CN214725911U - Automatic feeding equipment for injection molding machine - Google Patents

Abstract

The utility model provides an automatic feeding equipment for injection molding machine, including frame, pan feeding mechanism and draw material mechanism, pan feeding mechanism with draw for injection moulding board between the material mechanism, pan feeding mechanism includes first mounting bracket, goes up direction support orientation module, pan feeding conveying module and adjusts the module, it is connected with pan feeding conveying module to adjust the module, draw material mechanism to include the second mounting bracket, taut module and draw the material module, taut module sets up between drawing material module and injection moulding board, all set up the drive module between first mounting bracket, second mounting bracket and the frame, the first mounting bracket of drive module and second mounting bracket back-and-forth movement aim at the problem that cost of solution and preparation time all consume in a large number.

Description

Automatic feeding equipment for injection molding machine

Technical Field

The utility model belongs to the technical field of the injection molding machine pay-off technique and specifically relates to an automatic feeding equipment for injection molding machine is related to.

Background

The hard rubber-coated injection mould, i.e. Insert mold, comprises two sets of back (male) moulds matched with a set of front (female) moulds, and the existing Insert mold type products are produced in the following way:

the production method comprises the steps of manually putting a plate material belt (a punched product) and then carrying out injection molding production, wherein the injection molding production quality of the production method in the prior art is different, the injection molding production quality falls due to the fact that the manual putting period is unstable, and the production period is not fixed, so that the yield is unstable.

In addition, in order to improve the production efficiency, most of the existing hard rubber-coated injection molds are manually placed in a plate material belt (a punched product) or feeding equipment is manufactured on the mold, so that a special situation exists, one set of hard rubber-coated injection mold needs to be manufactured every new machine, and the cost and the manufacturing time are greatly consumed.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic feeding equipment for injection molding machine aims at solving above-mentioned problem and not enough.

The technical scheme of the utility model is realized like this:

the utility model provides an autoloading equipment for injection molding machine, includes frame, pan feeding mechanism and draws material mechanism, pan feeding mechanism with draw for injection mold board between the material mechanism, pan feeding mechanism includes first mounting bracket, goes up direction support location module, pan feeding conveying module and regulation module, it is connected with pan feeding conveying module to adjust the module, draw the material mechanism to include second mounting bracket, taut module and draw the material module, taut module sets up between drawing material module and injection mold board, taut module and draw and set up the detection module between the material module, draw material module below to set up direction support module down, all set up the drive module between first mounting bracket, second mounting bracket and the frame, the first mounting bracket of drive module drive and second back-and-forth movement mounting bracket.

The driving module comprises a servo motor, a ball screw, a ball nut, a bearing plate and a sliding block assembly, the output end of the servo motor is connected with the ball screw through a belt, and the ball screw is connected with the rack.

The feeding conveying module comprises a conveying motor, a transmission shaft, a transmission wheel, a driven shaft and a driven wheel, the driven wheel is arranged corresponding to the transmission wheel, the output end of the conveying motor is connected with a transmission shaft belt, and the driven shaft is connected with the adjusting module.

The adjusting module comprises an adjusting cylinder and an adjusting plate, one end of the adjusting plate is connected with the adjusting cylinder, the other end of the adjusting plate is connected with the feeding conveying module, a limiting rod is arranged on one side of the adjusting plate, and a avoiding step is arranged at one end, close to the adjusting cylinder, of the adjusting plate.

The tensioning module and the material pulling module both comprise a material belt clamping assembly, the tensioning module further comprises a tensioning cylinder for driving the material belt clamping assembly to move up and down, and the material pulling module comprises a servo electric cylinder for driving the material belt clamping assembly to move.

The material belt clamping assembly comprises a fixing block, a clamping block and a clamping cylinder for driving the clamping block and the fixing block to move, an elastic pressing plate is arranged between the fixing block and the clamping block, the length of the elastic pressing plate is greater than that of the clamping block, and a material clamping space is formed between the elastic pressing plate and the fixing block.

The fixing block is provided with a groove, the clamping block and the groove are correspondingly provided with bulges, clamping grooves are formed in two sides of each bulge, and the elastic pressing plate is arranged in each clamping groove.

The material belt clamping assembly further comprises a fixed cross beam, the fixed block is fixed on the fixed cross beam, the clamping cylinders are fixed at two ends of the fixed cross beam, a pressing cross beam is further arranged between piston rods of the clamping cylinders at two ends, the clamping blocks are fixed on the pressing cross beam, and the tensioning module and the fixed cross beam of the material pulling module are correspondingly fixed on the tensioning cylinder and the servo electric cylinder.

