CN117001749A - Sponge cutting equipment - Google Patents

Abstract

The invention provides sponge cutting equipment, which relates to cutting equipment, and comprises a Y-direction cutting position, an X-direction cutting position and an overturning position, wherein a frame opening of a unit of a cutting machine at the Y-direction cutting position realizes Y-direction cutting through a Y-direction sliding rail I, a Y-direction sliding table bottom support, a Y-direction sliding rail II and a Y-direction pressing plate; the X-direction cutting position is provided with a cutting machine unit frame opening, and X-direction cutting is realized through an X-direction sliding rail I, an X-direction sliding table bottom support, an X-direction sliding rail II and an X-direction compacting plate; in the overturning position, the top table moves towards each other or back to the bottom table under the drive of the lifting adjusting structure, the Y-direction pull cylinder pull rod is used for pushing the Y-direction sliding table bottom support to move towards the Y-direction sliding rail I, and the X-direction pull cylinder pull rod is used for pushing the X-direction sliding table bottom support to move towards the X-direction sliding rail I.

Description

Sponge cutting equipment

Technical Field

The invention relates to a cutting device, in particular to a sponge cutting device.

Background

The sponge is a porous elastic material made by foaming, the operation of cutting the sponge into small blocks is inevitably involved in the processing production of the sponge, and in order to improve the cutting efficiency, a rotating knife belt is generally adopted to realize the cutting of the sponge, but the sponge has certain elasticity, when in cutting, the sponge is pushed manually to pass through the knife belt to complete the cutting (the sponge is positioned manually in the cutting process at the moment, the danger coefficient is higher), or the sponge is directly placed on a conveying belt, the sponge is ensured not to shift when passing through the knife belt under the action of static friction force between the conveying belt and the sponge, however, in the cutting in this way, the sponge is influenced by the cutting environment, the probability of shifting when in cutting is higher, and once shifting when in cutting, the quality of subsequent cutting is inevitably influenced;

in order to solve the technical problems, the patent discloses a ring cutter sponge cutting machine (with the bulletin number of CN 207359183U) with a fixing device, wherein after two fixing plates are additionally arranged and moved to be abutted against a sponge block, the fixing plates are fixed by screwing a claw bolt, so that the sponge block can not move relative to a conveying workbench when being cut, and the ring cutter sponge cutting machine has the effect of fixing a sponge to be cut on the conveying workbench;

however, when the width of the sponge is larger, the sponge is made of elastic materials, the positioning effect of the two sides is poor when the sponge is solely positioned at the cutting position in the middle of the sponge, and when the sponge is actually cut, not only transverse cutting but also longitudinal and even lamellar cutting are needed, no matter in the prior art, conveying and cutting are carried out by the conveying belt, or in the cutting machine with the fixing device additionally arranged in the patent, the sponge after cutting in one direction is required to be removed by the translation of the original platform, but in the translation transition, dislocation can be inevitably generated, especially the sponge with a plurality of parallel grooves cut in one direction is inevitably generated, and once extrusion dislocation occurs, errors occur when cutting in the other direction, so that the quality of cutting is affected.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide sponge cutting equipment, which not only can compress and position the sponge in cutting, but also can ensure that the sponge can always keep a positioning state in the alternation of transverse and longitudinal cutting directions, thereby improving the quality of cutting.

The invention provides the following technical scheme:

the sponge cutting equipment comprises a Y-direction cutting position, an X-direction cutting position and an overturning position, wherein a frame opening of a cutter belt frame of a cutter unit at the Y-direction cutting position is arranged towards the X-direction, the sponge finishes Y-direction cutting when passing through an annular cutter belt of the frame opening, two groups of Y-direction compression plates are fixed on the bottom side of a groove frame of the frame opening, two groups of Y-direction sliding tables are connected with a bottom support of the Y-direction sliding table in a sliding manner along the Y direction, Y-passing clearances I for the annular cutter belt to pass through are formed between the two groups of Y-direction sliding tables bottom supports and the two groups of Y-direction sliding rails, the annular cutter belt of the Y-direction cutting position is driven to rotate by a cutter belt wheel to cut the sponge, two groups of Y-direction sliding rails II are connected to the bottom side of the groove frame opening through Y-direction guide columns, two groups of Y-direction compression plates are connected along the Y-direction in a sliding manner, Y-passing clearances II for the annular cutter belt to pass through are formed between the two groups of Y-direction sliding rails II, and a Y-direction lifting cylinder is driven by a Y-direction lifting cylinder to lift;

the frame mouth of the cutter belt frame of the cutter unit at the X-direction cutting position faces to the Y-direction, the sponge completes X-direction cutting when passing through the annular cutter belt of the frame mouth at the position, two groups of X-direction sliding rails I are fixed at the bottom side of the groove frame of the frame mouth at the position, two groups of X-direction sliding rails I are connected with two groups of X-direction sliding table bottom supports in a sliding manner along the X direction, X-passing clearances I for the annular cutter belt to pass through are formed between the two groups of X-direction sliding table bottom supports and the two groups of X-direction sliding rails I, the annular cutter belt at the X-direction cutting position is driven to rotate by a cutter belt wheel to cut the sponge, two groups of X-direction sliding rails II are connected with two groups of X-direction sliding rails II through X-direction guide posts at the bottom sides of the frame mouth at the position, two groups of X-direction sliding rails II are connected with two groups of X-direction pressing plates along the X-direction in a sliding manner, X-passing clearances II for the annular cutter belt to pass through are formed between the two groups of X-direction sliding rails II, and the two groups of X-direction sliding rails II are connected by a group of X-direction connecting rods above the cutter belt frame at the X-direction cutting position and are driven to lift by an X lifting cylinder;

