embodiment;

FIG. 10 is a schematic view of the structure of a movable pulling plate in one embodiment;

FIG. 11 is a schematic diagram of the support jack mechanism of one embodiment;

fig. 12 is a schematic view of the tilted working state of the labelling tool in an embodiment.

Description of reference numerals:

10-placing a box, 20-labeling mechanism, 30-supporting pushing mechanism and 50-film paper;

11-top plate, 12-shell, 13-bottom cover plate, 14-locking magnet, 15-magnetic attraction piece, 16-hinge, 21-base plate, 22-thimble, 31-holding rod, 32-adjusting block, 41-movable pull plate, 42-elastic expansion piece, 43-installation part, 44-hook part, 45-reset piece, 46-movable ejector rod, 47-roller, 48-hook cover plate, 51-label point, 61-first magnet, 62-second magnet;

111-exposure port, 121-shell, 122-placing plate, 123-positioning hole, 124-bulge, 211-supporting plate, 212-connecting support leg, 213-connecting sleeve, 214-top rod limiting part, 221-top rod, 222-top piece, 321-first connecting part, 322-limiting plate, 411-metal base plate, 412-plastic base plate, 413-clamping bulge, 414-bulge block and 415-limiting beam.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The present embodiment provides a labeling tool, as shown in fig. 1 and 2, which preferably can assist the labeler to attach the label point 51 on the membrane paper 50 at a high position, such as the top surface of a floor or higher position of the equipment, and the plurality of label points 51 are arranged according to a specific rule (such as a rectangular array or a circular array) to form a lattice. By using the labeling tool of the embodiment, a labeler can stably hold the supporting and pushing mechanism 30 with two hands, the holding is stable and reliable, the operation is simple and convenient, and the labeling efficiency can be effectively improved. The film paper 50 in this embodiment is provided with a plurality of accommodating holes, and the plurality of label points 51 are disposed in the plurality of accommodating holes in a one-to-one correspondence manner and connected to the inner wall surfaces of the accommodating holes through breakable points. Under the action of external force, the easy-breaking point is broken, and the label point 51 can be separated from the film paper 50. The film 50 may be a release paper, and the label dots 51 may have adhesive on one side, may be attached to other devices or structures, and may have no adhesive on the other side.

Referring to fig. 1 to 12, an embodiment of a labeling tool includes a placing box 10, a labeling mechanism 20, a supporting and pushing mechanism 30, and a film-paper separating mechanism. The placing box 10 is provided with an exposing opening 111, the placing box 10 is provided with a labeling space for accommodating the film paper 50, the film paper 50 is provided with a label point 51, the label point 51 can correspondingly penetrate through the exposing opening 111, the labeling mechanism 20 is telescopically arranged in the placing box 10, the supporting and pushing mechanism 30 is connected with the labeling mechanism 20, the labeling mechanism 20 is pushed and pressed by the supporting and pushing mechanism 30 to push and press the label point 51 to penetrate through the exposing opening 111 to be attached to a labeled object, the film paper separating mechanism is telescopically arranged between the labeling mechanism 20 and the placing box 10, and the film paper separating mechanism drives the placing box 10 to reversely move relative to the pressing direction of the label point 51 so as to separate the film paper 50 from the label point 51.

By using the labeling tool, a labeler stands on the ground and holds the labeling tool to label a high place, so that the labeling is high in safety and is not easy to cause safety accidents. Moreover, the above labeling tool is provided with the film paper separating mechanism between the placing box 10 and the labeling mechanism 20, the film paper separating mechanism can drive the film paper 50 to move in the direction opposite to the pressing direction of the label point 51 after the label point 51 is attached to the labeled object, so that the film paper 50 is separated from the label point 51, a labeling person only needs to hold the supporting and pushing mechanism 30 to push the film paper all the time in the whole labeling process, other operations are not needed, the operation is simple and convenient, the labeling person can stably hold the supporting and pushing mechanism 30 with two hands at the same time, the holding is stable and reliable, the label point 51 is completely separated from the film paper 50, and the labeling efficiency can be effectively improved.

In one embodiment, as shown in fig. 2 to 5, the placing box 10 is a cube, the placing box 10 includes a top plate 11, a housing 12, and a bottom cover plate 13, a labeling space is formed between the top plate 11 and the housing 12, an exposing opening 111 is opened on the top plate 11, a positioning hole 123 is opened on the housing 12, the positioning hole 123 corresponds to the exposing opening 111, and the bottom cover plate 13 is connected to the bottom of the housing 12 and encloses with the housing 12 to form an accommodating cavity for accommodating the labeling mechanism 20 and the film paper separating mechanism. Specifically, the housing 12 includes a case 121 and a placing plate 122, the placing plate 122 is disposed on the case 121, the top plate 11 is connected to the case 121, and a labeling space is formed between the top plate 11 and the placing plate 122. Specifically, the placing plate 122 is used for placing the film paper 50, the placing plate 122 is provided with a positioning hole 123, the housing 121 supports the placing plate 122, and the top plate 11 and the placing plate 122 form a labeling space for accommodating the film paper 50. Further, the positioning holes 123 correspond to the exposing openings 111, the number of the positioning holes 123 and the number of the exposing openings 111 are preferably plural to improve labeling efficiency, the arrangement of the plural exposing openings 111 corresponds to the arrangement of the label points 51 on the film paper 50, the shape of the exposing openings 111 may be regular-shaped holes such as circular holes, square holes, etc., or irregular-shaped holes, as long as the label points 51 are not affected to pass through the exposing openings 111 to reach the outside of the placing box 10.

