CN211390346U - Multi-grid lunch box forming equipment and partition forming device thereof - Google Patents

Abstract

A multi-grid lunch box forming device and a separation forming device thereof are provided, wherein the multi-grid lunch box forming device is suitable for processing a plurality of lunch box raw materials and a plurality of partition plate raw materials. The multi-grid lunch box forming equipment comprises a main feeding device, a main forming device and a positioning feeding device, wherein the main forming device is suitable for making each lunch box raw material into a semi-finished lunch box. The positioning and feeding device comprises a first feeding module. The multi-grid lunch box forming device also comprises a separation forming device. The separation forming device comprises a base, an assembling module, a forming module, a switching module and two mounting modules. The switching module is provided with a rotating table. Each mounting module can be matched with the forming module to make each partition raw material into a partition semi-finished product and can drive the partition semi-finished product to rotate to a position corresponding to the assembling module so as to be connected with the lunch box semi-finished product to make a lunch box finished product, so that the idle time can be reduced and the processing efficiency can be improved.

Description

Multi-grid lunch box forming equipment and partition forming device thereof

Technical Field

The utility model relates to a former of paper article especially relates to a many check cutlery box former and many check cutlery box former's separation forming device.

Background

Referring to fig. 1, 2 and 3, generally, when manufacturing a multi-cell lunch box, the multi-cell lunch box is manufactured by an existing multi-cell lunch box forming device.

The existing multi-grid lunch box forming equipment comprises a paper feeding device 11, a press-in device 12, a side shifting device 13, an assembling device 14, a press forming device 15, a grid mounting device 16 and a forming and taking-out device 17.

When the conventional multi-cell lunch box forming equipment is used for manufacturing the multi-cell lunch box, the paper feeding device 11 can feed a plurality of lunch box raw materials 181 to the pressing device 12 one by one, and press each lunch box raw material 181 into a lunch box semi-finished product 182. Then, the side shifting device 13 delivers the lunch box semi-finished product 182 to the assembling device 14.

After the lattice bar mounting device 16 cooperates with the pressing device 15 to make a lattice bar raw material 183 into a lattice bar semi-finished product 184, the lattice bar mounting device 16 will drive the lattice bar semi-finished product 184 to move from the pressing device 15 to the assembling device 14, and then assemble the lattice bar semi-finished product 184 and the lunch box semi-finished product 182 into a finished lunch box (not shown), and then the side shifting device 13 will transport the finished lunch box to the forming and removing device 17, and at the same time transport the next lunch box semi-finished product 182 to the assembling device 14 to make the next lunch box finished product.

Therefore, the operation of the grid mounting device 16 includes the steps of matching the pressing device 15 to form the semi-finished grid 184, moving the semi-finished grid 184 from the pressing device 15 to the assembling device 14, assembling the finished meal box, and moving the assembling device 14 to the pressing device 15 for the next operation.

However, each operation of the pressing device 12 only includes the step of manufacturing the semi-finished lunch box 182, which is much shorter than each operation time of the bar mounting device 16, so that after each operation of the pressing device 12, the corresponding operation of the bar mounting device 16 needs to be waited for before the next semi-finished lunch box 182 is transferred to the assembling device 14, which causes idle operation and affects the processing efficiency.

Disclosure of Invention

An object of the utility model is to provide a many check cutlery boxes former that can reduce idle time.

Another object of the present invention is to provide a dividing and forming device for a multi-cell lunch box forming apparatus, which can reduce idle time.

The utility model discloses many check cutlery box former is applicable to processing several cutlery box raw materials and several baffle raw materials. The multi-grid lunch box forming equipment comprises a main feeding device, a main forming device and a positioning feeding device, wherein the main feeding device is suitable for sequentially conveying the lunch box raw materials along a manufacturing path, the main forming device is arranged at the downstream of the main feeding device along the manufacturing path and is suitable for making each lunch box raw material into a semi-finished lunch box, and the positioning feeding device is arranged on the main forming device. The positioning and feeding device comprises a first feeding module which is suitable for conveying each semi-finished lunch box positioned on the main forming device to the downstream along the manufacturing path. The multi-grid lunch box forming device also comprises a separation forming device. The separation forming device comprises a base, an assembling module, a forming module, a switching module and two mounting modules, wherein the assembling module is arranged on the base and is positioned at the downstream of the main forming device, the forming module is arranged on the base and is separated from the assembling module, the switching module is arranged on the base, and the two mounting modules are arranged on the switching module and can be driven by the switching module to respectively rotate between the assembling module and the forming module in a reciprocating mode. The switching module is provided with a rotating table which is arranged on the base in a reciprocating rotation mode around an axis and used for arranging the mounting module. Each installation module can be matched with the forming module to be suitable for making each partition plate raw material into a partition plate semi-finished product, can drive the partition plate semi-finished product to rotate to a position corresponding to the assembly module, and is matched with the assembly module to connect the partition plate semi-finished product with the lunch box semi-finished product conveyed to the assembly module to make a lunch box finished product.

