CN211772107U - Automatic adjusting and embossing device for non-woven fabric - Google Patents

Abstract

The utility model discloses an automatic adjusting and embossing device for non-woven fabrics, which comprises a frame, and an unreeling mechanism, a heating mechanism, an embossing mechanism, a cooling mechanism and a reeling mechanism which are arranged on the frame, wherein the unreeling mechanism, the heating mechanism, the embossing mechanism, the cooling mechanism and the reeling mechanism are sequentially arranged and fixed on the frame in the horizontal direction, and the non-woven fabrics provided by the unreeling mechanism sequentially pass through the heating mechanism, the embossing mechanism, the cooling mechanism and the reeling mechanism; embossing mechanism is still including the automatic regulating apparatus who is used for the knurling to adjust, and eccentric wheel rotation about driving through the motor rotation utilizes the eccentric wheel outer fringe to carry out position control to the embossing roller, has solved the unable automatically regulated interval of current non-woven fabrics knurling device, leads to the inhomogeneous problem that perhaps can't press of knurling dynamics size, the utility model discloses simple structure, and at the process automatically regulated of whole knurling, work efficiency is high.

Description

Automatic adjusting and embossing device for non-woven fabric

Technical Field

The utility model relates to a non-woven fabrics production facility technical field especially relates to a non-woven fabrics automatically regulated knurling device.

Background

The non-woven fabric is a non-woven fabric, which is a non-woven fabric formed by directly utilizing high polymer slices, short fibers or filaments to form a net through air flow or machinery, then carrying out spunlace, needling or hot rolling reinforcement, and finally carrying out after-treatment, and has the advantages of no generation of fiber scraps, toughness, durability and softness, moisture resistance, air permeability, light weight, recycling and the like; embossing lines on the surface of the nonwoven are generally implemented by an embossing device, which embosses the nonwoven by pressing it.

When current non-woven fabrics was embossed, carried out the knurling with a plurality of layers of base cloth, to the non-woven fabrics of thickness difference, the unable automatically regulated interval of knurling device leads to the knurling dynamics size inhomogeneous or can't press, has seriously influenced non-woven fabrics embossed effect.

The invention patent with publication number CN105420984A discloses a production device and a production process of 3D flexible embossing non-woven fabric, including a preheating device, an embossing device and a cooling device, the embossing device includes an embossing roller and a plurality of soft rubber rollers, the plurality of soft rubber rollers all offset with the embossing roller, the non-woven fabric passes through the preheating device in proper order, the embossing device and the cooling device, the utility model discloses an offset of soft rubber roller and embossing roller is suppressed the non-woven fabric, make the impressed watermark department of non-woven fabric have better compliance, and then make the non-woven fabric compliance after the knurling operation not influenced, preheating operation before the knurling step further improves the compliance of 3D embossing non-woven fabric, the interval between soft rubber roller and the embossing roller in the device can not adjust, only can process the non-woven fabric of specific thickness, therefore when carrying out the knurling to the non-woven fabric of different thickness, and is not suitable for use.

SUMMERY OF THE UTILITY MODEL

The not enough of prior art to the aforesaid, the utility model aims at providing a non-woven fabrics automatically regulated knurling device, its automatically regulated device passes through the motor rotation and drives left and right sides eccentric wheel and rotate, utilizes the eccentric wheel outer fringe to carry out position control to the knurling roller, has solved the unable automatically regulated interval of current non-woven fabrics knurling device, leads to the inhomogeneous or unable problem of pressing of knurling dynamics size, the utility model discloses simple structure, and at the process automatically regulated of whole knurling, work efficiency is high.

The utility model discloses a realize through following technical scheme.

