CN217573748U - Full-automatic PVC glue dripping production line - Google Patents

Full-automatic PVC glue dripping production line Download PDF

Info

Publication number
CN217573748U
CN217573748U CN202122667009.6U CN202122667009U CN217573748U CN 217573748 U CN217573748 U CN 217573748U CN 202122667009 U CN202122667009 U CN 202122667009U CN 217573748 U CN217573748 U CN 217573748U
Authority
CN
China
Prior art keywords
glue dripping
feeding belt
cylinder
mold
oven
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN202122667009.6U
Other languages
Chinese (zh)
Inventor
胡泉
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Dongguan Ming Hao Automation Equipment Co ltd
Original Assignee
Dongguan Ming Hao Automation Equipment Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Dongguan Ming Hao Automation Equipment Co ltd filed Critical Dongguan Ming Hao Automation Equipment Co ltd
Priority to CN202122667009.6U priority Critical patent/CN217573748U/en
Application granted granted Critical
Publication of CN217573748U publication Critical patent/CN217573748U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Making Paper Articles (AREA)

Abstract

The utility model discloses a full-automatic PVC drips and glues production line distributes according to the work flow and includes in proper order: the glue dripping mechanism, the mold baking mechanism, the mold cooling mechanism, the mold picking mechanism, the second feeding belt and the first feeding belt; first pay-off area is connected the realizing device circulation with the gum dripping mechanism, realizes the gum dripping processing lines, realizes the autoloading between each manufacturing procedure and switches, and the machining efficiency of effectual improvement gum dripping shaping processing for holistic machining efficiency is higher, and the cost of labor is also lower. The effect of automatic circulation backward flow of realization mould after processing for can realize the effect of a plurality of moulds automatic circulation processing simultaneously at the in-process of processing, make machining efficiency obtain the promotion of maximize, holistic machining efficiency obtains further promotion.

