CN110666917B

CN110666917B - Full-automatic spoon manufacturing machine

Info

Publication number: CN110666917B
Application number: CN201911015802.9A
Authority: CN
Inventors: 施荣兴
Original assignee: Anji Qiancheng Bamboo Machinery Co ltd
Current assignee: Anji Qiancheng Bamboo Machinery Co ltd
Priority date: 2019-10-24
Filing date: 2019-10-24
Publication date: 2024-07-30
Anticipated expiration: 2039-10-24
Also published as: CN110666917A

Abstract

The invention relates to a full-automatic spoon manufacturing machine, which comprises a workbench, a storage bin, a feeding device and a forming device, wherein the storage bin is arranged above the workbench, the forming device comprises a cushion block, a forming cutter and a lifting mechanism, the cushion block is fixedly arranged at one side of the storage bin, the upper end surface of the cushion block is lower than or is flush with the table top of the workbench, the forming cutter is arranged above the cushion block and is driven by the lifting mechanism to move up and down relative to the cushion block, and a forming die hole penetrating through the forming cutter vertically is formed in the forming cutter; the feeding device comprises a pushing plate and a pushing mechanism, wherein the pushing plate is arranged on the table top of the workbench, and is pushed by the pushing mechanism to reciprocate on the front side and the rear side of the storage bin. According to the invention, automatic feeding, compression molding and material taking are realized through the feeding device and the molding device, so that the labor intensity of workers is reduced, and the production efficiency is improved.

Description

Full-automatic spoon manufacturing machine

Technical Field

The invention relates to the technical field of bamboo spoon production equipment, in particular to a full-automatic spoon manufacturing machine.

Background

The spoon is a common tableware in daily life, is generally made of metal or plastic, and is made of environment-friendly bamboo and wood materials at present. In the production process of the bamboo spoon, the bamboo chips are generally cut into spoon shapes, and then are molded by a die.

The Chinese patent of 201620089113.8 discloses a die for one-step forming spoon of bamboo chips, which comprises an upper die and a lower die, wherein the upper die comprises a fixing frame, an upper die frame and a forming hot die, the forming hot die is fixed on the upper die frame, the upper die frame is locked on the fixing frame positioned at the upper part of the upper die frame, the lower die comprises a lower fixing frame, a lower die frame, a lower forming die and a limiting template, the setting position of the lower forming die is lower than that of the limiting template, the lower forming die is limited by the limiting template and is fixed on the lower die frame together, the lower die frame is locked on the lower fixing frame, the bamboo chips are molded at one time, but the bamboo chips are needed to be manually placed on the lower die in the molding process, the finished product is needed to be manually taken down after the molding, the labor intensity is high, and the production efficiency is low.

Disclosure of Invention

The invention aims to provide a full-automatic spoon manufacturing machine which solves the problems of high labor intensity and low production efficiency of a bamboo spoon in the production process.

The above object of the present invention is achieved by the following technical solutions: the full-automatic spoon manufacturing machine comprises a workbench, a storage bin, a feeding device and a forming device, wherein the storage bin is arranged above the workbench, the forming device comprises a cushion block, a forming cutter and a lifting mechanism, the cushion block is fixedly arranged on one side of the storage bin, the upper end face of the cushion block is lower than or is flush with the table top of the workbench, the forming cutter is arranged above the cushion block and is driven by the lifting mechanism to move up and down relative to the cushion block, and a forming die hole penetrating through the forming cutter up and down is formed in the forming cutter; the feeding device comprises a pushing plate and a pushing mechanism, wherein the pushing plate is arranged on the table top of the workbench, and is pushed by the pushing mechanism to reciprocate on the front side and the rear side of the storage bin.

