CN220787016U - Flattening machine for panel turnover machine - Google Patents

Abstract

The utility model relates to the technical field of flattening machines, in particular to a flattening machine for a plate turnover machine, which comprises a conveying belt and a pressing plate, wherein the conveying belt is used for moving an article to the lower part of the pressing plate and conveying the compacted article out, the top of the pressing plate is connected with a first driving source, and the pressing plate is driven to move through the first driving source so as to compact the article placed under the pressing plate. Therefore, the utility model firstly moves the turned article to the lower part of the pressing plate through the conveying belt, and drives the pressing plate to move through the driving source I, so that the pressing plate compacts the article placed under the pressing plate, and then bubbles are taken out, so that the paperboard is attached to the printing.

Description

Flattening machine for panel turnover machine

Technical Field

The utility model relates to the technical field of flattening machines, in particular to a flattening machine for a plate turnover machine.

Background

The panel turnover machine is used for turning over the leather shell, so that the leather shell is turned over from the front surface to the back surface, and further the front surface and the back surface of the leather shell are transported and stored, thereby avoiding that 4 corners on the front surface of the leather shell can be pressed out by crumpled paper on the back surface of another leather shell to influence the appearance, and the panel turnover machine is generally positioned after the processing of the leather shell.

The second leather shell refers to a layer of printing paper coated on a paperboard, and products such as book shells, notebook shells and the like are collectively called leather shells. However, in the actual process, the paper board and the printing paper are not completely attached, so that air bubbles and the like exist, and the situation that the paper board and the printing paper are smeared possibly needs to be manually smeared, so that the air bubbles are smeared out to attach the paper board and the printing paper, however, the manual work efficiency is lower, and the production cost is increased. If bubbles still exist after passing through the panel turnover machine, the bubbles still need to be placed again according to the forward direction and the reverse direction after being manually made, and time and labor are wasted.

Disclosure of Invention

The utility model aims to provide a flattening machine for a plate turnover machine, which moves an overturned object under a pressing plate through a conveying belt, and drives the pressing plate to move through a driving source, so that the pressing plate compacts the object placed under the pressing plate, and bubbles are further taken out to attach a paperboard to printing.

The purpose of the utility model is realized in the following way:

the utility model provides a flatting mill for panel turnover machine, includes conveyer belt and clamp plate, and the conveyer belt is used for removing the article to the clamp plate below and transporting away the article after the compaction to the clamp plate top is connected with driving source one, thereby makes the clamp plate carry out the compaction to the article of placing in the clamp plate below through driving source one drive clamp plate removal.

Preferably, the movable type press plate further comprises two side plates, a conveying belt and a press plate are arranged between the two side plates, each side plate is provided with a movable assembly for guiding the press plate to vertically move up and down, the two movable assemblies are respectively connected with two sides of the press plate, and the two movable assemblies are connected through a transmission shaft, so that synchronous movement of two sides of the press plate is ensured.

Preferably, each moving assembly comprises a synchronizing wheel and two transmission assemblies for guiding the pressing plate to vertically move up and down, the two transmission assemblies are respectively connected with the other two sides of the pressing plate, and the two transmission assemblies are connected with the synchronizing wheels through a first chain so as to ensure synchronous movement of the other two sides of the pressing plate, and the synchronizing wheels of the two moving assemblies are connected through a transmission shaft so as to ensure synchronous movement of the two sides of the pressing plate.

Preferably, each transmission assembly comprises two transmission wheels and a second chain for connecting the two transmission wheels, the second chain of the two transmission assemblies is connected with the other two sides of the pressing plate respectively, the transmission wheel at the bottom of the two transmission assemblies is connected with the synchronous wheel through the first chain, so that synchronous movement of the other two sides of the pressing plate is ensured, and the transmission wheels of the two movement assemblies are connected through at least one transmission shaft, so that synchronous movement of the two sides of the pressing plate is ensured.