Many check cutlery box former, many check cutlery box former still contains the remove device. The take-out device is arranged at the downstream of the assembling module along the manufacturing path. The positioning feeding device also comprises a second feeding module which is suitable for conveying each finished lunch box positioned in the assembling module to the taking-out device.

The utility model discloses many check cutlery box former's separation forming device is applicable to processing several baffle raw materials and several cutlery box semi-manufactured goods. The partition molding apparatus includes a base. The separation forming device further comprises an assembling module, a forming module, a switching module and two mounting modules. The assembly module is arranged on the base and is suitable for placing the semi-finished lunch boxes one by one. The molding module is arranged on the base and is spaced from the assembling module. The switching module comprises a rotating table which can rotate around an axis in a reciprocating mode and is arranged on the base. The installation module is arranged on the switching module and can be driven by the switching module to reciprocate and respectively rotate between the assembly module and the forming module. Each installation module can be matched with the forming module to be suitable for making each partition raw material into a partition semi-finished product and driving the partition semi-finished product to rotate to a position corresponding to the assembly module, and is matched with the assembly module to connect the partition semi-finished product with the lunch box semi-finished product positioned in the assembly module to make a lunch box finished product.

Many check cutlery box former's separation forming device, switch the module still including connect in the switching of base is pressed jar, is connected switch and is pressed the stopper of jar, and coaxial coupling in rotate the platform and can be by stopper drives and the interlock makes rotate the rotatory driving medium of platform. The switching pressure cylinder is provided with a switching cylinder body and a piston rod which can move relative to the switching cylinder body in a telescopic way along a direction different from the extending direction of the axis and is connected with the braking piece.

Many check cutlery box former's separation forming device, switch the module the stopper connect in the tooth row of piston rod, the driving medium with the tooth row engaged gear.

Many check cutlery box former's separation forming device, the base includes sets up and is located respectively along upper and lower axial interval the top of installation module and top layer and the bottom of below. The switching pressure cylinder is arranged on the top layer. The rotating table is provided with a rotating shaft part and connecting parts, the rotating shaft part is axially arranged on the top layer and used for connecting the transmission part, and the connecting parts are connected to the lower part of the rotating shaft part and used for respectively supplying the installation module to the two opposite sides of the axis.

Many check cutlery box former's separation forming device, the equipment module including set up in the bottom is in order to bear the semi-manufactured goods mount table of cutlery box, and connect the top layer just can be operated and be followed upper and lower axial is relative the flexible first lift unit of mount table. The forming module comprises a partition plate die and a second lifting unit, wherein the partition plate die is arranged on the bottom layer to bear the raw materials of the partition plate, and the second lifting unit is connected with the top layer and can be operated to stretch relative to the partition plate die along the upper and lower axial directions.

Many check cutlery box former's separation forming device, each installation module is including following pass with upper and lower axial displacement the rotation platform wear the extension portion of connecting portion, connect in wear the extension portion under and be located the installation department of connecting portion below, and set up in wear the extension portion and support down in connecting portion just can provide the messenger the installation department is invariable kept along upper and lower axial is kept away from up the elasticity portion of the power of installation platform or baffle mould.

Many check cutlery box former's separation forming device, the shaping module the baffle mould has the concave alcove of locating the surface. Each mounting portion is shaped to complement the recess.