Further, in one embodiment, the top plate 11 is disposed on the housing 12 in an openable manner, one of the top plate 11 and the housing 12 is provided with a locking magnet 14, the other is provided with a magnetic element 15, the top plate 11 and the housing 12 enclose a marking space when being locked with each other, and the locking magnet 14 and the magnetic element 15 are magnetically connected. In this embodiment, roof 11 can set up on shell 12 with opening and shutting, when needs change membrane paper 50, open roof 11 and take out original membrane paper 50, put into new membrane paper 50 back lock roof 11 can, membrane paper 50 changes easy operation is convenient, and is time-saving and labor-saving, can effectively improve membrane paper 50 and change efficiency, help improving and paste mark efficiency, and, operating space is big after roof 11 opens, membrane paper 50 can level and smooth the putting into, the fold that curls can not appear, can avoid membrane paper 50 to scrap, sparingly paste the mark cost. In one embodiment, the magnetically attractive element 15 is a magnetic element or an iron block, and the magnetic element is preferably a magnet. In this embodiment, hasp magnet 14 sets up on the board 122 of placing of shell 12, and magnetism is inhaled piece 15 and is set up on roof 11, and hasp magnet 14 and magnetism are inhaled piece 15 and are inhaled each other mutually and inhale, and when roof 11 lock down, the roof 11 can be locked to hasp magnet 14 and magnetism inhale the magnetic attraction between the piece 15, and only when external force is greater than the magnetic attraction, roof 11 just can be opened, locks reliable and stable between roof 11 and the shell 12. In other embodiments, the locking magnet 14 may be disposed on one of the top plate 11 or the housing 12, and the other of the top plate and the housing is made of iron plate, which can achieve the same technical effects as the above embodiments. Magnetism is inhaled between the piece 15 through hasp magnet 14 and magnetism and is connected and pin roof 11 and shell 12, does not have wearing and tearing between the part in this embodiment to, the magnetic force decay of magnet reduces 1% every ten years, can produce magnetic attraction for a long time, and magnetism is inhaled closure structure long service life.

Furthermore, in an embodiment, the placing box 10 further includes a hinge 16, the top plate 11 is connected with the housing 121 through the hinge 16, the top plate 11 is openably and closably disposed on the housing 121 through the hinge 16, the hinge 16 has a fast response speed in rotation and high flexibility in rotation, and the hinge 16 is adopted for hinging, so that the structure is simple, the technology is mature, and the cost is saved.

In one embodiment, as shown in fig. 6 and 7, the labeling mechanism 20 includes a substrate 21 and a thimble 22, the substrate 21 is disposed in the accommodating cavity, the substrate 21 is connected to the supporting and pushing mechanism 30, the thimble 22 is disposed on the substrate 21, and the thimble 22 corresponds to the positioning hole 123. Specifically, the substrate 21 is movably disposed in the housing 121, the substrate 21 includes a supporting plate 211, a connecting leg 212 and a connecting sleeve 213, the supporting plate 211 and the bottom cover plate 13 are disposed at an interval, one end of the connecting leg 212 is connected to the supporting plate 211, the other end of the connecting leg is movably abutted to the bottom cover plate 13, and the bottom cover plate 13 is movably sleeved outside the connecting sleeve 213 through a circumferential outer wall of the central connecting hole, so that the placing box 10 is movably sleeved outside the labeling mechanism 20. Optionally, the connection sleeve 213 is provided with a receiving hole opened downwards, and the connection sleeve 213 is connected with the supporting and pushing mechanism 30 through the receiving hole. Further, a reinforced connecting lug is annularly arranged between the circumferential outer wall of the central connecting hole and the bottom cover plate 13, so that the structural strength of the bottom cover plate 13 is improved.