The utility model provides a non-woven fabrics automatically regulated knurling device, includes frame and the unwinding mechanism, heating mechanism, knurling mechanism, cooling body and the winding mechanism of setting in the frame, unwinding mechanism, heating mechanism, knurling mechanism, cooling body and winding mechanism arrange in proper order and fix in the frame in the horizontal direction, knurling mechanism is still including the automatically regulated device who is used for the knurling to adjust, automatically regulated device fixes in the frame through left side support and right side support respectively, still be provided with embossing roller and fixed roll between left side support and the right side support, embossing roller and fixed roll pass through automatically regulated device and left side support and right side leg joint, still set up the pressure sensor who is used for surveing the pressure size between embossing roller and the fixed roll on the fixed roll.

Further, the automatic adjusting device comprises a left sliding bearing seat and a right sliding bearing seat which are respectively connected with two ends of the embossing roller, and a left fixed bearing seat and a right fixed bearing seat which are respectively connected with two ends of the fixed roller; the left sliding bearing seat and the left fixed bearing seat are connected with the left adjusting base, and the right sliding bearing seat and the right fixed bearing seat are connected with the right adjusting base; the left side is adjusted the base and is adjusted the base on the right side and fix respectively in the upper end of left side support and right side support.

Further, all be provided with the spout on the base is adjusted on the left side and the right side is adjusted to the base, left side sliding bearing seat and right side sliding bearing seat pass through the spout respectively with left side adjustment base and right side adjustment base sliding connection, the spout top of left side adjustment base with still be provided with left side regulating spring between the sliding bearing seat of left side, still be provided with right side regulating spring between the spout top of base and the right side sliding bearing seat is adjusted on the right side.

Furthermore, a left eccentric wheel is arranged between the bottom of the sliding groove of the left adjusting base and the left sliding bearing seat, and the left eccentric wheel is connected with an output shaft of an adjusting motor through a rotating shaft of the left eccentric wheel; the right eccentric wheel is further arranged between the bottom of the sliding groove of the right side adjusting base and the right side sliding bearing seat, the right eccentric wheel is fixed at one end of a right eccentric wheel rotating shaft, and the other end of the right eccentric wheel rotating shaft is connected with the right side adjusting gear.

Furthermore, a left adjusting gear is further arranged between the rotating shaft of the left eccentric wheel and the output shaft of the adjusting motor, the left adjusting gear is connected with a left transmission gear fixed at one end of the transmission shaft through a left synchronous belt, and the right adjusting gear is connected with a right transmission gear fixed at the other end of the transmission shaft through a right synchronous belt.

Furthermore, the right end of the embossing roller is also provided with an embossing roller driving gear which is positioned between the embossing roller and a right sliding bearing seat and is in key connection with a mandrel of the embossing roller; the right-hand member of embossing roller still sets up embossing roller driving motor gear, embossing roller driving motor gear passes through embossing roller driving motor gear shaft and embossing roller driving motor's output shaft and meshes with embossing roller drive gear.

Further, unwinding mechanism includes: unreel support frame and unreel the roller, unreel the support frame symmetry and install the both sides in the frame, the both ends of unreeling the roller respectively through unreeling the physiosis axle with unreel support frame rotatable coupling.

Further, the heating mechanism includes: heating support frame, heater bar and electrical source controller, the both sides in the frame are installed to the heating support frame symmetry, the both ends of heater bar respectively with heating support frame rotatable coupling, the heater bar with fix the electrical source controller electric connection on heating support frame.

Further, the cooling mechanism includes: the cooling support frame, the cooling roller and the cooling circulation module are symmetrically arranged on two sides of the rack, two ends of the cooling roller are respectively and rotatably connected with the cooling support frame, and the cooling roller is electrically connected with the power supply controller fixed on the cooling support frame.

Further, the winding mechanism includes: rolling support frame and wind-up roll, the both sides in the frame are installed to the rolling support frame symmetry, the both ends of wind-up roll are respectively through rolling physiosis axle and rolling support frame rotatable coupling, wherein the rolling physiosis axle of wind-up roll one end passes through the shaft coupling and is connected with the rolling motor.