The reciprocating movement of the pushing plate can sequentially push the bamboo chips in the bin to the cushion block and the forming cutter for compression molding, so that automatic feeding of the bamboo chips is realized; the forming cutter moves up and down relative to the cushion block, the bamboo chips are cut into a bamboo spoon shape through the forming die holes of the forming cutter, the bamboo chips in the bamboo spoon shape are clamped in the forming die holes, the rest bamboo chip waste is left on the cushion block, and when the material is pushed next time, the new bamboo chips extrude the bamboo chip waste out of the cushion block; under the reciprocating cutting action of the forming cutter, the bamboo chips of the forming die holes are sequentially stacked from bottom to top until being discharged from the upper ends of the forming die holes, so that automatic forming and blanking are realized.

Preferably, the bin is fixed on the workbench, and a gap for the push plate to pass through is arranged between the lower end of the bin and the table top of the workbench.

Preferably, the bin is provided with a trough, the notch of the trough faces one side of the feeding device direction, and a blocking piece is arranged at the notch of the trough.

The trough is vertically arranged, bamboo chips are stacked in the trough from top to bottom, when the pushing plate pushes forwards, the bamboo chips positioned at the bottommost layer of the trough are pushed to the cushion block from the gap inner cup between the lower end of the feed bin and the table top of the workbench, and the rest bamboo chips are blocked by the feed bin and remain in the trough; when the push plate moves backwards to the rear side of the storage bin, the blocking piece blocks the bamboo chips in the trough and prevents the bamboo chips from being taken out of the trough after being pushed by the push plate, and the stacked bamboo chips drop onto the workbench under the action of gravity at the moment, so that the bamboo chips at the bottom layer are pushed onto the cushion block by the push plate in the next pushing process.

Preferably, a fixing frame for fixing the cushion block is arranged below the workbench, the fixing frame comprises fixing plates clamped on the front side and the rear side of the cushion block and a supporting plate arranged at the bottom of the cushion block, and an adjusting bolt for adjusting the upper and lower heights of the cushion block is connected to the supporting plate in a threaded mode.

Preferably, barrier strips are arranged on the left side and the right side of the forming cutter, the barrier strips are fixed above the cushion blocks, and a gap is reserved between the barrier strips and the upper end faces of the cushion blocks.

When the machined piece, namely the bamboo chip, is pushed onto the cushion block by the push plate, the bamboo chip is positioned in a gap between the barrier strip and the upper end surface of the cushion block, and is clamped between the barrier strip and the cushion block; the shaping cutter moves down and cuts the bamboo chip, and a part of bamboo chip is the bamboo spoon semi-manufactured goods and is located the shaping nib of shaping cutter, and another part is the waste material and is located the shaping cutter outside, and when shaping cutter moved upwards, the bamboo chip that is located the shaping nib was along with shaping cutter removal to the waste material is left on the cushion owing to receive the barrier of blend stop to make bamboo spoon semi-manufactured goods and waste material separate, when new bamboo chip was pushed to the cushion by the push pedal, the waste material on the cushion was also extruded the cushion by new bamboo chip thereupon.

Preferably, the lifting mechanism comprises a lifting plate, a first main shaft and a crank, wherein the lifting plate is movably arranged on the workbench, the forming cutter is fixed on the lifting plate, the first main shaft is rotatably arranged on a supporting frame below the workbench, the first main shaft is a crank shaft, one end of the crank is movably connected to the first main shaft, and the other end of the crank is hinged to the lifting plate.

Preferably, the pushing mechanism comprises a moving seat, a second main shaft, a swinging arm, a first connecting rod and a second connecting rod, wherein the moving seat is movably arranged on the workbench, the push plate is fixed on the moving seat, the upper end of the swinging arm is hinged on the moving seat, the lower end of the swinging arm is connected with the second connecting rod, the second connecting rod is hinged on the supporting frame, the second main shaft is rotatably arranged on the supporting frame, a rotating piece is arranged on the second main shaft, one end of the first connecting rod is hinged at the eccentric position of the rotating piece, and the other end of the first connecting rod is hinged on the swinging arm.