Description

Full-automatic PVC glue dripping production line
Technical Field
The utility model belongs to the technical field of the rubber drip processing, a full-automatic PVC rubber drip production line is related to.
Background
The drop molding process generally comprises: the glue dripping forming, drying, cooling and mold picking processing procedures are carried out, and in the current processing production, each processing procedure needs to use different processing equipment to work, so each procedure is carried out by a single machine in the processing process, manual feeding is needed to be carried out to the next procedure station after the processing is finished, the processing integrity is poor, the production efficiency is low, manual labor is depended, the production cost is high, the automation degree is low, and the automatic production requirement of the modern society cannot be met.
SUMMERY OF THE UTILITY MODEL
In order to realize the purpose, the utility model adopts the following technical scheme:
full-automatic PVC drips and glues production line includes according to work flow distribution in proper order: the glue dripping mechanism, the mold baking mechanism, the mold cooling mechanism, the mold picking mechanism, the second feeding belt and the first feeding belt;
the first feeding belt is connected with the glue dripping mechanism to realize circulation of the device.
As a further aspect of the present invention: the glue dripping mechanism comprises: the glue dripping Y-axis sliding module is arranged on the workbench; a bearing plate for placing a glue dripping mold is arranged on the glue dripping Y-axis sliding module, and a proximity sensor is arranged on the bearing plate;
an adjusting barrier strip is arranged on one side of the bearing plate, which is far away from the first feeding belt; the rear end of the bearing plate is provided with an avoidance groove arranged along the length direction of the bearing plate, and a lifting stop bar for realizing lifting through a cylinder is arranged in the avoidance groove;
a group of tightening cylinders are arranged on a workbench at the front end of the bearing plate, a piston rod of each tightening cylinder is provided with a tightening push plate, and the piston rod of each tightening cylinder makes telescopic motion towards the direction of the lifting stop bar;
the upper end of the glue dripping Y-axis sliding module is provided with a group of beam supports crossing the upper end of the glue dripping Y-axis sliding module, and the beam supports are provided with a group of glue dripping X-axis sliding modules; a glue dripping Z-axis lifting module is arranged on the sliding part of the glue dripping X-axis sliding module;
a glue dripping gun support which is horizontally arranged is arranged on a lifting part of the glue dripping Z-axis lifting module, a plurality of groups of glue dripping gun frames which are arranged in an arrayed mode are arranged on the glue dripping gun support, and a glue dripping gun is arranged in each glue dripping gun frame; the beam support is also provided with a cup holder, a plurality of cup grooves are formed in the cup holder, a cup is placed in each cup groove, and the cup and the glue gun are connected to form a glue dripping mechanism;
the glue dripping gun bracket is also provided with a UV lamp which irradiates downwards vertically;
a material frame is arranged at the rear end of the glue dripping Y-axis sliding module, and a pair of material frame guide rails which extend backwards into the die baking mechanism are arranged on two sides of the rear end of the glue dripping Y-axis sliding module; a corresponding sliding seat is arranged on the material frame guide rail in a sliding fit manner; two sides of the glue dripping Y-axis sliding module are respectively provided with a material pushing cylinder for pushing the sliding seat to move towards the die baking mechanism along the material frame guide rail;
a material frame lifting cylinder is installed on the sliding seat, and a piston rod of the material frame lifting cylinder stretches vertically upwards and is fixedly connected with the lateral lower end of the material frame;
and a plurality of groups of material frame lifting guide rails extending downwards are further arranged on two sides of the material frame, and guide sliding blocks corresponding to the material frame lifting guide rails in a matched mode are fixedly arranged on the sliding seats.
As a further aspect of the present invention: and a time delay sensor for detecting the working state of the die baking mechanism is also arranged at the midpoint of the glue dripping Y-axis sliding module.
As a further aspect of the present invention: roast mould mechanism includes: the feeding mechanism is respectively communicated with the glue dripping mechanism and the die cooling mechanism; the feeding mechanism comprises: the conveying device comprises two groups of stainless steel conveying chain groups which are symmetrically arranged, wherein four stainless steel conveying chain push rods are arranged between the two groups of stainless steel conveying chain groups; four stainless steel conveying chain push rods are uniformly distributed on the stainless steel conveying chain group;
still install baking equipment between the stainless steel conveying chain group, baking equipment includes: the oven comprises two oven groups, wherein each oven group comprises an upper oven and a lower oven, and a baking cavity is formed between the upper oven and the lower oven; the baking cavities of the two baking oven groups are communicated; the stainless steel conveying chain push rod is driven by the stainless steel conveying chain group to penetrate through the baking cavity;
the lift cylinder is released to the discharge gate position in toasting the chamber and is installed an oven, and the piston rod of lift cylinder is released to the oven is lifting motion downwards, installs the oven on the piston rod that the lift cylinder was released to the oven and releases the cylinder, and the piston rod that the cylinder was released to the oven is to toasting the inside extension in chamber, and the oven is released and is installed an oven and is pushed out the board on the piston rod of cylinder.
As a further aspect of the present invention: the cool mould mechanism includes: a cold mould cold water tank arranged at the rear end of the mould baking mechanism; the upper end of the cold water tank of the cold mold is provided with a separation net; the middle part of the cold water tank of the cold mould is provided with a water spray head which sprays upwards;
a drainage groove is formed at the side end of the cold water groove of the cold die, and a drainage outlet for draining water is formed in the drainage groove;
the cool mould mechanism still includes: the water outlet of the cold water tank is connected with the water spray head through a pipeline and a water pump; the water inlet of the cold water tank is connected with the water outlet through a pipeline;
and a cold mold pushing cylinder which pushes one side of the mold picking mechanism is arranged at the side end of the cold mold cold water tank.
As a further aspect of the present invention: choose mould mechanism to include: a sprocket roller group and a needle picking device;
the opening end of the chain wheel roller group is connected with the mold cooling mechanism, and the second feeding belt is arranged on the side part of the tail end of the chain wheel roller group;
a clamping lifting cylinder is mounted at one side, close to the second feeding belt, of the tail end of the chain wheel roller group, a piston rod of the clamping lifting cylinder moves downwards in a lifting mode, a clamping cylinder is mounted on a piston rod of the clamping lifting cylinder, the piston rod of the clamping cylinder extends towards the upper side of the chain wheel roller group, and a clamping pressing plate is mounted on the piston rod of the clamping cylinder;
