CN210163554U - Continuous conveying and laminating device for wool spinning net - Google Patents

Abstract

The utility model discloses a wool spinning net conveys stromatolite device in succession belongs to weaving processing machinery equipment field. The utility model discloses a first material belt level set up in wool spinning guide support upside, be provided with the pendulum material connecting rod between rotating disc and the pendulum material support, the second passes material belt level and sets up in holding material conveying support upside, preceding transition deflector roll and back transition deflector roll symmetry set up in the wool spinning guide support of third biography material belt both sides, it sets up on the switching-over biography material support of third switching-over commentaries on classics roller downside to rotate the support, translation guide arm level sets up in rotating bracket one side, be provided with reciprocating drive mechanism on the wool spinning guide support of translation guide arm one side, the fourth passes material belt level and sets up in rotating bracket below. The utility model has the advantages of reasonable design, can be steady convenient with the continuous smooth and easy processing of carrying on stromatolite of sparse wool spinning gauze in data send process, make the closely knit wool spinning gauze of texture that can process, degree of automation is high, satisfies the needs that processing was used.

Description

Continuous conveying and laminating device for wool spinning net

Technical Field

The utility model belongs to weaving processing machinery equipment field especially relates to a wool spinning net conveys stromatolite device in succession, mainly is applied to wool top continuous processing field.

Background

Wool spinning is a spinning process for processing wool fibers into yarns, the wool fibers mainly comprise wool, and also comprise special animal hair such as cashmere, rabbit hair, mohair, yak hair and the like, and the wool spinning process can also be used for pure spinning, blending and blending of wool type chemical fibers and other natural fibers. The woolen fabric, knitted fabric, woollen blanket and the like woven by pure spinning and blended wool yarns have the characteristics of heat preservation, moisture absorption, elasticity and wear resistance, and the like, the clothes made of the woolen fabric have soft, full and straight touch, and the woolen fabric can also be used for weaving industrial materials, stationery articles and carpets. The wool spinning system is a whole production process of spinning wool yarns, wool and chemical fiber blended yarns and chemical fiber pure spun yarns on wool spinning equipment by taking wool fibers and wool type chemical fibers as raw materials, and mainly comprises a carding wool spinning system and a combing wool spinning system. In the production and processing process of the wool spinning material, loose wool spinning raw materials are required to be processed into wool tops after the wool spinning material is subjected to the processing technologies of opening, dust removal, wool mixing and the like, the wool tops can be conveniently processed into wool yarns in the next process, in the production and processing process of the existing wool tops, wool spinning nets sequentially and stably processed by the wool spinning raw materials by a doffer are sparse in texture, in order to normally and orderly process the wool tops in the next process, the wool spinning nets with sparse texture need to be laminated, so that the wool spinning nets processed by lamination are dense in texture, the preparation can be made for the next wool spinning strip processing process, the existing wool spinning net laminating mechanism is complex in structure and troublesome in operation, the wool spinning nets are difficult to be stably and orderly laminated in the conveying process, and the folding reciprocating amplitude of the wool spinning nets is difficult to adjust according to needs, the folding direction of the existing wool spinning gauze and the conveying direction after the gauze is folded are difficult to realize mutually vertical, so that the conveying width of the wool spinning gauze is difficult to adjust, the folding and conveying of the wool spinning gauze are difficult to be synchronously and continuously carried out, the texture of the wool spinning gauze in the lamination conveying process is difficult to be ensured to be uniform and compact, the existing wool spinning gauze is difficult to continuously carry out twice-folding-direction mutually vertical lamination in the conveying process, the connection degree of the wool spinning gauzes processed by the existing lamination mechanism is difficult to be ensured, the wool spinning strips of the next procedure are difficult to be smoothly carried out, the efficiency and the quality of the wool spinning strips are influenced, the automation degree of the lamination processing of the existing wool spinning gauze is low, the large-scale production of the wool strips is difficult to realize, and the requirements of processing and use cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome the above-mentioned not enough that exists among the prior art, and provide a structural design reasonable, can be steady convenient with the continuous smooth and easy processing of carrying on stromatolite of sparse wool spinning gauze in data send process, make can process into the closely knit wool spinning gauze of texture, degree of automation is high, satisfies the wool spinning gauze continuous transfer stromatolite device that processing use needs.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: a wool spinning web continuous transport lamination apparatus, characterized by: the continuous wool spinning screen conveying and laminating device comprises a wool spinning guide support, a front laminating mechanism, a transition guide mechanism and a rear laminating mechanism, wherein the front laminating mechanism, the transition guide mechanism and the rear laminating mechanism are sequentially horizontally arranged on the wool spinning guide support along the conveying direction of the wool spinning screen, the front laminating mechanism comprises a screen feeding guide roller, a first material conveying belt, a first material conveying motor, a laminating motor, a rotating disc, a material placing support, a second material conveying belt and a second material conveying motor, the screen feeding guide roller is horizontally and rotatably connected to one side above the wool spinning guide support, two first material conveying rotating rollers are sequentially and horizontally rotatably connected to the wool spinning guide support on one side of the screen feeding guide roller along the horizontal direction, the first material conveying belt is horizontally arranged on the upper side of the wool spinning guide support, two sides of the first material conveying belt are respectively wound on the first material rotating rollers connected to two sides of the wool spinning guide support, the first material conveying motor is horizontally and fixedly arranged on the upper side of the wool spinning material guiding support, the output end of the first material conveying motor is connected with the first material conveying rotating roller on one side of the first material conveying belt in a transmission manner through a first material conveying chain, reciprocating guide grooves are respectively and horizontally arranged on the wool spinning material guiding supports on two sides below the first material conveying belt, the material swinging support is horizontally arranged below the first material conveying belt, the material swinging support is of a square frame structure, two sides of the material swinging support are respectively and horizontally arranged in the reciprocating guide grooves on two sides of the wool spinning material guiding support, the upper side and the lower side of two ends of the material swinging support are respectively and vertically and rotatably connected with translation guide wheels, the translation guide wheels are arranged on the wool spinning material guiding supports in a rolling manner along the horizontal direction, two sides of the material swinging support are respectively and horizontally and rotatably connected with blanking rotating rollers, the blanking rotating rollers are mutually parallel to a gauze feeding guide roller, the feeding device is characterized in that two connecting gears which are mutually meshed and connected are respectively vertically and rotatably connected between the blanking gears at the two ends of one side of the material placing support in sequence, the two sides below the two connecting gears are respectively meshed and connected with the two blanking gears at the two sides of the end part of the material placing support, a rotating disc is vertically and rotatably connected on the wool spinning material guiding support at one side of the material placing support, a material placing connecting rod is arranged between the rotating disc and the material placing support, the two ends of the material placing connecting rod are respectively hinged with the outer end of one side of the rotating disc and the middle part of one side of the material placing support, the material stacking