CN111268226B

CN111268226B - Liquid tank shunting and labeling system

Info

Publication number: CN111268226B
Application number: CN202010094737.XA
Authority: CN
Inventors: 黄格
Original assignee: Shenzhen Juma Technology Co ltd
Current assignee: Shenzhen Juma Technology Co.,Ltd.
Priority date: 2020-02-16
Filing date: 2020-02-16
Publication date: 2021-12-21
Anticipated expiration: 2040-02-16
Also published as: CN111268226A

Abstract

The invention relates to a liquid tank shunting and labeling system. Liquid tank reposition of redundant personnel and subsides mark system includes first track, screening track, heavy object track, light thing track and pastes the mark structure, the screening track with first track parallel and level, first orbital one end pass through torsional spring coupling in first orbital tip, the orbital other end of screening is formed with arc portion of curling, the upper portion of arc portion of curling is provided with the screening logical groove, the heavy object track set up in first orbital below, light thing track set up in the orbital below of heavy object, the orbital middle part of heavy object is formed with the supporting part. The screening, shunting and labeling overall efficiency of the liquid tank shunting and labeling system is higher.

Description

Liquid tank shunting and labeling system

Technical Field

The invention relates to a liquid tank shunting and labeling system.

Background

During the production of liquid tanks, screening is often required for different types of liquid tanks, such as packaged liquid tanks that have been filled with liquid and empty liquid tanks that have not yet been filled with liquid. And when the screening reposition of redundant personnel, generally adopt the manual work to select, for example through observing whether the opening of liquid jar encapsulates the judgement to realize the screening, its efficiency is lower, and needs additionally to set up to paste mark structure and extra subsides mark step and paste the mark, causes its whole efficiency lower.

Disclosure of Invention

Therefore, it is necessary to provide a liquid can diversion and labeling system with high overall diversion and labeling efficiency.

A liquid tank shunting and labeling system comprises a first rail, a screening rail, a heavy object rail, a light object rail and a labeling structure, wherein the screening rail is flush with the first rail, one end of the first rail is connected to the end part of the first rail through a torsion spring, an arc-shaped curling part is formed at the other end of the screening rail, a screening through groove is formed in the upper part of the arc-shaped curling part, the heavy object rail is arranged below the first rail, the light object rail is arranged below the heavy object rail, a supporting part is formed in the middle of the heavy object rail, the labeling structure is arranged at one end of the heavy object rail and used for conveying labels to the supporting part, the screening rail is used for guiding a liquid tank on the first rail to roll down onto the heavy object rail, the liquid tanks are packaged liquid tanks and empty liquid tanks, and the packaged liquid tanks are used for being guided into the heavy object rail under the guidance of the arc-shaped curling part, the empty liquid tank is used for being guided into the light object rail after passing through the screening channel through labeling, so that screening and shunting of the packaged liquid tank and the empty liquid tank are realized.

In one embodiment, the enclosed liquid tank and the empty liquid tank are used for forcing the screening track to rotate relative to the first track through gravity, so that the arc-shaped curling part is supported on the supporting part in a descending mode.

In one embodiment, the arc-shaped curled portion is a segment of plate material in an arc shape, and the arc-shaped curled portion comprises a supporting end and a warping end which are arranged oppositely.

In one embodiment, the support end is supported on the support portion, and the warp end is located on a side of the support end away from the first rail.

In one embodiment, the screening through groove is opened on the warping end, and the screening through groove is a rectangular groove.

In one embodiment, the height of the warped end from the weight track is greater than the diameter of the packaged liquid tank.

In one embodiment, the liquid tank splitting and labeling system further comprises a first mounting frame and a second mounting frame, the first mounting frame is convexly arranged on the weight rail, and the end part of the first rail is arranged in the middle of the first mounting frame.

In one embodiment, the second mounting bracket is mounted in the middle of the light rail, and the top of the second mounting bracket is fixed to the bottom of the heavy rail.

In one embodiment, the length of the heavy rail is greater than the length of the light rail, and the end of the light rail is adjacent to the lower part of the support part.