at the upset position, the top platform moves in opposite directions or opposite to the bottom platform under the drive of the lifting adjustment structure, the Y-direction pull cylinder pull rod is installed on the bottom platform, and when the bottom platform is overturned to the lower side of the top platform by the overturning mechanism, the Y-direction pull cylinder pull rod is used for pushing the Y-direction sliding table bottom support to move upwards towards the Y-direction sliding rail I and complete Y-direction cutting through the cutter unit of the Y-direction cutting position, the X-direction pull cylinder pull rod is installed on the top platform, and when the bottom platform is overturned to the upper side of the top platform by the overturning mechanism, the X-direction sliding table bottom support is pushed to move upwards towards the X-direction sliding rail I and complete X-direction cutting through the cutter unit of the X-direction cutting position.

Preferably, at the Y-direction cutting position and the X-direction cutting position, the cutter units for realizing the cutting action are at least provided with two groups distributed side by side, so, when the size of the original sponge is overlarge and multiple groups of cutters need to be cut, the number of the side by side cutter units can be determined according to the number of the cutting grooves, the number of the cutter units is accumulated side by side, time and labor are saved, after the cutter units are accumulated, a proper turnover position structure can be selected according to the number of the cutter units, namely, the X-direction pull rod, the Y-direction pull rod and the Y-direction pull rod on the base table at the turnover position corresponding to the adaptation can be adapted to the increased cutter units, the cutter belt frame of each group of cutter units is provided with a cutter belt wheel for driving the annular cutter belt to rotate for cutting, the annular cutter belt at the opening of the cutter belt frame is used for cutting the sponge passing through the annular cutter belt frame, the Y-direction cutter units are used for realizing the fine adjustment of the position of the X-direction cutting grooves according to the number of the cutter units, and the Y-direction cutter units are used for realizing the fine adjustment of the position of the X-direction cutting grooves by the cutter units.

Preferably, the X-direction adjusting screw rod group and the Y-direction adjusting screw rod group comprise screw rod motors, adjusting sliding blocks and adjusting screw rods, the adjusting screw rods are installed in corresponding adjusting slide ways, one ends of the adjusting screw rods are driven to rotate by the screw rod motors, the adjusting sliding blocks are slidably connected in the adjusting slide ways, the adjusting screw rods are in threaded connection with the outside of the adjusting screw rods, and the upper parts of the adjusting screw rods are fixedly connected with corresponding cutter units.

Preferably, when the first Y-direction slide rail and the first X-direction slide rail are too long to be arranged, in order to ensure levelness of the two ends of the first Y-direction slide rail and the first X-direction slide rail, the two ends of the first Y-direction slide rail and the first X-direction slide rail can be set on a bottom platform which is flush with the bottom side of the groove frame of the frame opening, the two ends of the corresponding second Y-direction slide rail and the corresponding second X-direction slide rail are respectively provided with an X-direction clamping groove and a Y-direction clamping groove, the cantilever beam is hung with clamping rails corresponding to the X-direction clamping groove and the Y-direction clamping groove, and when the X-direction adjusting screw rod group and the Y-direction adjusting screw rod group need to finely adjust the cutter unit in the X direction and the Y direction, the two ends of the second Y-direction slide rail and the second X-direction slide rail can move in the X direction and the Y direction along the corresponding clamping rails.

Preferably, a bottom table sliding rail which is in butt joint with the Y-direction sliding rail is arranged on the bottom table, so that the stability of a turnover position structure can be improved when the bottom table is turned over to the top of the top table; the Y is to the spout both ends of slide rail one for link up the setting, and the spout both ends of Y to slide rail two are the shutoff setting, and after Y to slip table bottom stay and Y to clamp the sponge through annular sword area, Y to clamp the board and rise to loosen the packing to the sponge, the setting of shutoff then avoids Y to clamp the board and breaks away from Y to slide rail two, and Y to slip table bottom stay then slides Y to slide rail one under the drive of Y to the draw cylinder pull rod on the base table, gets into on the base table slide rail of base table to prepare the sponge to wait to get into X to the cutting.

Preferably, a top platform sliding rail which is in butt joint with the X-direction sliding rail is arranged on the top platform, so that the stability of a turnover position structure can be improved when the top platform is turned over to the upper part of the bottom platform; the X is to the spout both ends of slide rail one for link up the setting, and X is to the spout both ends of slide rail two then for the shutoff setting, after X is to slip table bottom stay and X to the clamp plate clamp sponge through annular sword area, X is to the clamp plate rising loosen the clamp of sponge, the setting of shutoff then avoids X to the clamp plate to break away from X to slide rail two, and X is to slip table bottom stay then on the base frame X to draw the drive of jar pull rod to slide off X to slide rail one, get into on the top platform slide rail of top platform, accomplish the homing after the X is to cutting, and after upset position upset, carry out the sponge material loading cutting action of new round.

Preferably, a Z-direction cutting position is additionally arranged on one side of the X-direction cutting position, after the sponge for completing X-direction cutting is cut by a cutter unit at the Z-direction cutting position, Z-direction layering is carried out, the cutter unit for realizing cutting action is arranged side by side along the X-direction, a cutter belt frame opening of the cutter unit faces the Z-direction, the sponge completes Z-direction layering cutting when passing through an annular cutter belt at the frame opening, each group of cutter units at the Z-direction cutting position realizes Z-direction cutting groove position fine adjustment by a group of Z-direction adjusting screw rod groups, the structure of the Z-direction adjusting screw rod groups is identical with that of the X-direction adjusting screw rod groups and the Y-direction adjusting screw rod groups, and a group of triangular positioning plates for assisting in positioning of the adjusting slide rail along the Z-direction are additionally arranged on one side of the adjusting slide rail of the Z-direction adjusting screw rod groups.