Further, the ejector pins 22 are disposed on the substrate 21, the number of the ejector pins 22 is preferably multiple, and the arrangement of the ejector pins 22 corresponds to the arrangement of the positioning holes 123. The ejector 22 includes an ejector rod 221 and an ejector 222, one end of the ejector rod 221 is connected to the substrate 21, and the other end of the ejector rod 221 is provided with the ejector 222. The ejector rod 221 is a cylindrical rod-shaped structure, the bottom end of the ejector rod 221 is fixedly connected with the substrate 21, the connection mode can be screw connection or bonding, the ejector piece 222 is arranged at the top end of the ejector rod 221, the ejector piece 222 is preferably made of elastic materials such as rubber and resin, and the arrangement can prevent the ejector piece 222 from damaging the label point 51 when the label point 51 is ejected.

In one embodiment, the film-paper separating mechanism includes a pulling component, the pulling component is detachably connected to the labeling mechanism 20, the pulling component can be detached from the labeling mechanism 20 by the actuation of the supporting and pushing mechanism 30, and then the film-paper separating mechanism drives the placing box 10 to move reversely relative to the pressing direction of the label point 51 so as to separate the film paper 50 from the label point 51. Specifically, the film-paper separating mechanism forms a contraction follow-up state and an extension separation state respectively through the drawing assembly, and when in the contraction follow-up state, the film-paper separating mechanism moves together with the labeling mechanism 20; in the extended and disengaged state, the pulling assembly is disengaged from the labeling mechanism 20, and the film-paper separating mechanism drives the placing box 10 to move in the opposite direction relative to the pressing direction of the label point 51 so as to separate the film paper 50 from the label point 51.

In one embodiment, as shown in fig. 6 and 7, the film paper separating mechanism includes a movable pulling plate 41, an elastic stretching member 42 and a locking member, the movable pulling plate 41 forms a pulling member, the movable pulling plate 41 is disposed on the bottom cover plate 13, the elastic stretching member 42 is disposed between the movable pulling plate 41 and the base plate 21, the locking member is disposed on the base plate 21, the movable pulling plate 41 is movably connected to the labeling mechanism 20 through the locking member, the locking member operates to separate the movable pulling plate 41 from the labeling mechanism 20, and the movable pulling plate 41 drives the placing box 10 to move in a direction opposite to the pressing direction of the label point 51 after being separated from the labeling mechanism 20 to separate the film paper 50 from the label point 51. Specifically, the elastic expansion member 42 may be, but is not limited to, a spring, one end of which is pressed against the bottom surface of the base plate 21, and the other end of which is pressed against the top surface of the movable pulling plate 41. Optionally, the spring is made of a metal material. When the membrane paper separation mechanism is in a contraction follow-up state, the spring contracts, the movable pull plate 41 is connected with the base plate 21 through the locking assembly, and the movable pull plate 41 moves along with the base plate 21, so that the whole membrane paper separation mechanism moves along with the base plate 21; when the film paper separating mechanism is in an extending and separating state, the locking component is separated from the movable pulling plate 41, the movable pulling plate 41 is separated from the base plate 21, the spring extends to drive the movable pulling plate 41 to move in a reverse direction relative to the pressed direction of the label point 51, and the movable pulling plate 41 drives the bottom cover plate 13 to move, so that the whole film paper 50 is driven to move in a reverse direction relative to the pressed direction of the label point 51 to separate the film paper from the label point 51 by driving the placing box 10.

In one embodiment, as shown in fig. 7 to 9, the locking assembly includes a hook member, a reset member 45 and a movable ejector 46, the hook member includes a mounting portion 43 and a hook portion 44, the mounting portion 43 is movably mounted on the substrate 21, one end of the hook portion 44 is connected to the mounting portion 43, the other end of the hook portion 44 sequentially passes through the substrate 21 and the movable pulling plate 41 and then is clamped to the movable pulling plate 41, one end of the reset member 45 is connected to the mounting portion 43, the other end of the reset member 45 is connected to the substrate 21, the movable ejector 46 is movably disposed on the substrate 21, the movable ejector 46 is connected to the mounting portion 43, the movable ejector 46 is forced to move on the substrate 21 to drive the mounting portion 43 to rotate, and the hook portion 44 rotates with the mounting portion 43 and then is separated from the movable pulling plate 41 to separate the movable pulling plate 41 from the labeling. Specifically, the returning member 45 may be, but is not limited to, a tension spring. The hook part 44 is provided with a hook at one end connected with the movable pulling plate 41, correspondingly, the movable pulling plate 41 is provided with a hook convex 413 matched with the hook, when the film-paper separating mechanism is in a contraction follow-up state, the movable pulling plate 41 and the hook part 44 are connected together through the hook convex 413 and the hook so that the movable pulling plate 41 is connected with the labeling mechanism 20, the movable ejector rod 46 can move from the outer side of the base plate 21 to the center of the base plate 21 after being forced, the movable ejector rod 46 moves to push the mounting part 43 to drive the mounting part 43 to rotate relative to the base plate 21, the mounting part 43 rotates to drive the hook part 44 to rotate, the hook part 44 rotates for a certain angle and can be separated from the hook convex 413 on the movable pulling plate 41 without being limited to 5 degrees, at the moment, the film-paper separating mechanism is switched from the contraction follow-up state to the extension separate state, the movable pulling plate 41 is separated from the base plate 21, meanwhile, the spring extends, the movable pulling plate 41 moves reversely relative to the compression direction of the label point, the bottom cover 13 moves together with the movable pulling plate 41, thereby bringing the set box 10 as a whole to move in the opposite direction to the pressed direction of the label point 51 to separate the film paper 50 from the label point 51.