Many check cutlery box former's separation forming device, the equipment module first lift unit have connect in the first cylinder body of top layer, and can follow axial from top to bottom set up with stretching out and drawing back in first cylinder body is with relative can compel to drive on the stretch portion of wearing of below when mount table removes and extends downwards the installation department approaches the first depression bar of mount table. The second lifting unit is provided with a second cylinder body connected to the top layer and a second pressure rod which can be arranged on the second cylinder body in a telescopic manner along the vertical axial direction so as to move relative to the partition plate die and can be forced to abut against a penetrating part below the partition plate die when extending downwards to drive the mounting part to approach the mounting table.

The utility model discloses a profitable effect lies in: by arranging the switching module and the mounting module, when one of the mounting modules is matched with the forming module to manufacture the semi-finished partition, the other one of the mounting modules can be synchronously matched with the assembling module to manufacture the finished lunch box, so that the idle time can be reduced and the processing efficiency can be improved.

Drawings

FIG. 1 is a perspective view of a conventional multi-cell lunch box forming apparatus;

FIG. 2 is a top view of the conventional multi-cell lunch box forming apparatus;

FIG. 3 is a schematic view illustrating a manufacturing process of the conventional multi-cell lunch box forming apparatus;

FIG. 4 is a perspective view of the multi-cell meal box forming apparatus of the present invention and a plurality of meal box raw materials;

FIG. 5 is a perspective assembly view of the embodiment from another angle;

FIG. 6 is a top view of the preferred embodiment and the lunch box stock and spacer stock;

FIG. 7 is a cross-sectional view taken along line VII-VII of FIG. 6;

FIG. 8 is a cross-sectional view taken along line VIII-VIII of FIG. 6;

FIG. 9 is a cross-sectional view taken along line IX-IX of FIG. 6;

FIG. 10 is a schematic top view of the embodiment illustrating the workflow of the embodiment;

FIG. 11 is a view similar to FIG. 10 illustrating the contents of the operation of the embodiment during a first operation;

FIG. 12 is a further schematic diagram similar to FIG. 10 illustrating the contents of the operation of the embodiment during a second operation;

FIG. 13 is another view similar to FIG. 10 illustrating the contents of the job in the third session in accordance with the illustrated embodiment;

fig. 14 is still another schematic diagram similar to fig. 10, illustrating the operation contents of the embodiment during the fourth operation period.

Detailed Description

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

Referring to fig. 4, 5 and 6, an embodiment of the multi-cell lunch box forming apparatus of the present invention is suitable for processing a plurality of lunch box raw materials 91 and a plurality of partition plate raw materials 93 (fig. 6 only discloses a group of partition plate raw materials 93). The multi-grid lunch box forming equipment comprises a feeding seat 2, a main feeding device 3, a main forming device 4, a positioning feeding device 5, a separating forming device 6 and a taking-out device 7.

The main feeding device 3 is disposed on the top surface of the feeding base 2 and adapted to sequentially feed the lunch box raw materials 91 along a manufacturing path P1. The aforementioned technique of sequentially conveying the lunch box raw materials 91 can be achieved by a press cylinder, a guide rail or other techniques.

The main forming device 4 is disposed at the feeding seat 2 and downstream of the main feeding device 3 along the manufacturing path P1 and is adapted to press each lunch box raw material 91 into a lunch box semi-finished product (not shown).

The main forming device 4 includes a meal box mold 41 disposed on the top surface of the feeding seat 2 and adapted to place each meal box raw material 91, and a pressing module 42 capable of being operated to reciprocally approach and depart from the meal box mold 41 and adapted to press each meal box raw material 91 placed in the meal box mold 41. The aforementioned technology for moving the pressing module 42 back and forth towards and away from the meal box mold 41 can be achieved by a pressure cylinder, an electric motor or other technologies.

The positioning and feeding device 5 comprises a first feeding module 51 adapted to feed each semi-finished meal box located in the main forming device 4 to the downstream along the manufacturing path P1.

Referring to fig. 4, 5 and 7, the dividing and forming device 6 includes a base 61 connected to the feeding seat 2 and extending along a dividing path P2 intersecting the manufacturing path P1, an assembling module 62 disposed on the base 61 and located downstream of the main forming device 4, a forming module 63 disposed on the base 61 and spaced from the assembling module 62 along the dividing path P2, a dividing and feeding module 64 disposed on the base 61 and located on a side of the forming module 63 opposite to the assembling module 62 along the dividing path P2, a switching module 65 disposed on the base 61, and two mounting modules 66 disposed on the switching module 65 and driven by the switching module 65 to reciprocally rotate between the assembling module 62 and the forming module 63, respectively.