Preferably, the push plate is provided with a long groove, a fastening bolt is arranged in the long groove in a penetrating manner, and the push plate is fixed on the movable seat through the fastening bolt.

Preferably, the rotating member is provided with a sliding groove, a movable sliding block is arranged in the sliding groove, the sliding block moves along the sliding groove to adjust the distance between the sliding block and the center of the rotating member, the sliding block is fixed on the rotating member through a positioning bolt, and the end part of the first connecting rod is hinged on the sliding block.

When the sliding block moves along the sliding groove, the distance from the hinging point of the first connecting rod on the sliding block to the rotating center of the rotating piece changes, so that the swing amplitude of the swing arm also changes along with the distance, and the distance between the movable seat and the push plate, which is moved back and forth, is adjusted, and the bamboo chips in the storage bin are accurately pushed between the forming cutter and the cushion block.

Preferably, a transmission assembly is arranged between the first main shaft and the second main shaft, and the first main shaft and the second main shaft synchronously rotate through the transmission assembly.

Because the first main shaft and the second main shaft keep synchronous rotation through the transmission component, the synchronous and orderly operation of the feeding device and the forming device is ensured, and errors in the production process are avoided.

The invention has the following beneficial effects:

1. according to the automatic feeding device, automatic feeding, compression molding and material taking are carried out through the feeding device and the molding device, so that the labor intensity of workers is reduced, and the production efficiency is improved;

2. The shaping cutter is provided with the shaping die holes, the shaping bamboo chips can be clamped in the shaping die holes, and in the reciprocating shaping process, the bamboo chips are sequentially stacked in the shaping die holes from bottom to top until the bamboo chips on the uppermost layer are extruded from the upper ends of the shaping die holes, so that automatic blanking is completed, and the working procedures of manually taking materials are reduced;

3. The first main shaft and the second main shaft keep synchronous rotation through the transmission component, so that the feeding device and the forming device can run synchronously and orderly, and errors in the production process are avoided.

Drawings

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

FIG. 2 is a schematic perspective view of another view of an embodiment of the present invention;

FIG. 3 is a front view of an embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 1 at A;

FIG. 5 is a cross-sectional view at B-B in FIG. 3;

FIG. 6 is a schematic view of a rotating member according to an embodiment of the present invention;

In the figure: 1-workbench, 2-support frame, 3-bin, 301-trough, 4-feeding device, 401-push plate, 402-movable seat, 403-translation guide bar, 404-swing arm, 405-second main shaft, 406-rotating piece, 4061-chute, 4062-slider, 407-first connecting rod, 408-second connecting rod, 5-forming device, 501-lifting plate, 502-lifting guide bar, 503-forming cutter, 5031-forming die hole, 504-cushion block, 505-crank, 506-first main shaft, 507-fixed plate, 508-supporting plate, 509-adjusting bolt, 510-baffle bar, 6-blocking piece and 7-transmission component.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explanation of the present invention and is not to be construed as limiting the present invention, and modifications to the present embodiment, which may not creatively contribute to the present invention, may be made by those skilled in the art after reading the present specification, are only protected by patent laws within the scope of the claims of the present invention.

Examples: as shown in fig. 1 to 5, a full-automatic spoon manufacturing machine comprises a workbench 1, a storage bin 3, a feeding device 4 and a forming device 5, wherein the workbench 1 is supported by a support frame 2 below. The feed bin 3 is fixed on the mesa of workstation 1, and material feeding unit 4 is located one side of feed bin 3, and forming device 5 is located the opposite side of feed bin 3.

The feeding device 4 comprises a pushing plate 401 and a pushing mechanism, wherein the pushing plate 401 is movably arranged on the surface of the workbench 1, and the pushing plate 401 is pushed by the pushing mechanism to reciprocate on the front side and the back side of the bin 3.

