CN212372561U - Equipment for loading plastic sucking disc on injection molding machine - Google Patents

Abstract

The utility model discloses an injection molding machine unloading dress plastic sucking disc equipment, including moving the material taking manipulator who carries the product in the injection molding machine, with the corresponding complex unloader of material taking manipulator, unloader including the empty material that is used for bearing the plastic sucking disc of a plurality of empty materials place the structure, be used for packing into the product the material loading transition structure of plastic sucking disc, be located the material loading transition structure side put rotary platform temporarily and be used for bearing the full material placement structure of a plurality of full material plastic sucking disc, unloader's below is equipped with and is used for pressing from both sides the plastic sucking disc that is located empty material placement structure lower floor and transfers according to the preface and puts up in the material loading transition structure to transfer the tray adsorption structure of placing the structure below to full material once more. The utility model discloses a plastic uptake dish circulation of continuously feeding.

Description

Equipment for loading plastic sucking disc on injection molding machine

Technical Field

The utility model belongs to the technical field of automatic transportation equipment, especially, relate to an injection molding machine unloading dress plastic sucking disc equipment.

Background

In the era of rapid development of mechanical automation, if mechanical equipment with higher automation degree needs to be shut down due to interruption of feeding in the continuous operation process of the mechanical equipment, the working efficiency is often reduced, and each start of the mechanical equipment needs to be combined with self-checking of a program or self-checking of a multi-process machine to enter an accurate operation state. For example, in a feeding operation of the blister tray, an empty blister tray in the stack is sucked to a loading mechanism to load the blister tray and then to send the tray to the next process, and a continuous loading may not be formed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the technical problem and providing injection molding machine unloading dress plastic sucking plate equipment to realize that the plastic sucking plate lasts the circulation of feeding. In order to achieve the above purpose, the utility model discloses technical scheme as follows:

injection molding machine unloading dress plastic sucking plate equipment, including the material taking manipulator who moves the interior product of injection molding machine, with the corresponding complex unloader of material taking manipulator, unloader includes the empty material placement structure that is used for bearing the plastic sucking plate of a plurality of empty materials, the material loading transition structure that is used for packing into the product plastic sucking plate, the rotatory platform of temporarily putting that is located the material loading transition structure side and the full material placement structure that is used for bearing the plastic sucking plate of a plurality of full materials, unloader's below is equipped with and is used for pressing from both sides the plastic sucking plate that is located empty material placement structure lower floor and transfer in proper order and put on the material loading transition structure, and transfer the tray adsorption structure below the full material placement structure once more, unloader still includes triaxial pneumatic module, along the variable-pitch material sucking subassembly of the adjustable absorption product interval that triaxial pneumatic module removed, temporarily put rotatory platform and material taking manipulator corresponding cooperation, and the variable-pitch material sucking assembly sucks the product in the temporary placing rotating platform to the corresponding position in the plastic sucking disc on the feeding transition structure.

Specifically, empty material placement structure is including locating empty material support on the workstation, locating empty first braced frame at material support top, the connecting rod locating component who sets up along first braced frame's both sides.

Specifically, the connecting rod positioning assembly comprises a connecting rod which is embedded on the surface of the first supporting frame in a clamping manner, a plurality of sliding grooves which are formed in the connecting rod, a clamping block which is connected with the sliding grooves through a connecting shaft, and a connecting rod cylinder which drives the connecting rod to move along the length direction of the first supporting frame; the clamping block extends to the side of the plastic sucking disc in a telescopic mode and is clamped and positioned.

Specifically, the feeding transition structure comprises a feeding support and a positioning supporting angle arranged at the top of the feeding support; the positioning supporting angle is positioned at the side edge or the top angle of the plastic sucking disc and is of a structure with a thin upper part and a thick lower part.

Specifically, the full material placing structure comprises a full material support, a second supporting frame arranged at the top of the full material support, and a plurality of one-way stopping slider structures arranged along the inner periphery of the second supporting frame at intervals.