motor is horizontally and fixedly arranged at the upper side of the wool spinning material guiding support, the output end of the material stacking motor is in transmission connection with the rotating disc by a material stacking chain, the wool spinning material guiding support is provided with a first transmission connecting plate along the end part of a first material rotating roller at the side of a gauze feeding guiding roller, a second transmission connecting plate is arranged at the end part of the blanking rotating roller at one side of the material placing support, one side of the second transmission connecting plate is rotatably connected with the end part of the blanking rotating roller, a second chain wheel is vertically and coaxially arranged at the end part of the blanking rotating roller, a transmission rotating shaft is horizontally arranged between the first transmission connecting plate and the second transmission connecting plate, the end parts of the first transmission connecting plate and the second transmission connecting plate are respectively and rotatably connected with the transmission rotating shaft, a third chain wheel and a fourth chain wheel are respectively and vertically and fixedly arranged at the two sides of the transmission rotating shaft, the first chain wheel and the third chain wheel are in transmission connection by adopting a first connecting chain, the second chain wheel and the fourth chain wheel are in transmission connection by adopting a second connecting chain, a material bearing and conveying support is horizontally and fixedly arranged on the wool spinning material guiding support at the lower side of the material placing support, the two sides of the material bearing and conveying support are respectively and horizontally and rotatably connected with a, the second material conveying belt is horizontally arranged on the upper side of the material bearing and conveying support, the two sides of the second material conveying belt are respectively wound on second material conveying rotating rollers connected with the two sides of the material bearing and conveying support, the second material conveying motor is horizontally and fixedly arranged on one side of the material bearing and conveying support, the second material conveying motor drives the second material conveying rotating rollers to rotate, the first material conveying belt and the second material conveying belt are mutually vertical in conveying direction, a discharge passage is arranged on the wool spinning material guiding support on one side of the second material conveying belt, the transition material conveying mechanism comprises a front transition guide roller, a third material conveying belt, a third material conveying motor and a rear transition guide roller, the wool spinning material guiding support on the outer side below the second material conveying belt is horizontally and rotatably connected with the front transition guide roller, the wool spinning material guiding support on one side of the front transition guide roller is sequentially and horizontally and rotatably connected with the two third material conveying rotating rollers along the horizontal direction, and the third material conveying belt is horizontally arranged on one side of the wool spinning material guiding support, the third passes material belt both sides to roll up respectively and connects in two third and passes material commentaries on classics rollers, the third passes material motor level fixed setting in wool spinning guide support downside, and the third passes material motor output and the third passes and adopt the transmission of second material chain to connect between the material commentaries on classics roller, back transition deflector roll level is rotated and is connected on the wool spinning guide support of third biography material belt one side, preceding transition deflector roll and back transition deflector roll symmetry set up the wool spinning guide support in third biography material belt both sides, preceding transition deflector roll, third pass material commentaries on classics roller, back transition deflector roll and gauze feeding deflector roll are parallel to each other, back material stacking mechanism includes switching-over material transmission support, rotating bracket, translation guide arm, reciprocal drive mechanism, fourth biography material belt and fourth biography material motor, switching-over material transmission support level fixed setting in the wool spinning guide support of back transition deflector roll upside, switching-over material transmission support is L type structure, the first reversing rotating roller, the second reversing rotating roller and the third reversing rotating roller are sequentially and horizontally and rotatably connected to the reversing material conveying support, the first reversing rotating roller, the second reversing rotating roller and the third reversing rotating roller are parallel to each other and are all perpendicular to the rear transition guide roller, the rotating support is arranged on the reversing material conveying support at the lower side of the third reversing rotating roller, the two sides of the middle part of the upper end of the rotating support are respectively hinged to the two sides below the reversing material conveying support, the reversing material conveying support at the upper side of the rotating support is provided with a material discharging guide groove, the two sides of the rotating support are respectively and symmetrically provided with a material pulling belt, the rotating supports at the upper side and the lower side of the material pulling belt are respectively and horizontally and rotatably connected with the material pulling rotating rollers, the two sides of the material pulling belt are respectively and spirally connected to the material pulling rotating rollers, the material pulling rotating rollers are parallel to the third reversing rotating roller, one side above the rotating support is horizontally and fixedly, the end parts of the material pulling rotating rollers at two sides below the rotating bracket are respectively vertically and coaxially fixedly provided with material pulling gears, the material pulling gears at two sides of the rotating bracket are mutually meshed and connected, the wool spinning guide brackets at two sides of the rotating bracket are respectively and horizontally fixedly provided with reciprocating sleeves, the translation guide rod is horizontally arranged at one side of the rotating bracket, two sides of the translation guide rod are respectively and slidably arranged on the reciprocating sleeves at two sides of the wool spinning guide bracket along the horizontal direction, the translation guide rod at the middle part of the two reciprocating sleeves is vertically and fixedly provided with a translation guide plate, the translation guide plate is vertically provided with a slide plate guide groove, one side of the middle part of the rotating bracket is provided with a reciprocating slide plate, the middle part of the reciprocating slide plate is rotatably connected with the rotating bracket, the reciprocating slide plate is slidably arranged on the slide plate guide groove, the wool spinning guide bracket at one side of the translation guide rod is, a fourth material conveying belt is horizontally arranged below the rotating bracket, two sides of the fourth material conveying belt are respectively wound on fourth material conveying rotating rollers connected with two sides of the wool spinning material guiding bracket, the fourth material conveying rotating rollers are mutually vertical to the third reversing rotating rollers, a fourth material conveying motor is horizontally and fixedly arranged on one side below the wool spinning material guiding bracket, the output end of the fourth material conveying motor is in transmission connection with the fourth material conveying rotating rollers through a third material conveying chain, the reciprocating driving mechanism comprises a reciprocating driving bracket, an upper translation gear, a lower translation gear and a reciprocating driving motor, the reciprocating driving bracket is vertically and fixedly arranged on the wool spinning material guiding bracket on one side of the translation guide rod, the upper translation rack and the lower translation rack are respectively and horizontally and fixedly arranged on the upper side and the lower side of the end part of the translation guide rod, and the reciprocating driving brackets on the upper side and the lower side of the translation guide rod are respectively and vertically and rotatably connected with the upper translation, the upper translation gear and the lower translation gear are intermittent gears with the same size and specification, the meshing connection of the upper translation gear and the upper translation rack and the meshing connection of the lower translation gear and the lower translation rack are alternately performed, the upper translation gear and the lower translation gear are in transmission connection through a pull rod chain, the reciprocating driving motor is horizontally and fixedly arranged on the reciprocating driving support, and the reciprocating driving motor and the upper translation gear are in transmission connection through a driving chain.