Preferably, the lifting adjusting structure comprises four groups of vertical frames arranged on the periphery of the base table, each group of vertical frames is provided with a group of lifting screw rods driven by a lifting motor, and the periphery of the top table is connected with the outside of the four groups of lifting screw rods in a threaded manner and is driven by the lifting motor to move opposite or opposite base tables.

Preferably, the turnover mechanism comprises a rotating shaft frame fixed on one side of the base table, the rotating shaft frame is rotatably connected in the turnover frame, and the turnover mechanism is driven by a turnover motor on one side of the turnover frame to turn around the turnover frame.

The beneficial effects of the invention are as follows:

1. the turnover position is arranged between the X-direction cutting position and the Y-direction cutting position, so that the bottom table of the turnover position is used for receiving the sponge conveyed from the Y-direction sliding table bottom support in the Y-direction cutting position, after the turnover, the X-direction sliding table bottom support which is originally used for being matched with the Y-direction sliding table bottom support to clamp the sponge up and down is turned to the bottom side of the sponge, the sponge is used for supporting, and after the sponge is driven to be far away from the Y-direction sliding table bottom support, the sponge can be pushed towards the X-direction cutting position to carry out cutting operation under the driving of the X-direction pull rod, and the cutting operation is the same as the Y-direction cutting operation, so that the sponge in cutting can be pressed and positioned, and the sponge can be ensured to always maintain a positioning state in the alternation of transverse and longitudinal cutting directions, thereby improving the cutting quality;

2. specifically, the cutter units used for realizing the cutting action at the Y-direction cutting position are arranged side by side in the Y direction, the frame openings of the cutter belt frames of the cutter units are arranged towards the X direction, the sponge completes Y-direction cutting when passing through the annular cutter belts at the frame openings, the cutter units used for realizing the cutting action at the X-direction cutting position are arranged side by side in the X direction, the frame openings of the cutter belt frames of the cutter units are arranged towards the Y direction, the sponge completes X-direction cutting when passing through the annular cutter belts at the frame openings, the annular cutter belts used for cutting in the cutter units arranged side by side are arranged in a staggered manner, so that the sponge is cut in sequence, the number of the cutter units can be determined according to the number of grooving grooves needing X-direction and Y-direction cutting, each group of cutter units corresponds to a group of sponge cutting grooves, each group of cutter units at the Y-direction cutting position is fine-adjusted by a group of X-direction adjusting screw rod groups, each group of cutter units at the X-direction cutting position is fine-adjusted by a group of Y-direction adjusting screw rods, and the mode of fine-adjusting positions of Y-direction cutting grooves is convenient to adjust and maintain in a free combination mode;

3. each cutter unit comprises a cutter belt frame for supporting a cutter belt wheel, the cutter belt wheel is used for driving the annular cutter belt to rotate, the structure and a driving part for driving the cutter belt wheel to rotate are both of the prior art, details are omitted, and two groups of bottom support sliding rails are additionally fixed on the bottom side of a groove frame of the cutter belt frame;

the bottom support slide rail of the Y-direction cutting position is a first Y-direction slide rail, the upper edges of the first two groups of Y-direction slide rails are connected with two groups of Y-direction slide table bottom supports in a Y-direction sliding manner, a first Y-pass gap for the annular cutter belt to pass through is formed between the two groups of Y-direction slide table bottom supports and between the first two groups of Y-direction slide rails, the annular cutter belt of the Y-direction cutting position is driven to rotate by a cutter belt wheel to carry out Y-direction cutting on sponge, the top side of a cutter belt frame slot frame of the Y-direction cutting position is connected with a second Y-direction slide rail through a Y guide pillar, the bottom side of the second Y-direction slide rail is connected with two groups of Y-direction pressing plates in a Y-direction sliding manner, a second Y-pass gap for the annular cutter belt to pass through is formed between the two groups of Y-direction pressing plates and between the two groups of Y-direction slide rails, the two groups of Y guide pillars are connected by a group of Y-direction connecting rods above the cutter belt frame of the Y-direction cutting position, and a Y-direction lifting cylinder for lifting the Y-direction connecting rod is further arranged on a Y-direction extending plate on one side of the cutter belt frame of the Y-direction cutting position;

the bottom support slide rail of the X-direction cutting position is an X-direction slide rail I, two groups of X-direction slide rails I are connected with two groups of X-direction slide table bottom supports in a sliding manner along the X-direction, X-passing gaps I for the annular cutter belt to pass through are formed between the two groups of X-direction slide table bottom supports and the two groups of X-direction slide rails I, the annular cutter belt of the X-direction cutting position is driven to rotate by a cutter belt wheel to carry out X-direction cutting on sponge, two groups of X-direction slide rails II are connected to the top side of a cutter belt frame groove frame of the X-direction cutting position through X guide posts, two groups of X-direction compression plates are connected to the bottom side of the two groups of X-direction slide rails II in a sliding manner along the X-direction, X-passing gaps II for the annular cutter belt to pass through are formed between the two groups of X-direction compression plates and between the two groups of X-direction slide rails II, the two groups of X guide posts are connected by one group of X-direction connecting rods above the cutter belt frame of the X-direction cutting position, and an X-direction extending plate on one side of the X-direction cutter belt frame of the X-direction cutting position is also provided with an X lifting cylinder for lifting the X-direction connecting rod;