In one embodiment, the heavy object rail includes a reverse section and a labeling section, the reverse section and the labeling section are located on two opposite sides of the supporting portion, the reverse section is located between the light object rail and the first rail, the labeling section is located on one side far away from the first rail, and the labeling structure is mounted on the labeling section.

When the liquid tank shunting and labeling system is used, the liquid tank enters the screening track from the first track, the screening track is forced to rotate relative to the first track through gravity, and therefore the arc-shaped curling portion descends and is supported on the supporting portion. Then, the packaged liquid tank is retained on the weight rail, and the empty liquid tank crosses the lowest point of the arc-shaped curling part and climbs to pass through the screening channel, and then drops on the light rail through labeling, so that the screening and distribution of the packaged liquid tank and the empty liquid tank and the labeling operation of the empty liquid tank are realized. In the present case, rely on gravity/impact force can realize the reposition of redundant personnel of liquid, need not the manual work to go to distinguish, improved screening reposition of redundant personnel efficiency. And paste the mark structure set up in on the heavy object track, consequently be convenient for paste the mark to hollow liquid jar in step for reposition of redundant personnel and paste the mark overall efficiency higher.

Drawings

Fig. 1 is a schematic perspective view of a liquid tank splitting and labeling system according to an embodiment.

Fig. 2 is a perspective view of another perspective view of the liquid can diversion and labeling system of fig. 1.

Fig. 3 is a partially enlarged view of a portion a in fig. 1.

Fig. 4 is a cross-sectional view of a portion of the structure of the weight track and decoupling assembly of an embodiment.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention relates to a liquid tank shunting and labeling system. For example, the liquid tank shunting and labeling system comprises a first rail, a screening rail, a heavy object rail, a light object rail and a labeling structure, wherein one end of the screening rail is connected to the end part of the first rail through a torsion spring. For example, an arc-shaped curling portion is formed at the other end of the screening rail, a screening through groove is formed at the upper portion of the arc-shaped curling portion, and the weight rail is arranged below the first rail. For example, the light rail is arranged below the heavy rail, a support part is formed in the middle of the heavy rail, and the labeling structure is arranged at one end of the heavy rail and used for conveying a label to the support part. For example, the screening track is used for guiding the liquid tank on the first track to roll down on the weight track, the liquid tank is divided into an enclosed liquid tank and an empty liquid tank, and the enclosed liquid tank is used for being guided into the weight track under the guidance of the arc-shaped curling part. For example, the empty liquid tank is used for being guided onto the light object track after passing through the screening channel and labeling, so that screening and flow distribution of the packaged liquid tank and the empty liquid tank are realized.

Referring to fig. 1 to 3, a liquid can shunting and labeling system includes a first rail 10, a screening rail 20, a weight rail 30, a light rail 40 and a labeling structure (not shown), wherein the screening rail 20 is flush with the first rail 10, one end of the first rail 10 is connected to an end of the first rail 10 through a torsion spring, the other end of the screening rail 20 is formed with an arc-shaped curling portion 25, an upper portion of the arc-shaped curling portion 25 is provided with a screening through groove 251, the weight rail 30 is disposed below the first rail 10, the light rail 40 is disposed below the weight rail 30, a middle portion of the weight rail 30 is formed with a support portion 31 (see fig. 4), the labeling structure is disposed at one end of the weight rail 30 and is configured to convey a label 105 to the support portion 31, the screening rail 20 is configured to guide a liquid can on the first rail 10 to roll down onto the weight rail 30, the liquid tank is divided into a packaged liquid tank and a vacant liquid tank, the packaged liquid tank is guided by the arc-shaped curling part 25 to be guided into the weight rail 30, and the vacant liquid tank is guided onto the light rail 40 after passing through the screening channel and being labeled, so that screening and distribution of the packaged liquid tank and the vacant liquid tank are realized. In particular, a tank that has been filled with liquid and closed is an enclosed liquid tank, and a tank that has not been filled with liquid, including an opening, is an empty liquid tank. In this embodiment, the gravity of an empty liquid tank is sufficient to cause the screening track 20 to fall down.