Furthermore, the material stacking and falling preventing baffles are symmetrically arranged on the material bearing conveying supports on two sides above the second material conveying belt respectively, the material stacking and falling preventing baffles are obliquely and fixedly arranged on the material bearing conveying supports, and the material stacking and falling preventing baffles are light metal plates with smooth surfaces.

Furthermore, translation guide grooves matched with the thickness of the side walls of the wool spinning material guiding support are formed in translation guide wheels on the upper side and the lower side of the two ends of the material placing support.

Furthermore, a plurality of adjusting and mounting holes are uniformly formed in the rotating disc from inside to outside along the radial direction.

Furthermore, translation adsorption armatures are fixedly arranged on translation guide rods on two sides of the lower translation rack respectively, and end adsorption magnets are vertically and fixedly arranged on reciprocating driving supports on two sides of the lower translation gear respectively.

Compared with the prior art, the utility model, have following advantage and effect: the utility model has the advantages of reasonable design, through preceding material stacking mechanism, transition guiding mechanism and back material stacking mechanism set up in order the level in wool spinning yarn net direction of delivery in wool spinning guide support, utilize transition guiding mechanism to make and to carry out the continuous smooth and easy conveying of wool spinning yarn net between preceding material stacking mechanism and back material stacking mechanism, utilize preceding material stacking mechanism and back material stacking mechanism to make and to carry out the two times folding direction mutually perpendicular's stromatolite processing with the wool spinning yarn net high-efficiently steady, realize the continuous stromatolite processing of wool spinning yarn net in the conveying process, make and to process the wool spinning yarn net that the texture is sparse into the compact wool spinning yarn net, through yarn net feeding level rotation connect in wool spinning guide support top one side, first material belt both sides are convoluteed respectively and are connected the first material roller that leads in wool spinning guide support both sides, adopt first material chain drive to connect between first material motor output and the first material roller, the first material conveying belt is driven by a first material conveying motor to rotate and convey, so that a wool spinning yarn net can be sequentially conveyed along a yarn net feeding guide roller and the first material conveying belt, two sides of a material placing support are respectively and horizontally arranged in reciprocating guide grooves on two sides of a wool spinning material guide support, the upper side and the lower side of two ends of the material placing support are respectively and vertically and rotatably connected with a translation guide wheel, a rotating disc is vertically and rotatably connected on the wool spinning material guide support on one side of the material placing support, a material placing connecting rod is arranged between the rotating disc and the material placing support, the output end of a material stacking motor is in transmission connection with the rotating disc by a material stacking chain, the rotating disc is driven by the material stacking motor to continuously rotate, the rotating disc can drive the material placing support to reciprocate to perform translation motion along the horizontal direction by the material placing connecting rod in the rotating process, and is arranged on the wool spinning, the horizontal guide wheel is provided with a horizontal guide groove matched with the thickness of the side wall of the wool spinning material guide support to realize the accurate and smooth horizontal movement of the material placing support along the horizontal direction, a plurality of adjusting and mounting holes are uniformly arranged on a rotating disc from inside to outside along the radial direction, the amplitude of the reciprocating horizontal movement of the material placing support can be adjusted according to needs, and further the width of a wool spinning gauze after lamination and transmission is efficiently adjusted, the two sides of the material placing support are respectively and horizontally and rotatably connected with blanking rotating rollers, the blanking rotating rollers are parallel to a gauze feeding guide roller, the end parts of the blanking rotating rollers at the two sides of the material placing support are respectively and vertically and coaxially fixedly provided with blanking gears, the two sides below the two connecting gears at one side of the material placing support are respectively meshed and connected with the two blanking gears at the two sides of the end part of the material placing support, so that the blanking rotating rollers at the two sides of, the wool spinning gauze is sequentially conveyed downwards from the two blanking rotating rollers and continuously reciprocates to move horizontally along with the material placing support, so that the wool spinning gauze sequentially conveyed downwards swings and folds continuously and repeatedly, the material bearing conveying support is horizontally and fixedly arranged on the wool spinning guide support on the lower side of the material placing support, two sides of the second material conveying belt are respectively wound on the second material conveying rotating rollers connected with two sides of the material bearing conveying support, so that the wool spinning gauze sequentially conveyed downwards along with the swinging action of the material placing support can be stably stacked on the upper side of the second material conveying belt, the second material conveying motor is used for driving the second material conveying rotating rollers to rotate, the wool spinning gauze processed by lamination can be stably conveyed under the driving of the second material conveying belt, and the lamination and the conveying of the wool spinning gauze are synchronously carried out, the first material conveying belt and the second material conveying belt are perpendicular to each other in conveying direction, so that a wool spinning screen with wide width and sparse texture can be changed into a wool spinning screen with narrow width and dense texture after being laminated and conveyed, the material bearing conveying brackets on two sides above the second material conveying belt are respectively and symmetrically provided with material stacking anti-falling baffles which are obliquely and fixedly arranged on the material bearing conveying brackets, so that two sides of the wool spinning screen for continuous reciprocating swinging, laminating and blanking of the material placing brackets can be limited and blocked, the wool spinning screen is prevented from sliding down from two sides of the second material conveying belt in the laminating process, accurate lamination processing of the wool spinning screen is realized, one side of the first transmission connecting plate is rotatably connected to the end part of the first material conveying rotating roller, one side of the second transmission connecting plate is rotatably connected to the end part of the blanking rotating roller, the end parts of the first transmission connecting plate and the second transmission connecting plate are respectively rotatably connected to the transmission rotating shaft, the first chain wheel is in transmission connection with the third chain wheel by adopting a first connecting chain, the second chain wheel is in transmission connection with the fourth chain wheel by adopting a second connecting chain, the first transmission connecting plate and the second transmission connecting plate can rotate around the transmission rotating shaft along with the translational motion of the material placing support, so that the first material transmission rotating roller and the blanking rotating roller can synchronously rotate, the consistency of the front and back transmission speeds of the wool spinning screen can be ensured, the wool spinning screen stacking and excessive traction caused by the inconsistency of the front and back transmission speeds in the transmission process of the wool spinning screen can be avoided, the stable and orderly transmission lamination of the wool spinning screen can be realized, the two sides of the third material transmission belt are respectively wound and connected with the two third material transmission rotating rollers, the output end of the third material transmission motor is in transmission connection with the third material transmission rotating rollers by adopting a second material transmission chain, the front transition guide roller and the rear transition guide roller are symmetrically arranged on the wool spinning material guide supports on the two sides of the third material transmission belt, the front transition guide roller, the third material transfer roller, the back transition guide roller and the yarn net feeding guide roller are parallel to each other, so that a wool spinning yarn net conveyed along the second material transfer belt can be continuously conveyed along the front transition guide roller, the third material transfer belt and the back transition guide roller in sequence and stably, in the process of conveying the wool spinning yarn net from the second material transfer belt to the front transition guide roller, the wool spinning yarn net can rotate at a vertical angle under the condition of unchanged width, in the process of conveying the wool spinning yarn net from the back transition guide roller to the first reversing roller of the reversing material transfer bracket, the wool spinning yarn net can rotate at a vertical angle under the condition of unchanged width, so that the wool spinning yarn net can be conveyed stably and smoothly by using the transition guide mechanism in the process of conveying the wool spinning yarn net in sequence along with a production line, and the wool spinning yarn net is conveyed by the first reversing roller on the reversing material transfer bracket, The second reversing rotating roller and the third reversing rotating roller are parallel to each other and are vertical to the rear transition guide roller, so that the wool spinning gauze can be accurately and vertically steered and stably and smoothly conveyed in sequence, two sides of the middle part of the upper end of a rotating bracket at the lower side of a reversing material conveying bracket are respectively hinged to two sides below the reversing material conveying bracket, a blanking guide groove is arranged on the reversing material conveying bracket at the upper side of the rotating bracket, two sides of a fourth material conveying belt are respectively wound on the fourth material conveying rotating rollers connected to two sides of a wool spinning material guide bracket, the fourth material conveying rotating rollers are vertical to the third reversing rotating rollers, the output end of a fourth material conveying motor is in transmission connection with the fourth material conveying rotating rollers by adopting a third material conveying chain, so that the wool spinning gauze which is sequentially conveyed downwards along the blanking guide groove can be stably and uniformly stacked on the upper side of the fourth material conveying belt after continuously and reciprocally swinging by the rotating bracket, the fourth material conveying motor is utilized to drive the fourth material conveying belt to convey, the conveying direction of the fourth material conveying belt is perpendicular to the reciprocating swinging direction of the rotating support to fold the wool spinning screen, the wide width of the wool spinning screen can be increased after the wool spinning screen with narrower width is continuously laminated and conveyed, the texture of the wool spinning screen is more compact by utilizing the lamination processing, the texture of the wool spinning screen is compact by utilizing the lamination processing of two times continuously, the connection degree between the wool spinning screens subjected to the lamination processing can be ensured, the wool spinning strips of the subsequent process can be smoothly processed, the efficiency and the quality of the wool spinning strips are improved, the material pulling belts are respectively and symmetrically arranged on two sides of the rotating support, the material pulling rotating roller end parts on two sides below the rotating support are respectively vertically and coaxially and fixedly provided with material pulling gears, the material pulling gears on two sides of the rotating support are mutually meshed and connected, the material pulling motor drives the material pulling rotary roller to rotate, so that the material pulling belts on two sides of the rotary support can synchronously rotate and convey in opposite directions, a wool spinning yarn net between the two material pulling belts can be quickly and efficiently pulled and conveyed, reciprocating sleeves are respectively and horizontally and fixedly arranged on the wool spinning guide supports on two sides of the rotary support, two sides of a translation guide rod are respectively and slidably arranged on the reciprocating sleeves on two sides of the wool spinning guide supports in the horizontal direction, a sliding plate guide groove is vertically arranged on a translation guide plate in the middle of the translation guide rod, the middle of a reciprocating sliding plate on one side of the rotary support is rotatably connected to the rotary support, the reciprocating sliding plate is slidably arranged in the sliding plate guide groove, a reciprocating driving mechanism is arranged on the wool spinning guide support on one side of the translation guide rod, the translation guide rod is driven by the reciprocating driving mechanism to continuously reciprocate in the horizontal direction to perform translation motion, and the translation, the reciprocating slide plate can slide along the slide plate guide groove in the process of arc motion, so that the rotating bracket can continuously and smoothly carry out reciprocating rotation under the driving of the translation guide rod, the continuous reciprocating laminated processing of a wool spinning screen is realized, an upper translation rack and a lower translation rack are respectively and horizontally and fixedly arranged on the upper side and the lower side of the end part of the translation guide rod, an upper translation gear and a lower translation gear on the upper side and the lower side of the translation guide rod are intermittent gears with the same size and specification, the meshing connection of the upper translation gear and the upper translation rack and the meshing connection of the lower translation gear and the lower translation rack are alternately carried out, the upper translation gear and the lower translation gear are in transmission connection by adopting a pull rod chain, the reciprocating driving motor is in transmission connection with the upper translation gear, the reciprocating driving motor is used for driving the upper translation gear to rotate, and the upper translation gear and the lower translation gear, the translation guide rod can realize reciprocating translation motion under the alternate driving action of the upper translation gear and the lower translation gear, the translation adsorption armatures are respectively and fixedly arranged on the translation guide rods on the two sides of the lower translation rack, the end adsorption magnets are respectively and vertically and fixedly arranged on the reciprocating driving supports on the two sides of the lower translation gear, when the translation guide rod translates to the two side ends, the short pause can be realized by respectively utilizing the adsorption fixation of the translation adsorption armatures and the end adsorption magnets, so that in the intermittent process of the meshing connection between the upper translation gear and the upper translation rack and the meshing connection between the lower translation gear and the lower translation rack, the phenomenon that the translation guide rod is driven to reset and translate by the reset rotation of the rotating support under the gravity importance after rotating to the two side ends can be avoided, the translation guide rod collides with the upper translation gear and the lower translation gear, and the short pause is realized by utilizing the translation guide rod, not only can realize the steady orderly translation that reciprocates of translation guide arm, can also ensure to rotate the support and can briefly stop the messenger and carry out the stromatolite with wool spinning gauze when rotating to both sides, avoid rotating the support and reset fast and rotate and cause the width of wool spinning gauze stromatolite to be difficult to obtain guaranteeing, through such structure, the utility model has the advantages of reasonable design, can be steady convenient with the continuous smooth and easy processing of carrying on the stromatolite of sparse wool spinning gauze in data send process, make and to process into the closely knit wool spinning gauze of texture, degree of automation is high, satisfies the needs that processing was used.