when the sponge is placed on the Y-direction sliding table bottom support, the Y jacking cylinder can drive the Y connecting rod to drive the two groups of Y-direction sliding rails II and the Y-direction pressing plates to press against the top side of the sponge through the Y guide posts, the sponge is elastic, the pressing is only slightly pressed, and the annular knife belt rotates between the two groups of Y-direction pressing plates and between the two groups of Y-direction sliding table bottom supports, so that the cutting groove positions of the sponge are between the two groups of Y-direction pressing plates and between the two groups of Y-direction sliding table bottom supports, and when the sponge moves in cutting, the Y-direction pressing plates, the Y-direction sliding table bottom supports and the sponge move integrally, so that displacement of the sponge during cutting can be avoided, and the two groups of Y-direction pressing plates and the two groups of Y-direction sliding table bottom supports are arranged close to two sides of the cutting groove when the sponge is pressed and positioned, the problem that the positioning effect of the middle part of the sponge is poor can be solved, and the dislocation risk during elastic cutting of the sponge is further reduced;

the two ends of the sliding groove of the first Y-direction sliding rail are communicated, and the two ends of the sliding groove of the second Y-direction sliding rail are plugged, so that after the sponge is clamped by the bottom support of the Y-direction sliding rail and the Y-direction compacting plate through the annular knife band, the Y-direction compacting plate ascends to loose the compaction of the sponge, and the bottom support of the Y-direction sliding rail slides away from the first Y-direction sliding rail under the drive of the pull rod of the Y-direction pulling cylinder at one side, and enters the sliding rail of the bottom table of the turnover position table, so that the sponge waits for entering the X-direction cutting;

4. the top table moves towards or away from the bottom table under the drive of the lifting adjusting structure at the overturning position, the Y-direction pull cylinder pull rod is arranged on the bottom table, and is used for pushing the Y-direction sliding table bottom support to move upwards towards the Y-direction sliding rail I when the bottom table is overturned below the top table by the overturning mechanism, and the Y-direction cutting is completed by the cutter unit at the Y-direction cutting position;

5. when the Y-direction sliding rail I and the X-direction sliding rail I are overlong to be arranged, in order to ensure levelness of two ends of the Y-direction sliding rail I and the X-direction sliding rail I, two ends of the Y-direction sliding rail I and the X-direction sliding rail I can be set on a bottom platform which is flush with the bottom side of a groove frame of a frame opening, the two ends of the corresponding Y-direction sliding rail II and the corresponding X-direction sliding rail II are respectively provided with an X-direction clamping groove and a Y-direction clamping groove, and the hanging beam is hung with clamping rails corresponding to the X-direction clamping groove and the Y-direction clamping groove;

6. the Z-direction cutting position can be additionally arranged on one side of the X-direction cutting position, at the moment, after the sponge subjected to X-direction cutting passes through the cutter units at the Z-direction cutting position, Z-direction layering can be carried out, at the moment, the cutter units for realizing the cutting action are arranged side by side in the X direction, the frame opening of the cutter belt frame of the cutter units is arranged towards the Z direction, the sponge is subjected to Z-direction layering cutting when passing through the annular cutter belt at the frame opening, and each group of cutter units at the Z-direction cutting position realizes the fine adjustment of the position of the Z-direction cutting groove by a group of Z-direction adjusting screw rod groups;

7. the Y-direction compacting plate is used for compacting the sponge when the X-direction sliding table bottom support supports the sponge through the cutter unit, and when the X-direction sliding table bottom support empty material returns to the original position of the Y-direction cutting position, the X-direction compacting plate is directly compacted with the X-direction sliding table bottom support and is driven to return along with the X-direction sliding table bottom support by the Y-direction pull rod, and the same is true of the X-direction compacting plate.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a front cross-sectional view of the structure of a group of cutter units of the Y-direction cutting station of the present invention;

FIG. 2 is a top plan view of the structure of FIG. 1;

FIG. 3 is a front cross-sectional view of the structure of the four sets of cutter units of FIG. 1 arranged side by side;

FIG. 4 is a top plan view of the structure of FIG. 4;

FIG. 5 is a schematic top view of the Y-direction cutting position, X-direction cutting position and turning position according to the present invention;

FIG. 6 is a front cross-sectional view of the structure of the flip-up bit of FIG. 5;

FIG. 7 is a schematic view of the structure of FIG. 6 after being flipped 180;

FIG. 8 is a schematic top view of a roof;

FIG. 9 is a schematic structural view showing a position after adding a Z-direction cutting position in embodiment 2;

FIG. 10 is a schematic side view of the Z-directed cutting bit cutter unit;

the labels in the figure: 1 is Y-direction cutting position, 2 is X-direction cutting position, 3 is turning position, 4 is cutting machine unit, 5 is sponge, 6 is X-direction adjusting screw rod group, 7 is Y-direction adjusting screw rod group, 8 is Z-direction cutting position, 11 is Y-direction slide rail I, 12 is Y-direction slide table bottom support, 13 is Y-direction guide pillar, 14 is Y-direction slide rail II, 15 is Y-direction compacting plate, 16 is Y jacking cylinder, 21 is X-direction slide rail I, 22 is X-direction slide table bottom support, 31 is top table, 32 is Y-direction pulling cylinder pull rod, 33 is base table, 34 is X-direction pulling cylinder pull rod, 35 is base table slide rail, 36 is top table slide rail, 37 is stand, 38 is lifting screw rod, 39 is rotating shaft bracket, 310 is turning motor, 41 is knife band frame, 42 is annular knife band, 43 is frame mouth, 44 is knife band wheel, 81 is Z-direction adjusting screw rod group, 82 is triangle positioning plate.

