CN216424921U - AB unit multidirectional sliding alternate material receiving and conveying device - Google Patents

Abstract

The utility model discloses an AB unit multidirectional sliding alternate material receiving and conveying device which mainly comprises a shared translation unit, a stretching sliding structure unit, a multifunctional material receiving structure and a multifunctional material receiving configuration piece. The translation unit realizes reciprocating alternate sliding in material receiving, discharging and sampling stations under the cooperation of the telescopic driving structure unit. And multi-functional material structure mountable multi-functional material accessory that connects satisfies the requirement of different products or different production lines. The material receiving conveying boxing action of the front and back connecting conveying boxing unit is simple and quick, the specification and shape changing is convenient and quick, and the requirement of high-speed material receiving conveying of the unit can be met.

Description

AB unit multidirectional sliding alternate material receiving and conveying device

Technical Field

The utility model relates to the technical field related to conveying of disposable plastic containers, in particular to an AB unit multidirectional sliding alternate material receiving and conveying device.

Background

The production method for producing disposable plastic tableware in the prior art mainly comprises two modes, wherein the first mode is an injection molding mode, although the raw materials have no corners and can be fully utilized, the injection molding production has the problems of high price of a mold, long mold processing and debugging period, easiness in losing a first machine for occupying the market and the like, and the quantity and speed of each mold in the injection molding production cannot be compared with those of a sheet material pressure air thermal forming cup making machine. The second mode is that the product is prepared by adopting an upper and lower pressing cup making machine and a turnover cup making machine which are punched and cut out of a die by a sheet thermoforming machine and a three-station or four-station thermoforming production line, particularly, the pure cup is produced to have pure appearance and no pattern, the product grade is low, even if the product is subjected to curved surface printing, the image and text definition and the texture of the product cannot be compared with those of injection molding or in-mold labeling, and the high-speed material receiving and conveying of the products produced by various types on a material receiving device is not realized by the prior art at home and abroad. Moreover, the action of each mould of the in-mould labeling production line in the prior art is up to eleven actions, and an additional in-mould labeling manipulator is needed to be used, only the cup making connection stacking conveying manipulator needs several actions in each mould, if the in-mould labeling manipulator firstly waits for the material taking and discharging manipulator to descend to an empty position, the in-mould labeling manipulator can be moved horizontally to enter, descend to place a label, ascend and move horizontally to exit from four actions, namely the in-mould labeling manipulator connected with the traditional turnover mould needs nine actions to be moved to complete the production of a mould product, and the in-mould labeling technology connected with the upper and lower pressing thermoforming cup making machines needs eleven actions to be completed, no matter whether the turnover mould is connected or the upper and lower pressing is used for in-mould labeling, the traditional in-mould labeling technology has more actions and low efficiency. How to realize that the cup making mould technology which can utilize the existing cup making machine and is beneficial to the production line to move, simplify and work with high efficiency becomes a research focus of the industry, and how to realize that the container with multiple specifications and shapes, including the cover and the receiving material of products arranged in a staggered way can be transmitted to a boxing technology by connecting units such as an upper pressing cup making machine, a lower pressing cup making machine, a turnover mold cup making machine, a three-station cup making machine or products of the production line in the same device, and the problem which needs to be solved is particularly important.

Disclosure of Invention

The utility model aims to avoid the defects in the prior art and provide a technology for conveying a receiving material of a container with multiple specifications and shapes, including a cover and products arranged in a staggered manner to a container in the same device.

The purpose of the utility model is realized by the following technical scheme:

the AB unit multidirectional sliding alternate material receiving and conveying device is provided with two groups of stacking units, each group of stacking units comprises a material receiving disc, a primary driving mechanism and a secondary driving mechanism, the primary driving mechanism comprises a mounting plate, a primary slide block, a primary guide rail, a primary driving device and a primary support table, the material receiving disc is detachably mounted on the mounting plate, the bottom of the mounting plate is fixedly connected with the primary slide block, the primary slide block is slidably arranged on the primary guide rail, the primary guide rail is fixed on the primary support table, and the mounting plate is driven by the primary driving device to translate;

the secondary driving mechanism comprises a connecting assembly, a secondary driving device and a supporting frame, and the secondary driving device is arranged on the supporting frame;

