CN211033154U - Automatic glass bottle supporting and boxing equipment - Google Patents

Abstract

The utility model discloses an automatic dress of glass bottle holds in palm vanning equipment, include: a bottle conveying section for conveying the bottles at a predetermined pitch; the material conveying part is used for conveying and arranging the bottom support and the top cover; the box opening part is used for conveying the packing box and opening the packing box; the grabbing and supporting robot is arranged on one side of the tail end of the material conveying part and is provided with a first grabbing hand used for grabbing and placing the bottom support and the top cover; the boxing robot is arranged on one side of the glass bottle conveying part and is provided with a second gripper for gripping a group of glass bottles; after the boxing robot grabs a group of glass bottles to fill the bottom supports, the boxing robot places the bottom supports with the glass bottles in the packing box after being spread, and the grabbing and supporting robot is used for grabbing the top covers and buckling the top covers above the group of glass bottles in the packing box. Above-mentioned automatic dress of glass bottle holds in palm vanning equipment can realize that the dress of accurate completion glass bottle holds in the palm and vanning, realizes the automatic packing of glass bottle, has improved medicine production efficiency.

Description

Automatic glass bottle supporting and boxing equipment

Technical Field

The utility model relates to an automatic packing technical field of medicine, in particular to automatic dress of glass bottle holds in palm vanning equipment.

Background

Some high-end glass bottle medicines in the current market need long-distance transportation, and a foam support and a top cover need to be added in a carton on the basis of packaging process requirements.

Each foam base needs to contain 30 bottles of glass medicine, and due to some particularity of the foam base, the foam base needs to be accurately positioned when being filled. The foam support is light in weight and easy to damage, and the support fails to be installed and even the bottom support is damaged easily due to slight deviation. The existing equipment is to case the foam collet, holds in the palm this uncontrollable problem of form that the foam held in the carton will appear with product dress foam again, because there is the possibility of slope between collet and the carton, leads to the glass bottle vanning and holds in the palm the failure, influences the vanning of subsequent glass bottle.

Therefore, how to accurately complete the loading, supporting and boxing of the glass bottles and improve the packaging efficiency of the glass bottles becomes a technical problem to be solved by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic dress of glass bottle holds in palm vanning equipment, this automatic dress of glass bottle holds in palm vanning equipment can realize holding in the palm the serialization production of vanning to the automatic dress of glass bottle, improves glass bottle dress and holds in the palm vanning accuracy nature.

In order to achieve the above object, the utility model provides an automatic dress of glass bottle holds in palm vanning equipment, include:

a bottle conveying section for conveying the bottles at a predetermined pitch;

the material conveying part is used for conveying and arranging the bottom support and the top cover;

the box opening part is used for conveying the packing box and opening the packing box;

the grabbing and supporting robot is arranged on one side of the tail end of the material conveying part and is provided with a first grabbing hand used for grabbing and placing the bottom support and the top cover;

the boxing robot is arranged on one side of the glass bottle conveying part and is provided with a second gripper for gripping a group of glass bottles;

after the boxing robot grabs a group of glass bottles to fill the bottom supports, the boxing robot places the bottom supports filled with the glass bottles in the packing box after being spread, and the grabbing and supporting robot is used for grabbing the top covers and buckling the top covers above the group of glass bottles in the packing box.

Optionally, the vial conveying section comprises:

the channel sorting mechanism is used for dispersing the continuously conveyed glass bottles into a plurality of channels;

the collecting platform is arranged at the tail end of the channel bottle arranging mechanism and comprises a glass bottle conveying belt and bottle separating plates which are arranged along the length direction of the glass bottle conveying belt and used for separating the glass bottle conveying belt into a plurality of channels;

bottle blocking mechanisms are arranged above the bottle conveying belt at intervals and used for separating all the glass bottles on the bottle conveying belt by a preset number;

and the tail end bottle blocking mechanism is arranged at the tail end of the glass bottle conveying belt and used for blocking and limiting the glass bottles.

Optionally, the material conveying part comprises a bottom support conveying mechanism and a top cover conveying mechanism; the bottom support conveying mechanism and the top cover conveying mechanism are arranged in parallel.

Optionally, the shoe conveying mechanism and the cap conveying mechanism each comprise:

a pallet conveyor belt;

the tail end limiting cylinder is arranged at the tail end of the supporting plate conveying belt, and the tail end baffle is connected with the tail end limiting cylinder and is used for stopping the first supporting plate stack at the tail end of the supporting plate conveying belt under the driving of the tail end limiting cylinder;

the device comprises a limiting plate arranged on one side of the tail end of the supporting plate conveying belt and a sorting cylinder which is arranged on the other side of the supporting plate conveying belt, is perpendicular to the limiting plate and is used for pushing a first stack of supporting plate stacks to be attached to the limiting plate;

the material loading support plate is used for supporting the first stack support plate stack of the tail end baffle stop, and the compensation cylinder is connected with the material loading support plate and arranged in parallel with the tail end limiting cylinder, and the compensation cylinder is identical to the stroke of the tail end limiting cylinder.

Optionally, the box opening portion includes:

the first box body conveying belt is used for conveying the packing box;

the second box body conveying belt is arranged in parallel with the first box body conveying belt in a staggered mode;

the box pushing mechanism is used for conveying and pushing the packing boxes from the first box conveying belt to the second box conveying belt;

and the box supporting mechanism is erected above the second box conveying belt.

