The split type numerical control alignment system of a kind of paper laminating machine displacement
Technical field:
The present invention relates to numerical control device technical field, refer in particular to a kind of split setting, structure simple, contraposition and transmission can be carried out to the paper of different length size separately, and transmitted frequency can be changed not according to fixing preseting length distance, with the split type numerical control alignment system of the paper laminating machine displacement of enhancing productivity and enhancing one's market competitiveness.
Background technology:
Mode bonded to each other for paper is all carry out fitting into master with manual by tradition, but manpower is fitted after cannot accurately being aimed at by two pieces of paper, so that the end product quality after laminating can be caused not good, and manual assembly is quite time-consuming, causes production efficiency not good, and production capacity is not enough, no matter qualitatively, be still quantitatively all difficult to the demand meeting client, in addition, in face of manual labor expensive at present, traditional workshop based on craft or factory are difficult to existence.
So for solving the problem, be all replace manpower to paper of fitting with machine at present, and can realize automated job, to enhance productivity, significantly degree improves the quality problems of manual assembly.There is a kind of paper laminating machine be widely used on the market at present, this paper laminating machine alignment mode that its adopts when two pieces of paper of fitting are opened is: respectively the first conveying mechanism for transmitting laminating base stock and for transmit laminating facial tissue second conveyor structure in the block of fixed measure position and fixed qty is set, promote to transmit laminating facial tissue by block to move ahead with laminating base stock, simultaneously because the constructional feature of self carries out locus alignment laminating facial tissue and laminating base stock, so that the bonding process in later stage.Block is the effect promoting paper advance in paper feeding function, is the effect playing contraposition rule in contraposition function.The mode of operation of make-up machine: undertaken laminating facial tissue and laminating base stock simultaneously to complete in transport process their locus alignment before laminating base stock coating adhesive by block, then all respective position is fixed through paper feed wheels, then base stock of fitting again is coated with adhesive, and laminating facial tissue transmits and completes bonding process with the base stock of coated adhesive above laminating base stock.
Above-mentioned defeated paper transmits structure unify with contraposition makes laminating frequency of operation be all that the contraposition fixed in repetition period with the first conveying mechanism and second conveyor structure is advised (block) to organize number be that radix carrys out work, the first conveying mechanism or each dust cycle of second conveyor structure transmit the paper of contraposition quantity advise (block) with contraposition to organize number identical.Because a piece of paper can only be held between former and later two contrapositions rule open and only transmit and contraposition this paper.And when between contraposition rule (block), spacing can be large enough to hold 2 or more short and small paper in defeated paper running length direction, its hard-wired structure just causes this contraposition to advise (block) still can only complete the transmission contraposition work that a piece of paper opens, and the first conveying mechanism or second conveyor structure work one cycle still only complete advises (block) with contraposition and organize the conveying of the paper of number equal number and align.Its vacant running space is wasted lose completely, and work efficiency is seriously reduced, and also causes the serious waste of electric power and human resources.
In view of this, the present inventor proposes following technical scheme.
Summary of the invention:
The object of the invention is to overcome the deficiencies in the prior art, there is provided a kind of split setting, structure simple, contraposition and transmission can be carried out to the paper of different length size separately, and transmitted frequency can be changed not according to fixing preseting length distance, with the split type numerical control alignment system of the paper laminating machine displacement of enhancing productivity and enhancing one's market competitiveness.
In order to solve the problems of the technologies described above, present invention employs following technical proposals: the split type numerical control alignment system of this paper laminating machine displacement, it comprises: be installed on respectively in paper laminating machine for transmit laminating base stock the first conveying mechanism and for transmit laminating facial tissue second conveyor structure on the first alignment device group and the second alignment device group, the first described alignment device group comprises: at least two slide rails be installed on directly over the first conveying mechanism, to be movably installed on slide rail and to be symmetric and the first alignment device of synchronous working and for driving the driver train of the first alignment device movement on slide rail, each first alignment device includes: the first driving chain, the first engine installation and at least one group for driving the first driving chain rotation are installed on the first driving chain for carrying out the contraposition rule of contraposition and transmission to laminating base stock, when the laminating base stock lengthwise dimension that the first conveying mechanism transmits shortens or is elongated, described driver train drives the first alignment device on slide rail, move to the suitable loci of this laminating base stock, so that the first alignment device group can carry out aliging relative to the locus of laminating facial tissue and transmitting to the laminating base stock of different size.