Compared with the prior art, the beneficial effects of the utility model reside in that:

a automatic regulating apparatus among non-woven fabrics automatically regulated knurling device, drive through the motor rotation and control the eccentric wheel and rotate, utilize the eccentric wheel outer fringe to carry out position control to the embossing roller, solved the unable automatically regulated interval of current non-woven fabrics knurling device, lead to the inhomogeneous or unable problem of pressing of knurling dynamics size, the utility model discloses simple structure, and at the process automatically regulated of whole knurling, work efficiency is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of an automatic adjusting embossing device for non-woven fabric according to the present invention;

FIG. 2 is a schematic cross-sectional view taken along the line B in FIG. 1;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is an enlarged view of a portion of FIG. 3;

FIG. 5 is an enlarged view of a portion C of FIG. 2;

fig. 6 is a partial enlarged view of D in fig. 2.

In the figure: 1. a frame; 2. an unwinding mechanism; 21. unwinding a support frame; 22. unwinding rollers; 23. unwinding an inflatable shaft; 3, a heating mechanism; 31. heating the support frame; 32. a heating rod; 33. a power supply controller; 4. an embossing mechanism; 41. an automatic adjustment device; 4101. a left side sliding bearing seat; 4102. a right sliding bearing seat; 4103. a left fixed bearing seat 4104, a right fixed bearing seat; 4105. a left side adjustment base; 4106. a right side adjusting base; 4107. a left side adjustment spring; 4108. a right side adjustment spring; 4109. a left eccentric wheel; 4110. a left eccentric wheel rotating shaft; 4111 regulating the motor; 4112. a right eccentric wheel; 4113. an embossing roller drive gear; 4114. the embossing roller drives the motor gear; 4115, driving a motor gear shaft by an embossing roller; 4116. embossing roller drive motor; 4117. a right eccentric wheel spindle; 4118. a right adjustment gear; 4119. a right synchronous belt; 4120. a left side adjustment gear; 4121. a left synchronous belt; 4122. a drive shaft; 4123. a right transmission gear; 4124. a left transmission gear; 42. a left side bracket; 43. a right side bracket; 44. an embossing roll; 45. a fixed roller; 46. a pressure sensor; 5. a cooling mechanism; 51. cooling the support frame; 52. a cooling roll; 53. a cooling circulation module; 6. a winding mechanism; 61. winding a support frame; 62. a wind-up roll; 63. rolling an inflatable shaft; 64. a winding motor; 7. a nonwoven fabric.

Detailed Description

The technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, an automatic adjusting embossing device for non-woven fabrics comprises a frame 1, and an unreeling mechanism 2, a heating mechanism 3, an embossing mechanism 4, a cooling mechanism 5 and a reeling mechanism 6 which are arranged on the frame 1, the unreeling mechanism 2, the heating mechanism 3, the embossing mechanism 4, the cooling mechanism 5 and the reeling mechanism 6 are arranged and fixed on the frame 1 in sequence in the horizontal direction, the embossing mechanism 4 further comprises an automatic adjusting device 41 for embossing adjustment, the automatic adjusting device 41 is respectively fixed on the frame 1 through a left bracket 42 and a right bracket 43, an embossing roller 44 and a fixed roller 45 are further arranged between the left side bracket 42 and the right side bracket 43, the embossing roller 44 and the fixed roller 45 are connected to the left side bracket 42 and the right side bracket 43 by the automatic adjusting device 41, the fixed roller 45 is further provided with a pressure sensor 46 for measuring the magnitude of pressure between the emboss roller 44 and the fixed roller 45.