Specifically, one-way locking slider structure is equipped with taut spring including the fixed slot of connecting second braced frame, the rotatable slider of locating in the fixed slot between slider and the fixed slot, and the bottom of slider is equipped with the inclined plane, and the slider is along the vertical upwards rotation of fixed slot.

Specifically, a group of ejection structures which are arranged oppositely and used for ejecting the plastic sucking discs from the second bracket frame and sliding the plastic sucking discs into the frame at the top of the sliding block are arranged below the full-material bracket.

Specifically, the ejection structure comprises a pushing cylinder and an ejector rod connected with the pushing cylinder; the top end of an ejector rod is provided with a horizontal top plate, and the ejector rod and the top plate both act on the bottom of the plastic sucking disc.

Specifically, the tray adsorption structure comprises a bottom plate moving along the slide rail and tray adsorption components arranged at two ends of the bottom plate; the tray adsorption component comprises a guide pillar and guide sleeve matching piece connected with the bottom plate, a tray arranged on the top of the guide pillar, L-shaped clamping plates arranged on two sides of the tray, and a plurality of suckers arranged at the bottom of the tray and extending to the surface of the tray; the surface of the tray bears the bottom of the plastic sucking disc, the L-shaped clamping plates clamp the two sides of the plastic sucking disc, the bottom of the tray is connected with a tray cylinder for jacking the tray to lift, and the suction head is correspondingly adsorbed and attached to the bottom of the plastic sucking disc.

Specifically, the variable-pitch material sucking assembly comprises a material sucking plate and variable-pitch assemblies arranged on two sides of the material sucking plate; the material suction plate is provided with a through hole extending obliquely, and a guide rail is arranged along the side edge of the through hole in the length direction; the variable pitch subassembly pushes away the bar frame of cylinder, connection side including the side, connects the fixed axle that the side pushed away the cylinder and moved along the bar frame, and the fixed axle is connected with the rotation axis that moves along the guide rail, is equipped with the dead lever that runs through the through-hole in the rotation axis, and the bottom of dead lever is equipped with the suction nozzle of adsorbing the product.

Compared with the prior art, the utility model discloses injection molding machine unloading dress plastic sucking plate equipment's beneficial effect mainly embodies:

the process that the plastic sucking disc is transferred from the empty material placing structure to the feeding transition structure and the full material placing structure is realized through the tray adsorption structure, the product temporarily placed in the rotating platform is transferred to the feeding transition structure through the variable-pitch material sucking assembly, uninterrupted automatic circulation is realized in the whole feeding process, and the feeding efficiency is improved; the tray in the tray adsorption structure is matched with the L-shaped clamping plate and the tray cylinder, so that the plastic sucking disc is accurately positioned and transferred; the rotating shaft in the variable-pitch material sucking assembly drives the fixed rod to move along the through hole, so that the adsorption distance of the product is adjusted, the product in the temporary placing tray is accurately transferred into the plastic sucking trays with corresponding sizes, and the applicability of positioning the product in different plastic sucking trays is enhanced; the suction nozzles are adopted in the material taking manipulator and the variable-pitch material sucking assembly in the transfer process of the product to position the material, so that the product can be accurately grabbed without the problem of material falling.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural view of the material taking manipulator in this embodiment;

FIG. 3 is a schematic view of the product structure in this embodiment;

FIG. 4 is a schematic structural view of the blanking device in this embodiment;

FIG. 5 is a schematic view of a hollow material placing structure in the present embodiment;

FIG. 6 is a schematic view of a tray sucking structure in this embodiment;

FIG. 7 is a schematic view of a feeding transition structure in the present embodiment;

FIG. 8 is a schematic view of a three-axis pneumatic module according to the present embodiment;

FIG. 9 is a schematic view of a pitch sucking assembly in the present embodiment;

FIG. 10 is a schematic view of a full placement structure in the present embodiment;

the figures in the drawings represent:

1 material taking manipulator, 11 mounting seats, 12 suckers, 13 suction nozzles, 14 annular outer rings, 15 butt joints, 16 branches and 17 reinforcing rings;