Drawings

Fig. 1 is a schematic structural view of a continuous transporting and laminating device for a wool spinning web according to the present invention.

Fig. 2 is a front view structure diagram of the front stacking mechanism of the present invention.

Fig. 3 is a schematic structural view of the material placing bracket and the related mechanism of the present invention.

Fig. 4 is a schematic view of the connection of the first material transferring roller and the blanking roller of the present invention.

Fig. 5 is a schematic view of the transition guiding mechanism of the present invention.

Fig. 6 is a left side view structure diagram of the rear material stacking mechanism of the present invention.

Fig. 7 is a left side view schematic diagram of the reciprocating driving mechanism of the present invention.

Fig. 8 is a left side view structure diagram of the connection between the rotating bracket and the translation guide rod of the present invention.

Fig. 9 is a left side view schematic diagram of the rotating bracket and the related mechanism of the present invention.

In the figure: 1. a wool spinning material guiding support, 2, a front material stacking mechanism, 3, a transition guiding mechanism, 4, a rear material stacking mechanism, 5, a gauze feeding guide roller, 6, a first material conveying belt, 7, a first material conveying motor, 8, a material stacking motor, 9, a rotating disc, 10, a material swinging support, 11, a second material conveying belt, 12, a second material conveying motor, 13, a first material conveying roller, 14, a first material conveying chain, 15, a reciprocating guide groove, 16, a translation guide wheel, 17, a material discharging roller, 18, a material discharging gear, 19, a connecting gear, 20, a material swinging connecting rod, 21, a material stacking chain, 22, a first transmission connecting plate, 23, a first chain wheel, 24, a second transmission connecting plate, 25, a second chain wheel, 26, a transmission rotating shaft, 27, a third chain wheel, 28, a fourth chain wheel, 29, a first connecting chain, 30, a second connecting chain, 31. a material bearing and conveying bracket, 32, a second material conveying roller, 33, a discharging channel, 34, a front transition guide roller, 35, a third material conveying belt, 36, a third material conveying motor, 37, a rear transition guide roller, 38, a third material conveying roller, 39, a second material conveying chain, 40, a reversing material conveying bracket, 41, a rotating bracket, 42, a translation guide rod, 43, a reciprocating driving mechanism, 44, a fourth material conveying belt, 45, a fourth material conveying motor, 46, a first reversing roller, 47, a second reversing roller, 48, a third reversing roller, 49, a discharging guide groove, 50, a material pulling belt, 51, a material pulling roller, 52, a material pulling motor, 53, a material pulling gear, 54, a reciprocating sleeve, 55, a translation guide plate, 56, a sliding plate guide groove, 57, a reciprocating sliding plate, 58, a fourth material conveying roller, 59, a third material conveying chain, 60. the material stacking and falling preventing device comprises a reciprocating driving support, 61 a top translation gear, 62 a bottom translation gear, 63 a reciprocating driving motor, 64 a top translation rack, 65 a bottom translation rack, 66 a pull rod chain, 67 a driving chain, 68 a stacking and falling preventing baffle, 69 a translation guide groove, 70 an adjusting and mounting hole, 71 a translation adsorption armature and 72 an end adsorption magnet.

Detailed Description

For further description of the present invention, the following description will further illustrate an embodiment of a continuous web transfer and lamination device according to the present invention, and the following embodiments are illustrative of the present invention and the present invention is not limited to the following embodiments.

As shown in fig. 1, the utility model relates to a continuous conveying and laminating device for wool spinning nets, including wool spinning guide support 1, preceding material stacking mechanism 2, transition material guiding mechanism 3 and back material stacking mechanism 4 are arranged in the wool spinning guide support 1 along the wool spinning net direction of delivery in order horizontally. As shown in figure 2, the front material stacking mechanism 2 of the utility model comprises a gauze feeding guide roller 5, a first material conveying belt 6, a first material conveying motor 7, a material stacking motor 8, a rotating disc 9, a material placing support 10, a second material conveying belt 11 and a second material conveying motor 12, the gauze feeding guide roller 5 is horizontally and rotatably connected with one side above a wool spinning guide support 1, two first material conveying rotating rollers 13 are sequentially and horizontally and rotatably connected with the wool spinning guide support 1 at one side of the gauze feeding guide roller 5 along the horizontal direction, the first material conveying belt 6 is horizontally arranged at the upper side of the wool spinning guide support 1, two sides of the first material conveying belt 6 are respectively wound and connected with the first material conveying rotating rollers 13 at two sides of the wool spinning guide support 1, the first material conveying motor 7 is horizontally and fixedly arranged at the upper side of the wool spinning guide support 1, the output end of the first material conveying motor 7 is in transmission connection with the first material conveying rollers 13 at one side of the first material conveying belt 6 by adopting a first material conveying chain 14, as shown in figure 3, the woollen guide bracket 1 on both sides below the first material conveying belt 6 is respectively and horizontally provided with a reciprocating guide slot 15, a material placing bracket 10 of the utility model is horizontally arranged below the first material conveying belt 6, the material placing bracket 10 is of a square frame structure, both sides of the material placing bracket 10 are respectively and horizontally arranged in the reciprocating guide slots 15 on both sides of the woollen guide bracket 1, the upper side and the lower side of both ends of the material placing bracket 10 are respectively and vertically and rotatably connected with a translation guide wheel 16, the translation guide wheel 16 is arranged on the woollen guide bracket 1 in a rolling way along the horizontal direction, both sides of the material placing bracket 10 are respectively and horizontally and rotatably connected with a blanking rotary roller 17, the blanking rotary roller 17 is mutually parallel to the gauze feeding guide roller 5, the end parts of the blanking rotary rollers 17 on both sides of the material placing bracket 10 are respectively and vertically and coaxially and fixedly provided with a blanking gear 18, two connecting gears 19 which are mutually meshed and connected are, the two sides below the two connecting gears 19 are respectively engaged and connected with the two blanking gears 18 at the two sides of the end part of the material placing support 10, the wool spinning material guiding support 1 at one side of the material placing support 10 of the utility model is vertically and rotatably connected with a rotating disc 9, a material placing connecting rod 20 is arranged between the rotating disc 9 and the material placing support 10, the two ends of the material placing connecting rod 20 are respectively hinged with the outer end at one side of the rotating disc 9 and the middle part of one side of the material placing support 10, a material stacking motor 8 is horizontally and fixedly arranged at the upper side of the wool spinning material guiding support 1, the output end of the material stacking motor 8 is in transmission connection with the rotating disc 9 by a material stacking chain 21, as shown in figure 4, the wool spinning material guiding support 1 of the utility model is provided with a first transmission connecting plate 22 along the end part of a first material rotating roller 13 at the side of a gauze feeding 5, one side of the first transmission connecting plate 22 is rotatably connected with the end part of the first, the end part of the blanking rotating roller 17 at one side of the material placing support 10 is provided with a second transmission connecting plate 24, one side of the second transmission connecting plate 24 is rotatably connected with the end part of the blanking rotating roller 17, the end part of the blanking rotating roller 17 is vertically and coaxially provided with a second chain wheel 25, a transmission rotating shaft 26 is horizontally arranged between the first transmission connecting plate 22 and the second transmission connecting plate 24, the end parts of the first transmission connecting plate 22 and the second transmission connecting plate 24 are respectively rotatably connected with the transmission rotating shaft 26, the two sides of the transmission rotating shaft 26 are respectively and fixedly provided with a third chain wheel 27 and a fourth chain wheel 28, the first chain wheel 23 and the third chain wheel 27 are in transmission connection by adopting a first connecting chain 29, the second chain wheel 25 and the fourth chain wheel 28 are in transmission connection by adopting a second connecting chain 30, the wool spinning material guiding support 1 at the lower side of the material placing support 10 is horizontally and fixedly provided with a material bearing and conveying support 31, the two sides of the material bearing conveying support 31 are respectively, the second material conveying rotating roller 32 is perpendicular to the blanking rotating roller 17, the second material conveying belt 11 is horizontally arranged on the upper side of the material bearing conveying support 31, the two sides of the second material conveying belt 11 are respectively wound on the second material conveying rotating roller 32 connected to the two sides of the material bearing conveying support 31, the second material conveying motor 12 is horizontally and fixedly arranged on one side of the material bearing conveying support 31, the second material conveying motor 12 drives the second material conveying rotating roller 32 to rotate, the conveying directions of the first material conveying belt 6 and the second material conveying belt 11 are perpendicular to each other, and a discharging channel 33 is arranged on the wool spinning material guiding support 1 on one side of the second material conveying belt 11.