Servo electric cylinder sets up linear guide, guide bracket and deflector on one side, the both ends and the die clamping cylinder of deflector are connected, the deflector corresponds with linear guide and sets up the slider, install at the second mounting bracket guide bracket one side, and the opposite side is connected with linear guide.

The upper guide supporting and positioning module and the lower guide supporting module are structurally consistent and respectively comprise a guide positioning support and an arc-shaped supporting frame, the guide positioning support is provided with a plurality of positioning guide wheels, and the arc-shaped supporting frame is provided with an arc-shaped panel.

By adopting the technical scheme, the beneficial effects of the utility model are that:

1. will the utility model discloses a rack-mount realizes accurate automatic transport at injection molding machine and mould correspondence position, improves production efficiency greatly, and convenient the dismantlement, and the conveying in different material areas can be realized to the part of change.

2. The pan feeding mechanism includes direction support positioning module 2, pan feeding conveying module 3 and regulation module 4, convenient dismantlement, and during operation, the material area utilizes down the conveying of feed conveying module 3, and 3 conveying material areas of pan feeding conveying module adjust the interval that module 4 is used for pan feeding conveying module 3, adjusts the degree of clamp according to material area thickness regulation, and direction support module plays direction and location effect to the material area, guarantees accurate transport material area.

3. Draw material mechanism to include taut module, draw material module and direction support module, when the material area transmits, accomplish the take-up in material area automatically and draw the material process, draw the material in-process to draw the material smooth and easy and the material area can not squint, the precision and the efficiency of the material area transmission that improve greatly, taut module is including driving actuating cylinder, the fixed block, the compact heap and compressing cylinder, compressing cylinder presss from both sides the material area through the drive compact heap, then taut cylinder drive material area downstream guarantees the material area and is the state of straining, the transport in the material area of being convenient for, the smoothness of transport has been guaranteed.

4. The clamp assembly's is taken to material compact heap one side sets up the boss, the both sides of boss set up the mounting groove, set up the elasticity pressure strip in the mounting groove, and the length of elasticity pressure strip is greater than boss length, and during the material area was carried, arrange the material area in between boss and the fixed block to carry the material area through the elasticity that compresses tightly of boss both sides, the length that compresses tightly the elasticity piece is greater than boss length, and material area and fixed block direct contact have been avoided to this kind of structure, avoid producing the damage to the material area in transportation process.

5. Draw the material module to include that servo electric cylinder drive can realize accurate positioning and accurate conveying, set up direction supporting component, prevent to take the off tracking in transportation process, to the material area play direction and supporting role, realize the accurate transport in material area, improve production efficiency greatly, and convenient the dismantlement, the conveying in different material areas can be realized to the part of change.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed 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 some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of a feeding mechanism;

FIG. 3 is a schematic structural view of a pulling mechanism;

FIG. 4 is a schematic view of a portion of the structure of FIG. 2;

FIG. 5 is an enlarged view of B in FIG. 4;

FIG. 6 is a schematic view of a tensioning module;

FIG. 7 is a schematic structural view of a fixing block and a clamping block;

FIG. 8 is a schematic structural view of a drawing module and a lower guiding and supporting module;

FIG. 9 is an enlarged schematic view of A in FIG. 8;

fig. 10 is a structural diagram of a lower guiding support module.

Wherein:

100. a frame; 200. a feeding mechanism; 300. a material pulling mechanism; 400. injection molding a movable mold side plate; 500. a material belt; 1. a first material belt clamping assembly; 101. a fixed block; 102. a clamping block; 121. a protrusion; 122. a card slot; 103. an elastic pressing plate; 104. a clamping cylinder; 105. fixing the cross beam; 106. compressing the beam; 2. an upper guide support positioning module; 3. a feeding conveying module; 301. a drive shaft; 302. a driving wheel; 303. a driven wheel; 304. a transfer motor;

4. an adjusting module; 401. an adjusting cylinder; 402. an adjusting plate; 421. avoiding steps; 403. a limiting rod; 5. Tensioning the module; 501. tensioning the cylinder; 6. a material pulling module; 601. a servo electric cylinder; 602. a linear guide rail; 603. A guide bracket; 604. a guide plate; 7. a detection module; 701. a detection sensor; 702. a sensor mounting bracket; 8. a lower guide support module;

9. a first driving module; 901. a servo motor; 902. a ball screw; 903. a ball screw nut; 905. a first slider; 906. a first slide rail; 941. a nut support bracket; 942. a screw rod connecting frame;

10. a second mounting bracket; 11. a first mounting bracket; 12. a guide positioning bracket; 13. an arc-shaped support frame; 14. Positioning a guide wheel; 15. an arc panel 1501, a hook portion; 16. the first driving module, 17 and the second material belt clamping component; 18. a connecting rod;

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 efforts belong to the protection scope of the present invention.

