CN216765435U - Tableware integral type make-up machine - Google Patents

Abstract

The embodiment discloses a tableware integrated forming machine, which comprises a wet blank forming device and a hot-press forming device, wherein the hot-press forming device and the wet blank forming device are arranged side by side and are adjacent to each other; the moving device comprises a wet blank transfer assembly and a dry blank transfer assembly, and the dry blank transfer assembly and the wet blank transfer assembly can alternately extend and retract towards the hot-press forming device when approaching the hot-press forming device; the utility model is provided with the dry blank and wet blank transfer device, thereby accelerating the transfer efficiency of the wet blank and the dry blank, having high automation degree and improving the production efficiency.

Description

Tableware integral type make-up machine

Technical Field

The utility model belongs to the technical field of forming machines, and particularly relates to an integrated tableware forming machine.

Background

The traditional disposable tableware is not degradable and can cause serious influence on the environment. In the process of continuously updating tableware, the fully-degradable sugarcane pulp products are produced and rapidly developed. However, the traditional full-degradation forming machine adopts a slip casting type working structure, so that the automation degree is low, the product processing procedures are multiple, the procedures are independent, and the overall yield of the product is low; therefore, it is necessary to design an integrated tableware molding machine.

Disclosure of Invention

The utility model designs an integrated tableware forming machine aiming at the problems in the prior art, and the integrated tableware forming machine is provided with a dry blank and wet blank transfer device, so that the transfer efficiency of wet blanks and dry blanks is accelerated, the automation degree is high, and the production efficiency is improved.

The utility model aims to be realized by the following technical scheme: a tableware integrated forming machine comprises a wet blank forming device and a hot-press forming device, wherein the hot-press forming device and the wet blank forming device are arranged side by side and adjacent to each other, and moving devices for transferring dry blanks and wet blanks are arranged on the side surfaces of the wet blank forming device, which are arranged side by side and face the extension direction of the hot-press forming device; the moving device comprises a wet blank transfer assembly and a dry blank transfer assembly, and the dry blank transfer assembly and the wet blank transfer assembly can alternately extend and retract towards the hot-press forming device when approaching the hot-press forming device.

Preferably, the moving device comprises a moving platform and an installation frame, wherein two guide rails of the mutual platform are arranged on the installation frame, and the moving platform is installed on the guide rails; the moving platform on still install the first motor and the gear that set up in pairs, the installation frame on be equipped with gear intermeshing's rack, the gear drives moving platform and removes on the guide rail when first motor drives gear revolve.

First motor drives the gear and rotates, gear and the rack intermeshing on the installation frame, first motor fixed mounting is on moving platform, so gear revolve while moving platform will move on the guide rail, the guide rail set up along the horizontal direction, moving platform shifts the subassembly with wet base and dry base respectively and is connected and synchronous motion, moving platform will drive wet base and shift the subassembly with dry base and shift the subassembly and remove at the horizontal direction like this.

Preferably, the movable platform is provided with a first air cylinder fixedly connected with the movable platform, the movable platform is also provided with two fixing plates arranged in parallel, and the first air cylinder is arranged between the two fixing plates; the piston shaft of the first cylinder is fixedly connected with the transition frame, a guide post is arranged between the two fixing plates, the guide post penetrates out of one fixing plate and is movably connected with the transition frame, and the transition frame is sleeved on the guide post; and a movable frame fixedly connected with the transition frame is arranged below the transition frame, and the wet blank transfer assembly and the dry blank transfer assembly are arranged on the movable frame.

First cylinder is installed on moving platform and is connected with transition frame, transition frame and moving frame fixed connection, the piston shaft of first cylinder drives transition frame and removes in vertical direction when flexible, transition frame and moving frame synchronous motion, the moving frame on install wet base transfer assembly and dry base transfer assembly, first cylinder will drive wet base transfer assembly and dry base transfer assembly vertical direction and remove so.