As shown in fig. 5, the transition guiding mechanism 3 of the present invention comprises a front transition guide roller 34, a third material conveying belt 35, a third material conveying motor 36 and a rear transition guide roller 37, wherein the front transition guide roller 34 is horizontally and rotatably connected to the wool spinning guide support 1 at the outer side below the second material conveying belt 11, two third material conveying rotating rollers 38 are sequentially and horizontally and rotatably connected to the wool spinning guide support 1 at one side of the front transition guide roller 34 along the horizontal direction, the third material conveying belt 35 is horizontally arranged at one side of the wool spinning guide support 1, two sides of the third material conveying belt 35 are respectively wound and connected to the two third material conveying rotating rollers 38, the third material conveying motor 36 is horizontally and fixedly arranged at the lower side of the wool spinning guide support 1, the output end of the third material conveying motor 36 is connected to the third material conveying rotating roller 38 by the second material conveying chain 39 in a transmission manner, the rear transition guide roller 37 is horizontally and rotatably connected to the wool spinning guide support 1 at one side of the third material conveying belt 35, the front transition guide roller 34 and the rear transition guide roller 37 are symmetrically arranged on the wool spinning material guiding bracket 1 at two sides of the third material conveying belt 35, and the front transition guide roller 34, the third material conveying roller 38, the rear transition guide roller 37 and the gauze feeding guide roller 5 are mutually parallel. As shown in fig. 6, the rear material stacking mechanism 4 of the present invention comprises a reversing material conveying bracket 40, a rotating bracket 41, a translation guide rod 42, a reciprocating driving mechanism 43, a fourth material conveying belt 44 and a fourth material conveying motor 45, wherein the reversing material conveying bracket 40 is horizontally and fixedly arranged on the wool spinning material guiding bracket 1 at the upper side of the rear transition guide roller 37, the reversing material conveying bracket 40 is of an L-shaped structure, the reversing material conveying bracket 40 is sequentially and horizontally and rotatably connected with a first reversing rotating roller 46, a second reversing rotating roller 47 and a third reversing rotating roller 48, the first reversing rotating roller 46, the second reversing rotating roller 47 and the third reversing rotating roller 48 are parallel to each other and are perpendicular to the rear transition guide roller 37, the rotating bracket 41 is arranged on the reversing material conveying bracket 40 at the lower side of the third reversing rotating roller 48, both sides of the upper end middle part of the rotating bracket 41 are respectively hinged to both sides below the reversing material conveying bracket 40, a blanking guide roller 49 is arranged on the reversing material conveying bracket 40 at the upper side of the rotating bracket, as shown in fig. 9, the utility model discloses a rotating bracket 41 both sides symmetry respectively are provided with and draw material belt 50, draw material belt 50 about the rotating bracket 41 of both sides respectively on the horizontal rotation be connected with and draw material commentaries on classics roller 51, draw material belt 50 both sides to convolute respectively and connect in drawing material commentaries on classics roller 51, it is parallel to each other with third switching-over commentaries on classics roller 48 to draw material commentaries on classics roller 51, rotating bracket 41 top one side horizontal fixation is provided with and draws material motor 52, draw material motor 52 to drive and draw material commentaries on classics roller 51 and rotate, the material commentaries on classics roller 51 tip of drawing of rotating bracket 41 below both sides is vertical coaxial fixed respectively and is provided with and draws material gear 53, the material gear 53 that draws of rotating bracket 41 both sides intermeshing connects, it is provided with reciprocal sleeve 54 to rotate on the wool spinning guide bracket 1 of bracket 41 both sides horizontal fixation respectively, as shown in fig. 8, the utility model discloses a translation guide rod 42 level sets up in rotating bracket 41 one side, translation A translation guide plate 55 is vertically and fixedly arranged on a translation guide rod 42 at the middle part of the two reciprocating sleeves 54, a sliding plate guide groove 56 is vertically arranged on the translation guide plate 55, a reciprocating sliding plate 57 is arranged at one side of the middle part of a rotating bracket 41, the middle part of the reciprocating sliding plate 57 is rotatably connected to the rotating bracket 41, the reciprocating sliding plate 57 is slidably arranged in the sliding plate guide groove 56, a reciprocating driving mechanism 43 is arranged on a wool spinning guide bracket 1 at one side of the translation guide rod 42, fourth material conveying rotating rollers 58 are respectively and horizontally and rotatably connected to two sides of the wool spinning guide bracket 1 below the rotating bracket 41, a fourth material conveying belt 44 is horizontally arranged below the rotating bracket 41, fourth material conveying rotating rollers 58 connected to two sides of the wool spinning guide bracket 1 are respectively wound on two sides of the fourth material conveying belt 44, the fourth material conveying rotating rollers 58 are mutually vertical to the third reversing rotating roller 48, and the fourth material conveying motor 45 is horizontally and fixedly arranged, the output end of the fourth material conveying motor 45 is in transmission connection with the fourth material conveying rotating roller 58 through a third material conveying chain 59. As shown in fig. 7, the reciprocating driving mechanism 43 of the present invention comprises a reciprocating driving support 60, an upper translation gear 61, a lower translation gear 62 and a reciprocating driving motor 63, the reciprocating driving support 60 is vertically and fixedly arranged on the wool spinning material guiding support 1 at one side of the translation guide rod 42, the upper and lower sides of the end portion of the translation guide rod 42 are respectively and horizontally and fixedly provided with an upper translation rack 64 and a lower translation rack 65, the reciprocating driving support 60 at the upper and lower sides of the translation guide rod 42 is respectively and vertically and rotatably connected with the upper translation gear 61 and the lower translation gear 62, the upper translation gear 61 and the lower translation gear 62 are intermittent gears with the same dimension and specification, the engagement connection of the upper translation gear 61 and the upper translation rack 64 and the engagement connection of the lower translation gear 62 and the lower translation rack 65 are alternately performed, the upper translation gear 61 and the lower translation gear 62 are in transmission connection by using a pull rod chain 66, the reciprocating driving motor, the reciprocating drive motor 63 is in transmission connection with the upper translation gear 61 through a drive chain 67.

The utility model discloses a second passes and is provided with respectively the symmetry on the material conveying support 31 of holding of 11 top both sides of material belt and fold material and prevent falling baffle 68, fold the material and prevent that falling baffle 68 slope is fixed to be set up in holding material conveying support 31, it prevents falling baffle 68 and is the smooth light metal sheet in surface to fold the material, the messenger can carry out spacing the stopping to the wool spinning gauze both sides of pendulum material support 10 continuous reciprocal swing stromatolite unloading, avoid the wool spinning gauze to pass 11 both sides landing from the second in stromatolite process, realize the accurate stromatolite processing of wool spinning gauze. The utility model discloses a be provided with the translation guide slot 69 with wool spinning guide support 1's lateral wall thickness looks adaptation on the translation guide pulley 16 of both sides about pendulum material support 10 both ends, realize pendulum material support 10 along the accurate smooth and easy translational motion that carries on of horizontal direction. The utility model discloses a rotating disc 9 evenly is provided with a plurality of regulation mounting holes 70 along radially from inside to outside in proper order, and the range of the reciprocal translation motion of pendulum material support 10 is adjusted as required to the messenger, and then the width of high-efficient regulation wool spinning gauze after the stromatolite conveying. The utility model discloses a fixed translation adsorption armature 71 that is provided with respectively on the translation guide arm 42 of lower translation rack 65 both sides, vertical fixed tip adsorption magnet 72 that is provided with respectively on the reciprocating drive support 60 of lower translation gear 62 both sides, make translation guide arm 42 when translation to both ends tip, can utilize the fixed brief pause of realizing of the absorption of translation adsorption armature 71 and tip adsorption magnet 72 respectively, utilize translation guide arm 42 to carry out brief pause at translation to both ends tip, not only can realize the orderly steady translation that reciprocates of translation guide arm 42, can also ensure that rotating bracket 41 can brief stop when rotating to both sides and make and carry out the stromatolite with wool spinning gauze high efficiency, avoid rotating bracket 41 to reset the rotation fast and cause the width of wool spinning gauze stromatolite to be difficult to obtain guaranteeing.