a mold pushing rodless cylinder is mounted at the lower end of the tail end of the chain wheel roller group, and a piston rod of the mold pushing rodless cylinder moves from one side far away from the second feeding belt to one side close to the second feeding belt; a clamping push plate is arranged on a piston rod of the push mold rodless cylinder, and the upper end of the clamping push plate is branched and penetrates out of the rollers of the chain wheel roller group;
the needle picking device includes: the picking needle frame is provided with a picking needle for picking the product out of the die; a swing cylinder for driving the picking needle to swing is arranged on the picking needle frame;
the needle picking device further comprises: a triaxial drive module and set up in the terminal scraper blade of sprocket roller group for driving the picking needle and carry out XYZ triaxial motion.
The tail end of the chain wheel roller group is provided with a photoelectric sensor.
As a further aspect of the present invention: the second feeding belt comprises: a second feeding belt body, wherein two ends of the second feeding belt body are respectively connected with the mould picking mechanism and the first feeding belt
And the second feeding belt body is also provided with a second photoelectric sensor for detecting the feeding state of the first feeding belt.
As a further aspect of the present invention: the first feeding belt comprises: the opening end of the first feeding belt body is connected with the second feeding belt, and the tail end of the first feeding belt body extends to the side end of the glue dripping mechanism;
a pushing cylinder is arranged at the position of the tail end side of the first feeding belt body, and a piston rod of the pushing cylinder extends towards one side of the glue dripping mechanism; the tail end of the first feeding belt body is provided with a material baffle plate; the striker plate is provided with a control inductor.
The utility model has the advantages that: realize the rubber dripping processing lines, realize the autoloading between each manufacturing procedure and switch, the effectual machining efficiency who improves the rubber dripping shaping processing for holistic machining efficiency is higher, and the cost of labor is also lower.
The effect of automatic circulation backward flow after realizing the mould and processing for can realize the effect of a plurality of moulds automatic circulation processing simultaneously at the in-process of processing, make machining efficiency obtain the promotion of maximize, holistic machining efficiency obtains further promotion.
Drawings
FIG. 1 is a schematic diagram of the present invention.
Fig. 2 is a schematic structural view of the glue dripping mechanism in the invention.
Fig. 3 is a schematic view of another structure of the glue dripping mechanism of the present invention.
Fig. 4 is another structural schematic diagram of the glue dripping mechanism in the invention.
Fig. 5 is a schematic structural view of the grill mold mechanism according to the present invention.
Fig. 6 is still another structural view of the grill mechanism in accordance with the present invention.
Fig. 7 is a schematic structural view of the mold picking mechanism of the present invention.
FIG. 8 is a schematic view of the structure of the second feed belt of the present invention.
Fig. 9 is a schematic view of the structure of the first feeding belt in the present invention.
FIG. 10 is a schematic view of still another structure of the first feed belt of the present invention.
Detailed Description
The technical solutions in the embodiments of the present application will be described below clearly and completely with reference to the accompanying drawings in the embodiments of the present application, and it should be understood that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments, and that the present application is not limited by the exemplary embodiments disclosed and described herein. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element 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.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.
In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.
The utility model provides a please refer to fig. 1-10, in the embodiment of the utility model, full-automatic PVC glue dripping production line distributes according to the work flow and includes in proper order:
glue dripping mechanism 1: the glue dripping forming is used for carrying out glue dripping forming on the product in a mould in a glue dripping mode;
and (3) a baking mold mechanism 2: the drying device is used for drying products formed by glue dripping (different drying time and temperature can be set for different types of products);
and (3) a mold cooling mechanism: for rapid cooling of dried product and mold (different cooling time can be set for different types of product)
Choose mould mechanism 4: the mould picking machine is used for carrying out mould picking work on a product;
second feeding belt 5 and first feeding belt 6: the mould transmission device is used for conveying the machined mould;
the first feeding belt 6 is connected with the glue dripping mechanism 1 to realize device circulation.
Further comprising: the control panel is mainly used for controlling the automatic or manual working state of each mechanism and setting the working states of the heating time and temperature of the baking mold mechanism 2, the cooling time of the cooling mold mechanism 3 and the like.
Processing: the mould is placed on the first feeding belt 6, the mould is conveyed and placed to the glue dripping mechanism 1 through the first feeding belt 6, then glue dripping forming of a product is carried out on the mould through the glue dripping mechanism 1, then the mould is sent into the mould baking mechanism 2 through the glue dripping mechanism 1, and the product in the mould is dried for a certain time in a specific temperature environment through the mould baking mechanism 2; after drying, the product and the mould are sent into a mould cooling mechanism 3 by a mould baking mechanism 2 to be cooled, after cooling for a certain time, the mould is sent into a mould picking mechanism 4 by the mould cooling mechanism 3, and the product is picked out of the mould by the mould picking mechanism 4; the product is put into an external material box, the die is sent into the second feeding belt 5 by the die picking mechanism 4, then the second feeding belt 5 is sent back into the first feeding belt 6, and finally the first feeding belt 6 is sent back into the glue dripping mechanism 1 to realize circulation.
Further, the first feeding belt 6 includes: the opening end of the first feeding belt body 61 is connected with the second feeding belt 5, and the tail end of the first feeding belt body 61 extends to the side end of the glue dripping mechanism 1;
a pushing cylinder 62 is installed at a position on the end side of the first feeding belt body 61, and a piston rod of the pushing cylinder 62 extends toward one side of the glue dripping mechanism 1; the tail end of the first feeding belt body 61 is provided with a material baffle plate 63; the striker plate 63 is provided with a control sensor 64.
During first pay-off belt body 61 was put into to the mould, was driven by first pay-off belt body 61 and gos forward until offseting with striker plate 63 and then triggering control inductor 64, made first pay-off belt body 61 stop work, made propelling movement cylinder 62 begin work with the mould propelling movement to accomplish the material loading on the carrier plate 112 of dripping gluey mechanism 1, then propelling movement cylinder 62 resets and waits for next material loading work.
Further, the glue dripping mechanism 1 includes: a working table 11, wherein a group of glue dripping Y-axis sliding modules 19 are arranged on the working table 11; a bearing plate 112 for placing a glue dripping mold is arranged on the glue dripping Y-axis sliding module 19, and the proximity sensor 10 is arranged on the bearing plate 112;
