CN110026781B

CN110026781B - Sun umbrella base support processing equipment

Info

Publication number: CN110026781B
Application number: CN201910442557.3A
Authority: CN
Inventors: 朱石麟
Original assignee: Linhai Jiuxiang Crafts Co ltd
Current assignee: Linhai Jiuxiang Crafts Co ltd
Priority date: 2019-05-25
Filing date: 2019-05-25
Publication date: 2024-01-26
Anticipated expiration: 2039-05-25
Also published as: CN110026781A

Abstract

The invention relates to a processing device for a base support of a sunshade, which comprises a discharging mechanism, a pressing groove mechanism, an extrusion forming mechanism, a cutting mechanism and a control box; the discharging mechanism comprises a main frame, the main frame is respectively provided with a material belt wheel, the pressing groove mechanism comprises a machine base, a machine frame is arranged on the machine base, the upper end of the machine frame is provided with a transmission device I, and the lower end of the machine frame is provided with a pressing groove device; the extrusion forming mechanism comprises a base, a die support plate is arranged on one side of the base, a die support is arranged on the other side of the base, a rotating shaft rod which corresponds up and down is arranged between each die support and the die support plate, an extrusion die wheel is arranged through the rotating shaft rod, and a motor II is arranged on one side of the base; the cutting mechanism is connected to the base in a sliding manner, the die knife set is arranged on the cutting mechanism, the motor III is arranged on the base, the oil cylinder is arranged on the cutting mechanism, and the oil cylinder is connected with the oil pump system. The invention enables a plurality of processing procedures of the base support of the sunshade to be completed on one equipment production line, improves the production efficiency and reduces the production cost.

Description

Sun umbrella base support processing equipment

Technical Field

The invention relates to a processing device for a base support of a sunshade.

Background

The beach umbrella is a common living tool in the life of people, and is also called beach umbrella, and is characterized in that the diameter of the umbrella surface is large, and the diameter is usually about 2-4 meters, and the beach umbrella is easy to turn over by wind due to the large windward area, so that a base with stable structure is needed. The support is usually assembled and arranged in the base, the existing base support processing is divided into a plurality of procedures such as extrusion molding, stamping and the like, and the base support needs to be separately processed on different equipment production lines, so that the processing efficiency is low, and the production cost is increased.

Disclosure of Invention

The invention provides the processing equipment for the base support of the sunshade umbrella, which aims to solve the defects, so that a plurality of processing procedures of the base support can be completed on one equipment production line, the production efficiency is improved, and the production cost is reduced.

In order to solve the technical problems, the technical scheme of the invention is as follows: the processing equipment for the base support of the sunshade comprises a discharging mechanism, a pressing groove mechanism, an extrusion forming mechanism, a cutting mechanism and a control box, wherein the pressing groove mechanism is arranged between the discharging mechanism and the extrusion forming mechanism; the discharging mechanism comprises a main frame, wherein the main frame is respectively provided with a material belt wheel, the pressing groove mechanism comprises a machine base, a machine frame is arranged on the machine base, the upper end of the machine frame is provided with a transmission device I, and the lower end of the machine frame is provided with a pressing groove device; the side surface of the frame is provided with a material belt length detection device connected with the control box through a circuit; the extrusion forming mechanism comprises a base, one side of the base is provided with a die support plate, the other side of the base is provided with a plurality of die supports corresponding to the die support plate, rotating shafts which correspond up and down are arranged between each die support and the die support plate, extrusion die wheels are arranged through the rotating shafts, a first group of rotating shafts close to the groove pressing mechanism is provided with a revolution counter connected with a control box circuit, and one side of the base is provided with a second motor in transmission connection with the rotating shafts; the cutting mechanism is slidably connected to the base, a die cutter set capable of cutting off the extruded base support is arranged on the cutting mechanism, a motor III capable of driving the cutting mechanism to slide is arranged on the base, an oil cylinder is arranged on the cutting mechanism, and the oil cylinder is connected with an oil pump system connected with a control box circuit.