Optionally, the box supporting mechanism comprises:

the box supporting bracket is erected above the second box conveying belt;

the box supporting plates are hinged to two sides of the box supporting bracket and used for driving the box supporting plates to rotate and turn over so as to be attached to the inner side wall of the packing box and open the box supporting cylinder of the packing box;

the transition plate is arranged above the box supporting plate and hinged to the box supporting bracket, and the transition plate is connected with the box supporting cylinder;

the box supporting cylinder is vertically connected with the box supporting plate and the transition plate, so that the transition plate is kept horizontal for placing a supporting plate and shielding a packaging box in a contraction state of the box supporting cylinder; when the box supporting cylinder extends, the box supporting cylinder drives the transition plate to rotate to expose the packaging box and simultaneously drives the box supporting plate to rotate to open the packaging box.

Optionally, the second hand grip comprises:

a plurality of bottle-grabbing heads arranged at preset intervals and used for sucking glass bottles;

the pitch cylinders are connected with all the bottle grabbing heads and used for driving the bottle grabbing heads to be separated by a preset pitch;

the clamping plates are arranged around the bottle grabbing head and used for jointing the side wall of the bottom support when the bottle grabbing head places the grabbed group of glass bottles in the bottom support.

Optionally, the transition plates are oppositely arranged on two sides of the box supporting bracket, and the transition plates arranged on the two sides of the box supporting bracket are arranged at the same height;

when the box supporting cylinder extends, the box supporting cylinder is arranged on two sides of the box supporting bracket, and the transition plates are jointed in a laminating manner.

Optionally, the second box conveying belt located behind the box supporting mechanism is further provided with a weight checking mechanism and a rejecting mechanism;

when the quality of the packing box with the glass bottles is smaller than the preset quality, the rejecting mechanism is used for rejecting the packing box with the quality not reaching the standard.

Optionally, the device further comprises a box sealing part arranged behind the rejecting mechanism; the box sealing part comprises a folding mechanism, a tape pasting mechanism and a code printing mechanism.

Compared with the prior art, the automatic glass bottle loading, supporting and boxing equipment provided by the utility model conveys glass bottles filled with liquid medicine in a preset interval arrangement through the glass bottle conveying part, so that a boxing robot can grab the glass bottles and place the glass bottles into a bottom support conveniently; the box opening part is used for opening the packing box; the material conveying part is used for conveying and arranging the collet, the grabbing and supporting robot is convenient to grab and support the collet through the first gripper, the boxing robot grabs the glass bottles through the second gripper and packs the collet into the box, and meanwhile, after the collet which is used for packing the glass bottles is placed into the packing box, the grabbing and supporting robot grabs the top of the glass bottles with the top covers buckled in the packing box, and the automatic packing and supporting of the glass bottles are completed. Snatch the glass bottle through the vanning robot and put into the packing box together with the collet after the collet is put into, avoid the clearance between collet and the packing box to lead to glass bottle dress to hold in the palm vanning failure or inefficiency differently, improved the accuracy nature and the serialization production that glass bottle dress held in the palm the vanning, and then improved production efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic view of an automatic glass bottle loading, supporting and boxing apparatus provided in an embodiment of the present invention;

FIG. 2 is a schematic view of the vial transport of FIG. 1;

FIG. 3 is a front view of the box opening section of FIG. 1;

FIG. 4 is a top view of FIG. 3;

FIG. 5 is a schematic view of the box pushing mechanism of FIG. 3;

FIG. 6 is a front view of the box opening mechanism of FIG. 3;

FIG. 7 is a partial top view of the box supporting mechanism of FIG. 3;

FIG. 8 is a schematic view of the material conveying portion of FIG. 1;

FIG. 9 is a top view of FIG. 8;

fig. 10 is a schematic view of a second hand grip.

Wherein:

1-glass bottle conveying part, 101-channel sorting bottle mechanism, 102-bottle separating plate, 103-swing arm cylinder, 104-bottle blocking mechanism, 105-tail end bottle blocking mechanism, 106-detection switch, 2-material conveying part, 201-bottom support conveying mechanism, 202-top cover conveying mechanism, 203-tail end limit cylinder, 204-material pushing cylinder, 205-limit plate, 206-material loading support plate, 207-compensation cylinder, 3-box opening part, 301-first box conveying belt, 302-second box conveying belt, 303-box pushing mechanism, 304-box supporting mechanism, 3041-box supporting bracket, 3042-box supporting plate, 3043-box supporting cylinder, 3044-transition plate, 3045-box supporting positioning cylinder, 4-grabbing and supporting robot, 5-box packing robot, 6-a second gripper, 601-a bottle gripper head, 602-a spacing cylinder, 603-a clamping plate and 604-a limiting guide bar.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In order to make the technical field of the present invention better understand, the present invention will be described in detail with reference to the accompanying drawings and the detailed description.

Referring to fig. 1 to 10, fig. 1 is a schematic view of an automatic loading, supporting and boxing apparatus for glass bottles according to an embodiment of the present invention, fig. 2 is a schematic view of a glass bottle conveying portion in fig. 1, fig. 3 is a front view of a box opening portion in fig. 1, fig. 4 is a top view of fig. 3, fig. 5 is a schematic view of a box pushing mechanism in fig. 3, fig. 6 is a front view of a box supporting mechanism in fig. 3, fig. 7 is a partial top view of the box supporting mechanism in fig. 3, fig. 8 is a schematic view of a material conveying portion in fig. 1, fig. 9 is a top view of fig. 8, and fig. 10 is a schematic view of a second gripper.