When the liquid tank shunting and labeling system is used, a liquid tank enters the screening track 20 from the first track 10, the screening track 20 is forced to rotate relative to the first track 10 through gravity, and the arc-shaped curling part 25 is supported on the supporting part 31 in a descending mode. Then, the sealed liquid can is retained on the weight rail 30, and the empty liquid can crosses the lowest point of the arc-shaped curling portion 25 and climbs to pass through the screening passage, and then drops on the light rail 40 after passing through the label, thereby realizing the screening and distribution of the sealed liquid can and the empty liquid can and the labeling operation of the empty liquid can. In the present case, rely on gravity/impact force can realize the reposition of redundant personnel of liquid, need not the manual work to go to distinguish, improved screening reposition of redundant personnel efficiency. And the labeling structure is arranged on the weight track 30, so that the hollow liquid tank can be labeled synchronously, and the overall efficiency of shunting and labeling is higher.

For example, to facilitate the passage of empty liquid tanks through the screening channel 251, the encapsulated liquid tanks and the empty liquid tanks are used to force the screening track 20 to rotate relative to the first track 10 by gravity, i.e., to tilt towards the weight track 30, so that the arcuate curl 25 is supported to descend on the support 31. The arc-shaped curling part 25 is a section of plate in an arc shape, and the arc-shaped curling part 25 comprises a supporting end 252 and a warping end 255 which are arranged oppositely. The supporting end 252 is supported on the supporting portion 31, and the warping end 255 is located on a side of the supporting end 252 away from the first rail 10. The screening through groove 251 is opened on the warping end 255, and the screening through groove 251 is a rectangular groove. The height of the warped end 255 from the weight track 30 is greater than the diameter of the packaged liquid tank. By moving the warped end 255 away from the weight track 30, the empty liquid tank can be converted into potential energy by its own kinetic energy, and then reach the screening channel and finally pass through the screening channel 251.

For example, in order to facilitate the installation of the weight rail 30 and the light rail 40, the liquid can diversion and labeling system further includes a first mounting bracket 41 and a second mounting bracket 45, the first mounting bracket 41 is protruded on the weight rail 30, and the end of the first rail 10 is installed at the middle of the first mounting bracket 41. The second mounting bracket 45 is mounted in the middle of the light rail 40, and the top of the second mounting bracket 45 is fixed to the bottom of the heavy rail 30. The length of the heavy object rail 30 is greater than that of the light object rail 40, and the end of the light object rail 40 is adjacent to the lower part of the support part 31. The weight track 30 comprises a reverse section 33 and a labeling section 35 which are oppositely arranged, the reverse section 33 and the labeling section 35 are respectively positioned at two opposite sides of the supporting part 31, the reverse section 33 is positioned between the light object track 40 and the first track 10, the labeling section 35 is positioned at one side far away from the first track 10, and the labeling structure is installed on the labeling section 35. By arranging the first mounting frame 41 and the second mounting frame 45, both the heavy object rail 30 and the light object rail 40 can be fixed relative to the first rail 10, so that the mounting convenience and the stability in the use process are improved.

For example, referring to fig. 4, in order to facilitate the packaged liquid tank to roll onto the reverse section 33, a through groove 254 is formed on the arc-shaped curling portion 25, the through groove 254 is located between the supporting end 252 and the warping end 255, the through groove 254 is a rectangular groove, and a lower side edge of the through groove 254 is adjacent to the surface of the reverse section 33. A strip-shaped groove is formed at one side of the lower side edge of the passing groove 254 facing the labeling section 35, the strip-shaped groove extends along the width direction of the screening rail 20, and the strip-shaped groove is used for forming a limiting part at one side of the arc-shaped curling part 25 departing from the weight rail 30. An arc-shaped one-way plate 257 is arranged in the through groove 254, and the top edge of the arc-shaped one-way plate 257 is connected to the upper side edge of the through groove 254 through a torsion spring. The lower side edge of the arc-shaped unidirectional plate 257 is supported in the strip-shaped groove and abuts against the limiting portion, one end of the labeling section 35 adjacent to the supporting portion 31 is further fixedly provided with an arc-shaped sliding plate 355, the top of the arc-shaped sliding plate 355 extends obliquely towards the upper side of the supporting portion 31, and the top of the arc-shaped sliding plate 355 is used for abutting against and supporting the warped end 255 and is aligned with the lower side edge of the screening through groove 251.