With reference to figures 1-10 of the drawings,

the utility model provides an autoloading equipment for injection molding machine, includes frame 100, pan feeding mechanism 200 and draws material mechanism 300, pan feeding mechanism 200 with draw for injection mould movable mould curb plate 400 between the material mechanism 300, pan feeding mechanism 200 includes first mounting bracket 11, goes up direction support location module 2, pan feeding conveying module 3 and adjusts module 4, it is connected with pan feeding conveying module 3 to adjust module 4, draw material mechanism 300 to include second mounting bracket 10, taut module 5 and draw material module 6, taut module 5 sets up between drawing material module 6 and injection mold board 400, taut module 5 and draw and set up between the material module 6 and detect module 7, draw material module below to set up down direction support module 8.

The frame 100 comprises an upper mounting plate, a lower mounting plate and a middle mounting plate 400 for fixing the injection molding template, a first driving module 9 is arranged between a first mounting frame 11 and the upper mounting plate, a second driving module 16 is arranged between a second mounting frame 10 and the lower mounting plate, the first driving module 9 drives the first mounting frame 11 to move back and forth along the upper mounting plate, and the second driving module 16 drives the second mounting frame 10 to move back and forth along the lower mounting plate.

Specifically, the present embodiment is fixed on an injection molding machine through the rack 100, the material belt 500 is installed in fig. 1, and sequentially passes through the upper guiding, supporting and positioning module 2, the feeding conveying module 3, the tensioning module 5, the pulling module 6 and the lower guiding and supporting module 8, before mold closing, the material belt 500 is conveyed to the corresponding position of the movable mold side plate 400 of the injection mold through the matching action of the feeding conveying module 3, the tensioning module 5 and the pulling module 6, and mold closing, injection molding and circulation are performed.

The first driving module 9 includes a servo motor 901, a ball screw 902, a ball screw 903, a supporting plate and a slider assembly, the output end of the servo motor 901 is connected with the ball screw 902 through a belt, and the ball screw 902 is connected with the frame 100. Set up nut support bracket 941 and lead screw link 942 on the supporting plate, ball 902 one end is connected with last mounting panel, and the other end is connected with lead screw link 942, nut support bracket 941 corresponds with ball screw 903 and sets up the recess. The slider assembly includes a first slider 905 disposed on the upper mounting plate and a first slide rail 906 disposed on the first mounting frame 11.

Specifically, when the feeding mechanism 200 needs to move back and forth, the servo motor 901 drives the ball screw 902 to move, so as to further drive the upper mounting plate to move back and forth along the first slide rail 906 on the first mounting frame 11, and further move the feeding mechanism 200 on the first mounting frame 11.

The feeding conveying module 3 comprises a conveying motor 304, a transmission shaft 301, a transmission wheel 302, a driven shaft 303 and a driven wheel 305, wherein the driven wheel 303 is arranged corresponding to the transmission wheel 302, the output end of the conveying motor 304 is in belt connection with the transmission shaft 301, and the driven shaft 303 is connected with the adjusting module 4.

Adjusting module 4 includes adjust cylinder 401 and adjusting plate 402, adjusting plate 402 one end is connected with adjust cylinder 401, and the other end is connected with pan feeding conveying module 3, adjusting plate 402 one side sets up gag lever post 403, adjusting plate 402 is close to the one end setting of adjust cylinder 401 and keeps away a step 421. The clearance step 421 is provided to avoid the air cylinder 401 when the relative distance between the transmission shaft 301 and the driven shaft 303 is adjusted by the adjusting module 4.

Regulating plate 402 one end links to each other with adjusting cylinder 401's telescopic link, and the other end is connected with driven shaft 303, set up the connecting axle between regulating plate 402 and the first mounting bracket 11, regulating plate 402 can be followed around the connecting axle swing, one side of regulating plate 402 corresponds with adjusting cylinder 401 and sets up gag lever post 403.

Specifically, the adjusting cylinder 401 drives the adjusting plate 402, one end of the adjusting plate 402 moves under the driving of the adjusting cylinder 401, and the other end of the adjusting plate 402 is connected with the driven shaft 303, so that two ends of the adjusting plate 402 move relatively along the connecting shaft, the distance between the driven shaft 303 and the transmission shaft 301 is further adjusted, and the adjusting plate is suitable for the material belts 500 with different widths and thicknesses.