2, an empty material placing structure, 21 an empty material bracket, 22 a first supporting frame, 23 a first vertical plate, 24 connecting rods, 25 sliding grooves, 26 clamping blocks and 27 connecting rod cylinders;

3, feeding a transition structure, 31 a feeding bracket and 32 a positioning supporting angle;

4 temporarily placing a rotating platform, 41 rotating platforms, 42 temporarily placing a disc and 43 temporarily placing a groove;

5 a full material placing structure, 51 a full material bracket, 52 a second supporting frame, 53 a fixing groove, 54 a sliding block, 55 an inclined surface, 56 a pushing cylinder, 57 a push rod, 58 a top plate and 59 a second vertical plate;

6 tray adsorption structure, 61 bottom plate, 62 guide post, 63 tray, 64L-shaped clamping plate, 65 suction head and 66 tray cylinder;

7, a three-axis pneumatic module, a 71 variable-pitch material sucking assembly, a 72 material sucking plate, 73 through holes, 74 guide rails, 75 side pushing cylinders, 76 strip-shaped frames, 77 fixing shafts, 78 rotating shafts and 79 fixing rods;

8 plastic sucking discs, 81 flanges, 82 clamping grooves, 83 monomer grooves and 84 positioning columns.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments.

Example (b):

referring to fig. 1-10, the present embodiment is an apparatus for loading a plastic sucking disc on an injection molding machine, and includes a material taking manipulator 1 for transferring a product in an injection molding machine (not shown in the figure), and a loading device correspondingly engaged with the material taking manipulator 1;

the blanking device comprises an empty material placing structure 2 of the plastic sucking disc for bearing a plurality of empty materials, a feeding transition structure 3 for loading products into the plastic sucking disc, a temporary placing rotary platform 4 positioned on the side edge of the feeding transition structure 3, and a full material placing structure 5 for bearing a plurality of full plastic sucking discs.

And a plastic sucking disc which is used for clamping the lower layer of the empty material placing structure 2 is arranged below the blanking device and is sequentially transferred and placed on the feeding transition structure 3, and is transferred to the tray adsorption structure 6 below the full material placing structure 5 again.

The blanking device further comprises a three-axis pneumatic module 7 and a variable-pitch material sucking assembly 71 which moves along the three-axis pneumatic module 7 and can adjust the space between adsorbed products.

The temporary placing rotary platform 4 is correspondingly matched with the material taking manipulator 1, and the variable-pitch material sucking assembly 71 sucks a product in the temporary placing rotary platform 4 to a corresponding position in a plastic sucking disc on the feeding transition structure 3.

The moving end of the material taking manipulator 1 is rotatably provided with a mounting seat 11, the bottom of the mounting seat 11 is provided with a sucking disc 12, and the bottom of the sucking disc 12 is provided with a plurality of suction nozzles 13 which are arranged in a matrix. Each suction nozzle 13 is connected to a vacuum generator.

The product comprises an annular outer ring 14, a butt joint 15 arranged at the center of the annular outer ring 14 and branches 16 which take the butt joint 15 as a center and are connected with the annular outer ring 14 in an outward diverging mode. A reinforcing ring 17 centered on the abutment 15 is provided around each branch 16.

Empty material placement structure 2 is including locating empty material support 21 on the workstation, locating empty first braced frame 22 at material support 21 top, the connecting rod locating component who sets up along first braced frame 22's both sides.

The opposite sides of the first supporting frame 22 are provided with a plurality of first vertical plates 23 for guiding the plastic suction trays.

The connecting rod positioning component comprises a connecting rod 24 which is embedded on the surface of the first supporting frame 22, a plurality of sliding grooves 25 which are arranged on the connecting rod 24, a clamping block 26 which is connected with the sliding grooves 25 through a connecting shaft, and a connecting rod cylinder 27 which drives the connecting rod 24 to move along the length direction of the first supporting frame 22.