an adjusting stop strip 114 is arranged on one side of the bearing plate 112 far away from the first feeding belt 6; the carrier plate 112 is provided with a plurality of adjustment holes arranged in an array, and the adjustment bars 114 can be fixedly matched with the adjustment holes through screws. The adjusting barrier strips 114 can be fixedly matched with the adjusting holes through screws; adjusting the placement position of the mold pushed in by the pushing cylinder 62 is accomplished by adjusting the position of the bars 114.
An avoiding groove (not shown) is arranged at the rear end of the bearing plate 112 along the length direction of the bearing plate, and a lifting stop bar 111 which can be lifted through a cylinder is arranged in the avoiding groove;
a group of clamping cylinders 113 are arranged on the workbench 11 at the front end position of the bearing plate 112, a clamping push plate (not shown) is arranged on a piston rod of each clamping cylinder 113, and the piston rod of each clamping cylinder 113 makes telescopic motion towards the direction of the lifting stop bar 111;
the mold is pushed into the bearing plate 112 by the pushing cylinder 62 of the first feeding belt 6, and the mold is abutted against the adjusting barrier strip 114 during pushing so that the mold is rightly arranged;
meanwhile, the mold triggers the proximity sensor 10, the proximity sensor 10 drives the clamping cylinder 113 to work, and the clamping cylinder 113 pushes the clamping push plate to push the mold to abut against the lifting stop bar 111, so that the positioning work of the mold is realized; completing the feeding and positioning actions of the die;
the upper end of the glue dripping Y-axis sliding module 19 is provided with a group of beam supports 17 crossing the upper end of the glue dripping Y-axis sliding module 19, and the beam supports 17 are provided with a group of glue dripping X-axis sliding modules 19; a glue dripping Z-axis lifting module 15 is arranged on the sliding part of the glue dripping X-axis sliding module 19;
a glue dripping gun support 13 which is horizontally arranged is arranged on the lifting part of the glue dripping Z-axis lifting module 15, a plurality of groups of glue dripping gun frames 14 which are arranged on the glue dripping gun support 13, and glue dripping guns (not shown) are arranged in the glue dripping gun frames 14; a cup holder 16 is further mounted on the beam support 17, a plurality of cup grooves 161 are formed in the cup holder 16, a cup (not shown) is placed in each cup groove 161, and a group of glue dripping groups are formed by connecting one cup and one glue dripping gun;
the glue dripping gun bracket 13 is also provided with a UV lamp 12 which irradiates vertically downwards;
after the feeding and positioning actions are finished, the glue dripping Y-axis sliding module 19, the glue dripping X-axis sliding module 19 and the glue dripping Z-axis lifting module 15 are controlled by an automatic control program to drive the die and the glue dripping gun to perform three-axis motion matching, so that the glue dripping product is formed and processed in each forming cavity of the die;
processing: after finishing processing of the finish in each forming cavity by the glue dripping gun, driving the UV lamp 12 to scan the finish in each forming cavity one by the glue dripping Y-axis sliding module 19, the glue dripping X-axis sliding module 19 and the glue dripping Z-axis lifting module 15 so as to realize the effect of preheating and curing the finish; the phenomenon that the molding rate of the product is influenced by the mixing of the finish and the primer during the secondary glue dripping processing (primer processing) is avoided.
Then, the glue dripping Y-axis sliding module 19, the glue dripping X-axis sliding module 19 and the glue dripping Z-axis lifting module 15 are controlled by an automatic control program to drive the mould and the glue dripping gun to perform three-axis motion matching again, so that the processing of the primer is realized; finishing the glue dripping processing action;
a material frame 118 is arranged at the rear end of the glue dripping Y-axis sliding module 19, and a pair of material frame guide rails 113 which extend backwards into the die baking mechanism 2 are arranged on two sides of the rear end of the glue dripping Y-axis sliding module 19; a corresponding sliding seat 116 is arranged on the material frame guide rail 113 in a sliding fit manner; two sides of the glue dripping Y-axis sliding module 19 are respectively provided with a material pushing cylinder 120 for pushing the sliding base 116 to move towards the die baking mechanism 2 along the material frame guide rail 113;
a material frame lifting cylinder 119 is installed on the sliding seat 116, and a piston rod of the material frame lifting cylinder 119 vertically extends upwards and is fixedly connected with the side lower end of the material frame 118;
a plurality of groups of material frame lifting guide rails 117 extending downwards are further mounted on two sides of the material frame 118, and guide sliders 116 corresponding to the material frame lifting guide rails 117 in a matched manner are fixedly mounted on the sliding base 116;
after the glue dripping operation is completed, the glue dripping Y-axis sliding module 19 drives the bearing plate 112 and the mold to move to the lower end of the material frame 118; then, the material frame 118 is driven to descend by the material frame lifting cylinder 119, and four sides of the mold on the bearing plate 112 are surrounded and blocked; then the material pushing and feeding cylinder 120 drives the material frame 118 to move towards the direction of the mould baking mechanism 2; meanwhile, the material frame 118 drives the mold to move towards the mold baking mechanism 2; before moving, the lifting stop strip 111 descends into the avoidance groove to avoid, and after moving, the lifting stop strip ascends again to reset.
After the mold is carried into the mold baking mechanism 2 by the frame 118 and leaves the carrier plate 112, the glue-dropping Y-axis sliding module 19 leaves the carrier plate 112 to reset for carrying the next set of mold;
after the material frame 118 drives the mold to enter the mold baking mechanism 2, the material frame lifting cylinder 119 drives the material frame 118 to ascend, and the material pushing cylinder 120 drives the material frame 118 to exit the mold baking mechanism 2 to reset, so that the mold feeding work is completed.
Furthermore, a delay sensor (not shown) for detecting the working state of the baking mould mechanism 2 is arranged at the midpoint of the glue dripping Y-axis sliding module 19; in the process of feeding the die, when the delay sensor senses that the die baking mechanism 2 and the die being dried are still being processed, the delay sensor controls the glue dripping Y-axis sliding module 19 to pause to work until the die baking mechanism 2 sends the die to be processed out, and the delay sensor starts the glue dripping Y-axis sliding module 19 again to feed the die.
Furthermore, a plurality of groups of pressure gauges 122 arranged in an array manner for checking the glue dripping groups are arranged at the front end of the workbench 11, a pressure regulating valve 123 corresponding to each pressure gauge 122 is arranged at the lower end of each pressure gauge 122, and the corresponding pressure gauge 122 and the pressure regulating valve 123 correspond to one group of glue dripping groups; in the using process, the pressure regulating valve 123 is matched with the pressure gauge 122 to regulate the pressure of the glue dripping group so as to meet different glue dripping requirements.
Further, a plurality of adjusting valves 121 for adjusting the height of the glue dripping gun are arranged at the rear end of the beam support 17, and one adjusting valve 121 corresponds to one glue dripping gun of one group of glue dripping groups.