Referring to fig. 2, 3, 5 and 6, the automatic adjusting device 41 includes left and right sliding bearing housings 4101 and 4102 connected to both ends of the embossing roll 44, respectively, and left and right fixed bearing housings 4103 and 4104 connected to both ends of the fixing roll 45, respectively; the left sliding bearing block 4101 and left fixed bearing block 4103 are connected to a left adjustment base 4105, and the right sliding bearing block 4102 and right fixed bearing block 4104 are connected to a right adjustment base 4106; the left and right adjusting bases 4105 and 4106 are fixed to the upper ends of the left and right brackets 42 and 43, respectively; the left adjusting base 4105 and the right adjusting base 4106 are both provided with a sliding chute, the left sliding bearing seat 4101 and the right sliding bearing seat 4102 are respectively connected with the left adjusting base 4105 and the right adjusting base 4106 in a sliding way, a left adjusting spring 4107 is further arranged between the top of the sliding chute of the left adjusting base 4105 and the left sliding bearing seat 4101, and a right adjusting spring 4108 is further arranged between the top of the sliding chute of the right adjusting base 4106 and the right sliding bearing seat 4102; a left eccentric wheel 4109 is further arranged between the bottom of the sliding groove of the left adjusting base 4105 and the left sliding bearing seat 4101, and the left eccentric wheel 4109 is connected with an output shaft of the adjusting motor 4111 through a left eccentric wheel rotating shaft 4110; a right eccentric wheel 4112 is further arranged between the bottom of the sliding groove of the right adjusting base 4106 and the right sliding bearing seat 4102, the right eccentric wheel 4112 is fixed at one end of a right eccentric wheel rotating shaft 4117, and the other end of the right eccentric wheel rotating shaft 4117 is connected with a right adjusting gear 4118; a left adjusting gear 4120 is further arranged between the left eccentric wheel rotating shaft 4110 and an output shaft of the adjusting motor 4111, the left adjusting gear 4120 is connected with a left transmission gear 4124 fixed at one end of a transmission shaft 4122 through a left synchronous belt 4121, and the right adjusting gear 4118 is connected with a right transmission gear 4123 fixed at the other end of the transmission shaft 4122 through a right synchronous belt 4119; the right end of the embossing roller 44 is also provided with an embossing roller driving gear 4113, and the embossing roller driving gear 4113 is positioned between the embossing roller 44 and the right sliding bearing seat 4102 and is in key connection with the mandrel of the embossing roller 44; embossing roller driving motor gear 4114 is also arranged at the right end of the embossing roller 44, and the embossing roller driving motor gear 4114 is connected with an output shaft of the embossing roller driving motor 4116 through an embossing roller driving motor gear shaft 4115 and meshed with the embossing roller driving gear 4113.

Referring to fig. 1 and 4, the unwinding mechanism 2 includes: unreel support frame 21 and unreel roller 22, unreel the both sides at frame 1 of support frame 21 symmetry installation, unreel roller 22's both ends respectively through unreeling physiosis axle 23 with unreel support frame 21 rotatable coupling.

Referring to fig. 1 and 4, the heating mechanism 3 includes: heating support frame 31, heating rod 32 and electrical source controller 33, the both sides at frame 1 are installed to heating support frame 31 symmetry, the both ends of heating rod 32 respectively with heating support frame 31 rotatable coupling, heating rod 32 and the electrical source controller electric connection who fixes on heating support frame 31.

Referring to fig. 1 and 4, the cooling mechanism 5 includes: the cooling device comprises a cooling support frame 51, a cooling roller 52 and a cooling circulation module 53, wherein the cooling support frame 51 is symmetrically arranged on two sides of the rack 1, two ends of the cooling roller 52 are respectively and rotatably connected with the cooling support frame 51, and the cooling roller 52 is electrically connected with a power supply controller fixed on the cooling support frame 51.

Referring to fig. 1 and 4, the winding mechanism 6 includes: rolling support frame 61 and wind-up roll 62, the both sides in frame 1 are installed to rolling support frame 61 symmetry, wind-up roll 62's both ends are respectively through rolling physiosis axle 63 and rolling support frame 61 rotatable coupling, wherein the rolling physiosis axle 63 of wind-up roll 62 one end is connected with winding motor 64 through the shaft coupling.