The utility model provides an automatic dress of glass bottle holds in palm vanning equipment includes glass bottle conveying part 1, material conveying part 2, division box portion 3, be equipped with grabbing of first tongs and hold in the palm robot 4 and be equipped with second tongs 6's vanning robot 5. The glass bottle conveying part 1 is used for continuously conveying glass bottles and arranging the glass bottles in preset intervals, wherein the preset intervals are specifically intervals matched with the intervals between bottle filling positions on a bottom support; the material conveying part 2 is used for continuously conveying the bottom support and the top cover; the box opening part 3 is used for conveying the packing box and opening the packing box; grab and hold in the palm robot 4 at first through first tongs snatch the collet, the packing machine people 5 snatchs a set of glass bottle through second tongs 6 and fills in the collet and put into the packing box that struts together with the collet in, grab and hold in the palm robot 4 and snatch the glass bottle top of top cap lock to the packing box once more, accomplish the automatic dress of glass bottle and hold in the palm and vanning, realize the continuity of production. Meanwhile, the boxing robot 5 loads the glass bottles after being held into the packaging box together with the bottom support, so that the phenomenon that the bottling positions of the glass bottles and the bottom support do not correspond due to the gap between the bottom support and the packaging box after the glass bottles are held in the support firstly, the support is not loaded or the support needs to be positioned again is avoided, and the accuracy of the support and the boxing and the efficiency of the support and the boxing are improved.

The following describes the automatic glass bottle supporting and boxing apparatus provided by the present invention in more detail with reference to the accompanying drawings and specific embodiments.

In a specific embodiment provided by the present invention, the structure of the glass bottle conveying part 1 can refer to fig. 1 and fig. 2, and the glass bottle conveying part 1 includes a sub-channel bottle arranging mechanism 101, a collecting platform, a bottle blocking mechanism 104 and a terminal bottle blocking mechanism 105. The bottle sorting mechanism 101 is used for dividing the glass bottles into a plurality of channels, the channels can be flexibly arranged according to the specification of the bottom support, and the number of the channels is equal to the number of lines for accommodating the glass bottles in the bottom support. The collecting platform is arranged at the tail end of the channel bottle arranging mechanism 101 and is used for receiving the glass bottles scattered by the channel bottle arranging mechanism 101. The collecting platform comprises a glass bottle conveying belt and bottle separating plates 102 arranged along the length direction of the glass bottle conveying belt, wherein a plurality of groups of bottle separating plates 102 are arranged in parallel at equal intervals, and are used for conveying glass bottles to be divided into a plurality of channels for receiving the glass bottles scattered by the bottle sorting mechanism 101.

The bottle blocking mechanism 104 is used for dividing a plurality of glass bottles into a preset number, for example, the bottom support is in a specification of 5 rows and × 6 columns, the bottle blocking mechanism 104 is divided into 5 rows by the bottle blocking plate 102, the bottle blocking mechanism 104 is arranged at intervals of 6 glass bottles, so that the glass bottles are divided into a group of 5 rows and × 6 columns, the arrangement of the bottle blocking mechanism 104 and the bottle blocking plate 102 is flexibly adjusted according to the specification of the bottom support, and the tail end bottle blocking mechanism 105 is arranged at the tail end of the bottle blocking conveying belt and used for blocking and positioning a group of glass bottles so as to be conveniently grabbed by the boxing robot 5.

The lane bottle arranging mechanism 101 comprises a feeding hole which is provided with a first end of a glass bottle conveying part 1, the feeding hole is used for receiving glass bottles, and a conveying plate which is connected with the feeding hole and a glass bottle conveying belt is connected, so that the glass bottles can conveniently slide from the feeding hole to the glass bottle conveying belt through the conveying plate, the tail end of the lane bottle arranging mechanism 101, namely the top end of the glass bottle conveying belt, is provided with a swing arm cylinder 103, the swing arm cylinder 103 drives one end, close to the glass bottle conveying belt, of the conveying plate to reciprocate along the width direction of the glass bottle conveying belt, and the glass bottles on the conveying plate are conveyed to a plurality of lanes for conveying. In addition, the bottle sorting mechanism 101 may further include a plurality of conveying plates intersecting with the feeding ports, wherein the ends of the plurality of conveying plates are respectively connected to different channels of the bottle conveying belt, the beginning ends of the plurality of conveying plates are connected to the feeding ports, and the plurality of conveying plates are used to divide the bottles into a plurality of channels.

The tail-end bottle blocking mechanism 105 can be a tail-end bottle blocking cylinder arranged towards the tail end of the glass bottle conveying belt, the tail-end bottle blocking cylinder is connected with a bottle blocking baffle, and when the tail-end bottle blocking cylinder is pushed out towards a plurality of paths of the glass bottle conveying belt, the bottle blocking baffle blocks the glass bottles to collect the bottles; the bottle blocking mechanism 104 can be a bottle blocking support moving left and right along the width of the glass bottle conveying belt, the bottle blocking support is connected with a bottle blocking cylinder, when the bottle blocking support is driven by the bottle blocking cylinder to move to a first position, the glass bottles are blocked, the glass bottles are not allowed to pass, and when the bottle blocking support moves to a second position, a plurality of channels of the bottle blocking support and the glass bottle conveying belt are staggered, and the glass bottles are allowed to pass.