The moving direction of the fixture block 26 is relatively vertical to the extending direction of the sliding groove 25, and the fixture block 26 extends to the side of the plastic sucking disc 8 in a telescopic manner to be clamped and positioned.

The plastic sucking disc 8 is of a square plate structure, flanges 81 for positioning are arranged on two sides of the plastic sucking disc 8, and a plurality of clamping grooves 82 which are correspondingly clamped with the clamping blocks 27 are arranged on the flanges 81. The surface of the plastic sucking disc 8 is provided with a plurality of product groove groups which are arranged at equal intervals, a plurality of continuous through monomer grooves 83 are arranged in the product groove groups, and a plurality of positioning columns 84 for positioning are arranged in the monomer grooves 83. The monomer groove 83 is disposed corresponding to the annular outer ring 14 of the product, and the positioning post 84 is positioned to the gap of the adjacent branch 16.

The feeding transition structure 3 comprises a feeding support 31 and a positioning support angle 32 arranged at the top of the feeding support 31. The positioning support angle 32 is located at the side edge or the top angle of the plastic sucking disc 8, and the positioning support angle 32 is of a structure with a thin upper part and a thick lower part, so that the flange 81 of the plastic sucking disc 8 can be conveniently slid into the positioning support angle 32 for fixation.

The full material placing structure 5 comprises a full material support 51, a second support frame 52 arranged at the top of the full material support 51, and a plurality of one-way stopping slider structures arranged along the inner periphery of the second support frame 52 at intervals. The one-way stopping sliding block structure comprises a fixing groove 53 connected with the second supporting frame 52, a sliding block 54 rotatably arranged in the fixing groove 53, a tension spring is arranged between the sliding block 54 and the fixing groove 53, an inclined surface 55 is arranged at the bottom of the sliding block 54, and the sliding block 54 vertically rotates upwards along the fixing groove 53 and cannot rotate downwards.

A group of ejection structures which are oppositely arranged and used for ejecting the plastic sucking disc 8 from the second bracket frame 52 to slide into the top of the sliding block 54 are arranged below the full material bracket 51, and each ejection structure comprises an ejection cylinder 56 and an ejector rod 57 connected with the ejection cylinder 56. A top end of a top rod 57 is provided with a horizontal top plate 58. The ejector pin 57 and the top plate 58 both act on the bottom of the blister tray 8.

The second support frame 52 is provided on opposite sides with second vertical plates 59 for guiding the palletized blister disk 8.

The temporary placing rotary platform 4 includes a rotary platform 41 and a temporary placing tray 42 provided at a relative position on the rotary platform 41. The temporary placing tray 42 is internally provided with a plurality of temporary placing grooves 43, and the temporary placing grooves 43 are arranged corresponding to the products. The rotary platform 41 is connected with a servo motor for driving the rotary platform to rotate and position.

The tray adsorption structure 6 comprises a bottom plate 61 moving along the slide rail and tray adsorption components arranged at two ends of the bottom plate 61; the positions of the two tray adsorption components are respectively arranged corresponding to the distances between the empty material placing structure 2 and the feeding transition structure 3, between the feeding transition structure 3 and between the full material placing structure 5.

The tray adsorption component comprises a guide post and guide sleeve matching piece connected with the bottom plate 61, a tray 63 arranged on the top of the guide post 62, L-shaped clamping plates 64 arranged on two sides of the tray 63, and a plurality of suction heads 65 arranged at the bottom of the tray 63 and extending to the surface of the tray 63, wherein each suction head 65 is connected to a vacuum generator. The surface of the tray 63 bears the bottom of the blister tray 8 and the L-shaped catch plates 64 catch the sides of the blister tray 8. The bottom of the tray 64 is connected with a tray cylinder 66 for lifting the tray. The suction head 65 is correspondingly adsorbed and attached to the bottom of the plastic sucking disc 8.