Preferably, the seat is characterized by further comprising two side plates, a conveying belt and a pressing plate are arranged between the two side plates, an adjusting plate is arranged on one side of the side plates, seat legs are arranged at the bottom of the adjusting plate, at least two strip holes are formed in the adjusting plate, positioning holes are formed in the side plates corresponding to the strip holes, the adjusting plate is arranged on the side plates through fasteners penetrating through the strip holes and the positioning holes, and the positions of the adjusting plate are adjusted through adjusting the positions of the strip holes by adjusting the fasteners so as to adjust the positions of the seat legs.

Preferably, the conveyor belt is provided with a first driving source and a second driving source, the first driving source is connected with the first driving source, the second driving source is connected with the second driving source, and the second driving source is connected with the second driving source.

Preferably, the device further comprises two side plates, wherein a conveyor belt, a pressing plate and a placing plate are arranged between the two side plates, and the placing plate is positioned above the pressing plate and provided with a first driving source;

the support plate is arranged between the two side plates, the support plate is positioned on the inner side of the conveying belt, the support plate is connected with the placing plate through a rod, a sleeve is arranged on the pressing plate, and the sleeve is sleeved on the outer side of the rod and moves along the rod.

Compared with the prior art, the utility model has the following outstanding and beneficial technical effects:

according to the utility model, the overturned article is moved to the lower part of the pressing plate through the conveying belt, and the pressing plate is driven to move through the driving source, so that the pressing plate compacts the article placed under the pressing plate, and then bubbles are taken out, so that the paperboard is attached to the printing.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

FIG. 2 is a schematic illustration of a platen-related structure.

Fig. 3 is a schematic structural view of the transmission assembly.

Fig. 4 is a schematic view of a structure associated with a side plate.

FIG. 5 is a schematic illustration of a platen-related structure.

Fig. 6 is a schematic view of a structure associated with a conveyor belt.

Fig. 7 is a schematic view of the structure of the adjusting plate and the seat leg.

Fig. 8 is a schematic structural view of the actual use state.

Reference numerals: 1-a conveyor belt; 2-pressing plates; 21-a sleeve; 22-connecting a plate II; 23-assembling a second plate;

24-connecting plate IV; 3-a first driving source; 4-side plates; 41-positioning holes; 42-upper plate; 43-lower plate;

44-plate members; 5-moving the assembly; 51-synchronizing wheel; 52-a transmission assembly; 521-a driving wheel;

522-chain two; 53-first chain; 6-a transmission shaft; 7-adjusting plates; 71-elongated holes; 72-seat feet;

8-rotating shaft; 9-a second driving source; 10-placing a plate; 101-connecting a plate I; 102-assembling a first plate;

103-connecting a plate III; 20-supporting plates; 30-pole; 40-mounting plates; 50-adjusting the shaft; 60-a housing; 70-a housing.

Detailed Description

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

As shown in fig. 1-8, a flattening machine for a plate turnover machine comprises a conveying belt 1 and a pressing plate 2, wherein the conveying belt 1 is used for moving objects below the pressing plate 2 and conveying compacted objects, a driving source I3 is connected to the top of the pressing plate 2, and the pressing plate 2 is driven to move through the driving source I3 so that the pressing plate 2 compacts objects placed below the pressing plate 2.

Therefore, in the actual use process, the overturned article is moved to the position below the pressing plate 2 through the conveying belt 1, and the pressing plate 2 is driven to move through the driving source I3, so that the pressing plate 2 compacts the article placed below the pressing plate 2, and then bubbles are taken out to attach the paper board to the printing.

The first driving source 3 is a cylinder, and the cylinders can be four and respectively drive the four end angles.

As shown in fig. 5, the related structure among the conveyor belt 1, the platen 2, and the driving source one 3 is: first, two side plates 4 are further included, a conveyor belt 1, a pressing plate 2 and a placing plate 10 are arranged between the two side plates 4, and the placing plate 10 is located above the pressing plate 2 and provided with a driving source one 3.