As shown in fig. 2, the bin 3 is vertically fixed on the workbench 1, and the bin 3 is provided with a trough 301, the horizontal projection of which is in a U-shaped structure, and the notch of the trough 301 faces to one side of the feeding device 4. A gap is arranged between the lower end of the stock bin 3 and the table surface of the workbench 1, and the height of the gap can enable the single-layer bamboo chips and the pushing plate 401 to pass through the gap. A blocking member 6 is provided at the notch of the trough 301 to prevent the pushing plate 401 from carrying bamboo chips out of the trough 301 when it moves backward. The blocking member 6 comprises a blocking lever and a plurality of rollers mounted on the blocking lever, and the clearance between the rollers and the top of the table 1 is such that the pushing plate 401 passes through.

As shown in fig. 1, 3 and 4, the forming device 5 comprises a cushion block 504, a forming cutter 503 and a lifting mechanism, wherein the cushion block 504 is fixedly arranged on one side of the stock bin 3 and is fixed on the support frame 2 through a fixing frame, and the upper end surface of the cushion block 504 is lower than the table surface of the table 1 or is flush with the table surface of the table 1 so as to push the bamboo chips from the table 1 to the cushion block 504.

The forming cutter 503 is located above the cushion block 504 and driven by the lifting mechanism, so that the forming cutter 503 moves up and down relative to the cushion block 504. The forming cutter 503 is provided with a forming die hole 5031 penetrating the forming cutter 503 up and down, the lower end surface of the forming cutter 503 is provided with a cutting edge, and the cutting edge is distributed along the periphery of the forming die hole 5031, so that the forming cutter 503 can be cut into a shape matched with the forming die hole 5031 when pressed on the bamboo chips.

In the back and forth reciprocating movement of the pushing plate 401, the bamboo chips of the magazine 3 are pushed into the spacer blocks 504 layer by layer and cut into a matched shape (i.e., a spoon shape) by the molding holes 5031.

A fixing frame for fixing the cushion block 504 is arranged below the workbench 1 and is fixed on the support frame 2 through a fastener. The fixing frame comprises fixing plates 507 clamped on the front side and the rear side of the cushion block 504 and a supporting plate 508 arranged at the bottom of the cushion block 504, and an adjusting bolt 509 for adjusting the upper and lower heights of the cushion block 504 is screwed on the supporting plate 508.

As shown in fig. 4, a barrier 510 is fixedly provided above the pad 504, and the barrier 510 is distributed on the left and right sides of the forming cutter 503. The barrier strip 510 is fixed on the table 1 or the supporting frame 2, and a gap is formed between the barrier strip 510 and the upper end surface of the cushion block 504, and the bamboo chips are pushed onto the cushion block 504 by the push plate 401 from the table 1, and at this time, the bamboo chips are located in the gap between the barrier strip 510 and the cushion block 504, so as to limit the up-down movement of the bamboo chips. To facilitate the entry of the bamboo chips into the spacer block 504, the barrier ribs 510 are inclined such that the height of the gap between the barrier ribs 510 and the spacer block 504 is gradually reduced along the entry direction of the bamboo chips.

As shown in fig. 1 and 3, the lifting mechanism comprises a lifting plate 501, a first main shaft 506 and a crank 505, wherein two ends of the lifting plate 501 are sleeved on a lifting guide rod 502 on the workbench 1 and can move up and down relative to the workbench 1. The forming cutter 503 is fixedly mounted on the elevating plate 501 by a fastener. The first main shaft 506 is mounted on the support frame 2 through a bearing, and the first main shaft 506 is driven to rotate by a motor. The first main shaft 506 is a crankshaft, one end of the crank 505 is sleeved on the first main shaft 506 and can rotate relative to the first main shaft 506, the other end of the crank 505 is hinged on the lifting plate 501, and when the crankshaft rotates, the crank 505 moves up and down along with the crankshaft, so that the lifting plate 501 and the forming cutter 503 are driven to move up and down.