The variable-pitch material sucking assembly comprises a material sucking plate 72 and variable-pitch assemblies arranged on two sides of the material sucking plate 72; the material suction plate 72 is provided with a through hole 73 extending obliquely, and a guide rail 74 is arranged along the side edge of the through hole 73 in the length direction. The variable pitch assembly comprises a side push cylinder 75, a bar-shaped frame 76 connected with the side push cylinder 75 and a fixed shaft 77 connected with the side push cylinder 75 and respectively moving towards two sides from the middle part of the bar-shaped frame 76; the fixed shaft 77 is connected with a rotating shaft 78 moving along the guide rail 74, a fixed rod 79 is provided in the rotating shaft 78 through the through hole 73, and a suction nozzle for sucking a product is provided at the bottom of the fixed rod 79.

When the embodiment is applied, the material taking manipulator 1 takes a product from an injection molding machine and transfers the product to the temporary placement rotary platform 4, the empty material placement structure 2 is stacked with the plastic sucking discs 8, the connecting rod positioning assembly clamps the lowest layer plastic sucking disc, the tray in the tray adsorption structure 6 moves to the position below the empty material placement structure 2, the connecting rod positioning assembly releases the lowest layer plastic sucking disc, the lowest layer plastic sucking disc falls into the tray 63, the tray cylinder 66 descends, the connecting rod positioning assembly clamps the upper level plastic sucking disc of the lowest layer, the tray 63 drives the plastic sucking disc 8 to the material transition structure 3, the plastic sucking disc 8 is placed in the positioning supporting angle 32 from top to bottom, and the variable-distance plastic sucking assembly transfers the product in the temporary placement rotary platform 4 to the plastic sucking disc 8 in the material transition structure 3; the tray adsorption component transfers the plastic suction tray 8 to the position below the full material placing structure 5 again, the ejection structure jacks the plastic suction tray 8 in the tray 63 from bottom to top, slides into the top of the sliding block 54 for stopping and positioning, and the plastic suction trays 8 are stacked in a certain number in the full material placing structure 5 until the full material placing structure 5 is full.

In the embodiment, the process that the plastic sucking disc 8 is transferred from the empty material placing structure 2 to the feeding transition structure 3 and the full material placing structure 5 is realized through the tray adsorption structure 6, the product temporarily placed in the rotary platform 4 is transferred to the feeding transition structure 3 through the variable-pitch material sucking assembly, the whole feeding process realizes uninterrupted automatic circulation, and the feeding efficiency is improved; the tray 63 in the tray adsorption structure 6 is matched with the L-shaped clamping plate 64 and the tray cylinder 66, so that the plastic sucking disc 8 is accurately positioned and transferred; the rotating shaft 78 in the variable-pitch material sucking assembly 71 drives the fixing rod 79 to move along the through hole 73, so that the adsorption distance of the product is adjusted, the product in the temporary placing disc 42 is accurately transferred into the plastic sucking disc 8 with a corresponding size, and the applicability to positioning products in different plastic sucking discs 8 is enhanced; the material taking manipulator 1 and the variable-pitch material sucking assembly 71 in the product transferring process adopt suction nozzles to position materials, so that the product can be accurately grabbed without the problem of material falling.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. Injection molding machine unloading dress plastic sucking plate equipment, its characterized in that: comprises a material taking mechanical arm for transferring products in an injection molding machine, and a blanking device correspondingly matched with the material taking mechanical arm, wherein the blanking device comprises an empty material placing structure for bearing a plurality of empty plastic suction trays, a feeding transition structure for loading the products into the plastic suction trays, a temporary placing rotary platform positioned on the side edge of the feeding transition structure, and a full material placing structure for bearing a plurality of full plastic suction trays, the lower part of the blanking device is used for clamping and taking the plastic sucking discs positioned at the lower layer of the empty material placing structure, and the plastic sucking discs are sequentially transferred and placed on the feeding transition structure, and is transferred to the tray adsorption structure below the full material placing structure again, the blanking device also comprises a three-axis pneumatic module and a variable-pitch material sucking component which moves along the three-axis pneumatic module and can adjust the space between the adsorbed products, the temporary placing rotary platform is correspondingly matched with the material taking manipulator, and the variable-pitch material sucking assembly sucks a product in the temporary placing rotary platform to a corresponding position in a plastic sucking disc on the feeding transition structure.