The main frame is provided with a feeding driving box, and the feeding belt wheel is provided with a side fixing bracket.

The driving device comprises a motor I, a driving wheel, a driven driving wheel and a cam pressing rod, the motor I is connected with a control box circuit, the driving wheel and the driven driving wheel are respectively connected to the rack through a shaft rod I and a shaft rod II, the motor I is driven with the driving wheel, the driving wheel and the driven driving wheel by belts, and the cam pressing rod is connected to the shaft rod II; the pressing groove device comprises an upper pressing plate and a lower pressing plate, wherein the upper pressing plate is connected with the cam pressing rod and is provided with a pressing groove convex block, the lower pressing plate is connected with the frame and is provided with pressing grooves which correspond to the pressing groove convex block up and down, and a feeding length detector is arranged on the lower pressing plate and between the two pressing grooves; and a positioning driving box is arranged on one side of the frame corresponding to the extrusion forming mechanism.

The mold is characterized in that a transmission gear and an adjacent transmission gear are arranged at one end of a rotating shaft rod at the lower side between each mold support and each mold support plate in a matched transmission mode, a transmission connection is formed between a second motor and the transmission gear through a gear set, and the second motor is connected with a control box through a circuit.

The cutting mechanism comprises a sliding table, a sliding rail matched with the sliding table is arranged on the base, a sliding screw rod connected with the sliding table is arranged on the sliding rail, the sliding screw rod is connected with a motor III, and the motor III is connected with a control box through a circuit; the sliding table is provided with a supporting rod, an upper fixing plate and a lower fixing plate are arranged on the supporting rod, and the oil cylinder is arranged on the upper fixing plate; the die knife set comprises a knife plate, a cutter and a die block, wherein the knife plate is connected with the oil cylinder and is positioned at the lower side of the upper fixing plate, the cutter is fixed on the knife plate, and the die block is transversely provided with a forming material band-pass groove and a cutter band-pass groove which corresponds to the cutter up and down and is communicated with the forming material band-pass groove; the formed material belt through-grooves on the die block in the cutting mechanism correspond to the material belt formed by the extrusion forming mechanism.

A material belt induction bracket is arranged between the pressing groove mechanism and the extrusion forming mechanism, and a material belt clamping inductor connected with the control box line is arranged on the material belt induction bracket.

The material belt positioning device is arranged at one end of the base, corresponding to the pressing groove mechanism, and comprises a bottom frame, positioning rods are arranged on the bottom frame, a transfer screw rod is arranged between the positioning rods, symmetrical transfer blocks are arranged on the positioning rods and the transfer screw rod, and symmetrical positioning cylinders are respectively arranged on the transfer blocks.

The base is provided with a chassis forming and positioning device at the position between the cutting mechanism and the die supporting plate, the chassis forming and positioning device comprises a positioning frame, and a group of positioning die sets are arranged on the positioning frame.

The underframe is provided with a material belt clamping supporting rod, and the mobilizing block is provided with a cross material belt supporting plate; one side of the frame of the pressing groove mechanism, which corresponds to the discharging mechanism, is provided with a material belt positioning clamping rod.

The transmission gear is arranged at one end of the rotating shaft rod, which is close to the mold support plate, and the mold support plate is provided with a tooth protecting shell corresponding to the transmission gear.

The invention has the following beneficial effects:

when the device is used for processing, a coiled material belt is placed on a discharging mechanism, then the material belt is pulled to penetrate into a pressing groove mechanism, equipment is started through a control box, after one end of the material belt is pressed in the pressing groove mechanism, the material belt is penetrated between a first group of dies in an extrusion forming mechanism, the extrusion forming mechanism drives the material belt and completes extrusion forming, and finally a cutting mechanism of equipment cuts off a formed base bracket section by section and completes processing; compared with the traditional separate processing of different equipment production lines with multiple working procedures, the processing time is saved, the production efficiency is improved, one worker can finish the whole-course control of the processing, and the production cost is greatly reduced.