The tensioning modules 5 respectively comprise a material belt clamping assembly 1 and a tensioning cylinder 501 for driving the material belt clamping assembly 1 to move up and down.

Specifically, after the feeding mechanism 200 finishes feeding, the material belt clamping assembly 1 clamps the material belt 500, and the tensioning module 5 acts to tension the material belt 500 between the feeding mechanism 200 and the pulling mechanism 300, so that the material belt 500 is in a tensioned state, and the subsequent pulling module 6 is convenient to pull materials.

The first material belt clamping assembly 1 comprises a fixing block 101, a clamping block 102 and a clamping cylinder 104 for driving the clamping block 102 and the fixing block 101 to move, an elastic pressing plate 103 is arranged between the fixing block 101 and the clamping block 102, the length of the elastic pressing plate 103 is greater than that of the clamping block 102, and a material clamping space is formed between the elastic pressing plate 103 and the fixing block 101. The fixing block 101 is provided with a groove, the clamping block 102 is provided with a protrusion 121 corresponding to the groove, two sides of the protrusion 121 are provided with clamping grooves 122, and the elastic pressing plate 103 is arranged in the clamping grooves 122.

Specifically, the material belt 500 is located between the groove and the protrusion 121, and the surface of the material belt 500 is compressed by the elastic compression plate 103, so that the protrusion 121 is prevented from directly contacting with the upper surface of the material belt 500, and the damage in the conveying process is reduced.

The first material belt clamping assembly 1 further comprises a fixed cross beam 105, the fixed block 101 is fixed on the fixed cross beam 105, the clamping cylinders 104 are fixed at two ends of the fixed cross beam 105, a pressing cross beam 106 is further arranged between piston rods of the clamping cylinders 104 at the two ends, the clamping block 102 is fixed on the pressing cross beam 106, the tensioning cylinder 501 is connected with the fixed cross beam 105 and drives the fixed cross beam 105 to move up and down, and the first material belt clamping assembly 1 is further driven to move up and down.

Specifically, the clamping cylinder 104 drives the pressing beam 106 to move back and forth, so that the clamping between the clamping block 103 and the fixing block 101 is further realized, the clamping and the releasing of the material belt 500 are realized, after the material belt 500 is clamped, the tensioning cylinder 501 drives the fixing beam 105 to act, the material belt 500 is further tensioned downwards, the tensioning of the material belt 500 is completed, after the tensioning is completed, the clamping cylinder 104 acts to release the material belt 500, and at the moment, the tensioning cylinder 501 resets to prepare for the next action.

The material pulling module 6 comprises a servo electric cylinder 601 and a second material belt clamping component 17 connected with the servo electric cylinder 601, the second material belt clamping component 17 is consistent with the first material belt clamping component 1 in structure, and the difference is that a fixed cross beam of the first material belt clamping component 1 is connected with the servo electric cylinder 601.

Servo electric cylinder 601 sets up linear guide 602, guide bracket 603 and deflector 604 on one side, the both ends and the die clamping cylinder 104 of deflector 603 are connected, deflector 604 corresponds with linear guide 602 and sets up the slider, guide bracket 603 one side is installed at second mounting bracket 11, and the opposite side is connected with linear guide 602.

Specifically, use servo electric cylinder 601 as the drive, realize accurate transmission, second material area clamping component 17 is fixed with material area 500, sets up linear guide 602 beside servo electric cylinder 601, and when servo electric cylinder 602 drive second material area clamping component 17 up-and-down motion, guarantee the stationary motion.

The second driving module 16 and the first driving module 9 are identical in structure, and specifically, the lower mounting plate of the second driving module 16 moves back and forth along the second mounting frame 10.

Specifically, the detection module 7 includes a detection sensor 701 and a sensor mounting bracket 702 for sensing the position of the carrier tape 500.

The upper guiding, supporting and positioning module 2 and the lower guiding, supporting module 8 all comprise guiding and positioning brackets 12 and arc-shaped supporting frames 13 in a consistent structure, the guiding and positioning brackets 12 are provided with a plurality of positioning guide wheels 14, and the arc-shaped supporting frames 13 are provided with arc-shaped panels 15.

A plurality of connecting rods 18 are arranged between the arc-shaped supporting frames 13, two sides of the arc-shaped panel 15 are bent to form a hook portion 1501, and two ends of the arc-shaped panel 15 are fixed on the connecting rods 18 through the hook portions 1501. This structure facilitates the disassembly of the curved panel 15.