Meanwhile, a supporting plate 20 is further arranged between the two side plates 4, the supporting plate 20 is positioned on the inner side of the conveyor belt 1, the supporting plate 20 is connected with the placing plate 10 through a rod 30, a sleeve 21 is arranged on the pressing plate 2, and the sleeve 21 is sleeved on the outer side of the rod 30 and moves along the rod 30.

Thus, in actual use, the connection between the support plate 20 and the placement plate 10 is achieved by means of the rods 30 and the pressure plate 2 is movably arranged between the support plate 20 and the placement plate 10 by means of the bushings 21.

The support plate 20 may be a long plate so as to be the same as the transport length of the transport belt 1, or may be a plurality of plates, and the side plate 4 is engaged with the support plate 20.

Meanwhile, the placing plate 10 is provided with a first connecting plate 101, the top of the side plate 4 passes through the placing plate 10 and is clamped with the bottom of the first connecting plate 101, the first assembling plate 102 is clamped with the top of the first connecting plate 101, and the first assembling plate 102 is positioned on one side of the side plate 4, so that the connection between the placing plate 10 and the side plate 4 is realized.

Secondly, the placing plate 10 is provided with a third connecting plate 103, the third connecting plate 103 is perpendicular to the first connecting plate 101, and the driving source 3 can be limited through the arrangement of the third connecting plate 103 and the first connecting plate 101.

As shown in fig. 2 and 3, although the rod 30 and sleeve 21 are structured or otherwise structured to realize the movement of the pressing plate 2, there may be a case where the pressing plate 2 is inclined, so in order to ensure that the pressing plate 2 is vertically up and down and the pressing plate 2 is not inclined, that is, four end corners of the pressing plate 2 are all synchronously moved, two side plates 4 are further included, a conveyor belt 1 and the pressing plate 2 are provided between the two side plates 4, and each side plate 4 is provided with a moving assembly 5 for guiding the pressing plate 2 to vertically move up and down, and the two moving assemblies 5 are respectively connected with both sides of the pressing plate 2, and the two moving assemblies 5 are connected through at least one driving shaft 6.

Therefore, in the actual use process, the two moving assemblies 5 are synchronous through the arrangement of the transmission shaft 6, so that the synchronous movement of the two sides of the pressing plate 2 is ensured. The outside of the moving assembly 5 is then provided with a housing 60 for protecting the moving assembly 5.

The structure of the second moving assembly 5 is as follows: first, each moving assembly 5 includes a synchronizing wheel 51 and two transmission assemblies 52 for guiding the pressing plate 2 to vertically move up and down, and the two transmission assemblies 52 are respectively connected with the other two sides of the pressing plate 2.

Therefore, in the actual use process, the two transmission assemblies 52 are connected with the synchronizing wheel 51 through the first chain 53, so that the synchronization of the two transmission assemblies 52 is realized, and the synchronous movement of the other two sides of the pressing plate 2 is ensured, meanwhile, the synchronizing wheels 51 of the two moving assemblies 5 are connected through the transmission shaft 6, so that the synchronous rotation of the synchronizing wheels 51 of the two moving assemblies 5 is realized, and the synchronous movement of the two sides of the pressing plate 2 is ensured, and the installation of the synchronizing wheels 51 is also realized through the arrangement of the transmission shaft 6.

Next, each side plate 4 comprises an upper plate 42 and a lower plate 43 connected to each other, and the upper plate 42 corresponds to the transmission assembly 52 and connects the upper plate 42 and the lower plate 43 by a plate 44.