The bottle blocking bracket is connected with a detection switch 106; the detection switch 106 usually adopts a photoelectric sensor to count the glass bottles in one lane, and can also adopt a one-way door hinged above any one lane and sensors arranged at two sides of the one-way door in the width direction, when the glass bottles pass through the one-way door, the glass bottles push the one-way door to rotate backwards and upwards, the sensors arranged at two sides of the one-way door can transmit signals, and the bottle blocking support is controlled to move to the first position to block the glass bottles; when a group of glass bottles are full, the glass bottles cannot pass through the one-way door, the one-way door falls under the action of gravity, the sensor cannot receive signals, the bottle blocking cylinder is controlled to move to the second position, and the group of glass bottles are continuously conveyed to the tail end bottle blocking mechanism 105 and are grabbed by the boxing robot 5.

The material conveying part 2 comprises two parts, namely a bottom support conveying mechanism 201 for conveying bottom supports and a top cover conveying mechanism 202 for conveying top covers, which are arranged in parallel. Since the sizes and structures of the bottom tray and the top cover are substantially the same, the structures of the bottom tray conveying mechanism 201 and the top cover conveying mechanism 202 are substantially the same, and the material conveying part 2 will be described in detail below by taking the bottom tray conveying mechanism 201 as an example, with particular reference to fig. 1, 8 and 9.

The material conveying part 2 comprises a supporting plate conveying belt, a material distributing mechanism, a material arranging mechanism and a feeding mechanism; the supporting plate conveyer belt is used for conveying and caching materials, a top cover and a bottom support are collectively called as supporting plates, a stack of supporting plate stacks are stacked above the supporting plate conveyer belt, and after a stack of supporting plate stacks is grabbed, the supporting plate stacks at the rear part continue to convey, so that the supporting plate conveyer belt not only realizes the conveying function, but also plays a role in caching the materials; the material distributing mechanism is used for separating the continuously conveyed supporting plate stacks above the supporting plate conveying belt; because the material bin is replaced by the supporting plate conveying belt, the supporting plate stack is lack of necessary limit, the supporting plate weight is light, the supporting plate stack is easy to misplace in the conveying process, the supporting plate stack is irregular, and the grabbing failure and the grabbing efficiency of the grabbing robot 4 are low; therefore, the material arranging mechanism is specially arranged for arranging the support plate stacks separated by the material distributing mechanism above the support plate conveying belt, the support plate stacks are arranged and stacked orderly, and finally the stacked orderly support plate stacks are fed to the material grabbing station through the feeding mechanism, so that the material grabbing robot 4 can grab the materials conveniently, and the production continuity is realized. Adopt the layer board conveyer belt to carry out material transport and buffer memory, be fit for layer board materials such as the collet of not unidimensional model and top cap, cooperate feed mechanism, reason material mechanism and feed mechanism to accomplish the arrangement material loading to the layer board buttress simultaneously, guarantee the continuous transport of materials such as layer board, it is spacing to need not to set up the feed bin of different specifications and carries out the feed, has reduced equipment cost.

Wherein, the conveying link joint that the layer board conveyer belt adopted alternate setting, the so-called conveying link joint is the conveyer belt that adopts the link joint to connect into the circularity, sets up alternately through conveying the link joint, cooperates with forked material loading layer board 206, and the gap between adjacent conveying link joint supplies the jaw of material loading layer board 206 to stretch into, avoids contacting with the conveyer belt. For example, the layer board conveyer belt adopts the transport link joint of three parallels and alternate settings, and material loading layer board 206 then sets up to two fork forms, and two clearances between three transport link joints supply the bifurcations of material loading layer board 206 to stretch into, and the layer board buttress is played in the bearing, receives the interference of layer board conveyer belt when avoiding material loading layer board 206 to jack up simultaneously.

The material distributing mechanism comprises a tail end limiting cylinder 203, a tail end baffle plate connected with the tail end limiting cylinder 203 and a material pressing cylinder arranged above the tail end of the supporting plate conveying belt, the tail end limiting cylinder 203 and the tail end limiting baffle plate are arranged towards the tail end of the supporting plate conveying belt, the tail end limiting cylinder 203 is used for driving the tail end baffle plate to move towards and away from the tail end of the supporting plate conveying belt, and the tail end limiting cylinder 203 is arranged towards the supporting plate conveying belt and is the same as the extending direction of the supporting plate conveying belt in the setting direction or the stretching direction of the specific tail end limiting cylinder. The pressing cylinder is vertically arranged, when the pressing cylinder extends out, the pressing cylinder presses the top of the supporting plate stack on the supporting plate conveying belt, and meanwhile, the supporting plate conveying belt pauses. When the pressing cylinder contracts, the pressing of the supporting plate stack is removed, and the supporting plate conveying belt continues to step towards the limiting baffle to convey the supporting plate stack.

When the tail end limiting cylinder 203 extends out, the limiting baffle is driven to extend out relative to the supporting plate conveying belt, the supporting plate stack above the supporting plate conveying belt is stopped and limited, the limiting baffle firstly contacts with a first stack supporting plate stack at the tail end of the supporting plate conveying belt, meanwhile, the pressing cylinder presses a second stack supporting plate stack at the tail end of the supporting plate conveying belt, and the supporting plate conveying belt stops running. The first and second stacks are here in relation to the conveying direction of the limit stop and pallet conveyor. The first stack refers to the stack at the extreme end of the conveying direction of the pallet conveyor belt, namely the stack closest to the limit baffle, and the second stack refers to the stack adjacent to the first stack. When the first stack of supporting plate stacks are conveyed to the tail end of the supporting plate conveying belt, the pressing air cylinder presses the second stack of supporting plate stacks to prevent the second stack of supporting plate stacks from being conveyed continuously, and separation of the first stack of supporting plate stacks and the second stack of supporting plate stacks is achieved.

