CN220095673U - Vertical single piece Gao Gaiji - Google Patents

Abstract

The utility model discloses a vertical single-piece high-cover machine, which comprises a frame, wherein an unreeling frame is arranged on one side of the frame, a feeding tray and a cutting mechanism are arranged in the output direction of the unreeling frame, circular tear cracks are cut out through the cutting mechanism, an output belt connected with the feeding tray is arranged on the frame of the cutting mechanism, a cutting discharge hole is arranged at the input end of the output belt, an indexing turntable is arranged on the frame, female dies with uniformly distributed circumferences are arranged on the indexing turntable, adsorption holes are arranged in the female dies, top blocks which move up and down are arranged at the positions of the cutting discharge hole, circular paper sheets are separated from paper sheets by the top blocks and are ejected into the female dies, and the female dies pass through the cutting discharge hole, a primary hot air station, a primary bottom pressing station, a secondary hot air station, a secondary bottom pressing station, a knurling station and a discharge station along with the indexing turntable. Thus, the technical effects of reliable structure and high production efficiency can be achieved.

Description

Vertical single piece Gao Gaiji

Technical Field

The utility model relates to a paper cover forming machine, in particular to a vertical single-chip high-cover machine.

Background

Paper containers are widely used as environment-friendly materials in the catering industry. However, due to limitations of processing machinery, existing paper containers are often used with plastic lids. With the increasing awareness of environmental protection, plastic covers are being replaced by paper covers.

The paper cover machine is also called a paper cover forming machine, when the paper cover with higher height is produced, the paper cover is also called a high cover machine, the paper cover is made of food-grade wood pulp paper and food-grade PE film, the existing high cover is mainly used for the paper cover on the paper cup of the milk tea, and the paper cover is provided with annular steps, so that the height is higher, and the existing paper cover is generally made of plastics, so that the environment is not protected.

Disclosure of Invention

In order to solve the problems, the utility model aims to provide the vertical single-chip high-cover machine which is reliable in structure and high in production efficiency.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a vertical monolithic high lid machine, includes the frame, and one side of frame is equipped with unreels the frame, is equipped with feeding saddle and cutting mechanism in unreel the output direction of frame, cuts circular shape tear through cutting mechanism, is equipped with the output area of being connected with feeding saddle on the cutting mechanism frame, and the input of output area is equipped with cuts the discharge gate be equipped with the graduation carousel in the frame, be equipped with the die of circumference equipartition on the graduation carousel, be equipped with the absorption hole in this die, cut the discharge gate position and be equipped with the kicking block of upper and lower activity, break away circular shape scraps of paper from the paper and jack into in the die through the kicking block, the die once advances with the graduation carousel and cuts the discharge gate, once hot air station, once presses end station, secondary hot air station, knurl station and ejection of working position, primary hot air station, secondary pressure end station, secondary hot air station and ejection of working position are installed respectively on the elevating platform, the pressure end station includes a mounting section of thick bamboo, the hole insertion shaping pole of a section of thick bamboo, dispose the first die of thick bamboo of being connected with the die, the shaping platform is installed to the top of a step, the shaping platform is still cup jointed with the shaping platform on the punch.

The hot air station is a cylindrical heater.

The knurling station comprises a seat body arranged on a lifting table, a rotating shaft is arranged in the seat body, an inclined surface is arranged on the rotating shaft, a movable sliding seat is further arranged on the seat body, a passive inclined surface which is in contact with the inclined surface of the rotating shaft is arranged at the lower part of the sliding seat, a knurling wheel is arranged at the upper part of the sliding seat, and a second spring is arranged between the sliding seat and the inner wall of the seat body.

The feeding tray is characterized in that a silicone oil smearing mechanism is further arranged in the output direction of the feeding tray, the silicone oil smearing mechanism comprises a vertical guide rod arranged on a frame, a slidable material rack is sleeved on the vertical guide rod, a pressure plate attached with silicone oil is arranged on the material rack, and the pressure plate moves up and down at uniform speed along with the material rack.

The front of the cutting discharge hole is provided with a cutting mechanism, the cutting mechanism comprises a cylinder and a circular cutter connected to the end part of a piston rod of the cylinder, and a bottom die is arranged below the circular cutter.

The beneficial effects of the utility model are as follows: the paper coil stock is through cutting the position of cutting the ejection of compact in the kicking block jack-in die behind cutting mechanism indentation, and then the die is through once hot-blast station, once press end station, secondary hot-blast station, secondary press end station, knurl station and ejection of compact station, and then will have the paper lid shaping and the output of step, this reliable production efficiency of structure is high.

The utility model is further described below with reference to the drawings and detailed description.