each group of stacking units further comprises a transverse telescopic driving mechanism, the transverse telescopic driving mechanism comprises a connecting table, a transverse telescopic sliding assembly and a transverse driving device, the connecting table is mounted on the transverse telescopic sliding assembly, the transverse telescopic sliding assembly is slidably mounted on the support frame through a longitudinally arranged sliding pair and is driven by the secondary driving device to longitudinally translate, and the transverse telescopic sliding assemblies of the two groups of stacking units are staggered up and down to avoid mutual collision during longitudinal translation;

the primary support table is slidably mounted on the transverse telescopic sliding assembly through a transversely arranged sliding pair, the transverse telescopic sliding assembly is provided with a transverse telescopic support table, a lower guide rail, a lower sliding block, an upper guide rail and an upper sliding block, the lower guide rail is fixed at the bottom of the transverse telescopic support table, the lower sliding block is slidably arranged on the lower guide rail, and the lower sliding block is fixedly connected with the connecting table; the upper guide rail is fixed on the upper part of the transverse telescopic supporting platform, the upper sliding block is arranged on the upper guide rail in a sliding manner and is fixedly connected with the bottom of the first-stage supporting platform;

the transverse driving device comprises a lower driving cylinder and an upper driving cylinder, the lower driving cylinder drives the transverse telescopic supporting platform to transversely translate, and the upper driving cylinder drives the first-stage supporting platform to transversely move;

the first-stage driving mechanism, the second-stage driving mechanism, the lower driving cylinder and the upper driving cylinder move cooperatively to enable the two material receiving discs to run in a staggered mode in the same running channel.

Preferably, the material receiving disc is provided with a disc body, a bottom plate and a material receiving platform, the material receiving platform is arranged on the upper portion of the disc body and provided with a plurality of material receiving holes, the bottom plate is arranged on the disc body, adjusting holes are formed in side plates at two ends of the disc body, and bolts can penetrate through the adjusting holes to be connected with the bottom plate.

Preferably, the material receiving disc is provided with a plurality of material receiving grooves which are parallel to each other, and a limiting partition wall is arranged between every two adjacent material receiving grooves.

Preferably, the bottom of the material receiving groove is provided with a convex groove.

Preferably, the material receiving disc is provided with a disc body and at least one single-row material receiving frame, each single-row material receiving frame is provided with a plurality of convex blocks, and a fork groove is formed between every two adjacent convex blocks.

Preferably, the top of the bump is provided with a cup mold, the radian of the inner side of the cup mold is the same as that of the contact part of the outer wall of the product, and two cup molds opposite to each other adjacent to each other are oppositely arranged to hold the product.

Preferably, the cup mold can be made by cutting the product.

Preferably, in addition to the first single-row support frame, the subsequent single-row support frames are respectively equipped with an independent lifting driving device and the single-row support frames are driven by the independent lifting driving device to lift.

Preferably, the independent lifting driving device is an air cylinder which is arranged on the disc body and drives the corresponding single-row supporting frame to lift.

Preferably, the AB unit multidirectional sliding alternate material receiving and conveying device is applied to a thermoforming machine discharging stacking and conveying device group, the thermoforming machine discharging stacking and conveying device group comprises a material receiving conveying manipulator, an AB unit multidirectional sliding alternate material receiving and conveying device and a transfer conveying manipulator, the material receiving conveying manipulator is used for taking materials from a thermoforming machine and conveying the materials to the AB unit multidirectional sliding alternate material receiving and conveying device, and the transfer conveying manipulator is used for conveying stacked products stacked on a material receiving disc of the AB unit multidirectional sliding alternate material receiving and conveying device to a next station.

The utility model has the beneficial effects that:

1. the utility model is provided with two stages of longitudinal driving and transverse telescopic driving mechanisms to realize the multidirectional sliding motion of the receiving tray, and the transverse telescopic sliding components of the two groups of receiving and overlapping units collide with each other when vertically staggered and longitudinally translated and skillfully utilize the space to realize the common motion in the limited space. The multi-directional movement of the material receiving discs can realize the alternate operation and work of the material receiving discs of the two groups of stacking units, the material receiving station, the unloading station and the sampling station can be alternately shared, particularly, the first-stage driving mechanism, the second-stage driving mechanism, the lower driving cylinder and the upper driving cylinder cooperatively move to enable the two material receiving discs to alternately operate in the same operation channel, the two material receiving discs share the same operation channel and station, the structure is compact, the occupied space is small, and the front and rear devices can be efficiently butted.