The material distribution mechanism also comprises a feeding supporting plate 206 for supporting the first stack of supporting plates blocked by the limiting baffle and a compensation cylinder 207 for connecting the feeding supporting plate 206; wherein the structure of the loading pallet 206 may be arranged with reference to the forks of a forklift, and the loading pallet 206 may scoop the first stack of pallet from the pallet conveyor belt and form a support for the first stack of pallet; the compensation cylinder 207 and the end-limit cylinder 203 are arranged in parallel, and the stroke of the compensation cylinder 207 is equal to that of the end-limit cylinder 203.

When the end limiting cylinder 203 extends out, the limiting baffle plate forms a stop for the first stack of supporting plate stacks, the compensation cylinder 207 is in an extending state, and the feeding supporting plate 206 shovels and supports the first stack of supporting plate stacks of the supporting plate conveying belt; then the end limit cylinder 203 contracts back to the initial position, at this moment, the compensation cylinder 207 contracts along with the end limit cylinder 203, and because the stroke of the compensation cylinder 207 is equal to that of the end limit cylinder 203, after the compensation cylinder 207 drives the feeding support plate 206 to contract, the first stack of support plate stacks are transferred to the first preset position and kept to be attached to the limit baffle, and the alignment of one side of the first stack of support plate stacks at the end, namely the length direction, is ensured. Wherein, the material station is grabbed for grabbing support robot 4 to first preset position, and the robot that grabs support 4 of being convenient for moves to grab the material station and snatchs the layer board from top to bottom one by one from first buttress layer board buttress top.

The material arranging mechanism comprises a limiting plate 205 arranged on the first side of the tail end of the supporting plate conveying belt and an arranging cylinder arranged on the second side of the tail end of the supporting plate conveying belt. Limiting plate 205 sets up in the terminal first side of layer board conveyer belt for providing the opposite side also be width direction's spacing for the layer board buttress, and limiting plate 205 can be spacing glass board or steel sheet, adopts the glass board usually, prevents to rust and pollutes the layer board, and the glass board is unlikely to shelter from the sight simultaneously, is convenient for observe the position of layer board buttress. The moving direction of arrangement cylinder also is the extending direction setting of the perpendicular conveyer belt of flexible direction, can be at the push rod of the vertical extension of end-to-end connection of arrangement cylinder, and the length of push rod is not less than the height of layer board buttress, and the bottom of push rod is higher than layer board conveyer belt up end and is less than a layer board thickness with the interval between the layer board conveyer belt up end. Drive the push rod through the arrangement cylinder and move towards the layer board conveyer belt, promote first buttress layer board buttress laminating limiting plate 205, realize first buttress layer board buttress width direction's alignment. In other words, through setting up arrangement cylinder and limiting plate 205 and realizing putting things in good order the width direction's of first buttress layer board buttress both sides at first preset position, be convenient for grab hold in the palm 4 accurate positioning of robot and snatch the layer board, avoid grabbing the material failure or grab at every turn and snatch once more after the material needs fix a position, improved production efficiency.

Further, reason material mechanism can also include the spacing cylinder of branch buttress and the locating part of connecting the spacing cylinder of branch buttress with arrangement cylinder parallel arrangement, here the locating part specifically is the gag lever post, divide the spacing cylinder of buttress and arrange cylinder parallel arrangement also that the two flexible direction is the same, divide the spacing cylinder of buttress to be used for when pressing the material cylinder to push down second buttress layer board buttress, drive the gag lever post and stretch into between first buttress layer board buttress and the second buttress layer board buttress, further separate first buttress layer board buttress and second buttress layer board buttress, make one side that first buttress layer board buttress and second buttress layer board buttress contact gag lever post also be the one side parallel and level of layer board buttress length direction simultaneously. Through limit baffle, the alignment of layer board buttress each direction is realized to arrangement cylinder, limiting plate 205, the spacing cylinder of branch buttress and gag lever post, is convenient for grab and hold in the palm robot 4 and snatchs the layer board in proper order.

The feed mechanism includes material loading electricity jar, and material loading electricity jar vertical setting is connected material loading layer board 206 and compensation cylinder 207 for drive material loading layer board 206 and compensation cylinder 207 elevating movement. The single ascending stepping amount of the feeding electric cylinder is set, so that the stepping amount of the feeding electric cylinder is integral multiple of the thickness of the supporting plate each time. The grabbing and supporting robot 4 can grab the supporting plate at the same height of the first preset position. Because the feeding supporting plate 206 is connected with the compensation cylinder 207, if the feeding electric cylinder needs to drive the feeding supporting plate 206 and the compensation cylinder 207 to integrally ascend in a stepping mode, the connection of the feeding electric cylinder and the cylinder seat of the compensation cylinder 207 is only needed to be kept.

Furthermore, the tail end of the supporting plate conveying belt is provided with an electric cylinder fixing frame, the feeding electric cylinder is vertically arranged on the electric cylinder fixing frame and is arranged on one side, facing the tail end of the supporting plate conveying belt, of the electric cylinder fixing frame. One side at the top of electric jar mount sets up pushes away material cylinder 204, pushes away material cylinder 204 and arrangement cylinder parallel arrangement, also sets up perpendicularly with the extending direction of layer board conveyer belt promptly, will be located the layer board at first stack layer board top of first preset position to the second preset position through pushing away material cylinder 204. The second preset position is a second material grabbing station for the grabbing and supporting robot 4 to grab the supporting plate, the second preset position is attached to the first preset position, and the distance between the second preset position and the first preset position is equal to the distance between the stroke of the material pushing cylinder 204 and the length of the supporting plate. In other words, the pushing cylinder 204 extends to push the supporting plate at the first preset position to the second preset position, so that the grabbing and supporting robot 4 can grab the supporting plate from the first preset position and the second preset position at the same time.