Detailed Description

Example 1

As shown in fig. 1-8, in the embodiment, the sponge cutting device comprises a Y-direction cutting position 1, an X-direction cutting position 2 and a turnover position 3, wherein a frame opening 43 of a cutter belt frame 41 of a cutter unit 4 at the Y-direction cutting position 1 is arranged towards the X-direction, the sponge 5 completes the Y-direction cutting when passing through an annular cutter belt 42 of the frame opening 43, two groups of Y-direction sliding rails 11 are fixed on the bottom side of a groove frame of the frame opening 43, two groups of Y-direction sliding rails 11 are connected with two groups of Y-direction sliding table bottom supports 12 in a sliding manner along the Y-direction, a Y-passing clearance one is formed between the two groups of Y-direction sliding table bottom supports 12 and between the two groups of Y-direction sliding rails 11, the annular cutter belt 42 of the Y-direction cutting position 1 is driven to rotate by a cutter belt pulley 44, the bottom side of the groove frame of the sponge 5 is connected with two groups of Y-direction sliding rails 14 through a Y guide post 13, the bottom side of the two groups of Y-direction sliding rails 14 is connected with two groups of Y-direction pressing plates 15 along the Y-direction sliding manner, and the two groups of Y-direction pressing plates 15 are connected with the two groups of Y-direction sliding rails 14 through a lifting cylinder 16 through a lifting cylinder 41, and the two groups of Y-direction lifting guide posts 14 are connected with the annular cutter belt 41;

the frame opening 43 of the cutter belt frame 41 of the cutter unit 4 at the X-direction cutting position 2 is arranged towards the Y-direction, the sponge 5 completes X-direction cutting when passing through the annular cutter belt 42 of the frame opening 43, two groups of X-direction sliding rails 21 are fixed on the bottom side of the groove frame of the frame opening 43, and two groups of X-direction sliding table bottom supports 22 are connected on the two groups of X-direction sliding rails 21 in a sliding manner along the X-direction;

the specific structures of the cutter units 4 at the position of the X-direction cutting position 2 and the position of the Y-direction cutting position 1 are the same, and only the directions are different, so that the structures of the first X-direction sliding rail 21 and the first X-direction sliding table bottom support 22 of the cutter units 4 at the position of the X-direction cutting position 2 can also be seen in fig. 1 and 2, and the structures of the second X-direction sliding rail, the X-direction pressing plate, the X guide pillar and the X lifting cylinder are the same, in fig. 5, the structures of the second X-direction sliding rail, the X-direction pressing plate, the X guide pillar and the X lifting cylinder at the position of the X-direction cutting position 2 are not shown, the top table 31 of the overturning position 3 is not shown, and in the position of the Y-direction cutting position 1 and the position 2, the driving components are not shown in the position of the Y-direction sliding table bottom support 12 and the X-direction sliding table bottom support 22;

an X passing gap I for the annular cutter belt 42 to pass through is formed between the two groups of X-direction sliding table bottom supports 22 and between the two groups of X-direction sliding rails I21, the annular cutter belt 42 of the X-direction cutting position 2 is driven to rotate by a cutter belt wheel 44 to cut the sponge 5 in the X direction, two groups of X-direction sliding rails II are connected to the bottom side of a groove frame of the frame opening 43 through X guide posts, two groups of X-direction compacting plates are connected to the bottom side of the two groups of X-direction sliding rails II in a sliding manner along the X direction, an X passing gap II for the annular cutter belt 42 to pass through is formed between the two groups of X-direction compacting plates and the two groups of X-direction sliding rails II, and the two groups of X guide posts are connected by one group of X connecting rods above the X-direction cutting position 2 cutter belt frame 41 and a lifting cylinder is driven by an X lifting cylinder;

in the turnover position 3, the top table 31 is driven by the lifting adjusting structure to move towards or away from the bottom table 33, the Y-direction pull rod 32 is mounted on the bottom table 33, and is used for pushing the Y-direction sliding table bottom support 12 to move towards the Y-direction sliding rail I11 when the turnover mechanism turns over the bottom table 33 to the lower side of the top table 31, and the Y-direction cutting is completed through the cutter unit 4 of the Y-direction cutting position 1, the X-direction pull rod 34 is mounted on the top table 31, and is used for pushing the X-direction sliding table bottom support 22 to move towards the X-direction sliding rail I21 when the turnover mechanism turns over the bottom table 33 to the upper side of the top table 31, and the X-direction cutting is completed through the cutter unit 4 of the X-direction cutting position 2.

At the Y-direction cutting position 1 and the X-direction cutting position 2, the cutter units 4 for realizing the cutting action are at least provided with two groups distributed side by side, so, when the size of the original sponge 5 is oversized and multiple groups of cutting needs to be performed, the number of the cutter units 4 side by side can be determined according to the number of the cutting grooves, the number of the cutter units 4 can be accumulated side by side, time and labor are saved, after the cutter units 4 are accumulated, a proper turnover position 3 structure can be selected according to the number of the cutter units 4, namely, the X-direction pull rod 34, the X-direction pull rod 22 and the Y-direction pull rod 32 on the base 33 and the top 31 of the corresponding turnover position 3 can be matched with the increased cutter units 4, the cutter belt frame 41 of each group of cutter units 4 is provided with the cutter belt wheel 44 for driving the annular cutter belt 42 to rotate and cut, the annular cutter belt 42 rotating to the frame opening 43 of the cutter belt frame 41 is used for cutting the sponge 5 passing through the cutter belt frame, and the Y-direction cutter units 4 are adjusted by the X-direction pull rod 6 on the base 33, and the Y-direction cut position of the cutter units 4 is adjusted by the Y-direction pull rod 6 to realize the fine adjustment of the position of the cutter units 4.