Furthermore, in technique scheme, described contraposition rule are provided with a plastic cement bump rubber for the one side contacted with paper.
Furthermore, in technique scheme, described first engine installation comprises: Mobile base, the drive sprocket be installed on Mobile base, by movable sprocket and the numerical control servo motor for driving drive sprocket to rotate, and the first described driving chain is installed on drive sprocket and by movable sprocket.
Furthermore, in technique scheme, described Mobile base lower end is provided with at least two slide blocks, and is installed on described slide rail by this slide block.
Furthermore, in technique scheme, described Mobile base is L-shaped.
Furthermore, in technique scheme, described driver train comprises: one through the screw mandrel of described Mobile base and the first servomotor for driving screw mandrel to rotate, and rotates move on slide rail to control Mobile base by driving screw mandrel.
Furthermore, in technique scheme, described slide rail is fixed on above the first conveying mechanism by a bracing frame, and parallel with the first conveying mechanism.
Furthermore, in technique scheme, described driver train is arranged on bracing frame, and screw mandrel in this driver train is parallel with slide rail.
Furthermore, in technique scheme, the structure of described second alignment device group is consistent with the structure of the first alignment device group.
Furthermore, in technique scheme, described first conveying mechanism comprises: at least three and column distribution and the synchronous belt of synchronous axial system, interval is formed between adjacent two synchronous belts, contraposition rule in described first alignment device are stretched in this interval, so that can carry out contraposition and transmission to the laminating base stock of synchronous belt conveying.
After adopting technique scheme, the present invention has following beneficial effect compared with prior art: the present invention
1, two the first alignment device in the present invention are for be independently installed on the first conveying mechanism, work is independent of each other mutually with the first conveying mechanism, but its synchronous working, transmits the laminating base stock on the first conveying mechanism and locates while their synchronous workings.And due to the first alignment device have independent contraposition advise device, so that without the need to installing contraposition rule on the first conveying mechanism, laminating base stock is carried out locus alignment, the first conveying mechanism is made just merely to carry laminating base stock, so that the structure of the first conveying mechanism can be enormously simplify, the conveying length of paper and frequency also do not limit by the spacing of contraposition rule and group number, also make the first conveying mechanism operation get up more smooth and easy.
2, the first alignment device in the present invention operationally, contraposition and transmission can be carried out to the paper of different length size by changing self-position, and the high-frequency work when carrying short and small paper of the first conveying mechanism can be completed, to enhance productivity and to enhance one's market competitiveness.Specifically, when fitting short and small laminating base stock and laminating facial tissue, described driver train drives the first alignment device to move towards the direction near cloth glue laminating device on slide rail, and move to the suitable loci of this laminating base stock, so that the first alignment device can carry out aliging relative to the locus of laminating facial tissue and transmitting to laminating base stock rapidly, simultaneously, first conveying mechanism is also carry laminating base stock at high-frequency, so that completes the transmission of more laminating base stock at each cycle of operations.When needing the laminating base stock of laminating and laminating facial tissue equals the specified laminating length dimension of paper laminating machine, described driver train drives the first alignment device to move towards the direction away from cloth glue laminating device on slide rail, and move to the suitable loci of this laminating base stock, so that the first alignment device can stably carry out aliging relative to the locus of laminating facial tissue and transmitting to laminating base stock, simultaneously, first conveying mechanism is the stable laminating of conveying evenly base stock also, so that completes the transmission of appropriate laminating base stock at each cycle of operations.In sum, the present invention can adjust alignment device in suitable loci the alignment of laminating paper locus according to the length dimension of laminating paper, can make paper laminating machine like this under consumption Same Efficieney and human resources situation, long and large paper and short and little paper all complete maximal efficiency work capacity, so that resource utilization also performs to maximization, finally enhance productivity and enhance one's market competitiveness.