Preferably, the wet blank transfer assembly comprises an absorption die, a first slide block, a first screw rod, a first slide rail and a second motor; the first sliding rail is fixedly arranged on the movable frame, a first groove is formed in the first sliding rail, and the first screw rod is arranged in the first groove; the first sliding block is sleeved on the first sliding rail, threads meshed with the first screw rod are arranged on the first sliding block, and the first sliding block is fixedly connected with the suction die; the second motor is connected with the first screw rod and synchronously rotates, and the first screw rod rotates and simultaneously drives the first sliding block to move along the first sliding rail.

The second motor drives the first screw rod to rotate, the first sliding block is meshed with the first screw rod to move, and then the first sliding block moves along the first sliding rail under the driving of the second motor; the first sliding block can drive the suction mould to move when moving, the suction mould can suck wet blanks when moving into the wet blank forming device, and then the suction mould continues to move to convey the wet blanks to the hot-press forming device.

Preferably, the dry blank transferring assembly comprises a gripping device, a second sliding block, a second screw rod, a second sliding rail and a third motor; the second slide rail is fixedly arranged on the movable frame, a second groove is formed in the second slide rail, the second screw rod is arranged in the second groove, the second slide block is sleeved on the second slide rail and provided with threads meshed with the second screw rod, and the second slide block is fixedly connected with the grabbing device; the third motor and the second screw rod are connected and rotate synchronously, and the second screw rod rotates and drives the second sliding block to move along the second sliding rail.

The third motor drives the second screw rod to rotate, the second sliding block and the second screw rod move in a combined mode, and then the second sliding block moves along the second sliding rail under the driving of the third motor; the second sliding block can drive the grabbing device to move when moving, the grabbing device can grab the processed dry blank when moving into the hot-press forming device, and then the grabbing device continues to move to transfer the dry blank into an area for placing a product.

Preferably, the wet blank transfer assembly and the dry blank transfer assembly are staggered up and down and are arranged in parallel.

The wet blank transfer assembly and the dry blank transfer assembly are staggered up and down and arranged in parallel, so that when the wet blank transfer assembly places a wet blank on the hot-press forming device, the wet blank transfer assembly does not conflict with the dry blank transfer assembly in the process of grabbing the dry blank on the hot-press forming device.

Preferably, the suction die is provided with a plurality of protrusions for sucking wet blanks, a forming die is arranged in the wet blank forming device, a plurality of third grooves for forming the wet blanks are formed in the forming die, and the third grooves correspond to the protrusions one to one.

The suction mold moves right above the forming mold to suck the wet blank onto the protrusions and to dry the water in the wet blank.

Preferably, the gripping device is provided with a plurality of suckers for gripping dry blanks, the hot-press molding device is internally provided with a hot-press lower die, the hot-press lower die is internally provided with a fourth groove for placing wet blanks, and the fourth groove corresponds to the suckers one by one.

When the gripping device moves right above the hot-pressing lower die, the sucking disc can suck all the dry blanks.

Preferably, a group of hot press forming devices which are symmetrically arranged are arranged on two sides of the wet blank forming device.

Because the time for manufacturing the single wet blank into the dry blank is longer than the time for forming the single wet blank, two hot-press forming devices are arranged, so that the manufactured wet blank is transferred to the hot-press forming devices for processing at once without waiting for a long time.

Compared with the prior art, the utility model has the following beneficial effects: the wet blank forming device and the hot press forming device are arranged side by side and adjacent to each other, the wet blank can be immediately conveyed to the hot press forming device for processing through the transfer assembly after the wet blank processing is finished, the conveying path is short, and the conveying time is shortened; the moving device comprises a wet blank transfer component and a dry blank transfer component, wherein the wet blank transfer component is used for placing the wet blank into the hot-press forming device for processing, and the dry blank transfer component is used for immediately taking out the processed dry blank; the wet blank is put on the hot-press forming device immediately while the dry blank is taken out, the dry blank and the wet blank are transferred and seamlessly connected, and the integral yield of the product is greatly improved.

Drawings

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

FIG. 2 is a front view of the present invention;

FIG. 3 is a perspective view of a hidden wet blank forming apparatus and a hot press forming apparatus;

FIG. 4 is an exploded view of FIG. 3;

fig. 5 is a partially enlarged view of a position a in fig. 4.