The X-direction adjusting screw rod group 6 and the Y-direction adjusting screw rod group 7 respectively comprise a screw rod motor, an adjusting sliding block and an adjusting screw rod, wherein the adjusting screw rods are arranged in corresponding adjusting slide ways, one ends of the adjusting screw rods are driven to rotate by the screw rod motor, the adjusting sliding blocks are slidably connected in the adjusting slide ways, the adjusting screw rods are in threaded connection with the outside of the adjusting screw rods, and the upper parts of the adjusting screw rods are fixedly connected with corresponding cutter units 4.

The bottom table 33 is provided with a bottom table slide rail 35 which is in butt joint with the first Y-direction slide rail 11, so that the stability of the structure of the turnover position 3 can be improved when the bottom table 33 is turned over to the top of the top table 31; the two ends of the sliding groove of the first Y-direction sliding rail 11 are communicated, the two ends of the sliding groove of the second Y-direction sliding rail 14 are plugged, when the sponge 5 is clamped by the bottom support 12 of the sliding table and the pressing plate 15 of the Y-direction pressing plate, the pressing of the sponge 5 is released by the upward movement of the pressing plate 15 of the Y-direction pressing plate, the plugging is carried out to prevent the pressing plate 15 of the Y-direction pressing plate from separating from the second Y-direction sliding rail 14, and the bottom support 12 of the Y-direction sliding table slides away from the first Y-direction sliding rail 11 under the driving of the pull rod 32 of the Y-direction pulling cylinder on the bottom support 33 and enters the bottom support sliding rail 35 of the bottom support 33 to prepare the sponge 5 for waiting to enter the X-direction cutting.

The top table 31 is provided with a top table sliding rail 36 which is in butt joint with the first X-direction sliding rail 21, so that the stability of the structure of the turnover position 3 can be improved when the top table 31 is turned over to the upper part of the bottom table 33; the two ends of the sliding groove of the first X-direction sliding rail 21 are communicated, the two ends of the sliding groove of the second X-direction sliding rail are plugged, when the sponge 5 is clamped by the bottom support 22 of the sliding table and the X-direction compacting plate through the annular knife band 42, the X-direction compacting plate ascends to loose the compaction of the sponge 5, the plugging arrangement prevents the X-direction compacting plate from separating from the second X-direction sliding rail, the bottom support 22 of the sliding table slides away from the first X-direction sliding rail 21 under the driving of the pull rod 34 of the X-direction pulling cylinder on the bottom support 33 and enters the top support sliding rail 36 of the top support 31, the homing after X-direction cutting is completed, and after the overturning position 3 is overturned, a new round of sponge 5 feeding cutting action is carried out.

The lifting adjustment structure comprises four sets of uprights 37 mounted on the periphery of the base table 33, each set of uprights 37 is provided with a set of lifting screw rods 38 driven by a lifting motor, and the periphery of the top table 31 is connected with the outer sides of the four sets of lifting screw rods 38 in a threaded manner and is driven by the lifting motor to move towards or away from the base table 33.

The turnover mechanism comprises a rotating shaft frame 39 fixed on one side of the bottom table 33, wherein the rotating shaft frame 39 is rotatably connected in the turnover frame and is driven by a turnover motor 310 on one side of the turnover frame to turn around the turnover frame;

the Y-direction pull cylinder pull rod 32 and the X-direction pull cylinder pull rod 34 are structures driven by the pull cylinder to drive the pull rod, and the pull rod is correspondingly connected with the Y-direction sliding table bottom support and the X-direction sliding table bottom support in a pulling mode.

Example 2

As shown in fig. 9-10, in this embodiment, further defined on the basis of embodiment 1, a Z-direction cutting position 8 is additionally provided at one side of the X-direction cutting position 2, after the sponge 5 for completing the X-direction cutting is cut by the cutter unit 4 at the Z-direction cutting position 8, the Z-direction layering is performed, the cutter units 4 for implementing the cutting action are placed side by side along the X-direction, the frame opening 43 of the cutter frame 41 is disposed towards the Z-direction, the sponge 5 completes the Z-direction layering cutting when passing through the annular cutter belt 42 at the frame opening 43, each group of cutter units 4 at the Z-direction cutting position 8 implements fine adjustment of the position of the Z-direction cutting groove by a group of Z-direction adjusting screw rod groups 81, the structure of the Z-direction adjusting screw rod groups 81 is identical to the structure of the X-direction adjusting screw rod groups 6 and the Y-direction adjusting screw rod groups 7, and a group of triangular positioning plates 82 for assisting the positioning of the adjusting slide rails along the Z-direction are additionally provided at one side of the adjusting slide rails of the Z-direction adjusting screw rod groups 81.

Example 3

In this embodiment, the sponge cutting device is further defined on the basis of embodiment 1, when the Y-direction first slide rail 11 and the X-direction first slide rail 21 need to be set too long, in order to ensure levelness of two ends of the Y-direction first slide rail 11 and the X-direction first slide rail 21, two ends of the Y-direction first slide rail 11 and the X-direction first slide rail 21 can be set to be placed on a bottom platform flush with a bottom side of a groove frame of the frame opening 43, two ends of the corresponding Y-direction second slide rail 14 and two ends of the corresponding X-direction slide rail are respectively provided with an X-direction clamping groove and a Y-direction clamping groove, a clamping rail corresponding to the X-direction clamping groove and the Y-direction clamping groove is hung on a cantilever beam, and when the X-direction adjusting screw rod group 6 and the Y-direction adjusting screw rod group 7 need to conduct fine adjustment on the X-direction and the Y-direction of the cutter unit 4, two ends of the Y-direction second slide rail 14 and the X-direction second slide rail can move along the corresponding clamping rails.