In one embodiment, as shown in fig. 8, a protrusion 124 is disposed on the inner wall of the housing 12, a roller 47 is disposed at an end of the movable rod 46 near the protrusion 124, the movable rods 46 are respectively connected to two sides of the mounting portion 43, under the action of the supporting and pushing mechanism 30, the roller 47 rolls over the protrusion surface of the protrusion 124 to force the movable rod 46 to move, and the movable rods 46 on the two sides move in opposite directions to push the mounting portion 43 so that the mounting portion 43 rotates. Specifically, the supporting and pushing mechanism 30 pushes the substrate 21 to move the substrate 21 upward in the housing 12, the movable push rod 46 moves along with the substrate 21, when the movable push rod 46 moves to the position of the protrusion 124, the roller 47 at the end of the movable push rod 46 rolls over the protrusion surface of the protrusion 124, the protrusion 124 pushes the movable push rod 46 to move toward the center of the substrate 21, and the movable push rods 46 at the two sides move toward each other to rotate the mounting portion 43. In this embodiment, the protrusion 124 is disposed on the inner wall of the housing 121, and to avoid the dead movement between the protrusion 124 and the movable plunger 46, the protrusion 124 is preferably a circular arc protrusion. Further, the roller 47 can roll along the surface of the convex portion 124 after the end of the movable jack 46 contacts the convex portion 124, so that the motion jam between the movable jack 46 and the convex portion 124 can be further avoided. Further, in order to avoid the motion interference between the substrate 21 and the protrusion 124, an opening is formed on the substrate 21 at a position corresponding to the protrusion 124.

In one embodiment, the locking assembly further includes a hook cover plate 48, the hook cover plate 48 is disposed on the base plate 21, and the hook cover plate 48 covers the outer side of the mounting portion 43, and the hook cover plate 48 is disposed to limit the position of the hook, so as to ensure the stable and reliable mounting of the hook. Further, in an embodiment, the base plate 21 is further provided with a top rod limiting portion 214, the top rod limiting portion 214 is provided with a through hole, the movable top rod 46 penetrates through the through hole and then is connected with the mounting portion 43, and the top rod limiting portion 214 is arranged to be capable of mounting, limiting and moving the movable top rod 46, so that the movable top rod 46 is ensured to be mounted stably and reliably, and the movable top rod 46 can be prevented from moving and deviating.

In one embodiment, as shown in fig. 10, the movable pulling plate 41 includes a metal base 411 and a plastic base 412, a locking protrusion 413 for engaging with the locking hook 44 and a limiting protrusion for mounting the elastic expansion element 42 are disposed on the plastic base 412, a through hole is disposed on the metal base 411, the locking protrusion 413 and the limiting protrusion pass through the corresponding through hole, and the plastic base 412 is adhesively connected to the metal base 411. Specifically, the metal substrate 411 can but not be limited to be aluminum plate, the plastic bottom plate 412 can but not be limited to be made for adopting 3D printing technology, the power of spring is acted on aluminum plate, aluminum plate structural strength is high, the wearability is good, help improving the life of activity arm-tie 41, and 3D printing technology is mature, with low costs, the activity arm-tie 41 of this embodiment adopts aluminum plate and plastic bottom plate 412 integrated configuration can effectively practice thrift the processing cost when guaranteeing the structural strength of activity arm-tie 41, prolong the life of activity arm-tie 41, and can make as thin as possible, do benefit to the installation space who saves activity arm-tie 41. Further, in an embodiment, the limiting protrusion includes a plurality of protruding blocks 414 evenly distributed along the circumferential direction, a limiting gap is formed between two adjacent protruding blocks 414, a limiting beam 415 is disposed at the through hole on the metal substrate 411, the limiting beam 415 is accommodated in the corresponding limiting gap, the movable pulling plate 41 and the metal substrate 411 are mounted and limited through the limiting gap and the limiting beam 415, the mounting precision is high, it is avoided that a gap occurs between the metal substrate 411 and the limiting protrusion to cause the spring to drop, and the mounting of the spring is stable and reliable. Preferably, the number of the limiting protrusions is eight, and the number of the through holes corresponding to the limiting protrusions on the metal base 411 is also eight.