The labels in the figure are: 1. a wet blank forming device; 2. a hot press molding device; 3. a mobile device; 31. a mobile platform; 32. a mounting frame; 33. a guide rail; 34. a first motor; 35. a gear; 36. a rack; 37. a first cylinder; 38. a fixing plate; 39. a guide post; 310. a transition frame; 311. moving the frame; 4. a wet blank transfer assembly; 41. sucking the mold; 42. a first slider; 43. a first lead screw; 44. a first slide rail; 45. a second motor; 46. a first groove; 47. a protrusion; 5. a dry billet transfer assembly; 51. a gripping device; 52. a second slider; 53. a second lead screw; 54. a second slide rail; 55. a third motor; 56. a second groove; 57. a suction cup; 6. forming a mold; 61. a third groove; 7. hot-pressing the lower die; 71. and a fourth groove.

Detailed Description

The utility model will be further described with reference to examples of embodiments shown in the drawings to which:

as shown in fig. 1 to 5, the embodiment discloses an integrated tableware molding machine, which includes a wet blank molding device 1 and a hot press molding device 2, wherein the hot press molding device 2 is arranged side by side and adjacent to the wet blank molding device 1, and a moving device 3 for transferring dry blanks and wet blanks is arranged on the side by side of the wet blank molding device 1 facing the extension direction of the hot press molding device 2; the moving device 3 comprises a wet blank transfer component 4 and a dry blank transfer component 5, and the dry blank transfer component 5 and the wet blank transfer component 4 can alternately extend and retract towards the hot press forming device 2 when approaching the hot press forming device 2.

The moving device 3 comprises a moving platform 31 and a mounting frame 32, two mutually-platform guide rails 33 are arranged on the mounting frame 32, and the moving platform 31 is mounted on the guide rails 33; the movable platform 31 is further provided with a first motor 34 and a gear 35 which are arranged in pairs, the mounting frame 32 is provided with a rack 36 which is meshed with the gear 35, and the first motor 34 drives the gear 35 to rotate while the gear 35 drives the movable platform 31 to move on the guide track 33. The movable platform 31 is provided with a first air cylinder 37 fixedly connected with the movable platform, the movable platform 31 is also provided with two fixing plates 38 arranged in parallel, and the first air cylinder 37 is arranged between the two fixing plates 38; the piston shaft of the first cylinder 37 is fixedly connected with the transition frame 310, a guide post 39 is arranged between the two fixing plates 38, the guide post 39 penetrates out of one fixing plate 38 and is movably connected with the transition frame 310, and the transition frame 310 is sleeved on the guide post 39; a moving frame 311 fixedly connected with the transition frame 310 is arranged below the transition frame, and the wet blank transfer component 4 and the dry blank transfer component 5 are arranged on the moving frame 311. The wet blank transfer assembly 4 comprises an absorption die 41, a first slide block 42, a first screw rod 43, a first slide rail 44 and a second motor 45; the first slide rail 44 is fixedly installed on the moving frame 311, a first groove 46 is arranged in the first slide rail 44, and the first screw rod 43 is installed in the first groove 46; the first sliding block 42 is sleeved on the first sliding rail 44, the first sliding block 42 is provided with threads meshed with the first screw rod 43, and the first sliding block 42 is fixedly connected with the suction mould 41; the second motor 45 is connected with the first lead screw 43 and rotates synchronously, and the first lead screw 43 rotates and drives the first slide block 42 to move along the first slide rail 44. The dry blank transferring assembly 5 comprises a gripping device 51, a second slide block 52, a second screw 53, a second slide rail 54 and a third motor 55; the second slide rail 54 is fixedly installed on the moving frame 311, a second groove 56 is arranged in the second slide rail 54, a second screw 53 is installed in the second groove 56, the second slide block 52 is sleeved on the second slide rail 54, threads meshed with the second screw 53 are arranged on the second slide block 52, and the second slide block 52 is fixedly connected with the grabbing device 51; the third motor 55 and the second lead screw 53 are connected and rotate synchronously, and the second lead screw 53 rotates and drives the second slide block 52 to move along the second slide rail 54.