Specifically, the upper guiding, supporting and positioning module 2 and the lower guiding and supporting module 8 play a role in supporting and guiding in the process of conveying the material belt 500.

The working principle is as follows:

the material belt 500 is installed on the material belt 500 sequentially through the upper guiding, supporting and positioning module 2, the feeding conveying module 3, the tensioning module 5, the pulling module 6 and the lower guiding and supporting module 8, before die assembly, the feeding conveying module 3, the tensioning module 5 and the pulling module 6 are matched to convey the material belt 500 to the corresponding position of the injection molding template 400, and the die assembly, the injection molding and the circulation are performed.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides an autoloading equipment for injection molding machine, its characterized in that, includes frame, pan feeding mechanism and draws material mechanism, pan feeding mechanism with draw for the template of moulding plastics between the material mechanism, pan feeding mechanism includes first mounting bracket, goes up direction support location module, pan feeding conveying module and regulation module, it is connected with pan feeding conveying module to adjust the module, draw the material mechanism to include second mounting bracket, taut module and draw the material module, taut module sets up between drawing material module and the template of moulding plastics, taut module with draw and set up the detection module between the material module, draw material module below to set up direction support module down, all set up the drive module between first mounting bracket, second mounting bracket and the frame, the first mounting bracket of drive module drive and second mounting bracket back-and-forth movement.

2. The automatic feeding apparatus for injection molding machine according to claim 1, wherein said driving module comprises a servo motor, a ball screw, a ball nut, a support plate, and a slider assembly, an output end of said servo motor is connected to the ball screw through a belt, and said ball screw is connected to the frame.

3. The automatic feeding device for injection molding machine according to claim 1, wherein said feeding transport module comprises a transport motor, a transmission shaft, a transmission wheel, a driven shaft and a driven wheel, said driven wheel is disposed corresponding to the transmission wheel, the output end of said transport motor is connected to the transmission shaft belt, and said driven shaft is connected to the adjustment module.

4. The automatic feeding device for injection molding machine according to claim 1, wherein the adjusting module comprises an adjusting cylinder and an adjusting plate, one end of the adjusting plate is connected with the adjusting cylinder, the other end of the adjusting plate is connected with the feeding conveying module, a limiting rod is arranged on one side of the adjusting plate, and a avoiding step is arranged on one end of the adjusting plate close to the adjusting cylinder.

5. The autoloading apparatus of claim 1, wherein the tensioning module and the material pulling module each comprise a material belt clamping assembly, the tensioning module further comprises a tensioning cylinder for driving the material belt clamping assembly to move up and down, and the material pulling module comprises a servo electric cylinder for driving the material belt clamping assembly to move.

6. The automatic feeding device for injection molding machine according to claim 5, wherein the material belt clamping assembly (1) comprises a fixed block, a clamping block and a clamping cylinder for driving the clamping block and the fixed block to move, an elastic pressing plate is arranged between the fixed block and the clamping block, the length of the elastic pressing plate is greater than that of the clamping block, and a material clamping space is formed between the elastic pressing plate and the fixed block.

7. The automatic feeding device for injection molding machine according to claim 6, wherein the fixing block is provided with a groove, the clamping block is provided with a protrusion corresponding to the groove, clamping grooves are provided on both sides of the protrusion, and the elastic pressing plate is provided in the clamping grooves.

8. The automatic feeding device for injection molding machine according to claim 7, wherein said material belt clamping assembly further comprises a fixed beam, said fixed block is fixed on the fixed beam, said clamping cylinder is fixed on both ends of the fixed beam, a pressing beam is further disposed between the piston rods of the clamping cylinder at both ends, said clamping block is fixed on the pressing beam, and said tensioning module is fixed on the tensioning cylinder and the servo electric cylinder corresponding to the fixed beam of the material pulling module.

9. The automatic feeding device for injection molding machines according to claim 8, wherein a linear guide, a guide bracket and a guide plate are disposed beside the servo cylinder, both ends of the guide plate are connected to the clamping cylinder, the guide plate is provided with a slider corresponding to the linear guide, one side of the guide bracket is mounted on the second mounting frame, the other side of the guide bracket is connected to the linear guide, the upper guide support and positioning module and the lower guide support module are structurally identical and each of the upper guide support and positioning module and the lower guide support and positioning module comprises a guide positioning bracket and an arc-shaped support frame, the guide positioning bracket is provided with a plurality of positioning guide wheels, and the arc-shaped support frame is provided with an arc-shaped panel.

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