Accompanying drawing illustrates:
Fig. 1 is structural representation of the present invention;
Fig. 2 is the assembling schematic diagram of the first conveying mechanism in the present invention and paper laminating machine;
Fig. 3 is that in the present invention and paper laminating machine, the another kind of the first conveying mechanism assembles schematic diagram.
Detailed description of the invention:
Below in conjunction with specific embodiments and the drawings, the present invention is further described.
Embodiment one:
Shown in Fig. 1,2, for a kind of paper laminating machine, it comprises: a frame 8, be installed in frame 8 and for broadcast laminating the first paper placing machine structure 5 of base stock and the first conveying mechanism 3, for broadcast the second paper placing machine structure 6 of laminating facial tissue and second conveyor structure 4, for paper is transmitted simultaneously and contraposition the split type numerical control alignment system of displacement and be installed on the paper feed wheels of the first conveying mechanism 3 and second conveyor structure 4 paper feeding back end-run and coating and laminating Wheels group arrangement 7.
Described first conveying mechanism 3 comprises: at least three and column distribution and the synchronous belt 31 of synchronous axial system and to be installed in frame 8 and the tumbler 32 assembled for synchronous belt 31 and the main frame motor 33 driving tumbler 32 to rotate, wherein, interval is formed between adjacent two synchronous belts 31, and without the need to fixedly mounting block on synchronous belt.
The structure of described second conveyor structure 4 is consistent with the structure of the first conveying mechanism 3, and just the first conveying mechanism 3 assembles for horizontal direction, and second conveyor structure 4 to be inclined upwardly assembling for level.
Above-mentioned cloth glue laminating device 7 comprises: the paper feed wheels 71 cooperatively interacted, coating wheels 72, laminating wheels 73.
The split type numerical control alignment system of above-mentioned displacement comprises: be installed on respectively in paper laminating machine for transmit laminating base stock the first conveying mechanism 3 and for transmit laminating facial tissue second conveyor structure 4 on the first alignment device group 1 and the second alignment device group 2.
The first described alignment device group 1 comprises: at least two slide rails 11 be installed on directly over the first conveying mechanism 3, to be movably installed on slide rail 11 and to be symmetric and the first alignment device 12 of synchronous working and for driving the driver train 13 of first alignment device 12 movement on slide rail 11, namely the first described alignment device group 1 includes two the first alignment device 12, each first alignment device 12 includes: the first driving chain 14, the first engine installation 15 and at least one group for driving the first driving chain 14 rotation are installed on the first driving chain 14 for carrying out the contraposition rule 16 of contraposition and transmission to laminating base stock.When the laminating base stock lengthwise dimension that the first conveying mechanism 3 transmits shortens or is elongated, described driver train 13 drives the first alignment device 12 on slide rail 11, move to the suitable loci of this laminating base stock, so that the first alignment device group 1 can be carried out the locus alignment of facing surface paper to the laminating base stock of different size and transmit.
Described contraposition rule 16 are provided with a plastic cement bump rubber 161 for the one side contacted with paper, so as better paper to be contacted, transmits, contraposition.
Contraposition rule 16 in described first alignment device 12 are stretched in the interval formed between two synchronous belts 31 in described first conveying mechanism 3, so that can carry out contraposition and transmission to the laminating base stock that synchronous belt 31 is carried.
Described first engine installation 15 comprises: a Mobile base 151, the drive sprocket 152 be installed on Mobile base 151, by movable sprocket 153 and the numerical control servo motor 154 for driving drive sprocket 152 to rotate, and the first described driving chain 14 is installed on drive sprocket 152 and by movable sprocket 153.