The wet blank transfer assembly 4 and the dry blank transfer assembly 5 are staggered up and down and are arranged in parallel. The absorption mold 41 is provided with a plurality of protrusions 47 for absorbing wet blanks, the wet blank forming device 1 is internally provided with a forming mold 6, the forming mold 6 is internally provided with a plurality of third grooves 61 for forming the wet blanks, and the third grooves 61 correspond to the protrusions 47 one by one. The dry blank hot-press forming device is characterized in that the gripping device 51 is provided with a plurality of suckers 57 for gripping dry blanks, a hot-press lower die 7 is arranged in the hot-press forming device 2, a fourth groove 71 for placing wet blanks is arranged in the hot-press lower die 7, and the fourth groove 71 corresponds to the suckers 57 one by one. And a group of hot press forming devices 2 which are symmetrically arranged are arranged on two sides of the wet blank forming device 1.

The specific working process of the embodiment is as follows, injecting paper pulp into a paper pulp barrel of the wet blank forming device 1, firstly, manufacturing a first batch of wet blanks, and controlling a forming mold 6 to ascend from the paper pulp barrel after the first batch of wet blanks are formed; then the first motor 34 is turned on, and the first motor 34 drives the moving platform 31 to move to the position opposite to the wet blank forming device 1; the operation of the wet transfer assembly 4 is then started, the operation of the wet transfer assembly 4 being as follows: the second motor 45 drives the first screw rod 43 to rotate, a thread meshed with the first screw rod 43 is arranged in the first slide block 42, the first slide block 42 is driven to move by the rotation of the first screw rod 43, and then the first slide block 42 moves along the first slide rail 44 under the driving of the second motor 45; the first slide block 42 drives the suction mold 41 to move when moving, and the suction mold 41 moves right above the forming mold 6 to suck wet blanks; the second motor 45 is then reversed to move the suction die 41 away from the wet blank forming apparatus 1.

The first motor 34 works again to drive the moving platform 31 to move to the position opposite to the hot-press forming device 2, and then the wet blank rotating assembly 4 places the first batch of wet blanks on the hot-press forming device 2 for processing; at this time, the second wet mat is manufactured in the wet mat forming apparatus 1, and the transfer apparatus 3 transfers the second batch of wet mats to another hot press forming apparatus 2 for processing.

The first batch of wet blanks are continuously processed on the hot-press forming device 2, and when the moving device 3 conveys the third batch of wet blanks to the position opposite to the hot-press forming device 2 for processing the first batch of wet blanks, the first batch of wet blanks are just processed into a first batch of dry blanks; then the dry blank transfer component 5 takes out the first batch of dry blanks, and the wet blank transfer component 4 places the third batch of wet blanks on the hot-pressing lower die 7 for processing; the operating principle of the dry blank transfer assembly 5 is as follows: the third motor 55 drives the second lead screw 53 to rotate, a thread meshed with the second lead screw 53 is arranged in the second slide block 52, the second lead screw 53 rotates to drive the second slide block 52 to move, and then the second slide block 52 moves along the second slide rail 54 under the driving of the second lead screw 55; the second slide block 52 drives the gripping device 51 to move while moving, and the gripping device 51 moves to a position right above the lower hot-pressing die 7 to grip a first batch of dry blanks; then the third motor 55 rotates reversely to make the gripping device 51 far away from the hot press molding device 2; and then repeating the steps to continuously transfer the dry blank and the wet blank and process the wet blank.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments, or alternatives may be employed, by those skilled in the art, without departing from the spirit or ambit of the utility model as defined in the appended claims.

Claims (9)

1. An integrated tableware forming machine comprises a wet blank forming device (1) and a hot-press forming device (2), wherein the hot-press forming device (2) and the wet blank forming device (1) are arranged side by side and are adjacent to each other, and the integrated tableware forming machine is characterized in that a moving device (3) for transferring dry blanks and wet blanks is arranged on the side surfaces of the wet blank forming device (1) side by side in the extension direction of the hot-press forming device (2); the moving device (3) comprises a wet blank transfer assembly (4) and a dry blank transfer assembly (5), and the dry blank transfer assembly (5) and the wet blank transfer assembly (4) can alternately stretch towards the hot-press forming device (2) when approaching the hot-press forming device (2).