For example, when a packaged liquid tank enters the weight rail 30, the screening rail 20 is further configured to allow the packaged liquid tank to impact the arc-shaped one-way plate 257 to force the arc-shaped one-way plate 257 to rotate against the torsion spring to open the passing groove 254, so that the packaged liquid tank enters the weight rail 30, the arc-shaped one-way plate 257 automatically returns under the action of the torsion spring, the arc-shaped falling plate 355 is configured to force the packaged liquid tank to reversely roll and impact the arc-shaped one-way plate 257 to force the screening rail 20 to re-tilt and return to a position flush with the first rail 10, and the packaged liquid tank rolls to the reverse section 33 of the weight rail 30 under the inertia effect, so as to implement subsequent transmission. Through setting up pass through groove 254 with arc unidirectional plate 257, thereby can make encapsulation liquid jar can roll out arc portion of curling 25 breaks away from screening track 20, screening track 20 restores to the original position under the effect of torsional spring, and the setting of spacing portion can avoid arc unidirectional plate 257 is reverse to be opened pass through groove 254, has avoided encapsulation liquid jar striking arc landing plate 355 back to again on arc portion of curling 25, even make encapsulation liquid jar can reverse the striking arc unidirectional plate 257 also can not get into on arc portion of curling 25, can impel on the contrary the quick return that the screening pushed down, has improved the security performance of using. The top end of the arc-shaped landing plate 355 may play a role in positioning the descent of the arc-shaped curled portion 25. For example, the enclosed liquid tank can be impacted with a greater force to break open the curved one-way plate 257 and thereby enter the weight track 30. The impact force of the empty liquid tank is insufficient, the arc-shaped one-way plate cannot be opened, but the empty liquid tank can climb up the screening through groove 251 of the warping end 255 due to the fact that the gravity of the empty liquid tank is light, and therefore the empty liquid tank and the packaged liquid tank can be distinguished.

For example, to facilitate labeling of the empty liquid cans and guiding the labeled empty liquid cans into the light rail 40, the weight of the packaged liquid cans is greater than the weight of the empty liquid cans. The arc-shaped landing plate 355 includes an impact arc 356 and a guide arc 358 which are oppositely disposed, the impact arc 356 faces the support portion 31, and the guide arc 358 faces the label segment 35. An extraction groove 359 is formed in the bottom surface of the end portion of the labeling section 35 in a penetrating manner, the extraction groove 359 is located above the end portion of the light rail 40, one side of the extraction groove 359 is adjacent to the lower side of the arc-shaped sliding plate 355, and the other side of the extraction groove 359 extends in a direction departing from the support portion 31 and is formed with a sharp edge 3595. An elastic support block 352 is provided in the lead-out groove 359, and one side of the elastic support block 352 is rotatably connected to the lower side of the sharp edge 3595 by a spring. For example, a plurality of the tags 105 are connected in sequence to form the tag tape 100, and every two adjacent tags 105 are connected by multi-point contact. The width of the label 105 is equal to the width of the elastic support block 352. For example, in labeling, the labeling structure is used to support the endmost one of the labels 105 of the label tape 100 on the elastic support block 352, the arc-shaped slide-down plate 355 is used to guide the empty liquid tank passing through the screening slot 251 to roll down on the label 105, the empty liquid tank is dipped on the label 105 and impacts the elastic support block 352 to rotate to open the draw-out groove 359, and the edge of the endmost label 105 is separated from the label tape 100 by the pressing of the sharp edge 3595 and drops onto the light rail 40 with the empty liquid tank to perform the subsequent transportation. The elastic support block 352 enables the empty liquid tank to be applied with force on the label 105 when falling, and the label 105 is completely attached to the peripheral surface of the empty liquid tank in a matching manner under the deformation of the elastic support block 352.