In one embodiment, the labeling tool further comprises a spatial resetting assembly disposed between the labeling mechanism 20 and the placement box 10 and/or between the film and paper separating mechanism and the placement box 10, the spatial resetting assembly being used to reliably reset the labeling mechanism 20 when the labeling tool is in a non-operating state. Specifically, the space resetting component is a magnet disposed between the base plate 21 and the bottom cover plate 13, the magnet includes a first magnet 61 disposed on the bottom cover plate 13 and a second magnet 62 disposed on the connecting leg 212, and the first magnet 61 and the second magnet 62 are attracted to each other, so that the connecting leg 212 is disposed closely to the bottom cover plate 13. By mounting the first magnet 61 and the second magnet 62 on the bottom cover 13 and the connecting leg 212, respectively, the first magnet 61 and the second magnet 62 attract each other, and the bottom cover 13 is attracted upward. When the top plate 11 touches the top wall, the first magnet 61 and the second magnet 62 provide a larger locking force to prevent accidental touch; when the supporting and pushing mechanism 30 is pushed after the position is determined, the distance between the first magnet 61 and the second magnet 62 is increased, the magnetic force is weakened, the substrate 21 continuously drives the ejector pin 22 to move upwards after the force of the supporting and pushing mechanism 30 is greater than the magnetic force, so that the ejector pin 22 pushes the label point 51 out of the placing box 10 to be adhered to the labeling object. After the labeling is completed, in the resetting process of the labeling mechanism 20, the distance between the first magnet 61 and the second magnet 62 is reduced, and the magnetic force is gradually enhanced, so that the substrate 21 is quickly and accurately reset. Further, a magnet may be disposed between the movable pulling plate 41 and the bottom cover plate 13, so as to achieve a technical effect of reliably resetting the labeling mechanism 20, and of course, magnets may be disposed between the base plate 21 and the bottom cover plate 13 and between the movable pulling plate 41 and the bottom cover plate 13, respectively, so as to achieve the same technical effect, and the above-mentioned embodiment is not limited in particular.

In one embodiment, as shown in fig. 11 and 12, the supporting and pushing mechanism 30 includes a holding rod and an adjusting block 32, the adjusting block 32 is mounted on the placing box 10, the adjusting block 32 has a first connecting portion 321, and the adjusting block 32 is connected to the holding rod through the first connecting portion 321 so that the holding rod can swing or disturb relative to the placing box 10. Specifically, the adjusting block 32 and the first connecting portion 321 are made of rubber. When pasting mark in-process and holding pole 31 and taking place the slope for placing box 10, first connecting portion 321 is along with holding pole 31 slope, because first connecting portion 321 and regulating block 32 all adopt rubber to make, after first connecting portion 321 takes place the slope, first connecting portion 321 and regulating block 32 can produce flexible deformation in the two junction in order to absorb the partial force that first connecting portion 321 slope produced, thereby realize holding pole 31 and swinging or disturbance for placing box 10, hold holding pole 31 and can not taking place the slope for placing regulating block 32 when box 10 disturbs or swings, it can not take place the slope with the box 10 of placing connected yet, place box 10 and paste the laminating of mark object, avoid appearing the operation blank region. Therefore, when the labeling tool of the embodiment is used for labeling, even if the holding rod 31 is inclined during labeling operation and is not completely perpendicular to the labeling object, the placing box 10 can be ensured to be completely attached to the labeling object, no operation blank space is generated, the labeling quality of the labeling tool is good, and the labeling efficiency is improved. Preferably, the included angle between the central axes of the first connecting portion 321 and the adjusting block 32 is not more than 10 degrees, that is, no blank space appears in the sticking tool under the condition that the holding rod 31 inclines for the placing box 10 by no more than 10 degrees, the range of the inclination angle of the holding rod 31 is large, and the labeling operation is convenient.

Further, in an embodiment, the adjusting block 32 further includes a limiting plate 322, the limiting plate 322 is connected to the adjusting block 32, and the limiting plate 322 is sleeved outside the first connecting portion 321. Specifically, the limiting plate 322 may be, but is not limited to, a metal plate or a hard plastic plate. In this embodiment, can incline spacing to adjusting block 32 through setting up limiting plate 322, can guarantee to hold and place box 10 also can laminate with subsides mark object when holding 31 inclination is great, the blank space of operation can not appear. When first connecting portion 321 took place the inclination of slope great along with holding pole 31, limiting plate 322 carried out the slope spacing to adjusting block 32 and can avoid adjusting block 32 to take place the slope along with first connecting portion 321 moves, simultaneously, limiting plate 322 can extrude adjusting block 32 under the deviational force effect that first connecting portion 321 slope produced, make adjusting block 32 produce deformation and absorb the deviational force, adjusting block 32 only takes place deformation in its one side of being connected with first connecting portion 321 to the direction of first connecting portion 321 slope, and its one side of being connected with placing box 10 can not take place deformation also can not take place the slope, as shown in fig. 11, ensure to place box 10 and paste the mark object and laminate.