The base 61 includes a top layer 611 and a bottom layer 612, which are disposed along an upper and lower axial direction X at intervals and respectively located above and below the mounting module 66. The bottom layer 612 is adjacent to the top surface of the feeder shoe 2.

The assembly module 62 includes a mounting platform 621 disposed on the bottom layer 612 for carrying the semi-finished lunch box conveyed by the positioning and feeding device 5 from the main forming device 4, and a first lifting unit 622 connected to the top layer 611 and capable of being operated to extend and retract relative to the mounting platform 621 along the vertical axis X.

The first lifting unit 622 has a first cylinder 623 connected to the top layer 611, and a first pressing rod 624 telescopically disposed on the first cylinder 623 along the vertical axis X to move relative to the mounting table 621.

The molding module 63 includes a partition mold 631 disposed on the bottom layer 612 for carrying the partition raw material 93, and a second lifting unit 632 connected to the top layer 611 and capable of being operated to extend and retract relative to the partition mold 631 along the vertical axis X. The baffle mold 631 has a concave chamber 633 concavely disposed on the surface.

Referring to fig. 4, 6 and 7, in the present embodiment, the partition mold 631 is slidably disposed on the bottom layer 612 along the separating path P2 and can reciprocally slide between a position corresponding to the separating and feeding module 64 and a position corresponding to the second lifting unit 632. When the partition mold 631 corresponds to the partition feeding module 64, the partition feeding module 64 is adapted to sequentially convey the partition material 93 to the partition mold 631. When the partition mold 631 slides from the position corresponding to the separate feeding module 64 to the position corresponding to the second lifting unit 632, each partition raw material 93 can be synchronously conveyed to the corresponding second lifting unit 632. The aforementioned technique of sequentially conveying the partition plate raw material 93 may be achieved by a vacuum chuck feeding technique or other techniques, and the technique of sliding the partition plate mold 631 along the partition path P2 may be achieved by a slide rail, a press cylinder or other techniques.

Referring to fig. 4, 5 and 7, the second lifting unit 632 has a second cylinder 634 connected to the top layer 611, and a second pressing rod 635 telescopically disposed in the second cylinder 634 along the up-down axial direction X to move relative to the partition mold 631.

The switching module 65 has a rotating table 67 passing through the top layer 611 of the base 61 and provided for the installation module 66 to rotate in a reciprocating manner around an axis L extending along the vertical axis X, a switching cylinder 651 connected to the top layer 611 of the base 61, an actuating member 652 connected to the switching cylinder 651, and a transmission member 653 coaxially connected to the rotating table 67 and capable of being driven by the actuating member 652 to rotate the rotating table 67.

The rotating table 67 has a rotating shaft portion 671 axially disposed on the top layer 611 and connected to the transmission member 653, and a connecting portion 672 connected to a lower portion of the rotating shaft portion 671 and respectively provided for the installation module 66 along two opposite sides perpendicular to the axis L. In the present embodiment, the connecting portion 672 has a body portion 673, eight perforated portions (not shown) penetrating the body portion 673, and eight guide tube portions 674 connecting the body portion 673 and having a tubular shape and respectively surrounding the perforated portions.

The switching cylinder 651 has a switching cylinder 654 disposed on the top layer 611, and a piston rod 655 capable of moving telescopically relative to the switching cylinder 654 in a direction different from the extending direction of the axis L and connected to the stopper 652.

In this embodiment, the brake 652 is a toothed row connected to the piston rod 655, and the transmission 653 is a toothed wheel meshing with the toothed row.

Referring to fig. 5, 7 and 8, each mounting module 66 has a penetrating portion 661 capable of penetrating through the connecting portion 672 of the rotating table 67 in a manner of moving in the up-down axial direction X, a mounting portion 662 connected to the penetrating portion 661 and located below the connecting portion 672 and having a shape complementary to the concave chamber 633, and an elastic portion 663 provided in the penetrating portion 661 and abutting against the connecting portion 672 downward and capable of providing a force for keeping the mounting portion 662 away from the mounting table 621 or the diaphragm mold 631 upward in the up-down axial direction X. The extending portion 661 has a pressing plate area 664 located above the connecting portion 672, and four penetrating rod areas 665 connected below the pressing plate area 664 and extending through the respective guide tube areas 674. The elastic portion 663 has four springs 666 respectively wound around the pin passing region 665 and located between the pressing plate region 664 and the respective guide tube region 674.