The working principle of the invention is as follows:

when in use, the Y-direction sliding table bottom support 12 is pushed to one side of the Y-direction cutting position 1, far away from the turnover position 3, of the cutter unit 4 by the Y-direction pull rod 32, then after the sponge 5 is placed on the Y-direction sliding table bottom support 12, the Y-lifting cylinder 16 can drive the Y connecting rod to drive the two groups of Y-direction sliding rails II 14 and the Y-direction pressing plates 15 to press against the top side of the sponge 5 by the Y guide posts 13, and as the annular cutter belt 42 of each group of cutter unit 4 rotates between the two groups of Y-direction pressing plates 15 and between the two groups of Y-direction sliding table bottom supports 12, the cutting groove position of the sponge 5 is between the two groups of Y-direction pressing plates 15 and between the two groups of Y-direction sliding table bottom supports 12, and when the sponge 5 is cut, the Y-direction pressing plates 15, the Y-direction sliding table bottom support 12 and the sponge 5 move as a whole, so that the displacement of the sponge 5 during cutting can be avoided, and two groups of Y-direction compacting plates 15 and two groups of Y-direction sliding table bottom supports 12 are arranged close to two sides of a cutting groove when compacting and positioning the sponge 5, so that the problem that the middle positioning effect of the sponge 5 is poor when compacting and positioning two sides of the sponge 5 can be solved, the dislocation risk when the sponge 5 is elastically cut is further reduced, after the Y-direction sliding table bottom supports 12 are pulled by a Y-direction pulling cylinder pull rod 32 to pass through a cutter unit 4 of a Y-direction cutting position 1, the Y-direction compacting plates 15 move upwards to loosen the sponge 5, the Y-direction sliding table bottom supports 12 drive the sponge 5 on the Y-direction compacting plates to move towards the turnover position 3 until sliding on a sliding rail 35 of a bottom table 33, the top table 31 moves towards the bottom table 33 under the driving of a lifting and adjusting structure, the sponge 5 is compacted, the turnover mechanism is used for driving the sponge 5 after positioning and overturning, the top table 31 above is placed on the bottom side of the sponge 5, the lifting and adjusting mechanism is started again, the top side of the sponge 5 is separated from the Y-direction sliding table bottom support 12 on the bottom table 33, at this time, the X-direction pulling cylinder pull rod 34 is started to drive the X-direction sliding table bottom support 22 to drive the sponge 5 to move towards the X-direction cutting position 2 to perform the same cutting operation as the Y-direction cutting position 1, after the cutting is completed, the sponge 5 which is already cut into small blocks can be removed, the X-direction pulling cylinder pull rod 34 is driven again to enable the X-direction sliding table bottom support 22 to return to the turnover position 3, the turnover mechanism is started to turn over again to enable the bottom table 33 to return to the position below the top table 31, and the Y-direction sliding table bottom support 12 is pushed to one side of the Y-direction cutting position 1 cutter unit 4 far away from the turnover position 3 by the Y-direction pulling cylinder pull rod 32 again, so that new feeding is performed.

The foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The sponge cutting equipment is characterized by comprising a Y-direction cutting position (1), an X-direction cutting position (2) and a turnover position (3), wherein a frame opening (43) of a cutter belt frame (41) of a cutter unit (4) at the Y-direction cutting position (1) is arranged towards the X-direction, when sponge passes through an annular cutter belt (42) of the frame opening (43), Y-direction cutting is completed, two groups of Y-direction sliding rails (11) are fixed on the bottom side of a frame opening (43) of the frame opening, two groups of Y-direction sliding rails (12) are connected to the two groups of Y-direction sliding rails (11) in a sliding manner along the Y-direction, two groups of Y-direction sliding rails (14) are connected to the bottom side of the frame opening (43) of the frame opening through Y-direction sliding rails (13), two groups of Y-direction pressing plates (15) are connected by a group of Y-direction connecting rods and driven to lift by a Y-lifting cylinder (16);

the frame mouth (43) of the cutter unit (4) at the X-direction cutting position (2) faces to the Y-direction, the sponge completes X-direction cutting when passing through the annular cutter band (42) of the frame mouth (43), two groups of X-direction sliding rails (21) are fixed on the bottom side of the frame mouth (43) of the frame mouth, two groups of X-direction sliding table supports (22) are connected on the two groups of X-direction sliding rails (21) in a sliding manner along the X direction, two groups of X-direction sliding rails (II) are connected on the bottom side of the frame mouth (43) of the frame mouth through X guide posts, two groups of X-direction compacting plates are connected on the bottom side of the two groups of X-direction sliding rails (II) in a sliding manner along the X direction, and the two groups of X guide posts are connected through one group of X connecting rods and the X jacking cylinder drives the lifting cylinder;

at the position of the overturning position (3), the top table (31) moves towards or away from the bottom table (33) under the drive of the lifting adjusting structure, the Y-direction pull cylinder pull rod (32) is installed on the bottom table (33), and is used for pushing the Y-direction sliding table bottom support (12) to move towards the Y-direction sliding rail I (11) when the overturning mechanism overturns the bottom table (33) to the lower side of the top table (31), the X-direction pull cylinder pull rod (34) is installed on the top table (31), and is used for pushing the X-direction sliding table bottom support (22) to move towards the X-direction sliding rail I (21) when the overturning mechanism overturns the bottom table (33) to the upper side of the top table (31).