Drawings

FIG. 1 is an exploded perspective view of the present invention;

FIG. 2 is a perspective view of the discharge mechanism of the present invention;

FIG. 3 is a perspective view of the indent mechanism of the present invention;

fig. 4 is an enlarged view of a portion a of fig. 3;

FIG. 5 is a perspective view of the slot pressing mechanism of the present invention in another direction;

FIG. 6 is a perspective view of the extrusion mechanism of the present invention;

fig. 7 is an enlarged view of a portion B of fig. 6;

fig. 8 is an enlarged view of a portion C of fig. 6.

Detailed Description

The invention is further elucidated with reference to the drawings.

Referring to fig. 1 to 8, the invention provides a processing device for a base support of a sunshade, comprising a discharging mechanism 1, a pressing groove mechanism 2, an extrusion forming mechanism 3, a cutting mechanism 4 and a control box 5, wherein the pressing groove mechanism 2 is arranged between the discharging mechanism 1 and the extrusion forming mechanism 3; the discharging mechanism 1 comprises a main frame 6, the main frame 6 is respectively provided with a material belt wheel 7, the pressing groove mechanism 2 comprises a machine base 8, a machine frame 9 is arranged on the machine base 8, the upper end of the machine frame 9 is provided with a transmission device I, and the lower end of the machine frame 9 is provided with a pressing groove device; the extrusion forming mechanism 3 comprises a base 10, a die support plate 11 is arranged on one side of the base 10, a plurality of die supports 12 corresponding to the die support plate 11 are arranged on the other side of the base 10, rotating shaft rods 13 corresponding to the die support plate 11 up and down are arranged between each die support 12 and the die support plate 11, extrusion die wheels 14 are arranged through the rotating shaft rods 13, a revolution counter (not shown in the figure) in circuit connection with the control box 5 is arranged on a first group of rotating shaft rods 13 close to the groove pressing mechanism 2, and a motor II 15 in transmission connection with the rotating shaft rods 13 is arranged on one side of the base 10; the cutting mechanism 4 is slidably connected to the base 10, a die cutter set capable of cutting off the extruded base support is arranged on the cutting mechanism 4, a motor III 16 capable of driving the cutting mechanism 4 to slide is arranged on the base 10, an oil cylinder 17 is arranged on the cutting mechanism 4, and the oil cylinder 17 is connected with an oil pump system 18 connected with the control box 5 in a circuit mode.

The main frame 6 is provided with a feeding driving box 19, and the feeding belt wheel 7 is provided with a side fixing bracket 20.

The transmission device comprises a motor I21, a driving transmission wheel 22, a driven transmission wheel 23 and a cam pressing rod 24, wherein the motor I21 is in circuit connection with the control box 5, the driving transmission wheel 22 and the driven transmission wheel 23 are respectively connected to the rack 9 through a shaft lever I25 and a shaft lever II 26, the motor I21 and the driving transmission wheel 22, the driving transmission wheel 22 and the driven transmission wheel 23 are in belt transmission, and the cam pressing rod 24 is connected to the shaft lever II 26; the pressing groove device comprises an upper pressing plate 27 and a lower pressing plate 28, wherein the upper pressing plate 27 and the lower pressing plate 28 are connected through sliding and positioning of sliding rods, the upper pressing plate 27 is connected with a cam pressing rod 24 and is provided with a pressing groove convex block 29, the lower pressing plate 28 is connected with a frame 9 through a fixed plate and is provided with pressing grooves 30 which are vertically corresponding to the pressing groove convex block 29, a feeding length detector 31 is arranged on the lower pressing plate 28 and between the two pressing grooves 30, and the feeding length detector 31 is connected with a control box 5 through a circuit; a positioning driving box 32 is arranged on one side of the frame 9 corresponding to the extrusion molding mechanism 3.