The utility model discloses a theory of operation: when the non-woven fabric is required to be embossed, the non-woven fabric 7 provided by the unwinding mechanism sequentially passes through the heating mechanism 3, the embossing mechanism 4, the cooling mechanism 5 and the winding mechanism 6, when the non-woven fabric 7 passes through the heating mechanism 3, the non-woven fabric is heated by the heating rod 32, and the heated non-woven fabric 7 is softened due to high temperature, so that the subsequent embossing process is facilitated; after entering the embossing mechanism 4, the softened non-woven fabric 7 starts the embossing roller driving motor 4116, the embossing roller driving motor 4116 drives the embossing roller 44 to rotate through the embossing roller driving motor gear 4114 and the embossing roller driving gear 4113 which are meshed with each other, meanwhile, the pressure sensor 46 on the fixed roller 45 feeds back the measured pressure value between the embossing roller 44 and the fixed roller 45 to the control module, the control module controls the adjusting motor 4111 to start and drive the left eccentric wheel 4109 to rotate, the rim of the left eccentric wheel 4109 pushes the left sliding 4101 to move up and down along the chute on the left adjusting base 4105 in the rotating process, meanwhile, the left adjusting gear 4120 connected with the output shaft of the adjusting motor 4111 drives the left transmission gear 4124 to rotate through the left synchronous belt 4121, so that the rotating shaft 4122 connected with the left transmission gear 4124 rotates and drives the right transmission gear 4123 to rotate, and the right transmission gear 4123 drives the right adjusting gear 411, the right side adjusting gear 4118 drives a right eccentric wheel rotating shaft 4117 to rotate so as to drive the right eccentric wheel 4112 to rotate, the rim of the right eccentric wheel 4112 pushes the right side sliding bearing seat 4102 to move up and down along a sliding groove on the right side adjusting base 4106 in the rotating process of the right eccentric wheel 4112, and the left side sliding bearing seat 4101 and the right side sliding bearing seat 4102 simultaneously move up and down to drive the embossing roller 44 to move up and down, so that the distance between the embossing roller 44 and the fixed roller 45 is changed, and the automatic adjustment of embossing of non-woven fabrics with; the non-woven fabrics that accomplish the knurling is the rolling of reuse winding mechanism 6 behind 5 coolings on the cooling body, realizes that the non-woven fabrics finished product is collected, and whole process goes on automatically, and is simple high-efficient.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; these modifications and substitutions do not depart from the essence of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a non-woven fabrics automatically regulated knurling device, includes frame (1) and unwinding mechanism (2), heating mechanism (3), knurling mechanism (4), cooling body (5) and winding mechanism (6) of setting in frame (1), unwinding mechanism (2), heating mechanism (3), knurling mechanism (4), cooling body (5) and winding mechanism (6) are arranged in proper order and are fixed on frame (1) on the horizontal direction, a serial communication port, knurling mechanism (4) still is including being used for knurling automatic regulating apparatus (41) of adjusting, automatic regulating apparatus (41) are fixed on frame (1) through left side support (42) and right side support (43) respectively, still be provided with between left side support (42) and right side support (43) embossing roller (44) and fixed roll (45), embossing roller (44) and fixed roll (45) are through automatic regulating apparatus (41) and left side support (42) and right side support (43), embossing roller (44) and fixed roll (45) are through automatic regulating apparatus (41) and left side support (42) ) And the fixed roller (45) is also provided with a pressure sensor (46) for measuring the pressure between the embossing roller (44) and the fixed roller (45).

2. The automatic non-woven fabric adjusting embossing device according to claim 1, characterized in that the automatic adjusting device (41) comprises a left side sliding bearing seat (4101) and a right side sliding bearing seat (4102) respectively connected with both ends of the embossing roll (44) and a left side fixed bearing seat (4103) and a right side fixed bearing seat (4104) respectively connected with both ends of the fixed roll (45); the left sliding bearing seat (4101) and the left fixed bearing seat (4103) are connected with the left adjusting base (4105), and the right sliding bearing seat (4102) and the right fixed bearing seat (4104) are connected with the right adjusting base (4106); the left and right adjusting bases 4105 and 4106 are fixed to the upper ends of the left and right brackets 42 and 43, respectively.