By adopting the technical scheme, when the continuous wool spinning screen conveying and laminating device is used, the front material stacking mechanism 2, the transition material guiding mechanism 3 and the rear material stacking mechanism 4 are sequentially and horizontally arranged on the wool spinning guide support 1 along the wool spinning screen conveying direction, the transition material guiding mechanism 3 is utilized to continuously and smoothly convey the wool spinning screen between the front material stacking mechanism 2 and the rear material stacking mechanism 4, the front material stacking mechanism 2 and the rear material stacking mechanism 4 are utilized to continuously and stably carry out the two-time laminating processing with mutually vertical folding directions on the wool spinning screen, the continuous laminating processing of the wool spinning screen in the conveying process is realized, the wool spinning screen with sparse texture can be processed into the wool spinning screen with compact texture, the wool spinning screen is horizontally and rotatably connected to one side above the wool spinning guide support 1 through the screen feeding guide roller 5, the first material conveying belt 6 is respectively wound on the two sides of the first material conveying rotary rollers 13 connected to the two sides of the wool spinning guide support 1, the output end of a first material conveying motor 7 is in transmission connection with a first material conveying rotating roller 13 through a first material conveying chain 14, the first material conveying motor 7 is utilized to drive a first material conveying belt 6 to rotate and convey, wool spinning screens can be conveyed along screen feeding guide rollers 5 and the first material conveying belt 6 in sequence, two sides of a material swinging support 10 are horizontally arranged in reciprocating guide grooves 15 on two sides of a wool spinning material guiding support 1 respectively, the upper side and the lower side of two ends of the material swinging support 10 are vertically and rotatably connected with translation guide wheels 16 respectively, a rotating disc 9 is vertically and rotatably connected to the wool spinning material guiding support 1 on one side of the material swinging support 10, a material swinging connecting rod 20 is arranged between the rotating disc 9 and the material swinging support 10, the output end of a material stacking motor 8 is in transmission connection with the rotating disc 9 through a material stacking chain 21, the material stacking motor 8 is utilized to drive the rotating disc 9 to continuously rotate, the rotating disc 9 can utilize the material swinging connecting rod 20 to drive the material swinging support 10 to reciprocate the material swinging support 10 The wool spinning material guiding bracket is characterized in that a translation guide wheel 16 is arranged on a wool spinning material guiding bracket 1 in a rolling mode along the horizontal direction, a translation guide groove 69 matched with the thickness of the side wall of the wool spinning material guiding bracket 1 is arranged on the translation guide wheel 16, so that the material placing bracket 10 can accurately and smoothly perform translation motion along the horizontal direction, a plurality of adjusting and mounting holes 70 are uniformly arranged on a rotating disc 9 from inside to outside along the radial direction, the amplitude of the reciprocating translation motion of the material placing bracket 10 can be adjusted according to needs, the width of a wool spinning screen after lamination transmission is efficiently adjusted, blanking rotating rollers 17 are respectively and horizontally and rotatably connected with the two sides of the material placing bracket 10, the blanking rotating rollers 17 are parallel to a screen feeding guide roller 5, blanking gears 18 are respectively and vertically and coaxially fixedly arranged at the end parts of the blanking rotating rollers 17 at the two sides of the material placing bracket 10, the two sides below two connecting gears 19 at one side of the material placing bracket 10 are respectively meshed, the blanking rotating rollers 17 at two sides of the material placing support 10 can rotate in opposite directions synchronously under the drive of external force, wool spinning yarn nets are conveyed downwards in sequence from the two blanking rotating rollers 17 and move in a reciprocating manner continuously along with the material placing support 10, the wool spinning yarn nets conveyed downwards in sequence can swing and fold in a reciprocating manner continuously, the wool spinning material guiding support 1 at the lower side of the material placing support 10 is horizontally and fixedly provided with the material bearing and conveying support 31, two sides of the second material conveying belt 11 are respectively wound and connected with the second material conveying rotating rollers 32 at two sides of the material bearing and conveying support 31, the wool spinning yarn nets conveyed downwards in sequence along with the swinging action of the material placing support 10 can be stably stacked at the upper side of the second material conveying belt 11, the second material conveying motor 12 is used for driving the second material conveying rotating rollers 32 to rotate, the wool spinning material discharging channel 33 is arranged on the wool spinning support 1 at one side of the second material conveying belt 11, and the wool spinning yarn nets processed in a laminated manner can be stably conveyed under the drive of the second material conveying belt 11 The lamination and the transmission of the wool spinning screen are carried out synchronously, the transmission directions of the first transmission belt 6 and the second transmission belt 11 are vertical to each other, so that the wool spinning screen with wider width and sparse texture can be changed into the wool spinning screen with narrower width and dense texture after lamination transmission, the material stacking anti-falling baffle plates 68 are respectively and symmetrically arranged on the material bearing transmission brackets 31 at the two sides above the second transmission belt 11, the material stacking anti-falling baffle plates 68 are obliquely and fixedly arranged on the material bearing transmission brackets 31, so that the two sides of the wool spinning screen which continuously swings and repeatedly in a reciprocating manner and performs lamination feeding on the material placing brackets 10 are limited and blocked, the wool spinning screen is prevented from sliding off from the two sides of the second transmission belt 11 in the lamination process, the accurate lamination processing of the wool spinning screen is realized, one side of the first transmission connecting plate 22 is rotatably connected with the end part of the first transmission rotating roller 13, one side of the second transmission connecting plate 24 is rotatably connected with the end part of the blanking rotating roller 17, the end parts of the first transmission connecting plate 22 and the second transmission connecting plate 24 are respectively connected with the transmission rotating shaft 26 in a rotating way, the first chain wheel 23 and the third chain wheel 27 are connected with each other in a driving way by adopting a first connecting chain 29, the second chain wheel 25 and the fourth chain wheel 28 are connected with each other in a driving way by adopting a second connecting chain 30, the first transmission connecting plate 22 and the second transmission connecting plate 24 can rotate around the transmission rotating shaft 26 along with the translation movement of the material placing support 10, so that the first material transmission rotating roller 13 and the blanking rotating roller 17 can synchronously rotate, the front and back transmission speeds of the wool spinning screens are ensured to be consistent, the wool spinning screens are prevented from being stacked and excessively drawn due to the inconsistency of the front and back transmission speeds in the transmission process, the stable and orderly transmission lamination of the wool spinning screens is realized, the two sides of the third material transmission belt 35 are respectively connected with the two third material transmission rotating rollers 38 in a winding way, the output end of the third material transmission motor 36 is connected with the third material transmission rotating rollers 38 by adopting a second material transmission chain, the front transition guide roller 34 and the rear transition guide roller 37 are symmetrically arranged on the wool spinning guide bracket 1 at two sides of the third material conveying belt 35, the front