As shown in fig. 2 and 5, the pushing mechanism includes a movable base 402, a second spindle 405, a swing arm 404, a first link 407, and a second link 408, where the table 1 is provided with a mounting opening that penetrates up and down, and the movable base 402 is located in the mounting opening and is mounted on the table 1 through a translation guide bar 403, and can translate back and forth relative to the table 1. The push plate 401 is fixedly mounted on the movable seat 402 by fastening bolts.

The second main shaft 405 is installed on the support frame 2 through a bearing, the first main shaft 506 and the second main shaft 405 are driven by the transmission assembly 7 to synchronously rotate, and the transmission assembly 7 adopts a conventional sprocket chain.

The second spindle 405 is provided with a rotating member 406 which rotates synchronously, in this embodiment the rotating member 406 being a rotating wheel. One end of the first link 407 is hinged at an eccentric position of the rotating member 406, and the other end is hinged at a center position of the swing arm 404. The second link 408 is located below the first link 407, and one end of the second link 408 is hinged to the support frame 2, and the other end is hinged to the lower end of the swing arm 404. The upper end of the swing arm 404 is hinged to the movable seat 402, and when the second spindle 405 rotates, the swing arm 404 swings back and forth through the rotating member 406 and the first link 407, so as to drive the movable seat 402 and the push plate 401 to move back and forth.

The long groove is arranged on the push plate 401, and the fastening bolt passes through the long groove and is in threaded connection with the movable seat 402, so that the front and back positions of the push plate 401 on the movable seat 402 can be conveniently adjusted.

As shown in fig. 6, the rotating member 406 is provided with a slide groove 4061, and the slide groove 4061 is provided in the radial direction of the rotating member 406. A sliding block 4062 is installed in the sliding groove 4061, and the sliding block 4062 can move along the radial direction of the rotating member 406 so as to adjust the distance between the sliding block 4062 and the center of the rotating member 406. The sliding groove 4061 is a T-shaped groove, the sliding block 4062 is fixed on the rotating member 406 by a positioning bolt, and the end of the first connecting rod 407 is hinged on the sliding block 4062.

In operation, bamboo chips are stacked layer by layer in the trough 301 of the magazine 3. When the motor is operated, the pushing plate 401 moves forward to push the single-layer bamboo chips onto the cushion block 504, and the forming cutter 503 moves upward to leave a space for the bamboo chips. After pushing, the pushing plate 401 moves backward, so that the bottom bamboo chips on the pushing plate 401 drop onto the workbench 1 to prepare for the next pushing, and meanwhile, the forming cutter 503 moves downward to cut the bamboo chips on the cushion block 504 into a bamboo spoon shape. When the material is pushed next time, the forming cutter 503 drives the finished bamboo chips in the forming die hole 5031 to move upwards together, so that the waste materials are left on the cushion block 504, and after the new pushed bamboo chips extrude the waste materials out of the cushion block 504, the waste materials are discharged through a hopper arranged on the cushion block 504. With repeated operation, the finished bamboo chips in the forming die holes 5031 are increased layer by layer until the uppermost finished bamboo chips are extruded upward out of the forming die holes 5031, and the finished bamboo chips are discharged through a hopper mounted on the forming cutter 503.

Claims

1. The utility model provides a full-automatic ladle manufacturing machine, includes workstation (1), feed bin (3), material feeding unit (4) and forming device (5), feed bin (3) set up in workstation (1) top, its characterized in that: the forming device (5) comprises a cushion block (504), a forming cutter (503) and a lifting mechanism, wherein the cushion block (504) is fixedly arranged on one side of the storage bin (3) and the upper end face of the cushion block (504) is lower than the table top of the workbench (1) or is flush with the table top of the workbench (1), the forming cutter (503) is arranged above the cushion block (504) and is driven by the lifting mechanism to move up and down relative to the cushion block (504), and a forming die hole (5031) penetrating through the forming cutter (503) up and down is formed in the forming cutter (503); the feeding device (4) comprises a pushing plate (401) and a pushing mechanism, wherein the pushing plate (401) is arranged on the table top of the workbench (1) and is pushed by the pushing mechanism to reciprocate on the front side and the rear side of the storage bin (3).