Drawings

FIG. 1 is a perspective view of FIG. 1 of an embodiment of the present utility model;

FIG. 2 is a perspective view of FIG. 1 of an embodiment of the present utility model;

FIG. 3 is a block diagram of a hot air station in accordance with an embodiment of the present utility model;

FIG. 4 is a perspective view of a sole pressing station in accordance with an embodiment of the present utility model;

FIG. 5 is a cross-sectional view of a press bottom station in accordance with an embodiment of the present utility model;

fig. 6 is a cross-sectional view of a knurling station in accordance with an embodiment of the present utility model.

Detailed Description

The present utility model is described in detail below by way of examples only for further explanation of the present utility model and is not to be construed as limiting the scope of the present utility model.

As shown in fig. 1-6, this embodiment discloses a vertical single-sheet high cover machine, which comprises a frame 1, one side of the frame 1 is provided with an unreeling frame 2, paper roll is placed on the unreeling frame, a feeding supporting table 3 and a cutting mechanism 4 are arranged in the output direction of the unreeling frame 2, a circular tear is cut by the cutting mechanism 4, an output belt 21 connected with the feeding supporting table 3 is arranged on the frame 1 of the cutting mechanism 4, a cutting discharge port 5 is arranged at the input end of the output belt 21, an indexing turntable 10 is arranged on the frame 1, a female die 20 with uniformly distributed circumference is arranged on the indexing turntable 10, an adsorption hole is arranged in the female die 20, the adsorption hole is connected with an air pump, a top block which moves up and down is arranged at the position of the cutting discharge port 5, the top block can be driven by an air cylinder, and the circular paper sheet is separated from the paper and is jacked into the female die 20 by the top block, and is positioned in the female die 20 through adsorption holes, the female die 20 passes through the cutting discharge hole 5 (sucking material into cavity) once along with the indexing turntable 10, the primary hot air station 6 (first hot air softening), the primary bottom pressing station 7 (first bottom pressing and forming), the secondary hot air station 6 (second hot air softening), the secondary bottom pressing station 7 (second bottom pressing and forming), the knurling station 8 and the discharge station 9, the primary hot air station 6, the primary bottom pressing station 7, the secondary hot air station 6, the secondary bottom pressing station 7, the knurling station 8 and the discharge station 9 are respectively arranged on the lifting table 77, wherein, as shown in figure 5, the bottom pressing station 7 comprises a mounting cylinder 71, an inner hole of the mounting cylinder 71 is inserted into a forming rod 72, a first spring 73 is configured between the bottom of the forming rod 72 and the inner hole bottom of the mounting cylinder 71, the upper end of the forming rod 72 is connected with a cover bottom forming disc 74, the cover bottom forming disc 74 extrudes paper to form a cover bottom, the male die 76 matched with the female die 20 is arranged at the upper part of the mounting cylinder 71, the step forming disc 75 is further arranged on the male die 76, the step forming disc 75 is used for forming the paper in the female die 20 into an annular step after performing a bottom pressing action, the male die and the step forming disc 75 are sleeved on the forming rod 72, the bottom pressing working position 7 is lifted through the lifting table 77 when working, the male die 76 and the step forming disc 75 are pressed into the female die 20, the circular paper in the female die 20 is formed into a cover body with an annular step, the lifting table 77 is guided and inserted on the frame 1 through a guide rod, and lifting of the lifting table 77 can be driven through an air cylinder or a cam.

As shown in fig. 3 and 4, the hot air station 6 is a cylindrical heater 61, and the heater 61 has a blowing hole 62 for blowing hot air. The primary hot air station 6 and the secondary hot air station 6 are driven by the heater 61 along with the lifting table 77 to be lifted to the inner cavity of the female die 20, and the circular paper sheets in the female die 20 are blown and softened, so that the molding of the bottom pressing station 7 can be facilitated.

As shown in fig. 6, the knurling station 8 includes a base 81 mounted on a lifting table 77, a rotating shaft 82 is disposed in the base 81, an inclined surface 821 is disposed on the rotating shaft 82, a movable sliding seat 83 is mounted on the base 81, a passive inclined surface 84 contacting with the inclined surface 821 of the rotating shaft 82 is disposed at the lower part of the sliding seat 83, a knurling wheel 85 is disposed at the upper part of the sliding seat 83, a second spring 86 is disposed between the sliding seat 83 and the inner wall of the base 81, the lifting table 77 is lifted to drive the sliding seat 83 to press down, the sliding seat 83 is moved down to contact with a formed paper cover along the knurling roller of the external urinary catheter along the passive inclined surface 84, the knurling wheel rolls one circle to knurl the paper cover, the side wall supporting force of the paper cover is enhanced, and the sliding seat 83 returns through the second spring 86 after the knurling is completed.

The silicone oil smearing mechanism 30 is further arranged in the output direction of the feeding saddle 3, the silicone oil smearing mechanism 30 comprises a vertical guide rod arranged on the frame 1, a slidable work or material rest 31 is sleeved on the vertical guide rod, a pressure plate 32 attached with silicone oil is arranged on the work or material rest 31, the pressure plate 32 moves up and down along with the work or material rest 31 at uniform speed, the specific structure is that the work or material rest 31 is connected with a cam through a rocker, the rotation of the cam is driven by a motor in the frame 1, the pressure plate 32 can stamp a silicone oil ring which is circular on the output coil stock for the cutting mechanism 4 to cut, and the silicone oil can improve the toughness of paper.