When one of the mounting modules 66 rotates to a position corresponding to the second lifting unit 632 of the molding module 63, the other mounting module 66 rotates to a position corresponding to the first lifting unit 622 of the assembling module 62.

When each mounting module 66 rotates to a position corresponding to the second lifting unit 632 of the forming module 63, the second pressing rod 635 extends downward and is forced to abut against the pressing plate area 664 so that the mounting portion 662 approaches the partition mold 631, and thus the mounting portion 662 and the partition mold 631 can cooperate to form a semi-finished partition (not shown) from each partition material 93 (see fig. 6). Since the second pressing rod 635 is pressed against the pressing plate area 664, so that the springs 666 are compressed between the pressing plate area 664 and the respective guide tube areas 674, when the second pressing rod 635 is shortened upward and away from the pressing plate area 664, the springs 666 are pressed against the pressing plate area 664 by the elastic restoring force thereof, so that the pressing plate area 664 is upward and away from the partition mold 631.

While the through-extension portion 661 rotates from the position corresponding to the partition mold 631 to the position corresponding to the first lifting unit 622, one of the mounting modules 66 can rotate to drive the partition semi-finished product to rotate to the position corresponding to the first lifting unit 622, and the other mounting module 66 rotates to the position corresponding to the second lifting unit 632 from the assembling module 62.

Referring to fig. 5, 7 and 9, when the extending portion 661 rotates to a position corresponding to the first lifting unit 622, the first pressing rod 624 extends downward to press against the pressing plate area 664 to make the extending portion 661 approach the mounting base 621, so that the extending portion 661 cooperates with the assembling module 62 to connect the partition semi-finished product to the lunch box semi-finished product at the mounting base 621 to form a lunch box finished product (not shown). Since the first pressing rod 624 presses the pressing plate area 664 simultaneously to compress the springs 666 between the pressing plate area 664 and the respective guide tube areas 674, when the first pressing rod 624 is shortened upward and away from the pressing plate area 664, the springs 666 press against the pressing plate area 664 to make the pressing plate area 664 upward and away from the mounting table 621.

The aforementioned technique of rotating the partition plate semi-finished product by the mounting module 66 can be achieved by a vacuum chuck or other techniques, and the technique of connecting the partition plate semi-finished product to the lunch box semi-finished product can be achieved by high frequency welding or other techniques.

Referring to fig. 4, 6 and 9, the positioning and feeding device 5 further includes a second feeding module 52 adapted to feed each finished meal box located at the mounting station 621 to the taking device 7.

The taking-out device 7 is disposed downstream of the assembly module 62 along the manufacturing path P1, and includes a discharge base 71 connected to the bottom layer 612 of the separation forming device 6 and adapted to place each finished lunch box conveyed by the second feeding module 52, a discharge hole 72 penetrating through the discharge base 71, a discharge channel 73 disposed below the discharge hole 72 and adapted to place the finished lunch box, a discharge top seat 74 disposed above the discharge base 71, and a discharge module 75 disposed on the discharge top seat 74 and operable to move back and forth along the vertical axis X toward and away from the discharge base 71 and adapted to press each finished lunch box to pass through the discharge hole 72 and leave the manufacturing path P1 and to be placed in the discharge channel 73. The aforementioned techniques for reciprocating the discharging module 75 toward and away from the discharging base 71 can be achieved by a pressure cylinder, an electric motor or other techniques.

To clearly illustrate the operation of each component of the multi-compartment lunch box forming device during each operation period, therefore, in the descriptions in fig. 10 to fig. 14 and the following description, a first lunch box finished product 951, a second lunch box finished product 952, a third lunch box finished product 953, a fourth lunch box finished product (not shown), and a fifth lunch box finished product (not shown) are described according to the order of the finished lunch boxes, and the lunch box raw material 91 for manufacturing the finished lunch box is correspondingly and respectively distinguished by a first lunch box raw material (not shown), a second lunch box raw material (not shown), a third lunch box raw material 913, a fourth lunch box raw material 914, and a fifth lunch box raw material 915, the partition material 93 (see fig. 6) for forming the lunch box, the semi-finished lunch box and the semi-finished partition are similarly divided from the first to the fifth. In addition, the appearance of some components of the multi-compartment lunch box forming apparatus (e.g., the main forming device 4, the positioning and feeding device 5, some separating and forming devices 6, some removing devices 7, etc.) is not shown in fig. 10 to 14, and the detailed appearance and relative position of the components are shown in fig. 6, 7 and 9.