2. Tableware integrated forming machine according to claim 1, characterized in that the moving device (3) comprises a moving platform (31) and a mounting frame (32), two mutually flatwise guiding rails (33) are arranged on the mounting frame (32), the moving platform (31) is mounted on the guiding rails (33); moving platform (31) on still install first motor (34) and gear (35) that set up in pairs, installation frame (32) on be equipped with gear (35) intermeshing's rack (36), gear (35) drive moving platform (31) and move on guide rail (33) when first motor (34) drive gear (35) pivoted.

3. The tableware integrated forming machine according to claim 2, characterized in that the moving platform (31) is provided with a first air cylinder (37) fixedly connected with the moving platform, the moving platform (31) is further provided with two parallel fixed plates (38), and the first air cylinder (37) is arranged between the two fixed plates (38); the piston shaft of the first cylinder (37) is fixedly connected with a transition frame (310), a guide post (39) is arranged between the two fixing plates (38), the guide post (39) penetrates out of one fixing plate (38) and is movably connected with the transition frame (310), and the transition frame (310) is sleeved on the guide post (39); a movable frame (311) fixedly connected with the transition frame (310) is arranged below the transition frame, and the wet blank transfer component (4) and the dry blank transfer component (5) are arranged on the movable frame (311).

4. Machine as in claim 3, characterized in that said wet blank transfer assembly (4) comprises a suction die (41), a first slide (42), a first screw (43), a first slide (44) and a second motor (45); the first sliding rail (44) is fixedly arranged on the movable frame (311), a first groove (46) is formed in the first sliding rail (44), and the first screw rod (43) is arranged in the first groove (46); the first sliding block (42) is sleeved on the first sliding rail (44), threads meshed with the first screw rod (43) are arranged on the first sliding block (42), and the first sliding block (42) is fixedly connected with the suction die (41); the second motor (45) is connected with the first screw rod (43) and synchronously rotates, and the first screw rod (43) rotates and simultaneously drives the first sliding block (42) to move along the first sliding rail (44).

5. The tableware integrated forming machine according to the claim 3, characterized in that, the dry blank transferring component (5) comprises a gripping device (51), a second slide block (52), a second lead screw (53), a second slide rail (54) and a third motor (55); the second sliding rail (54) is fixedly arranged on the movable frame (311), a second groove (56) is formed in the second sliding rail (54), the second screw rod (53) is arranged in the second groove (56), the second sliding block (52) is sleeved on the second sliding rail (54), threads meshed with the second screw rod (53) are arranged on the second sliding block (52), and the second sliding block (52) is fixedly connected with the grabbing device (51); the third motor (55) and the second screw rod (53) are connected and synchronously rotate, and the second screw rod (53) rotates and simultaneously drives the second sliding block (52) to move along the second sliding rail (54).

6. Machine for forming tableware according to claim 1, characterized in that said wet transferring assembly (4) and said dry transferring assembly (5) are offset one above the other and parallel to each other.

7. The tableware integrated forming machine according to claim 4, characterized in that the suction mold (41) is provided with a plurality of protrusions (47) for sucking wet blanks, a forming mold (6) is arranged in the wet blank forming device (1), a plurality of third grooves (61) for forming wet blanks are arranged in the forming mold (6), and the third grooves (61) correspond to the protrusions (47) one by one.

8. The tableware integrated forming machine according to claim 5, characterized in that a plurality of suckers (57) for grabbing dry blanks are arranged on the grabbing device (51), a hot-pressing lower die (7) is arranged in the hot-pressing forming device (2), a fourth groove (71) for placing wet blanks is arranged in the hot-pressing lower die (7), and the fourth groove (71) and the suckers (57) are in one-to-one correspondence.

9. An integrated tableware molding machine according to claim 1, characterized in that a set of symmetrically arranged hot press molding devices (2) is arranged on two sides of the wet blank molding device (1).

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