Further, the baking mold mechanism 2 includes: the feeding mechanism is respectively communicated with the glue dripping mechanism 1 and the die cooling mechanism 3; the feeding mechanism comprises: two groups of stainless steel conveying chain groups 27 which are symmetrically arranged, wherein four stainless steel conveying chain push rods 28 are arranged between the two groups of stainless steel conveying chain groups 27; four stainless steel conveying chain push rods 28 are uniformly distributed on the stainless steel conveying chain group 27; wherein, four stainless steel conveying chain push rods 28 are distributed at the middle positions of the front end, the rear end, the upper end and the lower end of the stainless steel conveying chain group 27; when the stainless steel conveying chain group 27 works, the stainless steel conveying chain push rod 28 located at the position is driven to the next position (for example, the stainless steel conveying chain push rod 28 originally located at the beginning position is driven to the upper end of the stainless steel conveying chain group 27);
still install baking equipment between stainless steel conveying chain group 27, baking equipment includes: two groups of oven groups 21, wherein each group of oven groups 21 comprises an upper oven 22 and a lower oven 26, and an oven cavity is formed between the upper oven 22 and the lower oven 26; the baking cavities of the two baking oven groups 21 are communicated; the stainless steel conveying chain push rod 28 is driven by the stainless steel conveying chain group 27 to pass through the baking cavity;
the material frame guide rail 113 extends into the first baking cavity (i.e. the baking cavity close to the baking oven group 21 of the glue dripping mechanism 1);
in the working process, after the die is brought into the first baking cavity through the material frame 118, the die is dried at high temperature through the baking oven group 21, after the die is dried for a certain time, the stainless steel conveying chain group 27 drives the stainless steel conveying chain push rod 28 to advance, and then the die in the first baking cavity is pushed into the second baking cavity through the stainless steel conveying chain push rod 28 to be continuously dried; the position of the first baking cavity is vacated so that the glue dripping mechanism 1 can feed in the subsequent die;
the baking temperature in the first baking cavity is the same as that in the second baking cavity, and the baking time of the die in the two baking cavities is the same; in the actual processing, the baking device with double stations is used for placing the drying molds in the two baking cavities all the time; the drying time of the product in the mold is ensured, and the mold after the subsequent glue dripping is finished can also quickly enter the drying work, so that the condition that the glue dripping mechanism 1 waits for drying in the processing process is effectively avoided; thereby improving the production efficiency of processing;
similarly, in the working process, the stainless steel conveying chain group 27 drives the stainless steel conveying chain push rod 28 to advance, so that the mold in the first baking cavity is pushed to the second baking cavity through the stainless steel conveying chain push rod 28, and if a mold is arranged in the second baking cavity, the mold is pushed out by the stainless steel conveying chain push rod 28.
Wherein the time delay sensor of the glue dripping Y-axis sliding module 19 senses the main use for detecting whether there is a mould in the drying process in the first baking cavity, if there is a mould in the drying process in the first baking cavity, the time delay sensor can control the glue dripping Y-axis sliding module 19 to pause and work, and when the mould in the drying process is sent out by the first baking cavity, the time delay sensor restarts the glue dripping Y-axis sliding module 19 to carry out the mould feeding work.
An oven pushing and lifting cylinder 24 is installed at a discharge port of the baking cavity, a piston rod of the oven pushing and lifting cylinder 24 moves downwards in a lifting mode, an oven pushing cylinder 25 is installed on the piston rod of the oven pushing and lifting cylinder 24, the piston rod of the oven pushing cylinder 25 extends towards the inside of the baking cavity, and an oven pushing plate 23 is installed on the piston rod of the oven pushing cylinder 25;
during the process that the mold is pushed outwards by the stainless steel conveying chain push rod 28 in the second baking cavity, the mold cannot be completely pushed out of the baking cavity due to the structural characteristics of the stainless steel conveying chain push rod 28;
therefore, after the mold is pushed out by the stainless steel conveying chain push rod 28, the oven push-out cylinder 25 works to move the oven push-out plate 23 to the rear upper end of the mold, then the oven push-out lifting cylinder 24 drives the oven push-out lifting cylinder to descend, so that the oven push-out plate 23 moves to the rear end of the oven, finally the oven push-out cylinder 25 drives the oven push-out plate 23 to return outwards, the oven push-out plate 23 pushes the mold out and falls into the mold cooling mechanism 3 in the return process, and the mold drying and the delivery work after the mold drying are completed.
Further, the mold cooling mechanism 3 includes: a cold mold cold water tank 31 arranged at the rear end of the mold baking mechanism 2; the upper end of the cold mold cold water tank 31 is provided with a separation net 35; the middle part of the cold water tank 31 of the cold mold is provided with a water spray head 32 which sprays upwards;
a drainage groove 33 is formed at the side end of the cold mold cold water groove 31, and a drainage port (not shown) for drainage is formed in the drainage groove 33;
the mold cooling mechanism 3 further comprises: a water outlet of the cold water tank 34 is connected with the sprinkler head 32 through a pipeline and a water pump; the water inlet of the cold water tank 34 is connected with the water outlet through a pipeline;
after the mold is dried, the mold is pushed to the cold mold cold water tank 31 by an oven push-out plate 23 driven by an oven push-out cylinder 25 and is cushioned by a separation net 35;
then the water pump starts to work, the cold water in the cold water tank 34 is pumped out and sprayed on the lower end face of the die through the water spray head 32, so that the die is rapidly cooled, the sprayed water overflows from the cold die cold water tank 31, flows into the drainage tank 33 and flows back to the cold water tank 34 through the drainage port, and water circulation is achieved;
the sprinkler head 32 can continuously spray water for cooling within the set cooling time, the water pump is closed after the cooling is finished, and the sprinkler head 32 stops working to finish the cooling work;
a cold mold pushing cylinder 62 which pushes one side of the mold picking mechanism 4 is arranged at the side end of the cold mold cold water tank 31;
after the cooling work is completed, the cold die pushing cylinder 62 works to push the module into the picking mechanism 4, and then the cold die pushing cylinder 62 resets to wait for the subsequent die feeding.
Further, choose mould mechanism 4 to include: a sprocket roller group 41 and a needle picking device;
the sprocket roller group 41 includes: a set of powered sprocket rollers 412 and a plurality of sets of unpowered sprocket rollers 413; the transmission between the powered sprocket roller 412 and one group of the unpowered sprocket rollers 413 is realized through a chain, and the transmission between the unpowered sprocket rollers 413 is also realized through a chain, so that the effect that the powered sprocket roller 412 drives the unpowered sprocket rollers 413 to work is realized.
The opening end of the chain wheel roller group 41 is connected with the cooling mold mechanism 3, and the second feeding belt 5 is arranged on the side part of the tail end of the chain wheel roller group 41;