Referring to fig. 6, 7 and 10, when the first box raw material (not shown) is made into the first box finished product 951 and reaches the taking-out device 7, the second box raw material (not shown) is already made into a second semi-finished product 922 and is located at the mounting platform 621, the third box raw material 913 is located at the main forming device 4, a second partition plate semi-finished product 942 is connected to the mounting module 66 corresponding to the mounting platform 621 and is located above the mounting platform 621, and a third partition plate raw material 933 is located on the partition plate mold 631.

Referring to fig. 6, 9 and 11, during a first operation period, the discharging module 75 presses downward to place the first finished meal box 951 through the discharging hole 72 and out of the production path P1 to the discharging channel 73, and referring to fig. 6, 7 and 11, the first pressing rod 624 extends downwards to make the mounting module 66 corresponding to the first lifting unit 622 approach the mounting platform 621 to connect the second partition semi-finished product 942 (see fig. 10) to the second lunch box semi-finished product 922 (see fig. 10) and make the second lunch box finished product 952, and the second pressing rod 635 is extended downward to make the mounting module 66 corresponding to the second lifting unit 632 approach to the diaphragm mold 631 to form a third diaphragm blank 943 from the third diaphragm material 933 (see fig. 10), the main forming device 4 forms the third lunch box raw material 913 (see fig. 10) into a third lunch box semi-finished product 923.

Referring to fig. 6, 7 and 12, during a second operation period, while the positioning and feeding device 5 delivers the second lunch box finished product 952 located on the mounting table 621 to the taking-out device 7 and simultaneously delivers the third lunch box semi-finished product 923 located on the main forming device 4 to the mounting table 621, the switching module 65 drives the mounting module 66 to rotate so that the third partition plate semi-finished product 943 rotates to correspond to the mounting table 621, and the main feeding device 3 delivers the fourth lunch box raw material 914 to the main forming device 4, and the partition plate mold 631 slides to a position corresponding to the partition feeding module 64 and receives a fourth partition plate raw material 934 delivered from the partition feeding module 64 and then slides back to a position corresponding to the second lifting unit 632.

Referring to fig. 6, 9 and 13, in a third operation period, the discharging module 75 presses downward to make the second finished meal box 952 leave the production path P1 through the discharging hole 72 and be placed in the discharging channel 73, and meanwhile, referring to fig. 6, 7 and 13, the first pressing rod 624 extends downwards to make the mounting module 66 corresponding to the first lifting unit 622 approach the mounting table 621 to connect the third partition semi-finished product 943 (see fig. 12) to the third lunch box semi-finished product 923 (see fig. 12) and to form the third lunch box finished product 953, and the second pressing rod 635 extends downward to make the installation module 66 corresponding to the second lifting unit 632 approach to the diaphragm mold 631 to form a fourth diaphragm blank 944 from the fourth diaphragm material 934 (see fig. 12), the main forming device 4 forms the raw material 914 (see fig. 12) of the fourth meal box into a semi-finished product 924 of the fourth meal box.

Referring to fig. 6, 7 and 14, during a fourth operation period, while the positioning and feeding device 5 delivers the third lunch box finished product 953 located at the mounting table 621 to the taking-out device 7 and simultaneously delivers the fourth lunch box semi-finished product 924 located at the main forming device 4 to the mounting table 621, the switching module 65 drives the mounting module 66 to rotate so that the fourth partition plate semi-finished product 944 rotates to correspond to the mounting table 621, and the main feeding device 3 delivers the fifth lunch box raw material 915 to the main forming device 4, and the partition plate mold 631 slides to the position corresponding to the partition feeding module 64 and receives a fifth partition plate raw material 935 delivered from the partition feeding module 64 and slides back to the position corresponding to the second lifting unit 632.