For example, in one embodiment, when the sharp edge 3595 is unable to block the label tape 100, the liquid can diversion and labeling system further comprises a separation assembly 60, the separation assembly 60 comprises a separation cylinder 61 and a plate-shaped separation knife 62, the separation cylinder 61 is mounted at the end of the light rail 40 and is located below the extraction groove 359, and the plate-shaped separation knife 62 is mounted on the output shaft of the separation cylinder 61 and is aligned with one side edge of the extraction groove 359 away from the arc-shaped falling plate 355. When the sharp edge 3595 cannot block the label tape 100, the empty liquid tank is used for driving the label 105 to hang below the lead-out groove 359, so as to force the elastic supporting block 352 to turn 90 degrees to be perpendicular to the light object rail 40, and the separation cylinder 61 is used for driving the plate-shaped separation blade 62 to move along the surface of the elastic supporting block 352 to the position of the sharp edge 3595 so as to cut off the edge of the label 105, so that the label 105 is separated from the label tape 100. Through the arrangement of the sharp edge 3595, the elastic supporting block 352 and the separating component 60, the label 105 can be smoothly attached to the empty liquid tank, the label 105 can fall off, and the empty liquid tank rolls to the light object rail 40, so that the empty liquid tank can be smoothly shunted, and the shunting and labeling efficiency of the liquid tank is improved. The plate-shaped separation knife 62 is also used for blocking the end of the light object rail.

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 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 present 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

1. A liquid tank shunting and labeling system is characterized by comprising a first rail, a screening rail, a heavy object rail, a light object rail and a labeling structure, wherein the screening rail is flush with the first rail, one end of the screening rail is connected to the end part of the first rail through a torsion spring, an arc-shaped curling part is formed at the other end of the screening rail, a screening through groove is formed in the upper part of the arc-shaped curling part, the heavy object rail is arranged below the first rail, the light object rail is arranged below the heavy object rail, a supporting part is formed in the middle of the heavy object rail, the labeling structure is arranged at one end of the heavy object rail and used for conveying a label to the supporting part, the screening rail is used for guiding a liquid tank on the first rail to roll down onto the heavy object rail, the liquid tank is divided into a packaging liquid tank and an empty liquid tank, the packaging liquid tank is used for guiding the heavy object rail under the guiding of the arc-shaped curling part, the empty liquid tank is used for guiding the liquid tank onto the light object rail after passing through the screening through groove and being labeled, thereby realizing the screening and shunting of the encapsulated liquid tank and the vacant liquid tank;

the packaging liquid tank and the vacant liquid tank are used for forcing the screening track to rotate relative to the first track through gravity, so that the arc curling part descends and is supported on the supporting part, the arc curling part is a section of plate in an arc shape, the arc curling part comprises a supporting end and a warping end which are oppositely arranged, the supporting end is supported on the supporting part, the warping end is positioned on one side of the supporting end, which is far away from the first track, the screening through groove is arranged on the warping end, the screening through groove is a rectangular groove, the height of the warping end, which is far away from the heavy object track, is greater than the diameter of the packaging liquid tank, the vacant liquid tank further comprises a first mounting frame and a second mounting frame, the first mounting frame is convexly arranged on the heavy object track, the end part of the first track is arranged in the middle part of the first mounting frame, the second mounting frame is arranged in the middle part of the light object track, the top part of the second mounting frame is fixed at the bottom of the heavy object track, and the length of the heavy object track is greater than the length of the light object track, the end part of the light object track is adjacent to the lower part of the supporting part, the heavy object track comprises a reverse section and a labeling section which are oppositely arranged, the reverse section and the labeling section are respectively positioned at two opposite sides of the supporting part, the reverse section is positioned between the light object track and the first track, the labeling section is positioned at one side far away from the first track, and the labeling structure is arranged on the labeling section;