In order to improve the material grabbing efficiency, the gripper of the grabbing and supporting robot 4 can grab two or even a plurality of parallel supporting plates at a single time, and the supporting plates are arranged at a first preset position and a second preset position, so that the gripper of the grabbing and supporting robot 4 can be matched conveniently, and the material grabbing efficiency is improved. For example, each time the pushing cylinder 204 moves telescopically to push the two layers of pallets at the top end of the first stack of pallets at the first preset position to the second preset position, the feeding cylinder steps up by two thicknesses of pallets each time. After the pallet at the second preset position is grabbed, the pushing cylinder 204 moves again to supplement the pallet to the second preset position. After the pallets of the first stack pallet stack are grabbed, the feeding electric cylinder descends, the compensation cylinder 207, the tail end limiting cylinder 203, the material pressing cylinder, the arranging cylinder, the stack separating limiting cylinder and the like repeat the actions, the original second stack pallet stack is transferred and stacked to a first preset position, and the feeding electric cylinder drives the second stack pallet stack to move upwards.

In the process of replacing the pallet stack, if a certain buffer material mechanism is not arranged, discontinuity of production is caused inevitably, and the production efficiency is reduced. Therefore, the utility model discloses still set up buffer cylinder and buffering layer board on the upper portion of electric jar mount very much, when the layer board buttress of first default position is about to exhaust (two-layer as first buttress layer board buttress surplus, specifically can set up as required in a flexible way) needs to be changed the layer board buttress, buffer cylinder drives the buffering layer board and stretches out the layer board that bears first buttress layer board buttress surplus, the material loading electric jar returns, compensation cylinder 207, terminal spacing cylinder 203, press the material cylinder, the arrangement cylinder and divide the repeated above-mentioned action such as buttress spacing cylinder to realize changing the buttress feed supplement. The arrangement of the buffer cylinder and the buffer supporting plate avoids the material supply from being cut off in the stack changing process, and the production continuity is ensured.

The driving mechanism of the supporting plate conveying belt, the tail end limiting cylinder 203, the material pressing cylinder, the compensating cylinder 207, the feeding electric cylinder, the arranging cylinder, the stack separating limiting cylinder and the material pushing cylinder 204 can be respectively provided with an independent control mechanism, the coordinated movement among the cylinders or the electric cylinders is realized by setting time difference of two times of telescopic movement or lifting movement in the control mechanism, a control mechanism which is connected with and controls all the cylinders and the electric cylinders can be further arranged to control the coordinated movement of the electric cylinders and the air cylinders to finish the conveying of materials, and the control mechanism can be specifically arranged by referring to the prior art and adopting a computer or a single chip microcomputer. The control of the material conveying part 2 can be finished by inputting the running time interval, the sequence and the like, so that the continuous automatic feeding is realized, and the production continuity is ensured.

All the electric cylinders or the air cylinders are used for driving a certain part to move with a certain stroke, and not only the air cylinders or the electric cylinders can be adopted, but also hydraulic rods or electric push rods can be adopted according to requirements, and the reciprocating motion of the corresponding stroke can be completed.

The box opening part 3 comprises a first box body conveying belt 301 and a second box body conveying belt 302 for conveying the packing boxes, the first box body conveying belt 301 and the second box body conveying belt 302 are arranged in a parallel staggered mode, namely the tail end of the first box body conveying belt 301 is overlapped with the starting end of the second box body conveying belt 302, a box pushing mechanism 303 is arranged between the first box body conveying belt 301 and the second box body conveying belt 302, the box pushing mechanism 303 is used for pushing the packing boxes located above the first box body conveying belt 301 to the top of the second box body conveying belt 302, and a box opening mechanism 304 for opening the packing boxes is arranged above the second box body conveying belt 302.

Push away case mechanism 303 specifically can refer to fig. 1, fig. 4 and fig. 5, including setting up the case cylinder that pushes away at first box conveyer belt 301 and second box conveyer belt 302 overlap area, the direction of motion that pushes away the case cylinder is parallel with the width direction of first box conveyer belt 301 and the width direction of second box conveyer belt 302, through reciprocating motion with the continuous propelling movement of packing box to second box conveyer belt 302 on the first box conveyer belt 301, set up the packing box cardboard on the second box conveyer belt 302, interval between the adjacent packing box cardboard is the same with the length of packing box, it pushes away the case cylinder with the packing box propelling movement to between the adjacent packing box cardboard, be convenient for fix a position the packing box, drive the packing box simultaneously and follow the motion of second box conveyer belt 302. The box pushing cylinder can also adopt an electric push rod, and the time interval of the reciprocating motion of the box pushing cylinder or the electric push rod is arranged to ensure that the packing box is pushed to the position between the adjacent packing box clamping plates. And a certain detection mechanism can be arranged to push the packaging box when detecting the gap between the adjacent packaging box clamping plates.

As shown in fig. 6 and 7, the box supporting mechanism 304 includes a box supporting bracket 3041 disposed above the second box conveying belt 302, box supporting plates 3042 hinged to both sides of the box supporting bracket 3041, and a box supporting cylinder 3043 connected to the box supporting plate 3042. The box supporting cylinder 3043 is disposed outside the two sides of the box supporting bracket 3041, and is used to drive the box supporting plate 3042 to rotate around the box supporting bracket 3041, turn over toward the inside of the box supporting bracket 3041, and attach to the inner wall of the packing box above the second box conveying belt 302 in the box supporting bracket 3041, so as to completely open the packing box, and facilitate the packing robot 5 to integrally pack the bottom support and the glass bottle.