transition guide roller 34, the third material conveying roller 38, the rear transition guide roller 37 and the gauze feeding guide roller 5 are parallel to each other, so that the wool spinning gauze conveyed along the second material conveying belt 11 can be continuously conveyed along the front transition guide roller 34, the third material conveying belt 35 and the rear transition guide roller 37 in sequence and stably, in the process of conveying the wool spinning gauze from the second material conveying belt 11 to the front transition guide roller 34, the wool spinning gauze can rotate at a vertical angle under the condition of unchanged width, in the process of conveying the wool spinning gauze from the rear transition guide roller 37 to the first reversing roller 46 of the reversing material conveying bracket 40, the wool spinning gauze can rotate at a vertical angle under the condition of unchanged width, so that the wool spinning gauze can be conveyed along with the production flow in sequence, the transition guide and delivery mechanism 3 can be used for stably and smoothly delivering the wool spinning gauze, the first reversing rotating roller 46, the second reversing rotating roller 47 and the third reversing rotating roller 48 on the reversing material conveying bracket 40 are parallel to each other and are vertical to the rear transition guide roller 37, so that the wool spinning gauze can be accurately vertically steered and stably and smoothly delivered in sequence, two sides of the middle part of the upper end of the rotating bracket 41 on the lower side of the reversing material conveying bracket 40 are respectively hinged to two sides below the reversing material conveying bracket 40, the reversing material conveying bracket 40 on the upper side of the rotating bracket 41 is provided with a blanking guide groove 49, two sides of a fourth material conveying belt 44 are respectively wound on fourth material conveying rotating rollers 58 connected to two sides of the wool spinning material guiding bracket 1, the fourth material conveying rotating roller 58 is vertical to the third reversing rotating roller 48, the output end of the fourth material conveying motor 45 is in transmission connection with the fourth material conveying rollers 58 by adopting a third material conveying chain 59, the wool spinning nets sequentially conveyed downwards along the blanking guide groove 49 can be stably and uniformly stacked on the upper side of the fourth material conveying belt 44 after continuously swinging to and fro by the rotating bracket 41, the fourth material conveying motor 45 is utilized to drive the fourth material conveying belt 44 to convey, the conveying direction of the fourth material conveying belt 44 is mutually vertical to the direction of the rotating bracket 41 swinging to fold the wool spinning nets in a reciprocating manner, the wide width of the wool spinning nets can be increased after the narrow-width wool spinning nets are continuously conveyed in a laminating manner, the texture of the wool spinning nets is more compact by the laminating processing, the texture of the wool spinning nets is compact by the continuous two-time laminating processing, the connection degree of the wool spinning nets processed in the laminating manner can also be ensured, the wool spinning strips in the next process can be smoothly carried out, and the efficiency and the quality of the wool spinning strips are improved, the two sides of the rotating bracket 41 are respectively and symmetrically provided with the pulling belts 50, the end parts of the pulling rotary rollers 51 at the two sides below the rotating bracket 41 are respectively and vertically and coaxially fixedly provided with the pulling gears 53, the pulling gears 53 at the two sides of the rotating bracket 41 are mutually meshed and connected, the pulling motor 52 drives the pulling rotary rollers 51 to rotate, so that the pulling belts 50 at the two sides of the rotating bracket 41 can synchronously rotate and convey in opposite directions, a wool spinning screen between the two pulling belts 50 can be quickly and efficiently pulled and conveyed, the wool spinning guide brackets 1 at the two sides of the rotating bracket 41 are respectively and horizontally and fixedly provided with the reciprocating sleeves 54, the two sides of the translation guide rod 42 are respectively and slidably arranged on the reciprocating sleeves 54 at the two sides of the wool spinning guide bracket 1 along the horizontal direction, the translation guide plate 55 at the middle part of the translation guide rod 42 is vertically provided with the sliding plate guide groove 56, the middle part of the reciprocating sliding plate 57 at, the reciprocating slide plate 57 is arranged in the slide plate guide groove 56 in a sliding manner, the wool spinning material guiding support 1 at one side of the translation guide rod 42 is provided with the reciprocating driving mechanism 43, the reciprocating driving mechanism 43 is utilized to drive the translation guide rod 42 to continuously reciprocate along the horizontal direction for translation, the translation guide rod 42 can utilize the translation guide plate 55 to drive the reciprocating slide plate 57 to synchronously move in the translation process, the reciprocating slide plate 57 can slide along the slide plate guide groove 56 in the arc-shaped motion process, so that the rotating support 41 can continuously and smoothly reciprocate under the driving of the translation guide rod 42, the continuous reciprocating lamination processing of wool spinning screens is realized, the upper translation rack 64 and the lower translation rack 65 are respectively and fixedly arranged on the upper side and the lower side of the end part of the translation guide rod 42 in a horizontal manner, and the upper translation gear 64 and the lower translation gear 62 on the upper side and the lower, the meshing connection between the upper translation gear 61 and the upper translation rack 64 and the meshing connection between the lower translation gear 62 and the lower translation rack 65 are alternatively carried out, the upper translation gear 61 and the lower translation gear 62 are in transmission connection by adopting a pull rod chain 66, the reciprocating drive motor 63 and the upper translation gear 61 are in transmission connection by adopting a drive chain 67, the reciprocating drive motor 63 is used for driving the upper translation gear 61 to rotate, so that the upper translation gear 61 and the lower translation gear 62 can synchronously rotate in the same direction, the translation guide rod 42 can realize reciprocating translation motion under the alternate driving action of the upper translation gear 61 and the lower translation gear 62, the translation guide rods 42 on the two sides of the lower translation rack 65 are respectively and fixedly provided with translation adsorption armatures 71, the reciprocating drive brackets 60 on the two sides of the lower translation gear 62 are respectively and vertically and fixedly provided with end adsorption magnets 72, so that the translation guide rod 42 can be horizontally moved to the two side, the temporary pause can be realized by respectively utilizing the adsorption fixation of the translational adsorption armature 71 and the end adsorption magnet 72, so that during the intermittence of the meshing engagement of the upper translation gear 61 with the upper translation rack 64 and the meshing engagement of the lower translation gear 62 with the lower translation rack 65, can avoid rotating support 41 to rotate and reset under the gravity is important after rotating to both sides tip and rotate and drive translation guide arm 42 translation that resets, lead to translation guide arm 42 and last translation gear 61 and translation gear 62 to produce the striking down, utilize translation guide arm 42 to carry out short pause in translation to both sides tip, not only can realize the smooth orderly reciprocal translation that carries on of translation guide arm 42, can also ensure to rotate support 41 and can short-term stop the messenger when rotating to both sides and carry out the stromatolite with wool spinning gauze, avoid rotating support 41 to reset the rotation fast and cause the width of wool spinning gauze stromatolite to be difficult to obtain guaranteeing. Through such structure, the utility model has the advantages of reasonable design, can be steady convenient with the continuous smooth and easy processing of carrying on stromatolite of sparse wool spinning gauze in data send process, the messenger can process into the closely knit wool spinning gauze of texture, degree of automation is high, satisfies the needs that processing was used.