2. The two groups of stacking units are arranged side by side, so that multistage telescopic longitudinal and transverse translation can be realized, and different mechanical arms can be butted and applied to various transmission units.

3. The receiving tray is detachably arranged on the mounting plate, so that the receiving tray can be replaced at any time according to needs, the receiving tray can be suitable for products with various specifications and sizes, such as cups, bowls, plates and covers, the product placement position of the receiving tray is set to correspond to a receiving and discharging link structure required by a front manipulator device and a rear manipulator device of a production line, smooth transmission is realized, and the working efficiency is high.

4. For products (short cups, dishes, covers and the like) with short main bodies and incapable of being received by cup shoulders or cup edges, the receiving tray is provided with a tray body and at least one single-row receiving frame, each single-row receiving frame is provided with a plurality of convex blocks, a fork groove is formed between every two adjacent convex blocks, and the convex blocks and the fork grooves are inserted into the fork grooves by a mechanical arm with a concave-convex structure to clamp the bottom and the upper part of the products so as to realize the stacking receiving and conveying of the products without cup shoulders or cup edges and covers.

5. For products which are arranged in a staggered mode and have short main bodies and cannot be connected by cup shoulders or cup edges, the material receiving disc is provided with a first single-row supporting frame, the rear single-row supporting frames are respectively provided with an independent lifting driving device, and the single-row supporting frames are driven to lift by the independent lifting driving device. The independent lifting of the front row material receiving support frame is utilized, so that the material receiving support frame with the unloading completed in the back row is not collided by a manipulator when the material receiving, descending and translation forking are carried out. The utility model can greatly improve the production efficiency of each touch, greatly reduce the corner loss and the cost of cost and labor cost because of solving the problem of staggered material receiving, conveying and boxing, and also improves the added value of the linked equipment.

6. The telescopic driving structure of the utility model adopts the support plate, the lower guide rail and the slide block to carry out sliding connection, so that the primary driving mechanism, the secondary driving mechanism and the transverse telescopic driving mechanism have small volume when being integrally folded, and can independently slide up and down, left and right in a very limited space, thereby realizing the purpose of completing the required telescopic stroke to the maximum extent in the limited space.

7. The material receiving disc can be replaced and can move in multiple directions, and corresponding material receiving discs are arranged for conventional cup-shaped products, short-body products and special-shaped cups, so that the AB unit multidirectional sliding alternate material receiving and conveying device can be used for matching with a mechanical arm to receive and convey various produced products for equipment such as an in-mold labeling and boxing production line, a three-station thermoforming machine, an up-down pressing and overturning molding cup machine and the like and stacking and conveying the products, the technical problem that how to automatically receive and convey materials is urgently solved by the industry is solved, the production efficiency is greatly improved, and the labor cost is greatly reduced. Meanwhile, the product conveying of the in-mold labeling and boxing production line at home and abroad can be realized, and the product conveying of the in-mold labeling, cup making, conveying and boxing production line which is connected with the white cup special material receiving and conveying boxing production line can be realized.

8. The receiving box with the limiting wall is replaced by the receiving box, and the receiving box can be connected with a finished product receiving device of a three-station thermoforming machine, so that the receiving material is conveyed to the packaging box, the production efficiency is improved, the additional value of equipment is improved, and the technical problem which is urgently needed to be solved in the industry is solved.

9. The two groups of the support frames are arranged side by side, the support frame of the rear folding unit is higher than the support frame of the front folding unit, the telescopic driving structure of the rear folding unit is positioned above the telescopic driving structure of the front folding unit, and the two groups of the support frames are arranged side by side in height, so that the two groups of the telescopic driving structures are staggered with each other, the two groups of the telescopic driving structures do not collide with each other when sliding horizontally, the bearing gravity center is reasonable, and the two groups of the support frames can be alternately shared.

10. The AB unit sliding alternate material receiving and conveying device is controlled by a PLC control system of a production line to operate, and cooperates with other equipment of the production line to finish efficient stacking conveying and boxing of products.

Drawings

The utility model is further illustrated by means of the attached drawings, the content of which is not in any way limitative of the utility model.

Fig. 1 is a schematic structural diagram of one embodiment of the AB unit multi-direction sliding alternate receiving conveying device (in the figure, two receiving trays with different specifications are shown, namely the receiving tray is replaceable).

Fig. 2 is a side schematic view of the folding state of one embodiment of the AB unit multi-direction sliding alternate material receiving conveying device.