By repeating the above steps, the first box finished product 951, the second box finished product 952, the third box finished product 953, the fourth box finished product 953, and the fifth box finished product can be completed one by one. When one of the mounting modules 66 cooperates with the forming module 63 to manufacture each partition plate semi-finished product, the other mounting module 66 can cooperate with the assembling module 62 to manufacture the finished product of the lunch box, so that the required operation time of each component is close in each operation period, thereby reducing the idle time and increasing the operation efficiency.

Referring to fig. 7, 10 and 11, it should be noted that the above-mentioned manufacturing sequence is the basic principle that the mounting module 66 can operate synchronously to reduce the idle time of each component, however, in practical applications, the start time of each operation can be adjusted according to the required operation time of each component, so as to minimize the idle time of each device and achieve the best performance of the multi-compartment food box forming apparatus. For example, in the first operation period, it takes a long time for the mounting module 66 corresponding to the first lifting unit 622 to connect the second partition plate semi-finished product 942 to the second lunch box semi-finished product 922, so that after the mounting module 66 corresponding to the second lifting unit 632 is made into the third partition plate semi-finished product 943, the partition plate mold 631 can perform the operation to be performed in the second operation period, i.e. slide the partition plate mold 631 to the partition plate feeding module 64 and complete the subsequent operations.

It should be noted that, in other variations, the multi-compartment lunch box forming apparatus may further include a preheating device, and the preheating device may be disposed upstream of the main forming device 4 along the manufacturing path P1, or may be disposed at other suitable positions. The preheating device has the main function of preheating the semi-finished lunch box or the semi-finished partition plate, so that each semi-finished partition plate can be easily connected to the respective semi-finished lunch box.

In addition, the lunch box raw material 91 and the partition plate raw material 93 can also be punched before manufacturing, so as to facilitate punching of a slot or a shape which is easy to bend.

In addition, referring to fig. 4, 5 and 6, in an embodiment of the separation forming device 6 of the multi-grid meal box forming device of the present invention, the feeding seat 2, the main feeding device 3, the main forming device 4, the positioning feeding device 5, and the removing device 7 are excluded from the multi-grid meal box forming device, and the shapes, combination space patterns of the other components and the expected achievable effects are the same as those of the multi-grid meal box forming device, and are not described again.

In summary, by providing the switching module 65 and the mounting module 66, when one of the mounting modules 66 cooperates with the forming module 63 to manufacture the partition plate semi-finished product, the other one of the mounting modules 66 cooperates with the assembling module 62 to manufacture the lunch box finished product, so as to reduce the idle time and improve the processing efficiency, thereby achieving the objective of the present invention.

However, the above description is only an example of the present invention, and the scope of the present invention should not be limited thereby, and all simple equivalent changes and modifications made according to the claims and the contents of the specification should be included in the scope of the present invention.

Claims (10)

1. The utility model provides a many check cutlery box former's separation forming device, is applicable to processing several baffle raw materials and several cutlery box semi-manufactured goods, it contains base, its characterized in that to separate forming device: the separation forming device also comprises an assembling module, a forming module, a switching module and two mounting modules, the assembly module is arranged on the base and is suitable for placing the semi-finished products of the meal boxes one by one, the forming module is arranged on the base and is spaced from the assembly module, the switching module comprises a rotating table which can rotate around an axis in a reciprocating manner and is arranged on the base, the mounting modules are arranged on the switching module and can be driven by the switching module to reciprocate and respectively rotate between the assembling module and the forming module, each mounting module can be matched with the forming module to be suitable for manufacturing each partition plate raw material into a partition plate semi-finished product and can drive the partition plate semi-finished product to rotate to a position corresponding to the assembling module, and the partition plate semi-finished product is connected with the lunch box semi-finished product positioned in the assembly module by matching with the assembly module to manufacture a lunch box finished product.

2. A divider molding apparatus for a multiple compartment food box molding apparatus as claimed in claim 1, wherein: the switching module further comprises a switching pressure cylinder connected to the base, an actuating piece connected to the switching pressure cylinder, and a transmission piece coaxially connected to the rotating table and capable of being driven by the actuating piece to drive the rotating table to rotate, wherein the switching pressure cylinder is provided with a switching cylinder body and a piston rod capable of moving relative to the switching cylinder body in a telescopic manner along a direction different from the extending direction of the axis and connected to the actuating piece.