2. The blanking and plastic sucking disc device of the injection molding machine as claimed in claim 1, wherein: empty material placement structure is including locating empty material support on the workstation, locating empty material support top first braced frame, the connecting rod locating component who sets up along first braced frame's both sides.

3. The blanking and plastic sucking disc device of the injection molding machine as claimed in claim 2, wherein: the connecting rod positioning assembly comprises a connecting rod which is embedded on the surface of the first supporting frame in a clamping manner, a plurality of sliding grooves which are formed in the connecting rod, a clamping block which is connected with the sliding grooves through a connecting shaft, and a connecting rod cylinder which drives the connecting rod to move along the length direction of the first supporting frame; the clamping block extends to the side of the plastic sucking disc in a telescopic mode and is clamped and positioned.

4. The blanking and plastic sucking disc device of the injection molding machine as claimed in claim 1, wherein: the feeding transition structure comprises a feeding support and a positioning supporting angle arranged at the top of the feeding support; the positioning supporting angle is positioned at the side edge or the top angle of the plastic sucking disc and is of a structure with a thin upper part and a thick lower part.

5. The blanking and plastic sucking disc device of the injection molding machine as claimed in claim 1, wherein: the full material placing structure comprises a full material support, a second supporting frame arranged at the top of the full material support, and a plurality of one-way stop slider structures arranged along the inner periphery of the second supporting frame at intervals.

6. The blanking and plastic sucking disc device of the injection molding machine as claimed in claim 5, wherein: the one-way locking sliding block structure comprises a fixing groove connected with the second supporting frame, a sliding block rotatably arranged in the fixing groove, a tensioning spring is arranged between the sliding block and the fixing groove, an inclined plane is arranged at the bottom of the sliding block, and the sliding block vertically rotates upwards along the fixing groove.

7. The blanking and plastic sucking disc device of the injection molding machine as claimed in claim 5, wherein: and a group of ejection structures which are oppositely arranged and used for ejecting the plastic sucking discs from the second bracket frame and sliding the plastic sucking discs into the frame at the top of the sliding block are arranged below the full-material bracket.

8. The blanking and plastic sucking disc device of the injection molding machine as claimed in claim 7, wherein: the ejection structure comprises a pushing cylinder and an ejector rod connected with the pushing cylinder; the top end of an ejector rod is provided with a horizontal top plate, and the ejector rod and the top plate both act on the bottom of the plastic sucking disc.

9. The blanking and plastic sucking disc device of the injection molding machine as claimed in claim 1, wherein: the tray adsorption structure comprises a bottom plate moving along the slide rail and tray adsorption components arranged at two ends of the bottom plate; the tray adsorption component comprises a guide pillar and guide sleeve matching piece connected with the bottom plate, a tray arranged on the top of the guide pillar, L-shaped clamping plates arranged on two sides of the tray, and a plurality of suckers arranged at the bottom of the tray and extending to the surface of the tray; the surface of the tray bears the bottom of the plastic sucking disc, the L-shaped clamping plates clamp the two sides of the plastic sucking disc, the bottom of the tray is connected with a tray cylinder for jacking the tray to lift, and the suction head is correspondingly adsorbed and attached to the bottom of the plastic sucking disc.

10. The blanking and plastic sucking disc device of the injection molding machine as claimed in claim 1, wherein: the variable-pitch material sucking assembly comprises a material sucking plate and variable-pitch assemblies arranged on two sides of the material sucking plate; the material suction plate is provided with a through hole extending obliquely, and a guide rail is arranged along the side edge of the through hole in the length direction; the variable pitch subassembly pushes away the bar frame of cylinder, connection side including the side, connects the fixed axle that the side pushed away the cylinder and moved along the bar frame, and the fixed axle is connected with the rotation axis that moves along the guide rail, is equipped with the dead lever that runs through the through-hole in the rotation axis, and the bottom of dead lever is equipped with the suction nozzle of adsorbing the product.

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