Fig. 3 is a schematic diagram of a receiving tray suitable for a conventional cup type of one embodiment of the AB unit multi-direction sliding alternate receiving conveying device.

Fig. 4 is a schematic view of a receiving tray of one embodiment of the AB unit multi-direction sliding alternate receiving conveying device, wherein multiple rows of products can be placed on the receiving tray.

Fig. 5 is a single row schematic diagram of a receiving tray for short products of one embodiment of the AB unit multi-directional sliding alternate receiving conveyor.

Fig. 6 is a schematic diagram of a material receiving tray suitable for short-body products (such as covers, dishes, trays and the like) of one embodiment of the AB unit multi-directional sliding alternate material receiving conveying device.

Fig. 7 is a side view of the receiver of fig. 6.

Fig. 8 is a single row schematic view of a receiving tray for short products of another embodiment of the AB unit multi-directional sliding alternate receiving conveyor.

Fig. 9 is a schematic diagram of the AB unit multi-directional sliding alternate material receiving and conveying device applied to a white cup mode of an in-mold labeling production line and a conveying boxing unit.

Fig. 10 is a schematic diagram of the AB unit multi-directional sliding alternate material receiving conveying device applied to a conveying boxing unit.

Fig. 1 to 10 include:

1, receiving plate: 1-2 material receiving platforms, 1-21 material receiving holes, 1-3 bottom plates, 1-4 adjusting holes, 1-5 material receiving grooves, 1-6 limiting partition walls and 1-7 grooves; 1-3 ' of a bump, 1-4 ' of a fork groove and 1-5 ' of a cup mold;

a primary driving device: 2-1 mounting plate, 2-2 first-stage slide block, 2-3 first-stage guide rail, 2-4 first-stage driving device and 2-5 first-stage supporting table;

3-1 secondary driving device and 3-2 support frame;

horizontal flexible actuating mechanism: 4-1 transverse telescopic sliding component, 4-11 transverse telescopic supporting platform, 4-12 lower guide rail, 4-13 lower slide block, 4-14 upper guide rail, 4-15 upper slide block, 4-16 lower driving cylinder, 4-17 upper driving cylinder and 4-2 connecting platform;

a-a thermal forming machine, B-an in-mold labeling, taking and conveying manipulator, C-a multifunctional taking and discharging manipulator, D-an AB unit multidirectional sliding alternate material receiving and conveying device and E-a material receiving, transferring and conveying manipulator.

Detailed Description

The utility model is further illustrated by the following examples.

Example 1

Referring to the attached drawings, the AB unit multidirectional sliding alternate material receiving and conveying device of the embodiment is provided with two groups of stacking units, the two groups of stacking units can be divided into a unit a and a unit B, and the unit a and the unit B are alternately matched to operate. Each group of stacking units comprises a material receiving disc 1, a primary driving mechanism and a secondary driving mechanism, wherein the primary driving mechanism comprises a mounting plate 2-1, a primary sliding block 2-2, a primary guide rail 2-3, a primary driving device 2-4 and a primary supporting table 2-5, and the material receiving disc 1 is detachably mounted on the mounting plate 2-1, so that the convenient replacement of different material receiving discs 1 can be realized to be suitable for the stacking of products with different specifications and different cup shapes. The bottom of the mounting plate 2-1 is fixedly connected with a primary slider 2-2, the primary slider 2-2 is slidably disposed on a primary guide rail 2-3, the primary guide rail 2-3 is fixed on a primary support table 2-5, and the mounting plate 2-1 is driven by a primary driving mechanism to translate, wherein the primary driving device 2-4 may be composed of a motor, a driving wheel, a transmission shaft and a transmission belt, the connection manner of the motor, the driving wheel, the transmission shaft and the transmission belt is not described herein in detail for the conventional technology, it should be noted that the primary driving device 2-4 may also be an electric screw rod, an air cylinder or other equipment capable of driving the primary support plate to translate, and all of them fall within the scope claimed by the present invention, and in this embodiment, the primary driving device 2-4 is an air cylinder. The second-stage driving mechanism of the embodiment comprises a connecting component, a second-stage driving device 3-1 and a supporting frame 3-2, wherein the second-stage driving device 3-1 is installed on the supporting frame 3-2, and the second-stage driving device 3-1 drives the first-stage supporting table 2-5 to translate through the connecting component. The connecting component can be any structure capable of realizing the connection between the secondary driving device 3-1 and the primary supporting platform 2-5. The utility model adopts a plurality of different sliding guide rails to configure the driving source, and skillfully uses the common movement space by mutually staggering the telescopic mounting positions and the high-low mounting positions, so that the material receiving discs 1 of two groups of stacking units replace the common material receiving station, the material discharging station and the sampling station, and meanwhile, the two groups of stacking units are arranged side by side to realize multi-stage telescopic longitudinal translation, thereby being capable of butting different equipment groups. The utility model can change the material receiving tray 1 according to the need, thereby being suitable for products with various specifications and sizes, such as cups, bowls, dishes, trays, covers and the like.