In one embodiment, the adjustment block 32 also has a second connection portion for connecting with the placement box 10 of the taping tool. Specifically, the second connecting portion is a threaded hole, the adjusting block 32 is accommodated in the accommodating hole of the connecting sleeve 213, the fastening bolt is matched with the second connecting portion to fix the adjusting block 32 on the supporting plate 211, the adjusting block 32 is stably and reliably connected with the supporting plate 211, and the structure is compact and high.

In one embodiment, the first connecting portion 321 is provided with an external thread, correspondingly, one end of the holding rod 31 is provided with a threaded hole, and the first connecting portion 321 is inserted into the threaded hole, so as to realize detachable connection of the adjusting block 32 and the holding rod 31, and the labeler can change the effective length of the holding rod 31 by adjusting the length of the threaded connection, and the labeling tool has high compatibility and wide application range.

Specifically, the working process of the labeling tool is as follows: firstly, the top plate 11 is turned over, the membrane paper 50 is placed on the placing plate 122 and then buckled with the top plate 11, the top plate 11 and the placing plate 122 are locked through the magnetic attraction piece 15 and the locking magnet 14, and the membrane paper 50 is accommodated in the labeling space; then, the holding rod 31 is pushed upwards, the holding rod 31 moves upwards to drive the base plate 21 to move upwards through the adjusting block 32, the bottom cover plate 13 moves upwards together with the base plate 21 under the action of the magnetic attraction of the first magnet 61 and the second magnet 62, so that the whole placing box 10 moves upwards together with the holding rod 31, and the pushing force is continuously applied to the holding rod 31, so that the top plate 11 of the placing box 10 is attached to the ceiling; after the top plate 11 is tightly attached to the ceiling, a pushing force is continuously applied to the holding rod 31, when the pushing force is greater than the magnetic attraction between the first magnet 61 and the second magnet 62, the base plate 21 drives the thimble 22 to continuously move upwards, the base plate 21 moves upwards to drive the thimble 22 to sequentially pass through the positioning hole 123 and the exposure opening 111, and then the label point 51 on the film paper 50 is pushed out to enable the label point 51 to be attached to the ceiling, meanwhile, the protruding portion 124 on the inner wall of the shell 121 is contacted with the movable ejector rod 46, the movable ejector rod 46 is pushed by the protruding portion 124 from outside to inside, the movable ejector rod 46 moves to drive the mounting portion 43 to rotate, the hook portion 44 rotates along with the mounting portion 43, the tension spring is stretched, after the hook portion 44 rotates 5 degrees, the hook on the hook is separated from the clamping protrusion 413 on the movable pull plate 41, the movable pull plate 41 is separated from the base plate 21, meanwhile, the spring stretches, the movable pull plate 41 moves downwards, the placing box 10 is integrally moved downward so that the film paper 50 in the label placing space is separated from the label dots 51, ensuring that only the label dots 51 are attached to the ceiling.

Further, the placing box 10 moves downward integrally, the protruding portion 124 on the housing 121 moves to the position below the base plate 21, the pushing force of the protruding portion 124 on the movable pull rod disappears, the tension spring contracts, and the hook member resets after rotating in the reverse direction for 5 degrees under the action of the tension spring. Furthermore, after the above-mentioned labeling operation is completed, the holding rod 31 is moved downward, the labeling tool is removed, then the bottom cover plate 13 is pushed to move upward, the bottom cover plate 13 drives the movable pulling plate 41 to move upward and compress the spring, during the whole placing box 10 moves from bottom to top, the protruding part 124 moves to the position corresponding to the substrate 21 and pushes the movable ejector rod 46, the movable ejector rod 46 moves to drive the hook member to rotate by 5 degrees, the hook on the hook part 44 is staggered with the clamping protrusion 413 on the movable pulling plate 41 after the hook member rotates by 5 degrees, the movable pulling plate 41 avoids the hook to continue moving upward, the placing box 10 continues moving upward, the protruding part 124 completely passes through the position of the substrate 21, after the protruding part 124 moves to the upper side of the substrate 21, the hook member reversely rotates by 5 degrees under the action of the tension spring to reset, the hook locks the movable pulling plate 41, the spring is compressed in place, the first magnet 61 and the second magnet 62 are attracted to each other, all the mechanisms of the labeling tool complete the resetting action, and the next labeling operation can be carried out after the new film paper 50 is replaced.

In another aspect, the invention further provides a labeling method, which utilizes the labeling tool to perform labeling. For convenience of description, the present embodiment specifically describes the elastic expansion element as a spring and the return element as a tension spring. A labeling method comprising the steps of:

step S1: the membrane paper 50 is placed in the labeling space.