Described Mobile base 151, in L-shaped, makes Mobile base 151 side have an installation position of assembling for numerical control servo motor 154; Numerical control servo motor 154 is installed in this installation position, drive sprocket 152 and the opposite side being all installed on relative numerical control servomotor 154 on Mobile base 151 by movable sprocket 153, and this drive sprocket 152 and being installed on Mobile base 151 by bearing is stable by movable sprocket 153.In addition, described Mobile base 151 lower end is provided with at least two slide blocks 155, and is installed on described slide rail 11 by this slide block 155.
Described driver train 13 comprises: one through the screw mandrel 131 of described Mobile base 151 and the first servomotor 132 for driving screw mandrel 131 to rotate, and rotates to control Mobile base 151 move on slide rail 11 by driving screw mandrel 131.
Described slide rail 11 is fixed on above the first conveying mechanism 3 by a bracing frame, and parallel with the first conveying mechanism 3.Described driver train 13 is arranged on bracing frame, and screw mandrel 131 in this driver train 13 is parallel with slide rail 11.
The structure of described second alignment device group 2 is consistent with the structure of the first alignment device group 1, and this is no longer going to repeat them.
Two the first alignment device 12 in the first above-mentioned alignment device group 1 are for be independently installed on the first conveying mechanism 3, structurally be independent of each other mutually, but its synchronous working, and while their synchronous workings, the laminating base stock on the first conveying mechanism 3 is transmitted and located.In addition, because the first alignment device 12 has the contraposition rule of independent assembling, so that without the need to installing block (contraposition rule) laminating base stock facing surface paper in the circulation of the first conveying mechanism 3 to carry out locus alignment, the first conveying mechanism is made just merely to carry laminating base stock, so that the structure of the first conveying mechanism 3 can be enormously simplify, make the first conveying mechanism 3 run more smooth and easy.
The first above-mentioned alignment device 12 operationally, contraposition and transmission can be carried out to the paper of different length size by changing self-position, and the high-frequency operation of conveying mechanism when carrying short and small paper can be completed, to enhance productivity and to enhance one's market competitiveness.Specifically, when fitting short and small laminating base stock and laminating facial tissue, described driver train 13 drives the first alignment device 12 to move towards the direction near cloth glue laminating device on slide rail 11, and move to the suitable loci of this laminating base stock, so that the first alignment device 12 can be carried out aliging relative to the locus of laminating facial tissue and transmitting to the laminating base stock that conveying mechanism high-frequency is sent here by fast speed, due to the high-frequency conveying laminating base stock of the first conveying mechanism 3, so that complete the transmission of more laminating base stock at each cycle of operations.When needing the laminating base stock of laminating and laminating facial tissue equals the specified laminating length dimension of paper laminating machine, described driver train 13 drives the first alignment device 12 to move towards the direction away from cloth glue laminating device on slide rail 11, and move to the suitable loci of this laminating base stock so that the first alignment device 12 can stablize to laminating base stock carry out relative to laminating facial tissue locus alignment and transmit.Simultaneously, the first conveying mechanism 3 is the stable laminating of conveying evenly base stock also, so that completes the transmission of appropriate laminating base stock at each cycle of operations.
In above-mentioned working process, the first alignment device 12 according to the length dimension of laminating base stock to adjust suitable loci position, can be alignd relative to the locus of laminating facial tissue to the laminating base stock of different length size under can completing various frequency smoothly.Can make paper laminating machine like this under consumption Same Efficieney and human resources situation, long and large paper and short and little paper all complete maximal efficiency work capacity, so that resource utilization also performs to maximization, finally enhance productivity and enhance one's market competitiveness.
Embodiment two:
The present embodiment two is consistent with the basic structure of above-described embodiment one, its difference is: the size increasing the synchronous belt 31 of the first conveying mechanism midway location, and the first alignment device is made adjustment on rigging position, specifically as shown in Figure 3, this is no longer going to repeat them.
Certainly, the foregoing is only specific embodiments of the invention, be not limit the scope of the present invention, all equivalences done according to structure, feature and principle described in the present patent application the scope of the claims change or modify, and all should be included in the present patent application the scope of the claims.