The AB unit multidirectional sliding alternate material receiving and conveying device can be used for matching with a mechanical hand to receive and convey the produced products for equipment such as an in-mold labeling and boxing production line, a three-station thermoforming machine, an up-down pressing and overturning molding cup machine and the like, solves the technical problem that how to automatically receive and convey materials is urgently needed to be solved by the industry, greatly improves the production efficiency and reduces the labor cost.

Different receiving trays 1 can be arranged according to different cup types. The receiving tray 1 is provided with a tray body, a bottom plate 1-3 and a receiving platform 1-2, the receiving platform 1-2 is arranged at the upper part of the tray body and is provided with a plurality of receiving holes 1-21, the bottom plate 1-3 is arranged on the tray body, adjusting holes 1-4 are arranged on side plates at two ends of the tray body, and bolts can penetrate through the adjusting holes 1-4 to be connected with the bottom plate 1-3. Therefore, the material receiving disc 1 can be replaced at any time according to needs, the material receiving disc can be suitable for products of various specifications and sizes, such as cups, bowls, plates and covers, the product placing position of the material receiving disc 1 is set to be corresponding to the material receiving and discharging connecting structure required by the front and rear manipulator devices of the production line, smooth transmission is achieved, and the work efficiency is high. The AB unit multidirectional sliding alternate receiving and conveying device in the embodiment is in butt joint with a receiving side of a multifunctional receiving and discharging conveying manipulator C of a production line so as to receive and stack a certain amount of products, the AB unit multidirectional sliding alternate receiving and conveying device is in butt joint with a receiving transfer conveying manipulator E of the production line, the receiving transfer conveying manipulator E clamps a certain amount of stacked products from a receiving tray and conveys the stacked products to a piece of equipment, the two receiving trays work alternately, and when one receiving tray receives the materials from the multifunctional receiving and discharging conveying manipulator C, the receiving transfer conveying manipulator E takes the materials from the other receiving tray.

For products with covers and containers with diameters and heights larger than the heights and incapable of taking materials along the edge of a cup, the materials can be conveyed to the next device only by using a fork to hold the bottom to take the materials, but the traditional technology only adopts translation pushing, the bottom of the inner cavity of the traditional receiving tray 1 is flat but cannot be matched with a receiving holding fork of a single-row receiving transfer conveying device to convey the materials, and because the single-row receiving holding transfer device cannot clamp and take stacked products from the bottom of the products extending into the traditional receiving tray 1, the utility model meets the requirements of smooth sliding and discharging and insertion and ascending of the receiving holding fork of a single-row receiving transfer manipulator E, and is specially provided with a concave convex shape to meet the requirements of smooth sliding and lifting of the products to lift the materials to convey to the next receiving transfer device. In addition, in order to connect a finished product receiving device of a thermoforming machine to realize the transfer from receiving to boxing, the production efficiency is improved, the receiving device is used for receiving normal cup-shaped or high-rise cup-shaped products which are not misplaced, the receiving disc 1 is provided with a plurality of receiving grooves 1-5 which are parallel to each other, and a limiting partition wall 1-6 is arranged between every two adjacent receiving grooves 1-5, so that the whole disc of the products stacked in a plurality of rows on the receiving disc 1 can be neatly and directly pushed onto a conveying belt by a pushing device to be directly transferred (the pushing device and the conveying belt are other devices of a production line and do not belong to the AB unit multidirectional sliding alternate receiving and conveying device of the utility model), the products can not collapse due to the existence of the limiting partition wall 1-6 when being directly pushed, but the products in a plurality of rows can be directly pushed onto the conveying belt, and the working efficiency is greatly improved. For short products which are not placed in a staggered mode, the receiving groove 1-5 can be provided with a convex groove 1-7, and the groove 1-7 can enable the supporting fork of the transfer conveying manipulator E to extend into the groove and enable the supporting fork to be pressed up and down to be conveyed in a whole row.