the arc-shaped curling part is provided with a through groove which is a rectangular groove between the supporting end and the warping end, a strip-shaped groove is formed on one side of the lower side edge of the groove, which faces the label sticking section, and extends along the width direction of the screening track, and is used for forming a limiting part on one side of the arc-shaped curling part, which deviates from the heavy object track, an arc-shaped one-way plate is arranged in the through groove, the top edge of the arc-shaped one-way plate is connected to the upper side edge of the through groove through a torsion spring, the lower side edge of the arc-shaped one-way plate is supported in the strip-shaped groove and abutted against the limiting part, one end, adjacent to the supporting part, of the labeling section is also fixedly provided with an arc-shaped sliding plate, the top of the arc-shaped sliding plate extends obliquely towards the upper part of the supporting part, and the top of the arc-shaped sliding plate is abutted against the support warping end and is aligned with the lower side edge of the screening through groove;

when the packaged liquid tank enters the weight track, the screening track is also used for enabling the packaged liquid tank to impact the arc-shaped one-way plate, the arc-shaped one-way plate is forced to overcome the torsion spring to rotate so as to open the through groove, the packaged liquid tank enters the weight track, the arc-shaped one-way plate automatically returns under the action of the torsion spring, the arc-shaped sliding plate is used for forcing the packaged liquid tank to reversely roll and impact the arc-shaped one-way plate so as to enable the screening track to be tilted upwards and return to the position flush with the first track, and the packaged liquid tank rolls to the reverse section of the weight track under the action of inertia, so that subsequent transmission is implemented;

the gravity of the encapsulation liquid tank is greater than that of the vacant liquid tank, the arc-shaped sliding plate comprises an impact arc surface and a guide arc surface which are oppositely arranged, the impact arc surface faces the supporting part, the guide arc surface faces the label attaching section, the bottom surface of the end part of the label attaching section is provided with a lead-out groove in a through mode, the lead-out groove is positioned above the end part of the light object rail, one side of the lead-out groove is adjacent to the lower side of the arc-shaped sliding plate, the other side of the lead-out groove extends in the direction away from the supporting part and is provided with a sharp edge, an elastic supporting block is arranged in the lead-out groove, one side of the elastic supporting block is rotatably connected to the lower side of the sharp edge through a spring, a plurality of labels are sequentially connected to form a label belt, every two adjacent labels are connected through multi-point contact, and the width of the labels is equal to the width of the elastic supporting block;

when labeling, the labeling structure is used for supporting a tag at the tail end of the tag belt on the elastic supporting block, the arc-shaped sliding plate is used for guiding the empty liquid tank passing through the screening through groove to roll onto the tag, the empty liquid tank is stained with the tag and impacts the elastic supporting block to rotate so as to open the leading-out groove, the edge of the tag at the tail end is separated from the tag belt under the pressing of the sharp edge and drops onto the light object rail along with the empty liquid tank so as to implement subsequent conveying, the elastic supporting block enables the empty liquid tank to apply force to the tag when dropping, and the tag is completely and coincidently stuck to the peripheral surface of the empty liquid tank under the deformation of the elastic supporting block;

the liquid tank shunting and labeling system further comprises a separation assembly, wherein the separation assembly comprises a separation cylinder and a plate-shaped separation knife, the separation cylinder is mounted at the end part of the light object rail and is positioned below the lead-out groove, and the plate-shaped separation knife is mounted on an output shaft of the separation cylinder and is aligned to the edge of one side of the lead-out groove, which is far away from the arc-shaped sliding plate;

when the sharp edge can not cut off the label band, the vacant liquid tank is used for driving the label to be hung below the lead-out groove, the elastic supporting block is forced to turn over to be vertical to the light object track, the separating cylinder is used for driving the plate-shaped separating knife to move to the position of the sharp edge along the surface of the elastic supporting block so as to cut off the edge of the label, the label is separated from the label band, and the plate-shaped separating knife is also used for blocking the end part of the light object track.