Specifically, to roof 11 application of force, open roof 11, place whole membrane paper 50's position behind membrane paper 50 on placing board 122, make a plurality of label point 51 of the dot matrix on membrane paper 50 and a plurality of mouth 111 that show on roof 11 just to setting up one by one, later, lock roof 11, roof 11 with place and lock through magnetism between the board 122 inhale piece 15 and hasp magnet 14 and pin, with the holding of membrane paper 50 in putting the mark space.

Step S2: the supporting and pushing mechanism 30 is pushed upward so that the placing box 10 is tightly attached to the object.

Specifically, the labeler pushes the holding rod 31 upwards, the holding rod 31 moves upwards to drive the base plate 21 to move upwards through the adjusting block 32, and the bottom cover plate 13 moves upwards together with the base plate 21 under the action of the magnetic attraction force of the first magnet 61 and the second magnet 62, so that the whole placing box 10 moves upwards together with the holding rod 31, and the pushing force is continuously applied to the holding rod 31, so that the top plate 11 of the placing box 10 is tightly attached to the ceiling.

Step S3: the supporting and pushing mechanism 30 is continuously pushed to push the labeling mechanism 20 to press the label point 51 until the label point 51 passes through the exposing opening 111 on the placing box 10 to be attached to the object, and meanwhile, the film and paper separating mechanism is pushed continuously by the supporting and pushing mechanism to be forced to separate so as to drive the placing box 10 to move reversely relative to the pressing direction of the label point 51, so that the film and paper 50 is separated from the label point 51.

Specifically, the labeler continuously applies pushing force to the holding rod 31, when the pushing force is greater than the magnetic attraction force between the first magnet 61 and the second magnet 62, the base plate 21 drives the ejector pin 22 to continue moving upward, the base plate 21 moves upward to drive the ejector pin 22 to sequentially pass through the positioning hole 123 and the exposure opening 111 and eject the label point 51 on the film paper 50, the label point 51 is attached to the ceiling, meanwhile, the protruding portion 124 on the inner wall of the housing 121 contacts with the movable ejector pin 46, the protruding portion 124 pushes the movable ejector pin 46 from outside to inside, the movable ejector pin 46 moves to drive the mounting portion 43 to rotate, the hook portion 44 rotates with the mounting portion 43, the tension spring is stretched, after the hook portion 44 rotates 5 degrees, the hook on the hook portion 44 is separated from the protrusion 413 on the movable pull plate 41, the movable pull plate 41 is separated from the base plate 21, meanwhile, the spring stretches, the movable pull plate 41 moves downward under the action force of the spring and drives the bottom cover plate 13, the placing box 10 is integrally moved downward so that the film paper 50 in the label placing space is separated from the label dots 51, ensuring that only the label dots 51 are attached to the ceiling.

The labeling method of the embodiment has the beneficial effects of simple operation, high labeling efficiency and high labeling operation safety by applying the labeling tool.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. A labeling tool, comprising:

the film paper packaging box comprises a placing box (10), wherein an exposure opening (111) is formed in the placing box (10), a labeling space used for accommodating film paper (50) is formed in the placing box (10), a label point (51) is arranged on the film paper (50), and the label point (51) can correspondingly penetrate through the exposure opening (111);

the labeling mechanism (20) is telescopically arranged in the placing box (10);

the supporting and pushing mechanism (30), the supporting and pushing mechanism (30) is connected with the labeling mechanism (20), and the labeling mechanism (20) is pushed by the supporting and pushing mechanism (30) to push the label point (51) to pass through the exposure opening (111) to be adhered to a labeled object; and the number of the first and second groups,

the film paper separating mechanism is telescopically arranged between the labeling mechanism (20) and the placing box (10), comprises a drawing component, is connected with the labeling mechanism (20), and is separated from the labeling mechanism (20) through continuous pushing actuation of the supporting pushing mechanism (30), and further drives the placing box (10) to reversely move relative to the pressing direction of the label point (51) so as to separate the film paper (50) from the label point (51), wherein the film paper separating mechanism respectively forms a contraction follow-up state and an extension break-away state through the drawing component, and moves together with the labeling mechanism (20) when in the contraction follow-up state; when the label placing device is in the stretching and separating state, the pulling assembly is separated from the labeling mechanism (20), and the film paper separating mechanism drives the placing box (10) to move reversely relative to the pressing direction of the label point (51) so as to separate the film paper (50) from the label point (51).