For common cup-shaped products or high products with cup edges, the material receiving disc 1 is provided with a disc body and a plurality of single-row material receiving frames, each single-row material receiving frame is provided with a plurality of bumps 1-3 ', and a cross groove 1-4' is formed between every two adjacent bumps. The convex blocks 1-3' and the fork position grooves are in a concave-convex structure, so that a manipulator can be conveniently inserted into the fork position grooves to clamp the bottom and the upper part of a product, and the stacking, receiving and conveying of the product without cup shoulders or cup edges and the cover product are realized. The manipulator is other equipment of the production line, does not belong to the protection scope of the utility model, but shares the function of partial conveying of products in the production line with the AB unit multi-direction sliding alternate receiving and conveying device of the utility model. The structure and function of this robot can be referred to patent document of container and lid transfer robot E, publication No. CN 108974445A. In order to make the placement of the product more stable, the cup molds 1-5 ' are arranged on the tops of the convex blocks 1-3 ' of the receiving tray 1 in this embodiment, the radian of the inner sides of the cup molds 1-5 ' is the same as that of the contact part of the outer wall of the product, and the two cup molds 1-5 ' opposite to the adjacent two convex blocks 1-3 ' are oppositely arranged to hold the product. The cup molds 1-5 'can be made by cutting products, and the cup molds 1-5' arranged in this way are low in cost, simple to operate and high in fitting degree. The translation of this embodiment supports drive unit comprises motor, pivot, drive wheel and hold-in range, and the hold-in range passes through the connecting piece and is connected with the connection platform.

The AB unit multidirectional sliding alternate material receiving and conveying device can realize high-speed material receiving and conveying, meets the speed requirements of an upper and lower pressing thermoforming machine, a turnover molding cup machine and a thermoforming production line, and lays a foundation for smooth operation of a multifunctional six-action in-mold labeling conveying and boxing production line by matching with a multifunctional material receiving conveying manipulator and a single-row material receiving transfer conveying manipulator EE. The device is connected with the products of various specifications and shapes of all products densely covered by various machine equipment and the receiving material conveying in a staggered arrangement mode, the receiving material conveying mode comprises a white cup special mode and an in-mold labeling special mode, so that the receiving material conveying mode is more compressed, the action times are reduced, the running speed is improved, the use and the replacement are convenient and quick, meanwhile, the label rich in pictures and texts is attached to the prepared product, the attractiveness degree of the product is greatly improved, and the additional value of the product is increased.

The primary driving device 2-4, the secondary driving device 3-1 and the transverse driving device can be cylinders, electric screws or composed of motors and transmission components, and the structure and principle of the driving devices are the prior art and need not be described in detail and should be clear to those skilled in the art. In order to obtain the minimum volume, smooth and high-speed action, in this embodiment, the two-stage driving of the first-stage driving device 2-4 and the transverse driving device are both air cylinders, the second-stage driving device 3-1 is composed of a motor, a transmission shaft, a transmission wheel, a transmission belt and the like, and the structures, working principles and modes of the air cylinders, the motor, the transmission shaft, the transmission wheel, the transmission belt and the like are all the prior art, and it is not necessary to describe herein again that those skilled in the art can understand and implement the present invention. Moreover, the sliding pair of the present invention refers to a set of components having a fixed part and a sliding part, such as a guide rail and a sliding block in a guide rail, a sliding rod and a sliding sleeve, and the structure and the working principle of the sliding pair are also in the prior art, and should be clearly understood by those skilled in the art.

Referring to fig. 9, the AB unit multi-directional sliding alternate material receiving and conveying device of the present invention can be applied to a three-action in-mold labeling production line. Referring to fig. 10, the AB unit multi-directional sliding alternate receiving and conveying device can be applied to a white cup production line.