One end of a rotating shaft rod 13 at the lower side between each die support 12 and the die support plate 11 is provided with a transmission gear 33, the adjacent transmission gears 33 are in matched transmission connection, a transmission connection is formed between a motor II 15 and the transmission gears 33 through a gear set, and the motor II 15 is in circuit connection with the control box 5.

The cutting mechanism 4 comprises a sliding table 34, a sliding rail 35 matched with the sliding table 34 is arranged on the base 10, a sliding screw rod 36 connected with the sliding table 34 is arranged on the sliding rail 35, the sliding screw rod 36 is connected with a motor III 16, and the motor III 16 is in circuit connection with the control box 5; a supporting rod 37 is arranged on the sliding table 34, an upper fixing plate 38 and a lower fixing plate 39 are arranged on the supporting rod 37, and the oil cylinder 17 is arranged on the upper fixing plate 38; the die cutter group comprises a cutter plate 40, a cutter 41 and a die block 42, wherein the cutter plate 40 is connected with the oil cylinder 17 and is positioned at the lower side of the upper fixing plate 38, the cutter 41 is fixed on the cutter plate 40, the die block 42 is fixed on the lower fixing plate 39, and the die block 42 is transversely provided with a forming material band-pass groove 43 and a cutter band-pass groove 44 which corresponds to the cutter 41 up and down and is communicated with the forming material band-pass groove 43; the molding material belt grooves 43 on the die block 42 of the cutting mechanism 4 correspond to the material belt molded by the extrusion molding mechanism 3.

A material belt induction bracket 45 is arranged between the groove pressing mechanism 2 and the extrusion forming mechanism 3, and a material belt clamping sensor (not shown in the figure) connected with the control box 5 in a circuit is arranged on the material belt induction bracket 45; if the dead inductor of material area is in the position of material area top, if the dead of material area appears in indent mechanism 2 or blowing mechanism 1 before extrusion mechanism 3, and extrusion mechanism 3 is still when moving, the material area between indent mechanism 2 and the extrusion mechanism 3 will be straightened and be close to the dead inductor of material area response support 45, and the dead inductor of material area detects the material area and is close and feed back to control box 5 to control extrusion mechanism 3 stop operation.

The material belt positioning device is arranged at one end of the base 10 corresponding to the groove pressing mechanism 2, and comprises a bottom frame 46, positioning rods 47 are arranged on the bottom frame 46, a transferring screw rod 48 is arranged between the positioning rods 47, symmetrical transferring blocks 49 are arranged on the positioning rods 47 and the transferring screw rod 48, and symmetrical positioning cylinders 50 are respectively arranged on the transferring blocks 49; thereby, the position adjustment and correction can be performed on the material belt entering the extrusion forming mechanism 3, and the material belt is prevented from extrusion movement.

The base 10 is provided with a chassis forming and positioning device at a position between the cutting mechanism 4 and the die supporting plate 11, the chassis forming and positioning device comprises a positioning frame 51, and a group of positioning die groups 52 are arranged on the positioning frame 51; the chassis forming and positioning device can position the base bracket after extrusion forming, so that the formed base bracket can be better abutted into the forming material band-pass groove 43 on the die block 42 of the cutting mechanism 4.

The underframe 46 is provided with a material belt clamping support rod 53, and one side of the frame 9 of the pressing groove mechanism 2 corresponding to the discharging mechanism 1 is provided with a material belt positioning clamping rod 54; thereby being capable of better positioning the material belt in the processing process

The transmission gear 33 is arranged at one end of the rotating shaft rod 13, which is close to the mold support plate 11, and the mold support plate 11 is provided with a tooth protecting shell 55 corresponding to the transmission gear 33.