Each transmission assembly 52 comprises two transmission wheels 521 and a chain II 522 for connecting the two transmission wheels 521, the chain II 522 of the two transmission assemblies 52 is respectively connected with the other two sides of the pressing plate 2, the transmission wheels 521 positioned at the bottom of the two transmission assemblies 52 are connected with the synchronous wheel 51 through the chain I53, so that synchronous rotation of the transmission wheels 521 of the two transmission assemblies 52 is realized, and further synchronous movement of the other two sides of the pressing plate 2 is ensured, the transmission wheels 521 of the two moving assemblies 5 are connected through the transmission shaft 6, so that synchronous rotation of the transmission wheels 521 of the two moving assemblies 5 is realized, and further synchronous movement of the two sides of the pressing plate 2 is ensured, and the arrangement of the transmission shaft 6 also realizes installation of the synchronous wheel 51.

And two connection plates two 22 are arranged on the pressing plate 2, the second chains 522 of the two transmission assemblies 52 are respectively connected with the two connection plates two 22, and a fourth connection plate 24 is arranged between the two connection plates two 22 and used for connecting the two connection plates two 22 and playing a supporting role. And at least two assembling plates II 23 are arranged on the second connecting plate 22, the second connecting plate 22 is perpendicular to the second assembling plates 23, and the two assembling plates II 23 are positioned on two sides of the driving shaft of the first driving source 3 and are connected with the driving shaft.

The general principle of motion is: firstly, the pressing plate 2 moves under the drive of the first driving source 3, and drives the second chain 522 connected with the pressing plate 2 to move, the second chain 522 moves to drive the driving wheel 521 to rotate, and due to the arrangement of the first chain 53, namely, the driving wheels 521 of the two driving assemblies 52 synchronously rotate, and synchronously drive the synchronous wheel 51 to rotate, and meanwhile, due to the arrangement of the driving shaft 6, the driving wheels 521 of the two moving assemblies 5 and the synchronous wheel 51 synchronously rotate.

As shown in fig. 7, the height of the present utility model can be adjusted, and the structure is as follows: the conveyor belt 1 and the pressing plate 2 are arranged between the two side plates 4, an adjusting plate 7 is arranged on one side of the side plates 4, seat feet 72 are arranged at the bottom of the adjusting plate 7, at least two strip holes 71 are formed in the adjusting plate 7, and positioning holes 41 are formed in the side plates 4 corresponding to the strip holes 71.

Therefore, in the actual use process, the fastener passes through the strip hole 71 and the positioning hole 41 to set the adjusting plate 7 on the side plate 4, and the position of the adjusting plate 7 is adjusted by adjusting the position of the fastener at the strip hole 71 to adjust the position of the seat leg 72.

The fasteners can be screws, and the feet 72 can be provided with four screws, so that the utility model can be supported better, and the elongated holes 71 can be divided into six rows and two rows, and three rows can be used for adjusting different heights.

As shown in fig. 6, the conveyor belt 1 has the structure: first, two side plates 4 are further included, a conveyor belt 1, a pressing plate 2 and two rotating shafts 8 are arranged between the two side plates 4, the rotating shafts 8 are located in the conveyor belt 1 and are in contact with the inner side of the conveyor belt 1, and one rotating shaft 8 is connected with a driving source two 9.

Therefore, in the actual use process, the driving source II 9 drives the rotating shaft 8 to rotate so as to drive the conveyor belt 1 to move and drive the other rotating shaft 8 to rotate.

The second driving source 9 may be a motor, and a gear or a belt pulley is adopted between the second driving source 9 and the rotating shaft 8, and a housing 70 is provided to protect the connection between the second driving source 9 and the rotating shaft 8.

The mounting structure of the rotation shaft 8 is as follows: firstly, the inner side of each side plate 4 is provided with a mounting plate 40, a rotating shaft 8 is arranged between two ends of the two mounting plates 40, and secondly, an adjusting shaft 50 for adjusting the tightness of the conveyor belt 1 is arranged between the two mounting plates 40, and the tightness is adjusted by changing the position of the adjusting shaft 50.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. While the utility model is not limited to the above-described embodiments, there are various changes and modifications which fall within the scope of the utility model as hereinafter claimed, without departing from the spirit and scope of the utility model.