Example 2

The main technical solution of this embodiment is substantially the same as that of embodiment 1, and the features that are not explained in this embodiment adopt the explanations in embodiment 1, and are not described herein again. In this embodiment, each set of stacking units further includes a transverse telescopic driving mechanism, and the transverse telescopic driving mechanism can also be used as the connecting assembly in embodiment 1. The primary support table 2-5 is slidably mounted on a transverse telescopic sliding assembly 4-1 through a transversely arranged sliding pair, the transverse telescopic sliding assembly 4-1 is provided with a transverse telescopic support table 4-11, a lower guide rail 4-12, a lower sliding block 4-13, an upper guide rail 4-14 and an upper sliding block 4-15, the lower guide rail 4-12 is fixed at the bottom of the transverse telescopic support table 4-11, the lower sliding block 4-13 is slidably arranged on the lower guide rail 4-12, and the lower sliding block 4-13 is fixedly connected with a connecting table 4-2; the upper guide rails 4-14 are fixed on the upper parts of the transverse telescopic support tables 4-11, the upper sliders 4-15 are slidably arranged on the upper guide rails 4-14, and the upper sliders 4-15 are fixedly connected with the bottoms of the first-stage support tables 2-5;

the transverse driving device comprises a lower driving cylinder 4-16 and an upper driving cylinder 4-17, the lower driving cylinder 4-16 drives the transverse telescopic supporting platform 4-11 to transversely translate, and the upper driving cylinder 4-17 drives the first-stage supporting platform 2-5 to transversely move.

Example 3

The discharging stacking and conveying equipment set of the thermoforming machine comprises a material receiving conveying manipulator, an AB unit multidirectional sliding alternate material receiving conveying device and a transfer conveying manipulator E, wherein the material receiving conveying manipulator is used for taking materials from the thermoforming machine and transferring the materials to the AB unit multidirectional sliding alternate material receiving conveying device, and the transfer conveying manipulator E is used for conveying stacked products stacked on a material receiving disc 1 of the AB unit multidirectional sliding alternate material receiving conveying device to a next station. Wherein, connect material conveying manipulator and transfer conveying manipulator E and be prior art. The material receiving and conveying manipulator and the transferring and conveying manipulator E can adopt the manipulators in the prior art, for example, the material receiving and conveying manipulator can adopt a cup and bowl cover removing, stacking and conveying manipulator disclosed in the patent document with the publication number of CN109484689A, the transferring and conveying manipulator E can adopt a container and cover transferring and conveying manipulator E disclosed in the patent document with the publication number of CN108974445A, and all the devices of the discharging, stacking and conveying device group of the thermoforming machine are controlled by a PLC controller to operate cooperatively.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and do not limit the protection scope of the claims. It will be understood by those skilled in the art that various modifications and equivalents may be made to the embodiments of the present invention without departing from the spirit and scope of the utility model.

Claims (10)

1. AB unit multidirectional connecing material conveyer in turn that slides, its characterized in that: the automatic splicing and stacking device is provided with two groups of splicing and stacking units, each group of splicing and stacking units comprises a splicing tray (1), a primary driving mechanism and a secondary driving mechanism, the primary driving mechanism comprises a mounting plate (2-1), a primary sliding block (2-2), a primary guide rail (2-3), a primary driving device (2-4) and a primary support table (2-5), the splicing tray (1) is detachably mounted on the mounting plate (2-1), the bottom of the mounting plate (2-1) is fixedly connected with the primary sliding block (2-2), the primary sliding block (2-2) is slidably arranged on the primary guide rail, the primary guide rail (2-3) is fixed on the primary support table (2-5), and the mounting plate (2-1) is driven by the primary driving device (2-4) to translate;

   the secondary driving mechanism comprises a connecting assembly, a secondary driving device (3-1) and a supporting frame (3-2), and the secondary driving device (3-1) is installed on the supporting frame (3-2);

   each group of stacking units further comprises a transverse telescopic driving mechanism, each transverse telescopic driving mechanism comprises a connecting platform (4-2), a transverse telescopic sliding assembly (4-1) and a transverse driving device, each connecting platform (4-2) is installed on each transverse telescopic sliding assembly (4-1), each transverse telescopic sliding assembly (4-1) is installed on each support frame (3-2) in a sliding mode through a sliding pair arranged longitudinally, each connecting platform is driven by the corresponding secondary driving device (3-1) to translate longitudinally, and the transverse telescopic sliding assemblies of the two groups of stacking units are staggered up and down to avoid mutual collision during longitudinal translation;