3. The automatic non-woven fabric adjusting and embossing device according to claim 2, wherein sliding grooves are formed in the left adjusting base (4105) and the right adjusting base (4106), the left sliding bearing seat (4101) and the right sliding bearing seat (4102) are respectively in sliding connection with the left adjusting base (4105) and the right adjusting base (4106) through the sliding grooves, a left adjusting spring (4107) is further arranged between the top of the sliding groove of the left adjusting base (4105) and the left sliding bearing seat (4101), and a right adjusting spring (4108) is further arranged between the top of the sliding groove of the right adjusting base (4106) and the right sliding bearing seat (4102).

4. The non-woven fabric automatic adjusting embossing device according to claim 3, characterized in that a left eccentric wheel (4109) is further arranged between the bottom of the sliding groove of the left adjusting base (4105) and the left sliding bearing seat (4101), and the left eccentric wheel (4109) is connected with an output shaft of an adjusting motor (4111) through a left eccentric wheel rotating shaft (4110); a right eccentric wheel (4112) is further arranged between the bottom of the sliding groove of the right adjusting base (4106) and the right sliding bearing seat (4102), the right eccentric wheel (4112) is fixed at one end of a right eccentric wheel rotating shaft (4117), and the other end of the right eccentric wheel rotating shaft (4117) is connected with a right adjusting gear (4118).

5. The automatic non-woven fabric embossing device as claimed in claim 4, wherein a left adjusting gear (4120) is further disposed between the left eccentric wheel rotating shaft (4110) and the output shaft of the adjusting motor (4111), the left adjusting gear (4120) is connected to a left driving gear (4124) fixed to one end of the driving shaft (4122) through a left timing belt (4121), and the right adjusting gear (4118) is connected to a right driving gear (4123) fixed to the other end of the driving shaft (4122) through a right timing belt (4119).

6. The automatic non-woven fabric adjusting and embossing device as claimed in claim 2, characterized in that an embossing roller driving gear (4113) is further arranged at the right end of the embossing roller (44), the embossing roller driving gear (4113) is positioned between the embossing roller (44) and the right sliding bearing seat (4102) and is in key connection with the mandrel of the embossing roller (44); the right-hand member of embossing roller (44) still sets up embossing roller driving motor gear (4114), embossing roller driving motor gear (4114) pass through embossing roller driving motor gear axle (4115) and the output shaft of embossing roller driving motor (4116) and with embossing roller drive gear (4113) meshing.

7. The non-woven fabric automatic adjusting embossing device according to claim 1, characterized in that the unwinding mechanism (2) comprises: unreel support frame (21) and unreel roller (22), unreel the both sides at frame (1) of support frame (21) symmetry installation, the both ends of unreeling roller (22) are respectively through unreeling physiosis axle (23) with unreel support frame (21) rotatable coupling.

8. The device according to claim 1, characterized in that said heating means (3) comprise: heating support frame (31), heating rod (32) and electrical source controller (33), the both sides in frame (1) are installed to heating support frame (31) symmetry, the both ends of heating rod (32) respectively with heating support frame (31) rotatable coupling, heating rod (32) and the electrical source controller electric connection who fixes on heating support frame (31).

9. The device according to claim 1, characterized in that said cooling means (5) comprise: cooling support frame (51), chill roll (52) and cooling circulation module (53), the both sides in frame (1) are installed to cooling support frame (51) symmetry, the both ends of chill roll (52) respectively with cooling support frame (51) rotatable coupling, chill roll (52) and the electrical connection of power controller of fixing on cooling support frame (51).

10. The device according to claim 1, characterized in that the winding mechanism (6) comprises: rolling support frame (61) and wind-up roll (62), the both sides in frame (1) are installed to rolling support frame (61) symmetry, the both ends of wind-up roll (62) are respectively through rolling physiosis axle (63) and rolling support frame (61) rotatable coupling, wherein rolling physiosis axle (63) of wind-up roll (62) one end are connected with rolling motor (64) through the shaft coupling.

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