3. A divider molding apparatus for a multiple compartment food box molding apparatus as defined in claim 2, wherein: the brake piece of the switching module is connected to the gear row of the piston rod, and the transmission piece is a gear meshed with the gear row.

4. A divider molding apparatus for a multiple compartment food box molding apparatus as defined in claim 2, wherein: the base includes along upper and lower axial interval setting and be located respectively the top layer and the bottom of installation module's top and below, the switching pressure cylinder set up in the top layer, the revolving stage has the axle and locates the top layer and supply the pivot portion that the driving medium is connected, and connect in pivot portion below and along perpendicular the double-phase opposite side of axis supplies respectively the connecting portion that the installation module set up.

5. A divider molding apparatus for a multiple compartment food box molding apparatus as claimed in claim 4, wherein: the assembly module comprises an installation table arranged on the bottom layer and used for bearing semi-finished lunch boxes, a first lifting unit connected with the top layer and capable of being operated to stretch relative to the installation table in the vertical axial direction, and a partition plate die arranged on the bottom layer and used for bearing raw materials of the partition plate, and a second lifting unit connected with the top layer and capable of being operated to stretch relative to the partition plate die in the vertical axial direction.

6. A divider molding apparatus for a multiple compartment food box molding apparatus as claimed in claim 5, wherein: each installation module includes can follow upper and lower axial displacement passes the revolving stage the stretching portion of connecting portion, connect in under the stretching portion and be located the installation department of connecting portion below, and set up in stretching portion and support downwards in connecting portion just can provide the messenger the installation department is constantly kept to be followed upper and lower axial is kept away from up the elastic component of the power of installing stage or baffle mould.

7. A divider molding apparatus for a multiple compartment food box molding apparatus as claimed in claim 6, wherein: the partition plate die of the forming die set is provided with a concave chamber concavely arranged on the surface, and each mounting part and the concave chamber are in concave-convex complementary shapes.

8. A divider molding apparatus for a multiple compartment food box molding apparatus as claimed in claim 7, wherein: the first lifting unit of the assembly module is provided with a first cylinder body connected to the top layer and a first pressure rod capable of being arranged on the first cylinder body in a vertically telescopic mode and capable of being pressed against a penetrating part below when the mounting table moves and extends downwards to drive the mounting part to approach the mounting table, and the second lifting unit is provided with a second cylinder body connected to the top layer and a second pressure rod capable of being arranged on the second cylinder body in a vertically telescopic mode and capable of being pressed against the penetrating part below when the second cylinder body moves relative to the partition plate mold and extends downwards to drive the mounting part to approach the mounting table.

9. The utility model provides a many check cutlery box former, is applicable to processing several cutlery box raw materials and several baffle raw materials, many check cutlery box former contains and is applicable to along the preparation route according to the preface carry the main material feeding unit of cutlery box raw materials, follows the preparation route set up in main material feeding unit downstream just is applicable to make the main forming device of half-finished cutlery box with each cutlery box raw materials, and location material feeding unit, location material feeding unit is including being applicable to and being located each cutlery box half-finished product of main forming device follows the preparation route carries to the first pay-off module in low reaches, its characterized in that: the multi-grid lunch box forming equipment further comprises a separation forming device, wherein the separation forming device comprises a base, an assembling module, a forming module, a switching module and two mounting modules, the assembling module is arranged on the base and positioned at the downstream of the main forming device, the forming module is arranged on the base and is spaced from the assembling module, the switching module is arranged on the base, the two mounting modules are arranged on the switching module and can be driven by the switching module to respectively and reciprocally rotate between the assembling module and the forming module, the switching module is provided with a rotating table which can be reciprocally and rotatably arranged on the base around an axis and is used for the mounting module to be arranged, each mounting module can be matched with the forming module to be suitable for manufacturing each partition plate raw material into a partition plate semi-finished product and driving the partition plate semi-finished product to rotate to a position corresponding to the assembling module, and is matched with the assembling module to connect the partition plate semi-finished product with the semi-finished product The finished product is made into the finished meal box.

10. A multi-cell lunch box forming apparatus as claimed in claim 9, wherein: the multi-grid lunch box forming equipment further comprises a taking-out device, the taking-out device is arranged at the lower reaches of the assembling module along the manufacturing path, and the positioning feeding device further comprises a second feeding module which is suitable for conveying each lunch box finished product positioned in the assembling module to the taking-out device.

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