Further, the box supporting mechanism 304 further includes a transition plate 3044 disposed above the box supporting plate 3042, the transition plate 3044 is also hinged to both sides of the box supporting bracket 3041, and the transition plates 3044 disposed on both sides of the box supporting bracket 3041 have the same height; the transition plate 3044 may be connected to the box supporting cylinder 3043 or separately provided with a driving mechanism, and in a non-box supporting state, the transition plate 3044 is kept horizontal for placing the supporting plate (bottom support). The grabbing and supporting robot 4 grabs a bottom plate and places the bottom plate on the transition plate 3044, the boxing robot 5 grabs a group of glass bottles and fills the bottom supports, the transition plate 3044 rotates around the box supporting bracket 3041 to be opened to expose the packaging box, meanwhile, the box supporting cylinder 3043 drives the box supporting plate 3042 to turn over and attach to the inner wall of the packaging box to prop open the packaging box, and the boxing robot 5 puts the bottom supports filled with the glass bottles into the packaging box. When the box supporting cylinder 3043 is in a contracted state, the transition plate 3044 horizontally supports the supporting plate, when the box supporting cylinder 3043 extends, the transition plate 3044 is turned over and opened to expose the packaging box, and meanwhile, the box supporting plate 3042 is turned over and attached to the inner wall of the packaging box to complete box supporting. The two sides of the transition plate 3044 are provided with box-supporting positioning cylinders 3045, and when the support plate is placed on the transition plate 3044, the support plate is positioned by the box-supporting positioning cylinders 3045, which is convenient for glass bottle packing.

Referring further to fig. 10, in order to realize that the boxing robot 5 grabs the collet, the second gripper 6 of the boxing robot 5 includes a plurality of bottle-grabbing heads 601 for sucking the bottles, the bottle-grabbing heads 601 suck the bottles in a vacuum manner, the plurality of bottle-grabbing heads 601 are arranged at a predetermined interval, the preset distance is that the distance between the bottle grabbing heads 601 corresponds to the distance between the bottle filling positions on the bottom support, in order to adjust the distance between the bottle catching heads 601 and match with bottom supports of different models, the second gripper 6 further comprises a spacing cylinder 602 connected with all the bottle catching heads 601, the adjacent bottle catching heads 601 are connected through a limiting guide strip 604, a guide groove is arranged in the limiting guide strip 604, a limiting bulge matched with the guide groove is arranged on the side wall of the bottle catching head 601, the spacing cylinder 602 drives the limiting protrusion of the bottle grabbing heads 601 to move along the guide groove, so that the spacing between the bottle grabbing heads 601 can be adjusted to match with bottom supports of various models.

Furthermore, in order to facilitate the collet that will fill the glass bottle pack into the packing box in the lump, prevent that the collet from droing, second tongs 6 still is equipped with splint 603, splint 603 sets up around a set of bottle head 601 of grabbing, when grabbing bottle head 601 and absorbing a set of glass bottle and arranging the collet in, the lateral wall of splint 603 laminating collet realizes pressing from both sides the clamp of collet and gets fixedly, prevent that the collet from droing, put into the packing box back with the glass bottle together with the collet at second tongs 6, grab bottle head 601 and let out the glass bottle, under the glass bottle action of gravity, the collet separates with splint 603. To improve the boxing efficiency of the boxing robot 5, the second gripper 6 is generally capable of gripping two or more groups of vials simultaneously, with equal spacing between the two groups of pallets disposed on the transition plate 3044 between the two groups of vials.

The second box conveying belt 302 is further provided with a weight checking mechanism and a rejecting mechanism, the weight checking mechanism and the rejecting mechanism are arranged behind the boxing mechanism, when the boxing completion weight checking mechanism detects that the quality of the packaging box filled with the glass bottles is less than the preset quality, the packaging box is indicated to be not filled with the glass bottles, and the rejecting mechanism rejects the packaging box not filled with the glass bottles. The packaging box sealing device also comprises a box sealing part for sealing qualified packaging boxes filled with glass bottles, wherein the box sealing part comprises a folding mechanism for folding the packaging boxes, a tape pasting mechanism and a mark printing mechanism; the weight checking mechanism, the rejecting mechanism, the folding mechanism, the tape pasting mechanism and the mark code printing mechanism can be flexibly arranged by referring to the prior art, and detailed description is not provided.

It is noted that, in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.

It is right above that the utility model provides an automatic dress of glass bottle holds in palm vanning equipment has carried out detailed introduction. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (10)

1. The utility model provides an automatic dress of glass bottle holds in palm vanning equipment which characterized in that includes:

a bottle conveying section (1) for conveying the bottles at a predetermined pitch;

a material conveying part (2) for conveying and arranging the bottom support and the top cover;

a box opening part (3) for conveying the packing box and opening the packing box;

the grabbing and supporting robot (4) is arranged on one side of the tail end of the material conveying part (2), and the grabbing and supporting robot (4) is provided with a first gripper used for grabbing and placing a bottom support and a top cover;

the boxing robot (5) is arranged on one side of the glass bottle conveying part (1), and the boxing robot (5) is provided with a second gripper (6) used for gripping a group of glass bottles;

when the boxing robot (5) grabs a group of glass bottles to fill the bottom supports, the boxing robot (5) places the bottom supports filled with the glass bottles into the packing boxes after being spread, and the grabbing and supporting robot (4) is used for grabbing the top covers and buckling the top covers above the group of glass bottles in the packing boxes.

2. The apparatus for automatically palletizing and boxing bottles according to claim 1, wherein the bottle conveying section (1) comprises:

a channel sorting mechanism (101) for dividing the continuously conveyed glass bottles into a plurality of channels;

the collecting platform is arranged at the tail end of the channel bottle sorting mechanism (101) and comprises a glass bottle conveying belt and bottle separating plates (102) which are arranged along the length direction of the glass bottle conveying belt and used for separating the glass bottle conveying belt into a plurality of channels;

bottle blocking mechanisms (104) which are arranged at intervals along the upper part of the bottle conveying belt and are used for separating all the glass bottles on the bottle conveying belt by a preset number;

and a tail end bottle blocking mechanism (105) which is arranged at the tail end of the glass bottle conveying belt and used for blocking and limiting the glass bottles.

3. The apparatus for automatically palletizing and boxing bottles in accordance with claim 1, wherein said material conveying means (2) comprises a pallet conveying mechanism (201) and a top cover conveying mechanism (202); the bottom support conveying mechanism (201) and the top cover conveying mechanism (202) are arranged in parallel.

4. The apparatus for automatically palletizing and boxing bottles in accordance with claim 3, wherein said palletizing conveyor (201) and said cap conveyor (202) each comprise:

a pallet conveyor belt;

the tail end limiting cylinder (203) is arranged at the tail end of the supporting plate conveying belt, and a tail end baffle plate connected with the tail end limiting cylinder (203) is used for stopping the first supporting plate stack at the tail end of the supporting plate conveying belt under the driving of the tail end limiting cylinder (203);

the device comprises a limiting plate (205) arranged on one side of the tail end of the supporting plate conveying belt and a sorting cylinder which is arranged on the other side of the supporting plate conveying belt, is perpendicular to the limiting plate (205) and is used for pushing a first stack of supporting plate stacks to be attached to the limiting plate (205);

the material loading support plate (206) used for supporting the first stack of support plate stacks with the end baffle stops is connected with a compensation cylinder (207) of the material loading support plate (206), the compensation cylinder (207) is arranged in parallel with the tail end limiting cylinder (203), and the compensation cylinder (207) is identical to the stroke of the tail end limiting cylinder (203).

5. The apparatus for automatically palletizing and boxing bottles according to claim 4, wherein the unpacking section (3) comprises:

a first box body conveyer belt (301) for conveying the packing box;

a second box conveyor belt (302) which is arranged in parallel with the first box conveyor belt (301) in a staggered manner;

a box pushing mechanism (303) for conveying and pushing the packing boxes from the first box conveying belt (301) to the second box conveying belt (302);

and the box supporting mechanism (304) is erected above the second box conveying belt (302).

6. The apparatus for automatically palletizing and boxing bottles in accordance with claim 5, wherein said box supporting mechanism (304) comprises:

a box supporting bracket (3041) erected above the second box body conveying belt (302);

the box supporting plates (3042) are hinged to two sides of the box supporting bracket (3041) and are used for driving the box supporting plates (3042) to rotate and turn over so as to be attached to the inner side wall of the packing box and a box supporting cylinder (3043) for supporting the packing box;

the transition plate (3044) is arranged above the box supporting plate (3042) and hinged to the box supporting bracket (3041), and the transition plate (3044) is connected with the box supporting cylinder (3043);

the box supporting cylinder (3043) is vertically connected with the box supporting plate (3042) and the transition plate (3044) so that the transition plate (3044) is kept horizontal for placing a supporting plate and shielding a packaging box in a contraction state of the box supporting cylinder (3043); when the box supporting cylinder (3043) extends, the transition plate (3044) is driven to rotate to expose the packaging box, and meanwhile, the box supporting plate (3042) is driven to rotate to support the packaging box.

7. The automatic glass bottle supporting and boxing apparatus according to claim 6, wherein the transition plates (3044) are oppositely arranged at two sides of the box supporting bracket (3041), and the transition plates (3044) arranged at two sides of the box supporting bracket (3041) are arranged at the same height;

when the box supporting cylinder (3043) extends, the transition plates (3044) arranged on two sides of the box supporting bracket (3041) are jointed and spliced.

8. The apparatus for automatically palletizing and boxing bottles in accordance with claim 7, wherein said second gripper (6) comprises:

a plurality of bottle-grasping heads (601) arranged at a predetermined interval to suck the glass bottles;

a pitch cylinder (602) connected with all the bottle grabbing heads (601) and used for driving the bottle grabbing heads (601) to be separated by a preset distance;

the clamping plates (603) are arranged on the periphery of the bottle grabbing head (601) and used for being attached to the side wall of the bottom support when the bottle grabbing head (601) places the grabbed group of glass bottles in the bottom support.

9. The apparatus for automatically palletizing and boxing bottles in accordance with claim 5 or 6, wherein the second box conveyor (302) located after the box supporting mechanism (304) is further provided with a check weighing mechanism and a rejecting mechanism;

when the quality of the packing box with the glass bottles is smaller than the preset quality, the rejecting mechanism is used for rejecting the packing box with the quality not reaching the standard.

10. The apparatus according to claim 9, further comprising a box sealing section provided behind the rejecting mechanism; the box sealing part comprises a folding mechanism, a tape pasting mechanism and a code printing mechanism.

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