The working principle of the invention is as follows:

during processing and use, a coiled material belt is placed on a material belt wheel 7 of a discharging mechanism 1 and is fixed by a side material fixing bracket 20, then an operator manually pulls the material belt and passes through a material conveying driving box 19, the pulled material belt passes through a material belt positioning clamping rod 54, and then the end part of the material belt is placed between an upper pressing plate 27 and a lower pressing plate 28 of a pressing groove device and corresponds to a material conveying length detector 31; starting the device by the control box 5, wherein the material belt moves under the drive of the material conveying driving box 19, and the material conveying length detector 31 starts to detect the moving length of the material belt; when the moving length of the material belt reaches the length value set by the system, the motor one 21 of the transmission device drives the driving transmission wheel 22 and the driven transmission wheel 23 to rotate, so that the cam pressing rod 24 is driven to move downwards, the cam pressing rod 24 drives the upper pressing plate 27 to move downwards, and the pressing groove convex blocks 29 on the upper pressing plate 27 are matched into the pressing grooves 30 of the lower pressing plate 28, so that the material belt pressing groove is completed.

The material belt with the pressing groove is penetrated out through the positioning driving box 32, after the material belt with the pressing groove is penetrated out of the positioning driving box 32 for a certain distance, the material belt is penetrated between the first group of extrusion die wheels 14 in the extrusion forming mechanism 3 after passing through the material belt clamping stay rod and the material belt positioning device, and each group of extrusion die wheels 14 on the base 10 are driven by the second motor 15 to rotate, so that the material belt is gradually driven to finish extrusion forming; suspending the operation of the equipment, manually passing the extruded material belt through the forming material belt through grooves 43 of the die 42 in the die cutter set, starting the equipment, starting the revolution counter and the cutting mechanism 4 at the same time, cutting the material belt in the forming material belt through grooves 43 by the cutter 41 in the die cutter set under the control of the oil cylinder 17 after the revolution counter counts the set meters, and finally cutting the formed base bracket section by the cutting mechanism 4 of the equipment and finishing the processing; the whole production process can automatically finish the processing of a new roll of material after the processing personnel butt-joint the extruded material into the forming material belt groove 43.

In the process of processing and production, the position of the pressing groove 30 finished on the pressing groove mechanism 2 is determined according to the requirement, an infrared pressing groove detector (not shown in the figure) is required to be arranged on the base 10 of the extrusion forming mechanism 3, the installation position of the infrared pressing groove detector on the base is adjusted according to the requirement, but the infrared pressing groove detector corresponds to the pressing groove 30 on the material belt up and down, the position of the pressing groove 30 is detected before the cutting mechanism by the infrared pressing groove detector, so that the position is fed back to the control box 5 to ensure the cutting base point of the cutting mechanism 4, and then the cutting mechanism 4 is driven to be reset after each cutting through the motor III 16.

The above describes in detail a processing device for a base support of a parasol, which is provided by the embodiment of the present invention, and specific examples are applied to describe the principle and implementation of the present invention, and the description of the above embodiments is only used to help understand the technical scheme disclosed by the present invention; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in accordance with the ideas of the present invention, the present description should not be construed as limiting the present invention in view of the above.

Claims

1. The utility model provides a sun umbrella base support processing equipment which characterized in that: the device comprises a discharging mechanism, a pressing groove mechanism, an extrusion forming mechanism, a cutting mechanism and a control box, wherein the pressing groove mechanism is arranged between the discharging mechanism and the extrusion forming mechanism; the discharging mechanism comprises a main frame, wherein the main frame is respectively provided with a material belt wheel, the pressing groove mechanism comprises a machine base, a machine frame is arranged on the machine base, the upper end of the machine frame is provided with a transmission device I, and the lower end of the machine frame is provided with a pressing groove device; the extrusion forming mechanism comprises a base, one side of the base is provided with a die support plate, the other side of the base is provided with a plurality of die supports corresponding to the die support plate, rotating shafts which correspond up and down are arranged between each die support and the die support plate, extrusion die wheels are arranged through the rotating shafts, a first group of rotating shafts close to the groove pressing mechanism is provided with a revolution counter connected with a control box circuit, and one side of the base is provided with a second motor in transmission connection with the rotating shafts; the cutting mechanism is connected to the base in a sliding manner, a die cutter group capable of cutting off the extruded base support is arranged on the cutting mechanism, a motor III capable of driving the cutting mechanism to slide is arranged on the base, an oil cylinder is arranged on the cutting mechanism, and the oil cylinder is connected with an oil pump system connected with a control box circuit;