2. Labeling tool as claimed in claim 1,

the placing box (10) comprises a top plate (11), a shell (12) and a bottom cover plate (13), the label placing space is formed between the top plate (11) and the shell (12), a positioning hole (123) is formed in the shell (12), the positioning hole (123) corresponds to the position of the exposed opening (111), and the bottom cover plate (13) is connected to the bottom of the shell (12) and surrounds the shell (12) to form an accommodating cavity for accommodating the labeling mechanism (20) and the film paper separating mechanism;

the labeling mechanism (20) comprises a substrate (21) and an ejector pin (22), the substrate (21) is arranged in the accommodating cavity, the substrate (21) is connected with the supporting and pushing mechanism (30), the ejector pin (22) is arranged on the substrate (21), and the ejector pin (22) corresponds to the positioning hole (123);

the membrane paper separating mechanism comprises a movable pulling plate (41), an elastic expansion piece (42) and a locking assembly, the movable pulling plate (41) and the elastic telescopic piece (42) form the pulling assembly, the movable pulling plate (41) is arranged on the bottom cover plate (13), the elastic expansion piece (42) is arranged between the movable pulling plate (41) and the base plate (21), the lock catch component is arranged on the base plate (21), the movable pull plate (41) can be connected with the labeling mechanism (20) in an actuating and disengaging way through the lock catch component, the action of the locking assembly enables the movable pulling plate (41) to be separated from the labeling mechanism (20), after the movable pulling plate (41) is separated from the labeling mechanism (20), the placing box (10) is driven to move reversely relative to the pressing direction of the label point (51) so as to separate the film paper (50) from the label point (51).

3. The labeling tool according to claim 2, wherein the locking assembly comprises a hook member, a reset member (45) and a movable ejector rod (46), the hook member comprises an installation part (43) and a hook part (44), the installation part (43) is movably installed on the substrate (21), one end of the hook part (44) is connected with the installation part (43), the other end of the hook part sequentially penetrates through the substrate (21) and the movable pulling plate (41) and then is clamped with the movable pulling plate (41), one end of the reset member (45) is connected with the installation part (43), the other end of the reset member (45) is connected with the substrate (21), the movable ejector rod (46) is movably arranged on the substrate (21), the movable ejector rod (46) is connected with the installation part (43), and the movable ejector rod (46) is forced to move on the substrate (21) to drive the installation part (43) to rotate, the clamping hook part (44) rotates along with the mounting part (43) and then is separated from the movable pulling plate (41) so that the movable pulling plate (41) is separated from the labeling mechanism (20).

4. The labeling tool according to claim 3, wherein a protrusion (124) is disposed on the inner wall of the housing (12), a roller (47) is disposed at the end of the movable ejector rod (46) near one end of the protrusion (124), the movable ejector rods (46) are respectively connected to two sides of the mounting portion (43), under the action of the supporting and pushing mechanism (30), the roller (47) rolls through the protrusion surface of the protrusion (124) to force the movable ejector rod (46) to move, and the movable ejector rods (46) on two sides move in the opposite direction to push the mounting portion (43) so that the mounting portion (43) rotates.

5. Labeling tool according to any one of claims 2 to 4, characterized in that the top plate (11) is openably and closably arranged on the housing (12), one of the top plate (11) and the housing (12) is provided with a locking magnet (14), the other is provided with a magnetic element (15), the top plate (11) and the housing (12) enclose the labeling space when being locked, and the locking magnet (14) and the magnetic element (15) are magnetically connected.

6. The labeling tool as claimed in claim 3 or 4, wherein said movable pulling plate (41) comprises a metal base plate (411) and a plastic base plate (412), said plastic base plate (412) is provided with a locking protrusion (413) for engaging with said locking hook (44) and a position-limiting protrusion for mounting said elastic expansion member (42), said metal base plate (411) is provided with a through hole, said locking protrusion (413) and said position-limiting protrusion pass through the corresponding through hole, and said plastic base plate (412) is adhesively connected to said metal base plate (411).

7. Labelling tool according to any of claims 1 to 4, characterised in that it further comprises a spatial resetting assembly provided between the labelling mechanism (20) and the placing box (10) and/or between the film-paper separating mechanism and the placing box (10) to reset the labelling mechanism (20).

8. Labeling tool according to any one of claims 1 to 4, characterized in that the supporting and pushing mechanism (30) comprises a holding rod (31) and a regulating block (32), the regulating block (32) being mounted on the placing box (10), the regulating block (32) having a first connection portion (321), the regulating block (32) being connected to the holding rod (31) by the first connection portion (321) such that the holding rod (31) can swing or disturb with respect to the placing box (10).

9. Labeling method using a labeling tool according to any one of claims 1 to 8, characterized in that it comprises the following steps:

placing the membrane paper (50) in the labeling space;

pushing the supporting and pushing mechanism (30) upwards until the placing box (10) is attached to the object;

and continuously pushing the supporting and pushing mechanism (30) to enable the labeling mechanism (20) to press the label point (51) until the label point (51) passes through an exposing opening (111) on the placing box (10) to be attached to an attached object, and meanwhile, the film and paper separating mechanism is continuously pushed by the supporting and pushing mechanism (30) to be forced to separate so as to drive the placing box (10) to reversely move relative to the pressing direction of the label point (51) and enable the film and paper (50) to be separated from the label point (51).

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