2. A fully automatic ladle maker as recited in claim 1 wherein: the bin (3) is fixed on the workbench (1), and a gap for the push plate (401) to pass through is formed between the lower end of the bin (3) and the table top of the workbench (1).

3. A fully automatic ladle maker as recited in claim 2 wherein: the feeding device is characterized in that the storage bin (3) is provided with a trough (301), the notch of the trough (301) faces one side of the feeding device (4) in the direction, and a blocking piece (6) is arranged at the notch of the trough (301).

4. A fully automatic ladle maker as recited in claim 1 wherein: the workbench is characterized in that a fixing frame for fixing the cushion block (504) is arranged below the workbench (1), the fixing frame comprises fixing plates (507) clamped on the front side and the rear side of the cushion block (504) and supporting plates (508) arranged at the bottom of the cushion block (504), and adjusting bolts (509) for adjusting the upper and lower heights of the cushion block (504) are connected to the supporting plates (508) in a threaded mode.

5. A fully automatic ladle maker as recited in claim 1 or 4 wherein: the left side and the right side of the shaping cutter (503) are provided with baffle strips (510), the baffle strips (510) are fixed above the cushion blocks (504), and a gap is reserved between the baffle strips (510) and the upper end surfaces of the cushion blocks (504).

6. A fully automatic ladle maker as recited in claim 1 wherein: the lifting mechanism comprises a lifting plate (501), a first main shaft (506) and a crank (505), wherein the lifting plate (501) is movably arranged on a workbench (1), a forming cutter (503) is fixed on the lifting plate (501), the first main shaft (506) is rotatably arranged on a supporting frame (2) below the workbench (1), the first main shaft (506) is a crankshaft, one end of the crank (505) is movably connected to the first main shaft (506), and the other end of the crank is hinged to the lifting plate (501).

7. A fully automatic ladle maker as recited in claim 6 wherein: the pushing mechanism comprises a movable seat (402), a second main shaft (405), a swinging arm (404), a first connecting rod (407) and a second connecting rod (408), wherein the movable seat (402) is movably arranged on a workbench (1), the pushing plate (401) is fixed on the movable seat (402), the upper end of the swinging arm (404) is hinged on the movable seat (402), the lower end of the swinging arm is connected with the second connecting rod (408), the second connecting rod (408) is hinged on a supporting frame (2), the second main shaft (405) is rotatably arranged on the supporting frame (2), a rotating piece (406) is arranged on the second main shaft (405), one end of the first connecting rod (407) is hinged at the eccentric position of the rotating piece (406), and the other end of the first connecting rod (407) is hinged on the swinging arm (404).

8. A fully automatic ladle maker as recited in claim 7 wherein: the push plate (401) is provided with a long groove, a fastening bolt is arranged in the long groove in a penetrating mode, and the push plate (401) is fixed on the movable seat (402) through the fastening bolt.

9. A fully automatic ladle maker as recited in claim 7 wherein: the sliding device is characterized in that a sliding groove (4061) is formed in the rotating piece (406), a movable sliding block (4062) is arranged in the sliding groove (4061), the sliding block (4062) moves along the sliding groove (4061) to adjust the distance between the sliding block (4062) and the center of the rotating piece (406), the sliding block (4062) is fixed on the rotating piece (406) through a positioning bolt, and the end portion of the first connecting rod (407) is hinged to the sliding block (4062).

10. A fully automatic ladle maker as recited in claim 7 wherein: a transmission assembly (7) is arranged between the first main shaft (506) and the second main shaft (405), and the first main shaft and the second main shaft synchronously rotate through the transmission assembly (7).