a clamping lifting cylinder 40 is installed at one side, close to the second feeding belt 5, of the tail end of the chain wheel roller group 41, a piston rod of the clamping lifting cylinder 40 moves downwards in a lifting mode, a clamping cylinder 411 is installed on the piston rod of the clamping lifting cylinder 40, the piston rod of the clamping cylinder 411 extends towards the upper side of the chain wheel roller group 41, and a clamping pressing plate 48 is installed on the piston rod of the clamping cylinder 411;
a mould pushing rodless cylinder 49 is arranged at the lower end of the tail end of the chain wheel roller group 41, and a piston rod of the mould pushing rodless cylinder 49 moves from one side far away from the second feeding belt 5 to one side close to the second feeding belt 5; a clamping push plate 46 is arranged on a piston rod of the mould pushing rodless cylinder 49, and the upper end of the clamping push plate 46 is branched and penetrates out of the rollers of the chain wheel roller group 41;
the needle raising device comprises: a picking needle frame 42, wherein a picking needle 45 for picking the product out of the die is arranged on the picking needle frame 42; the picking needle frame 42 is provided with a swing cylinder 44 for driving the picking needle 45 to swing;
the needle picking device further comprises: a three-axis driving module 43 for driving the picking needle 45 to perform XYZ three-axis motion, and a scraper 414 disposed at the end of the sprocket roller set 41.
A photoelectric sensor 47 is arranged at the tail end of the chain wheel roller group 41;
after the mold enters the mold picking mechanism 4, the mold is driven by the sprocket roller group 41 to be pushed forward until the photoelectric sensor 47 is triggered, and the photoelectric sensor 47 drives the clamping cylinder 411 and the mold pushing rodless cylinder 49 to work simultaneously after being triggered, so that the clamping pressing plate 48 and the clamping pushing plate 46 are close to the middle part of the sprocket roller group 41 simultaneously until the clamping pressing plate 48 and the clamping pushing plate 46 clamp the mold to realize positioning and clamping;
after positioning and clamping, the three-axis driving module 43 drives the picking needle 45 to move at least the position of a forming cavity of the mold, then the swinging cylinder 44 drives the picking needle 45 to swing to pick out a product, the picked product is hung on the picking needle 45, then the three-axis driving module 43 drives the picking needle 45 to move from the upper end of the scraping plate 414 to the outer side of the tail end of the chain wheel roller group 41 (where a material box is placed), then the three-axis driving module 43 drives the picking needle 45 to descend and simultaneously drives the picking needle 45 to reset backwards to move, so that the product is in contact with the scraping plate 414, the product hung on the picking needle 45 is scraped down by the scraping plate 414 to fall into the material box to realize the action of picking and blanking, and the operation of picking and blanking is repeated;
after the blanking work of the mold picking is finished, after the needle picking device is machined, the clamping cylinder 411 resets, the clamping lifting cylinder 40 drives the clamping cylinder 411 to lift up, so that a material passing gap is formed between the clamping push plate 46 and the unpowered sprocket roller group 41, then the mold pushing rodless cylinder 49 performs secondary work pushing, the mold on the unpowered sprocket roller group 41 is pushed into the second feeding belt 5 from the material passing gap through the clamping push plate 46, and the feeding work after the mold picking is finished; then the push mold rodless cylinder 49 drives the clamping push plate 46 to reset to wait for the subsequent mold feeding.
Further, the second feeding belt 5 includes: the two ends of the second feeding belt body 51 are respectively connected with the mould picking mechanism 4 and the first feeding belt 6;
after the mold enters the second feeding belt body 51, the second feeding belt body 51 drives the mold to transmit to the first feeding belt 6, so that the transfer effect is realized;
the second feeding belt body 51 is also provided with a second photoelectric sensor 55;
in the transferring process, the second photoelectric sensor 55 can continuously sense the feeding state of the first feeding belt 6, and if mold products which are not transmitted are still required on the first feeding belt 6, the second photoelectric sensor 55 controls the second feeding belt body 51 to stop working, so that the condition of material accumulation on the first feeding belt 6 is avoided; otherwise, the work is controlled normally.
Furthermore, the first feeding belt body 61 and the second feeding belt body 51 are respectively provided with a speed reducing motor 53 and a speed regulator 54 for regulating the feeding speed of the first feeding belt body 61 and the second feeding belt body 51; the device is used for realizing the effect of different conveying speeds under different conditions and the effect of stopping the machine in the working process according to different product molds.
Furthermore, a pair of adjustable adjusting baffles 52 are arranged on two sides of the first feeding belt body 61 and the second feeding belt body 51, and the effect of conveying and guiding different product dies according to the sizes of the different product dies is realized by adjusting the positions between the adjusting baffles 52.
It is further noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. The term "comprising", without further limitation, means that the element so defined is not excluded from the group consisting of additional identical elements in the process, method, article, or apparatus that comprises the element.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. Full-automatic PVC drips and glues production line, its characterized in that distributes according to the work flow and includes in proper order: the mould cooling mechanism is connected with the mould picking mechanism through a first feeding belt;
a glue dripping mechanism: the glue dripping forming is used for carrying out glue dripping forming on the product in a mould in a glue dripping mode;
a mold baking mechanism: the product that is used for will dripping after the glue shaping carries out stoving work, and it includes: the feeding mechanism is respectively communicated with the glue dripping mechanism and the die cooling mechanism;
a mold cooling mechanism: a quick cooling work for product and mould after drying, it includes: a cold mould cold water tank arranged at the rear end of the mould baking mechanism; the upper end of the cold water tank of the cold mold is provided with a separation net; the middle part of the cold water tank of the cold mould is provided with a water spray head which sprays upwards;
choose the mould mechanism: a choose mould work for being directed at the product, it includes: a sprocket roller group and a picking needle device;
a second feeding belt and a first feeding belt: the second feeding belt is connected with the die picking mechanism and is used for conveying the processed die; the first feeding belt is respectively connected with the second feeding belt and the glue dripping mechanism to realize circulation of the device.
2. The full-automatic PVC glue dripping production line according to claim 1, wherein the glue dripping mechanism comprises: the glue dripping Y-axis sliding module is arranged on the workbench; a support plate for placing a glue dripping mold is arranged on the glue dripping Y-axis sliding module, and a proximity sensor is arranged on the support plate;
an adjusting barrier strip is arranged on one side of the bearing plate, which is far away from the first feeding belt; the rear end of the bearing plate is provided with an avoidance groove arranged along the length direction of the bearing plate, and a lifting stop bar for realizing lifting through a cylinder is arranged in the avoidance groove;