Claims (7)

1. The utility model provides a flatting mill for panel turnover machine, its characterized in that includes conveyer belt (1) and clamp plate (2), and conveyer belt (1) are used for removing article to clamp plate (2) below and transport away the article after the compaction to clamp plate (2) top is connected with driving source one (3), thereby through driving source one (3) drive clamp plate (2) removal messenger clamp plate (2) to placing the article of clamp plate (2) below and carry out the compaction.

2. A flattening machine for board flipping machines according to claim 1, wherein: still include two curb plates (4), and be provided with conveyer belt (1) and clamp plate (2) between two curb plates (4) to every curb plate (4) all are provided with and are used for guiding clamp plate (2) vertical reciprocate remove subassembly (5), two remove subassembly (5) are connected with clamp plate (2) both sides respectively, and connect through transmission shaft (6) between two remove subassembly (5), thereby ensure the synchronous movement of clamp plate (2) both sides.

3. A flattening machine for board flipping machines according to claim 2, wherein: each moving assembly (5) comprises a synchronizing wheel (51) and two transmission assemblies (52) for guiding the pressing plate (2) to vertically move up and down, the two transmission assemblies (52) are respectively connected with the other two sides of the pressing plate (2), the two transmission assemblies (52) are connected with the synchronizing wheels (51) through a chain I (53), so that synchronous movement of the other two sides of the pressing plate (2) is ensured, and the synchronizing wheels (51) of the two moving assemblies (5) are connected through at least one transmission shaft (6), so that synchronous movement of the two sides of the pressing plate (2) is ensured.

4. A flattening machine for board turnover machines according to claim 3, wherein: each transmission assembly (52) comprises two transmission wheels (521) and a chain II (522) used for connecting the two transmission wheels (521), the chain II (522) of the two transmission assemblies (52) is respectively connected with the other two sides of the pressing plate (2), the transmission wheels (521) positioned at the bottom of the two transmission assemblies (52) are connected with the synchronous wheels (51) through the chain I (53), so that synchronous movement of the other two sides of the pressing plate (2) is ensured, and the transmission wheels (521) of the two moving assemblies (5) are connected through the transmission shaft (6), so that synchronous movement of the two sides of the pressing plate (2) is ensured.

5. A flattening machine for board flipping machines according to claim 1, wherein: still include two curb plates (4), and be provided with conveyer belt (1) and clamp plate (2) between two curb plates (4) to curb plate (4) one side is provided with regulating plate (7), regulating plate (7) bottom is provided with seat foot (72), and regulating plate (7) have seted up two at least rectangular holes (71), and locating hole (41) have been seted up to curb plate (4) corresponding rectangular hole (71), and thereby pass rectangular hole (71) and locating hole (41) through the fastener and set up regulating plate (7) on curb plate (4), thereby the position of regulating plate (7) and then the position of regulating seat foot (72) are located rectangular hole (71) through the regulation fastener.

6. A flattening machine for board flipping machines according to claim 1, wherein: still include two curb plates (4), and be provided with conveyer belt (1) and clamp plate (2) and two axis of rotation (8) between two curb plates (4), and axis of rotation (8) are located conveyer belt (1) and with conveyer belt (1) inboard contact, and one of them axis of rotation (8) is connected drive source two (9), thereby through drive source two (9) drive this axis of rotation (8) rotation drive conveyer belt (1) removal and drive another axis of rotation (8) rotation.

7. A flattening machine for board flipping machines according to claim 1, wherein: the device also comprises two side plates (4), wherein a conveyor belt (1), a pressing plate (2) and a placing plate (10) are arranged between the two side plates (4), and the placing plate (10) is positioned above the pressing plate (2) and is provided with a first driving source (3);

the support plate (20) is further arranged between the two side plates (4), the support plate (20) is located on the inner side of the conveying belt (1), the support plate (20) is connected with the placing plate (10) through the rod (30), the sleeve (21) is arranged on the pressing plate (2), and the sleeve (21) is sleeved on the outer side of the rod (30) and moves along the rod (30).