the driving device comprises a motor I, a driving wheel, a driven driving wheel and a cam pressing rod, the motor I is connected with a control box circuit, the driving wheel and the driven driving wheel are respectively connected to the rack through a shaft rod I and a shaft rod II, the motor I is driven with the driving wheel, the driving wheel and the driven driving wheel by belts, and the cam pressing rod is connected to the shaft rod II; the pressing groove device comprises an upper pressing plate and a lower pressing plate, wherein the upper pressing plate is connected with the cam pressing rod and is provided with a pressing groove convex block, the lower pressing plate is connected with the frame and is provided with pressing grooves which correspond to the pressing groove convex block up and down, and a feeding length detector is arranged on the lower pressing plate and between the two pressing grooves; a positioning driving box is arranged at one side of the frame corresponding to the extrusion forming mechanism;

2. A parasol base frame processing apparatus as claimed in claim 1, wherein: the main frame is provided with a feeding driving box, and the feeding belt wheel is provided with a side fixing bracket.

3. A parasol base frame processing apparatus as claimed in claim 1, wherein: the cutting mechanism comprises a sliding table, a sliding rail matched with the sliding table is arranged on the base, a sliding screw rod connected with the sliding table is arranged on the sliding rail, the sliding screw rod is connected with a motor III, and the motor III is connected with a control box through a circuit; the sliding table is provided with a supporting rod, an upper fixing plate and a lower fixing plate are arranged on the supporting rod, and the oil cylinder is arranged on the upper fixing plate; the die knife set comprises a knife plate, a cutter and a die block, wherein the knife plate is connected with the oil cylinder and is positioned at the lower side of the upper fixing plate, the cutter is fixed on the knife plate, and the die block is transversely provided with a forming material band-pass groove and a cutter band-pass groove which corresponds to the cutter up and down and is communicated with the forming material band-pass groove; the formed material belt through-grooves on the die block in the cutting mechanism correspond to the material belt formed by the extrusion forming mechanism.

4. A parasol base frame processing apparatus as claimed in claim 1, wherein: a material belt induction bracket is arranged between the pressing groove mechanism and the extrusion forming mechanism, and a material belt clamping inductor connected with the control box line is arranged on the material belt induction bracket.

5. A parasol base frame processing apparatus as claimed in claim 1, wherein: the material belt positioning device is arranged at one end of the base, corresponding to the pressing groove mechanism, and comprises a bottom frame, positioning rods are arranged on the bottom frame, a transfer screw rod is arranged between the positioning rods, symmetrical transfer blocks are arranged on the positioning rods and the transfer screw rod, and symmetrical positioning cylinders are respectively arranged on the transfer blocks.

6. A parasol base frame processing apparatus as claimed in claim 1, wherein: the base is provided with a chassis forming and positioning device at the position between the cutting mechanism and the die supporting plate, the chassis forming and positioning device comprises a positioning frame, and a group of positioning die sets are arranged on the positioning frame.

7. A parasol base frame processing apparatus as claimed in claim 5, wherein: the underframe is provided with a material belt clamping supporting rod, and the mobilizing block is provided with a cross material belt supporting plate; one side of the frame of the pressing groove mechanism, which corresponds to the discharging mechanism, is provided with a material belt positioning clamping rod.

8. A parasol base frame processing apparatus as claimed in claim 1, wherein: the transmission gear is arranged at one end of the rotating shaft rod, which is close to the mold support plate, and the mold support plate is provided with a tooth protecting shell corresponding to the transmission gear.