   the primary support table (2-5) is slidably mounted on a transverse telescopic sliding assembly (4-1) through a transversely arranged sliding pair, the transverse telescopic sliding assembly (4-1) is provided with a transverse telescopic support table (4-11), a lower guide rail (4-12), a lower sliding block (4-13), an upper guide rail (4-14) and an upper sliding block (4-15), the lower guide rail (4-12) is fixed at the bottom of the transverse telescopic support table (4-11), the lower sliding block (4-13) is slidably arranged on the lower guide rail (4-12), and the lower sliding block (4-13) is fixedly connected with a connecting table (4-2); the upper guide rails (4-14) are fixed at the upper parts of the transverse telescopic support tables (4-11), the upper sliding blocks (4-15) are arranged on the upper guide rails (4-14) in a sliding manner, and the upper sliding blocks (4-15) are fixedly connected with the bottoms of the first-stage support tables (2-5);

   the transverse driving device comprises a lower driving cylinder (4-16) and an upper driving cylinder (4-17), the lower driving cylinder (4-16) drives the transverse telescopic supporting platform (4-11) to transversely translate, and the upper driving cylinder (4-17) drives the first-stage supporting platform (2-5) to transversely move;

   the first-stage driving mechanism, the second-stage driving mechanism, the lower driving cylinders (4-16) and the upper driving cylinders (4-17) move cooperatively to enable the two material receiving discs to run in a staggered mode in the same running channel.
2. 2. The AB unit multidirectional sliding alternate material receiving and conveying device as claimed in claim 1, wherein: the receiving tray is provided with a tray body (1-1), a bottom plate (1-3) and a receiving platform (1-2), the receiving platform (1-2) is arranged on the upper portion of the tray body (1-1) and provided with a plurality of receiving holes (1-21), the bottom plate (1-3) is arranged on the tray body (1-1), adjusting holes (1-4) are formed in side plates of two ends of the tray body (1-1), and bolts can penetrate through the adjusting holes (1-4) to be connected with the bottom plate (1-3).
3. 3. The AB unit multidirectional sliding alternate material receiving and conveying device as claimed in claim 1, wherein: the material receiving disc (1) is provided with a plurality of material receiving grooves (1-5) which are parallel to each other, and a limiting partition wall (1-6) is arranged between every two adjacent material receiving grooves (1-5).
4. 4. The AB unit multidirectional sliding alternate material receiving and conveying device as claimed in claim 1, wherein: the bottom of the material receiving groove (1-5) is provided with a concave groove in a shape of a Chinese character 'tu'.
5. 5. The AB unit multidirectional sliding alternate material receiving and conveying device as claimed in claim 1, wherein: the receiving disc is provided with a disc body (1-1) and at least one single-row receiving frame (1-2 '), each single-row receiving frame (1-2') is provided with a plurality of lugs (1-3 '), and a fork groove (1-4') is formed between every two adjacent lugs.
6. 6. The AB unit multidirectional sliding alternate material receiving and conveying device as claimed in claim 5, wherein: the top of each bump (1-3 ') is provided with a cup die (1-5 '), the radian of the inner side of each cup die (1-5 ') is the same as that of the contact part of the outer wall of a product, and two cup dies (1-5 ') opposite to two adjacent bumps (1-3 ') are oppositely arranged and can hold the product.
7. 7. The AB unit multidirectional sliding alternate material receiving and conveying device as claimed in claim 6, wherein: the cup molds (1-5') can be cut out of the product.
8. 8. The AB unit multidirectional sliding alternate material receiving and conveying device as claimed in claim 6, wherein: except for the first single-row support frame, the rear single-row support frames are respectively provided with an independent lifting driving device, and the single-row support frames are driven by the independent lifting driving device to lift.
9. 9. The AB unit multidirectional sliding alternate material receiving and conveying device as claimed in claim 8, wherein: the independent lifting driving device is an air cylinder which is arranged on the tray body and drives the corresponding single-row supporting frame to lift.
10. 10. The AB unit multidirectional sliding alternate material receiving and conveying device as claimed in claim 1, wherein: the AB unit multidirectional sliding alternate material receiving and conveying device can be applied to a thermoforming machine discharging stacking and conveying device group, the thermoforming machine discharging stacking and conveying device group comprises a material receiving conveying mechanical arm, an AB unit multidirectional sliding alternate material receiving and conveying device and a transfer conveying mechanical arm, the material receiving conveying mechanical arm is used for taking materials from a thermoforming machine and conveying the materials to the AB unit multidirectional sliding alternate material receiving and conveying device, and the transfer conveying mechanical arm is used for conveying stacked products stacked on a material receiving disc of the AB unit multidirectional sliding alternate material receiving and conveying device to a next station.

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