2. Sponge cutting device according to claim 1, characterized in that at the Y-direction cutting position (1) and the X-direction cutting position (2), the cutter units (4) for realizing the cutting action are provided with at least two groups distributed side by side, the cutter belt frame (41) of each group of cutter units (4) is provided with a cutter belt wheel (44) for driving the annular cutter belt (42) to perform rotary cutting, the annular cutter belt (42) rotating to the frame opening (43) of the cutter belt frame (41) is used for cutting the sponge passing through the cutter belt, the cutter units (4) of the Y-direction cutting position (1) are subjected to fine adjustment of the position of the X-direction cutting groove by the X-direction adjusting screw rod group (6), and the cutter units (4) of the X-direction cutting position (2) are subjected to fine adjustment of the position of the Y-direction cutting groove by the Y-direction adjusting screw rod group (7).

3. A sponge cutting apparatus according to claim 2, wherein the X-direction adjusting screw group (6) and the Y-direction adjusting screw group (7) each comprise a screw motor, an adjusting slider and an adjusting screw, the adjusting screws are mounted in corresponding adjusting slides, one ends of the adjusting screws are driven to rotate by the screw motor, the adjusting slider is slidably connected in the adjusting slide, and is screwed outside the adjusting screw, and the upper parts of the adjusting screws are fixedly connected with corresponding cutter units (4).

4. A sponge cutting device according to claim 3, wherein two ends of the first Y-direction slide rail (11) and the first X-direction slide rail (21) are arranged on a bottom platform which is flush with the bottom side of the groove frame of the frame opening (43), two ends of the corresponding second Y-direction slide rail (14) and two ends of the corresponding second X-direction slide rail are respectively provided with an X-direction clamping groove and a Y-direction clamping groove, the cantilever beam is suspended with clamping rails corresponding to the X-direction clamping groove and the Y-direction clamping groove, and when the first X-direction adjusting screw rod group (6) and the second Y-direction adjusting screw rod group (7) need to finely adjust the cutter unit (4) in the X-direction and the Y-direction, the two ends of the second Y-direction slide rail (14) and the second X-direction slide rail can move in the X-direction and the Y-direction along the corresponding clamping rails.

5. The sponge cutting device according to claim 1, wherein the base table (33) is provided with a base table slide rail (35) which is in butt joint with the first Y-direction slide rail (11), two ends of a slide groove of the first Y-direction slide rail (11) are in through arrangement, two ends of a slide groove of the second Y-direction slide rail (14) are in blocking arrangement, when the sponge is clamped by the bottom support (12) of the Y-direction slide table and the pressing plate (15) of the Y-direction pressing plate through the annular knife band (42), the pressing of the sponge is released by the rising of the pressing plate (15), and the bottom support (12) of the Y-direction slide table slides off the first Y-direction slide rail (11) under the driving of the pull rod (32) of the Y-direction pull cylinder on the base table (33) and enters the base table (35) of the base table (33) for the sponge to wait for the X-direction cutting.

6. The sponge cutting device according to claim 5, wherein the top bench (31) is provided with a top bench slide rail (36) which is in butt joint with the first X-direction slide rail (21), two ends of a slide groove of the first X-direction slide rail (21) are in through arrangement, two ends of a slide groove of the second X-direction slide rail are in blocking arrangement, when the sponge is clamped by the bottom support (22) of the X-direction slide table and the X-direction compacting plate through the annular knife belt (42), the X-direction compacting plate ascends to loosen the compaction of the sponge, the bottom support (22) of the X-direction slide table slides away from the first X-direction slide rail (21) under the driving of the pull rod (34) of the X-direction pull cylinder on the bottom support (33) of the X-direction slide table, and enters the top bench slide rail (36) of the top bench (31), so that the homing after X-direction cutting is completed, and after the overturning of the overturning position (3), a new round of sponge feeding cutting action is performed.

7. A sponge cutting device according to claim 3, characterized in that a Z-direction cutting position (8) is additionally arranged on one side of the X-direction cutting position (2), after the sponge subjected to the X-direction cutting is cut by the cutter unit (4) at the Z-direction cutting position (8), the Z-direction layering is performed, the cutter units (4) for realizing the cutting action are arranged side by side along the X-direction, the frame opening (43) of the knife band frame (41) of the cutter unit (4) is arranged towards the Z-direction, the sponge is subjected to Z-direction layering cutting when passing through the annular knife band (42) at the frame opening (43), each group of cutter units (4) at the Z-direction cutting position (8) is subjected to fine adjustment of the position of the Z-direction cutting groove by a group of Z-direction adjusting screw groups (81), the structure of the Z-direction adjusting screw groups (81) is the same as that of the X-direction adjusting screw groups (6) and the Y-direction adjusting screw groups (7), and a group of triangular slide ways (82) for assisting in positioning is additionally arranged on one side of the Z-direction adjusting screw groups (81).

8. A sponge cutting apparatus as claimed in claim 1 wherein the lifting adjustment structure comprises four sets of uprights (37) mounted on the periphery of the base table (33), each set of uprights (37) being provided with a set of lifting screws (38) driven by a lifting motor, the periphery of the top table (31) being threadedly connected to the outside of the four sets of lifting screws (38) and being driven by the lifting motor to move the base table (33) towards or away from each other.

9. A sponge cutting apparatus according to claim 1, wherein the turning mechanism comprises a rotating shaft (39) fixed to one side of the base (33), the rotating shaft (39) being rotatably connected within the turning frame and turned around the turning frame by a turning motor (310) on one side of the turning frame.