a group of tightening cylinders are arranged on a workbench at the front end of the bearing plate, a piston rod of each tightening cylinder is provided with a tightening push plate, and the piston rod of each tightening cylinder makes telescopic motion towards the direction of the lifting stop bar;
the upper end of the glue dripping Y-axis sliding module is provided with a group of beam supports crossing the upper end of the glue dripping Y-axis sliding module, and the beam supports are provided with a group of glue dripping X-axis sliding modules; a glue dripping Z-axis lifting module is arranged on the sliding part of the glue dripping X-axis sliding module;
a glue dripping gun support which is horizontally arranged is arranged on a lifting part of the glue dripping Z-axis lifting module, a plurality of groups of glue dripping gun frames which are arranged in an arrayed mode are arranged on the glue dripping gun support, and a glue dripping gun is arranged in each glue dripping gun frame; the beam support is also provided with a cup holder, a plurality of cup grooves are formed in the cup holder, a cup is placed in each cup groove, and the cup and the glue gun are connected to form a glue dripping mechanism;
the glue dripping gun bracket is also provided with a UV lamp which irradiates downwards vertically;
a material frame is arranged at the rear end of the glue dripping Y-axis sliding module, and a pair of material frame guide rails which extend backwards into the die baking mechanism are arranged on two sides of the rear end of the glue dripping Y-axis sliding module; a corresponding sliding seat is arranged on the material frame guide rail in a sliding fit manner; two sides of the glue dripping Y-axis sliding module are respectively provided with a material pushing cylinder for pushing the sliding seat to move towards the die baking mechanism along the material frame guide rail;
a material frame lifting cylinder is installed on the sliding seat, and a piston rod of the material frame lifting cylinder stretches vertically upwards and is fixedly connected with the lateral lower end of the material frame;
and a plurality of groups of material frame lifting guide rails extending downwards are further arranged on two sides of the material frame, and guide sliding blocks corresponding to the material frame lifting guide rails in a matched mode are fixedly arranged on the sliding seats.
3. The automatic PVC glue dripping production line according to claim 2, wherein a delay sensor for detecting the working state of the die baking mechanism is further arranged at the midpoint of the glue dripping Y-axis sliding module.
4. The full-automatic PVC glue dripping production line according to claim 1, wherein in the mould baking mechanism: the feeding mechanism comprises: the conveying device comprises two groups of stainless steel conveying chain groups which are symmetrically arranged, wherein four stainless steel conveying chain push rods are arranged between the two groups of stainless steel conveying chain groups; four stainless steel conveying chain push rods are uniformly distributed on the stainless steel conveying chain group;
still install baking equipment between the stainless steel conveying chain group, baking equipment includes: the oven comprises two oven groups, wherein each oven group comprises an upper oven and a lower oven, and an oven cavity is formed between the upper oven and the lower oven; the baking cavities of the two baking oven groups are communicated; the stainless steel conveying chain push rod is driven by the stainless steel conveying chain group to penetrate through the baking cavity;
the lift cylinder is released to the discharge gate position in toasting the chamber and is installed an oven, and the piston rod of lift cylinder is released to the oven is lifting motion downwards, installs the oven on the piston rod that the lift cylinder was released to the oven and releases the cylinder, and the piston rod that the cylinder was released to the oven is to toasting the inside extension in chamber, and the oven is released and is installed an oven and is pushed out the board on the piston rod of cylinder.
5. The full-automatic PVC glue dripping production line according to claim 1, wherein a drainage groove is formed at the side end of a cold water groove of the cold mold mechanism, and a drainage port for drainage is formed in the drainage groove;
the cool mould mechanism still includes: the water outlet of the cold water tank is connected with the water spray head through a pipeline and a water pump; the water inlet of the cold water tank is connected with the water outlet through a pipeline;
and a cold mold pushing cylinder which pushes one side of the mold picking mechanism to move is arranged at the side end of the cold mold cold water tank.
6. The full-automatic PVC glue dripping production line according to claim 1, characterized in that in the mould picking mechanism:
the opening end of the chain wheel roller group is connected with the mold cooling mechanism, and the second feeding belt is arranged on the side part of the tail end of the chain wheel roller group;
a clamping lifting cylinder is mounted at one side, close to the second feeding belt, of the tail end of the chain wheel roller group, a piston rod of the clamping lifting cylinder moves downwards in a lifting mode, a clamping cylinder is mounted on a piston rod of the clamping lifting cylinder, the piston rod of the clamping cylinder extends towards the upper side of the chain wheel roller group, and a clamping pressing plate is mounted on the piston rod of the clamping cylinder;
a mold pushing rodless cylinder is mounted at the lower end of the tail end of the chain wheel roller group, and a piston rod of the mold pushing rodless cylinder moves from one side far away from the second feeding belt to one side close to the second feeding belt; a clamping push plate is arranged on a piston rod of the push mold rodless cylinder, and the upper end of the clamping push plate is branched and penetrates out of the rollers of the chain wheel roller group;
the needle picking device includes: the picking needle frame is provided with a picking needle for picking the product out of the die; a swing cylinder for driving the picking needle to swing is arranged on the picking needle frame;
the needle picking device further comprises: the three-axis driving module is used for driving the picking needle to perform XYZ three-axis motion, and the scraper is arranged at the tail end of the chain wheel roller group;
the tail end of the chain wheel roller group is provided with a photoelectric sensor.
7. The full-automatic PVC glue dripping production line according to claim 1, wherein the second feeding belt comprises: a second feeding belt body, wherein two ends of the second feeding belt body are respectively connected with the mould picking mechanism and the first feeding belt
And the second feeding belt body is also provided with a second photoelectric sensor for detecting the feeding state of the first feeding belt.
8. The full-automatic PVC glue dripping production line according to claim 1, wherein the first feeding belt comprises: the opening end of the first feeding belt body is connected with the second feeding belt, and the tail end of the first feeding belt body extends to the side end of the glue dripping mechanism;
a pushing cylinder is arranged at the position of the tail end side of the first feeding belt body, and a piston rod of the pushing cylinder extends towards one side of the glue dripping mechanism; the tail end of the first feeding belt body is provided with a material baffle plate; the striker plate is provided with a control inductor.
CN202122667009.6U 2021-11-02 2021-11-02 Full-automatic PVC glue dripping production line Active CN217573748U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122667009.6U CN217573748U (en) 2021-11-02 2021-11-02 Full-automatic PVC glue dripping production line