The front of the cutting discharge hole 5 is provided with a cutting mechanism 4, the cutting mechanism 4 comprises an air cylinder and a circular cutter connected to the end part of a piston rod of the air cylinder, and a bottom die is arranged below the circular cutter. The cylinder drives the round cutter to push down so that the paper coil stock that passes through the die block up end forms circular tear, and when this circular tear was through cutting discharge gate 5 positions, the below of cutting discharge gate 5 can be provided with the kicking block, and this kicking block is also installed on the cylinder, releases and follow cutting discharge gate 5 release and adsorb into die 20 with the release of the circular scraps of paper in the circular tear through the kicking block.

The working principle of the structure is as follows: the paper coil stock is placed on the unreeling frame 2 and is pulled to be output, then silicone oil on the silicone oil smearing mechanism 30 is fed, then the silicone oil is pulled to enter the cutting mechanism 4 for cutting out unreleased round paper sheets, then the round paper sheets are withdrawn from the female die 20 through the top block at the position of the cutting discharge port 5, the female die 20 sequentially passes through the primary hot air station 6, the primary bottom pressing station 7, the secondary hot air station 6, the knurling station 8 and the discharging work along with the indexing turntable 10, the forming effect is better due to the secondary hot air and the secondary bottom pressing, and the discharging work is carried out when the discharging station 9 is a finished product in a cover shape, and at the moment, the adsorption Kong Chuqi in the female die 20 breaks away and transfers the finished product to the finished product output belt 22 for outputting.

By adopting the technical scheme, the paper coil stock is pushed into the female die 20 through the ejector block at the position of the cutting discharge after being pressed by the cutting mechanism 4, and then the female die 20 passes through the primary hot air station 6, the primary bottom pressing station 7, the secondary hot air station 6, the knurling station 8 and the discharge station 9, so that the paper cover with steps is formed and output.

Claims (5)

1. The utility model provides a vertical monolithic high lid machine, includes the frame, and one side of frame is equipped with unreels the frame, its characterized in that: the feeding tray and the cutting mechanism are arranged in the output direction of the unreeling frame, circular tear cracks are cut out through the cutting mechanism, an output belt connected with the feeding tray is arranged on a frame of the cutting mechanism, a cutting discharge hole is formed in the input end of the output belt, an indexing turntable is arranged on the frame, a female die uniformly distributed in circumference is arranged on the indexing turntable, an adsorption hole is formed in the female die, a top block capable of moving up and down is arranged at the position of the cutting discharge hole, circular paper sheets are separated from paper and jacked into the female die through the top block, the female die passes through the cutting discharge hole, a primary hot air station, a primary bottom pressing station, a secondary hot air station, a secondary bottom pressing station, a knurling station and a discharge station along with the indexing turntable, the primary hot air station, the primary bottom pressing station, the secondary hot air station, the secondary bottom pressing station, the knurling station and the discharge station are respectively arranged on the lifting table, the bottom pressing station comprises a mounting cylinder, an inner hole of the mounting cylinder is inserted into a forming rod, a first spring is arranged between the bottom of the forming rod and the inner hole bottom of the mounting cylinder, the upper end of the forming rod is connected with a cover bottom forming disc, the upper end of the forming rod is provided with a step, and the forming disc is further sleeved on the forming disc.

2. The vertical single-chip high-lid machine according to claim 1, wherein: the hot air station is a cylindrical heater.

3. The vertical single-chip high-lid machine according to claim 1, wherein: the knurling station comprises a seat body arranged on a lifting table, a rotating shaft is arranged in the seat body, an inclined surface is arranged on the rotating shaft, a movable sliding seat is further arranged on the seat body, a passive inclined surface which is in contact with the inclined surface of the rotating shaft is arranged at the lower part of the sliding seat, a knurling wheel is arranged at the upper part of the sliding seat, and a second spring is arranged between the sliding seat and the inner wall of the seat body.

4. The vertical single-chip high-lid machine according to claim 1, wherein: the feeding tray is characterized in that a silicone oil smearing mechanism is further arranged in the output direction of the feeding tray, the silicone oil smearing mechanism comprises a vertical guide rod arranged on a frame, a slidable material rack is sleeved on the vertical guide rod, a pressure plate attached with silicone oil is arranged on the material rack, and the pressure plate moves up and down at uniform speed along with the material rack.

5. The vertical single-chip high-lid machine according to claim 1, wherein: the front of the cutting discharge hole is provided with a cutting mechanism, the cutting mechanism comprises a cylinder and a circular cutter connected to the end part of a piston rod of the cylinder, and a bottom die is arranged below the circular cutter.