The above description in this specification is merely illustrative of the present invention. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (5)

1. A wool spinning web continuous transport lamination apparatus, characterized by: the continuous wool spinning screen conveying and laminating device comprises a wool spinning guide support, a front laminating mechanism, a transition guide mechanism and a rear laminating mechanism, wherein the front laminating mechanism, the transition guide mechanism and the rear laminating mechanism are sequentially horizontally arranged on the wool spinning guide support along the conveying direction of the wool spinning screen, the front laminating mechanism comprises a screen feeding guide roller, a first material conveying belt, a first material conveying motor, a laminating motor, a rotating disc, a material placing support, a second material conveying belt and a second material conveying motor, the screen feeding guide roller is horizontally and rotatably connected to one side above the wool spinning guide support, two first material conveying rotating rollers are sequentially and horizontally rotatably connected to the wool spinning guide support on one side of the screen feeding guide roller along the horizontal direction, the first material conveying belt is horizontally arranged on the upper side of the wool spinning guide support, two sides of the first material conveying belt are respectively wound on the first material rotating rollers connected to two sides of the wool spinning guide support, the first material conveying motor is horizontally and fixedly arranged on the upper side of the wool spinning material guiding support, the output end of the first material conveying motor is connected with the first material conveying rotating roller on one side of the first material conveying belt in a transmission manner through a first material conveying chain, reciprocating guide grooves are respectively and horizontally arranged on the wool spinning material guiding supports on two sides below the first material conveying belt, the material swinging support is horizontally arranged below the first material conveying belt, the material swinging support is of a square frame structure, two sides of the material swinging support are respectively and horizontally arranged in the reciprocating guide grooves on two sides of the wool spinning material guiding support, the upper side and the lower side of two ends of the material swinging support are respectively and vertically and rotatably connected with translation guide wheels, the translation guide wheels are arranged on the wool spinning material guiding supports in a rolling manner along the horizontal direction, two sides of the material swinging support are respectively and horizontally and rotatably connected with blanking rotating rollers, the blanking rotating rollers are mutually parallel to a gauze feeding guide roller, the feeding device is characterized in that two connecting gears which are mutually meshed and connected are respectively vertically and rotatably connected between the blanking gears at the two ends of one side of the material placing support in sequence, the two sides below the two connecting gears are respectively meshed and connected with the two blanking gears at the two sides of the end part of the material placing support, a rotating disc is vertically and rotatably connected on the wool spinning material guiding support at one side of the material placing support, a material placing connecting rod is arranged between the rotating disc and the material placing support, the two ends of the material placing connecting rod are respectively hinged with the outer end of one side of the rotating disc and the middle part of one side of the material placing support, the material stacking motor is horizontally and fixedly arranged at the upper side of the wool spinning material guiding support, the output end of the material stacking motor is in transmission connection with the rotating disc by a material stacking chain, the wool spinning material guiding support is provided with a first transmission connecting plate along the end part of a first material rotating roller at the side of a gauze feeding guiding roller, a second transmission connecting plate is arranged at the end part of the blanking rotating roller at one side of the material placing support, one side of the second transmission connecting plate is rotatably connected with the end part of the blanking rotating roller, a second chain wheel is vertically and coaxially arranged at the end part of the blanking rotating roller, a transmission rotating shaft is horizontally arranged between the first transmission connecting plate and the second transmission connecting plate, the end parts of the first transmission connecting plate and the second transmission connecting plate are respectively and rotatably connected with the transmission rotating shaft, a third chain wheel and a fourth chain wheel are respectively and vertically and fixedly arranged at the two sides of the transmission rotating shaft, the first chain wheel and the third chain wheel are in transmission connection by adopting a first connecting chain, the second chain wheel and the fourth chain wheel are in transmission connection by adopting a second connecting chain, a material bearing and conveying support is horizontally and fixedly arranged on the wool spinning material guiding support at the lower side of the material placing support, the two sides of the material bearing and conveying support are respectively and horizontally and rotatably connected with a, the second material conveying belt is horizontally arranged on the upper side of the material bearing and conveying support, the two sides of the second material conveying belt are respectively wound on second material conveying rotating rollers connected with the two sides of the material bearing and conveying support, the second material conveying motor is horizontally and fixedly arranged on one side of the material bearing and conveying support, the second material conveying motor drives the second material conveying rotating rollers to rotate, the first material conveying belt and the second material conveying belt are mutually vertical in conveying direction, a discharge passage is arranged on the wool spinning material guiding support on one side of the second material conveying belt, the transition material conveying mechanism comprises a front transition guide roller, a third material conveying belt, a third material conveying motor and a rear transition guide roller, the wool spinning material guiding support on the outer side below the second material conveying belt is horizontally and rotatably connected with the front transition guide roller, the wool spinning material guiding support on one side of the front transition guide roller is sequentially and horizontally and rotatably connected with the two third material conveying rotating rollers along the horizontal direction, and the third material conveying belt is horizontally arranged on one side of the wool spinning material guiding support, the third passes material belt both sides to roll up respectively and connects in two third and passes material commentaries on classics rollers, the third passes material motor level fixed setting in wool spinning guide support downside, and the third passes material motor output and the third passes and adopt the transmission of second material chain to connect between the material commentaries on classics roller, back transition deflector roll level is rotated and is connected on the wool spinning guide support of third biography material belt one side, preceding transition deflector roll and back transition deflector roll symmetry set up the wool spinning guide support in third biography material belt both sides, preceding transition deflector roll, third pass material commentaries on classics roller, back transition deflector roll and gauze feeding deflector roll are parallel to each other, back material stacking mechanism includes switching-over material transmission support, rotating bracket, translation guide arm, reciprocal drive mechanism, fourth biography material belt and fourth biography material motor, switching-over material transmission support level fixed setting in the wool spinning guide support of back transition deflector roll upside, switching-over material transmission support is L type structure, the first reversing rotating roller, the second reversing rotating roller and the third reversing rotating roller are sequentially and horizontally and rotatably connected to the reversing material conveying support, the first reversing rotating roller, the second reversing rotating roller and the third reversing rotating roller are parallel to each other and are all perpendicular to the rear transition guide roller, the rotating support is arranged on the reversing material conveying support at the lower side of the third reversing rotating roller, the two sides of the middle part of the upper end of the rotating support are respectively hinged to the two sides below the reversing material conveying support, the reversing material conveying support at the upper side of the rotating support is provided with a material discharging guide groove, the two sides of the rotating support are respectively and symmetrically provided with a material pulling belt, the rotating supports at the upper side and the lower side of the material pulling belt are respectively and horizontally and rotatably connected with the material pulling rotating rollers, the two sides of the material pulling belt are respectively and spirally connected to the material pulling rotating rollers, the material pulling rotating rollers are parallel to the third reversing rotating roller, one side above the rotating support is horizontally and fixedly, the end parts of the material pulling rotating rollers at two sides below the rotating bracket are respectively vertically and coaxially fixedly provided with material pulling gears, the material pulling gears at two sides of the rotating bracket are mutually meshed and connected, the wool spinning guide brackets at two sides of the rotating bracket are respectively and horizontally fixedly provided with reciprocating sleeves, the translation guide rod is horizontally arranged at one side of the rotating bracket, two sides of the translation guide rod are respectively and slidably arranged on the reciprocating sleeves at two sides of the wool spinning guide bracket along the horizontal direction, the translation guide rod at the middle part of the two reciprocating sleeves is vertically and fixedly provided with a translation guide plate, the translation guide plate is vertically provided with a slide plate guide groove, one side of the middle part of the rotating bracket is provided with a reciprocating slide plate, the middle part of the reciprocating slide plate is rotatably connected with the rotating bracket, the reciprocating slide plate is slidably arranged on the slide plate guide groove, the wool spinning guide bracket at one side of the translation guide rod is, a fourth material conveying belt is horizontally arranged below the rotating bracket, two sides of the fourth material conveying belt are respectively wound on fourth material conveying rotating rollers connected with two sides of the wool spinning material guiding bracket, the fourth material conveying rotating rollers are mutually vertical to the third reversing rotating rollers, a fourth material conveying motor is horizontally and fixedly arranged on one side below the wool spinning material guiding bracket, the output end of the fourth material conveying motor is in transmission connection with the fourth material conveying rotating rollers through a third material conveying chain, the reciprocating driving mechanism comprises a reciprocating driving bracket, an upper translation gear, a lower translation gear and a reciprocating driving motor, the reciprocating driving bracket is vertically and fixedly arranged on the wool spinning material guiding bracket on one side of the translation guide rod, the upper translation rack and the lower translation rack are respectively and horizontally and fixedly arranged on the upper side and the lower side of the end part of the translation guide rod, and the reciprocating driving brackets on the upper side and the lower side of the translation guide rod are respectively and vertically and rotatably connected with the upper translation, the upper translation gear and the lower translation gear are intermittent gears with the same size and specification, the meshing connection of the upper translation gear and the upper translation rack and the meshing connection of the lower translation gear and the lower translation rack are alternately performed, the upper translation gear and the lower translation gear are in transmission connection through a pull rod chain, the reciprocating driving motor is horizontally and fixedly arranged on the reciprocating driving support, and the reciprocating driving motor and the upper translation gear are in transmission connection through a driving chain.

2. A wool spinning web continuous transfer lay-up device according to claim 1, characterised in that: the material stacking and falling preventing baffle plates are symmetrically arranged on the material bearing conveying supports on two sides above the second material conveying belt respectively, the material stacking and falling preventing baffle plates are obliquely and fixedly arranged on the material bearing conveying supports, and the material stacking and falling preventing baffle plates are light metal plates with smooth surfaces.

3. A wool spinning web continuous transfer lay-up device according to claim 1, characterised in that: and translation guide grooves matched with the side wall thickness of the wool spinning material guide support are arranged on the translation guide wheels on the upper side and the lower side of the two ends of the material placing support.

4. A wool spinning web continuous transfer lay-up device according to claim 1, characterised in that: the rotating disc is uniformly provided with a plurality of adjusting mounting holes from inside to outside along the radial direction.

5. A wool spinning web continuous transfer lay-up device according to claim 1, characterised in that: translation adsorption armatures are fixedly arranged on the translation guide rods on the two sides of the lower translation rack respectively, and end adsorption magnets are vertically and fixedly arranged on the reciprocating driving supports on the two sides of the lower translation gear respectively.

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