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122667009.6U CN217573748U (en) 2021-11-02 2021-11-02 Full-automatic PVC glue dripping production line

Publications (1)

Publication Number Publication Date
CN217573748U true CN217573748U (en) 2022-10-14

Family

ID=83525258

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202122667009.6U Active CN217573748U (en) 2021-11-02 2021-11-02 Full-automatic PVC glue dripping production line

Country Status (1)

Country Link
CN (1) CN217573748U (en)

Similar Documents

Publication Publication Date Title
US9783928B2 (en) Full-automatic manufacturing method of plant fiber molded product, and multifunctional machine for molding and trimming
CN113927805A (en) Full-automatic PVC glue dripping production line
CN109318466B (en) Automatic plastic suction forming machine and automatic plastic suction forming method for box shell
CN210257334U (en) Automatic glove production line
CN112222397B (en) Zinc alloy shaping cooling integration apparatus for producing
CN116198164B (en) One-die multi-cavity flat vulcanizing machine for tire production
CN210850679U (en) Plate bending device
CN216578857U (en) Full-automatic PVC (polyvinyl chloride) glue dripping forming line
CN217573748U (en) Full-automatic PVC glue dripping production line
CN213005842U (en) Automated production equipment for atomizing core
CN211688811U (en) A equipment of bending for preparation of quartz cylinder body
CN112060616A (en) Gum dipping production line for labor protection gloves
CN109626800B (en) Aspherical optical lens compression molding assembly line
CN209035383U (en) A kind of automobile control arm forging line
CN216396961U (en) PC panel coating UV shines drying equipment
CN214677834U (en) Automatic hot-pressing equipment for three-dimensional cyclic movement of die
CN214447706U (en) Automatic hot-pressing equipment with mold moving circularly on plane
CN210257333U (en) Complete equipment for automatic glove production
CN211868406U (en) Forming mechanism of inferior gram force board
CN114231713A (en) Hot-pressing quenching system for mower blade
CN212920161U (en) Plastic part hot press unit with water-cooling structure
CN112737236A (en) Automatic die-casting production method of aluminum motor rotor
CN212312501U (en) Automatic demoulding device for production of labor protection gloves
CN212242241U (en) Gum dipping production line for labor protection gloves
CN108312608B (en) Full-automatic clutch facing hot press

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant