CN212247299U - Wool fiber hybrid processing equipment - Google Patents

Abstract

The utility model discloses a wool fiber hybrid processing device, which comprises a wool fiber conveying device, a wool fiber storage device and a wool fiber extraction device, wherein the wool fiber storage device comprises a wool mixing bin, a first partition plate is arranged in the middle of the wool mixing bin, a first bottom flat curtain and a second bottom flat curtain are arranged on two sides of the first partition plate, a first rear door assembly and a second rear door assembly are arranged at the rear ends of the first bottom flat curtain and the second bottom flat curtain, and a first front door is connected in the front part of the wool mixing bin in a sliding manner; the wool fiber conveying equipment comprises a longitudinal feeding mechanism and a transverse feeding mechanism, the rear end of the wool mixing bin is connected with a feeding supporting mechanism for positioning the longitudinal feeding mechanism, and the transverse feeding mechanism is connected with the front end of the longitudinal feeding mechanism; the wool fiber extraction equipment comprises a first chassis, a material collecting device and a material lifting device, wherein the material lifting device is connected to the upper end of the first chassis in a sliding mode, and the feeding end of the material collecting device is connected with the discharging end of the lower end of the material lifting device. The wool fiber mixing processing equipment is convenient and quick to feed and lift, and high in innovation.

Description

Wool fiber hybrid processing equipment

Technical Field

The utility model relates to a textile machinery field, concretely relates to wool fiber mixes processing equipment.

Background

The wool fiber mixing processing equipment has the effects that the mixed raw materials are further torn into small blocks by utilizing the striking and tearing actions of the brad nails so as to meet the opening requirement, the raw materials are mixed while being opened, and meanwhile, impurities in the raw materials are further eliminated. The feeding process of the existing wool fiber mixing processing equipment is that firstly raw materials are mixed manually, and the mixed raw materials are uniformly paved on a bottom flat curtain manually. Or manually mixing the materials on a mixer, and then holding the mixed wool fibers on a bottom flat curtain in a wool mixing bin. After the wool mixing work starts, the bottom flat curtain rotates, and the raw materials are sent to the inclined nail curtain for wool feeding. The inclined spike curtain is provided with a plurality of spike teeth which are opposite to the rotation direction, and then a beater on the wool fiber mixing processing equipment nails the wool on the inclined spike curtain.

In the existing wool fiber mixing processing equipment, a wool mixing bin is generally a single large bin, and wool fibers after being mixed are lifted and collected by using an inclined nail curtain after being filled in the large bin. However, the wool fiber mixing processing equipment in the prior art has the following disadvantages:

1. the wool mixing bin is a single bin, and the components forming the single bin are large, so that the transportation and the installation are inconvenient;

2. the large wool mixing bin has a simple raw material conveying structure, and the raw material conveying mechanism cannot convey wool fibers into the wool mixing bin uniformly and efficiently;

3. the wool mixing bin and the wool fiber lifting mechanism are inconvenient to install and connect, cannot be conveniently transported to a customer site after being processed in a processing plant, and are inconvenient to install;

4. the lifting effect of the wool fiber lifting mechanism is not good. To above-mentioned shortcoming, provide a brand-new wool fiber hybrid processing equipment in this application to according to this wool fiber hybrid processing equipment, be provided with neotype wool fiber lifting means and wool fiber feeding equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wool fibre mixes processing equipment, this wool fibre mixes processing equipment's pay-off with carry material convenient and fast, and the efficiency of wool fibre processing is higher, novel structure novelty is high.

The utility model discloses a realize above-mentioned purpose, the technical solution who adopts is:

a wool fiber mixing processing device comprises a wool fiber conveying device, a wool fiber storage device and a wool fiber extraction device, wherein the wool fiber storage device comprises a wool mixing bin, a first partition plate is arranged in the middle of the wool mixing bin, a first bottom flat curtain and a second bottom flat curtain are arranged in the wool mixing bin on two sides of the first partition plate, a first rear door assembly is connected onto the first bottom flat curtain, a second rear door assembly is connected onto the second bottom flat curtain, a first sliding door track mechanism is connected to the front end of the wool mixing bin, and a first front door is connected to the lower end of the first sliding door track mechanism in a sliding mode;

the wool fiber conveying equipment comprises a longitudinal feeding mechanism and a transverse feeding mechanism, and the rear end of the wool cabin is connected with a feeding supporting mechanism; the longitudinal feeding mechanism is connected with the wool mixing bin through the feeding supporting mechanism and can move forwards and backwards on the feeding supporting mechanism; the transverse feeding mechanism is connected to the front end of the longitudinal feeding mechanism;

the wool fiber extraction equipment comprises a first chassis, a material receiving device and a material lifting device, wherein the first chassis is arranged at the front end of a wool mixing bin, the material lifting device is slidably connected to the upper end of the first chassis, and the feeding end of the material receiving device is connected with the discharging end of the lower end of the material lifting device.

Preferably, the wool mixing bin is in a rectangular shell shape; the first bottom flat curtain is connected in the left part of the wool mixing bin through two groups of first flat curtain rotating roller shaft assemblies, and the first flat curtain rotating roller shaft assemblies are connected with a first bottom flat curtain motor arranged in the left part of the wool mixing bin;

the first rear door assembly comprises a first rear door body and a first rear door body support connected with the rear end of the first rear door body, and the first rear door body is obliquely connected to the rear part of the first bottom flat curtain and then supported and fixed through the first rear door body support; the first bottom flat curtain drives the first rear door body to move after rotating;

the second bottom flat curtain is connected in the right part of the wool mixing bin through two groups of second flat curtain rotating roller shaft assemblies, and the second flat curtain rotating roller shaft assemblies are connected with a second bottom flat curtain motor arranged in the right part of the wool mixing bin;

the second rear door assembly comprises a second rear door body and a second rear door body support connected with the rear end of the second rear door body, and the first rear door body is obliquely connected to the rear part of the second bottom flat curtain and then supported and fixed through the second rear door body support; the second bottom flat curtain drives the second rear door body to move after rotating.

Preferably, the wool mixing bin comprises a wool mixing bin main framework, and a main framework baffle is arranged in the wool mixing bin main framework; the first sliding door track mechanism comprises three first sliding door track vertical supporting beams which are respectively and vertically connected with the left front end, the middle front end and the right front end of the wool-mixing bin main framework;

the front ends of the three first sliding door track vertical supporting beams are fixedly connected with first sliding door track cross supporting beams, the lower ends of the first sliding door track cross supporting beams are connected with first sliding door track pipes, and the lower ends of the first sliding door track pipes are provided with strip-shaped first track pipe slot holes;

a first sliding door track pipe on the inner side of the first track pipe slotted hole is connected with a first sliding door roller in a sliding manner, and the lower end of the first sliding door roller is connected with a first front door through a first sliding door roller connecting beam;

the inner wall of the first front door is connected with a first sliding door rack plate, the wool-mixing bin main framework is connected with a first sliding door motor, and the first sliding door motor is connected with the first sliding door rack plate through a sliding door transmission gear assembly.

Preferably, the feeding support mechanism comprises a first cross-support frame and a first longitudinal support frame, the first cross-support frame is connected to the rear end of the wool mixing bin, and the front part of the first longitudinal support frame is connected with the upper end of the middle part of the first cross-support frame through a first vertical support frame; the upper end of the first vertical support frame is connected with a condenser, the rear end of the first vertical support frame is provided with a bale opener, and the bale opener is connected with the condenser through a first fan;

the longitudinal feeding mechanism comprises a longitudinal moving hopper, the longitudinal moving hopper is connected with a first longitudinal sliding rail arranged on a first longitudinal support frame through a first longitudinal moving pulley, and a longitudinal conveying belt assembly is arranged in the longitudinal moving hopper;

the transverse feeding mechanism comprises a second transverse support frame and a transverse moving bin, and the longitudinal conveyor belt component can convey the wool fibers in the longitudinal moving hopper into the transverse moving bin;

the rear end of the second cross-support frame is fixedly connected with the front end of the longitudinal moving hopper through a first hair blocking composition plate, and the lower end of the second cross-support frame is in sliding connection with a second track mechanism arranged at the upper end of the hair mixing bin through a second moving mechanism;

the lower end of the transverse moving bin is connected with a third sliding rail mechanism arranged on a second transverse support frame through a third moving mechanism, and a transverse conveying belt assembly is arranged in the transverse moving bin.

Preferably, the second moving mechanism comprises a first longitudinal moving motor, a first front longitudinal moving roller and a first rear longitudinal gear assembly, and the first longitudinal moving motor is connected to the second cross-support frame behind the first hair blocking combination board;

the first front longitudinal moving roller is connected to the front end of the second cross-support frame through a first roller positioning seat, and the first rear longitudinal gear assembly is connected to the rear end of the second cross-support frame through a second roller positioning seat;

the first longitudinal moving motor is connected with the first rear longitudinal gear assembly through the gear transmission shaft assembly, the first longitudinal moving motor drives the first longitudinal moving roller to rotate through the gear transmission shaft assembly, and the first longitudinal moving roller drives the second cross support to move forward or backward at the upper end of the second track mechanism after rotating;

the second track mechanism comprises three second longitudinal rack tracks which are respectively connected to the upper ends of the left part, the middle part and the right part of the wool mixing bin.

Preferably, the third moving mechanism comprises a third transverse moving frame and a third transverse moving motor, the third transverse moving frame is connected to the lower end of the transverse moving bin, and the third transverse moving frame is formed by connecting four third groove steel plates;

the third transverse moving frame is connected with a third slide rail mechanism arranged above the second transverse support frame through two groups of third transverse roller assemblies; the third transverse moving motor is connected to the side end of the third transverse moving frame and is connected with the third transverse roller assembly through a third transmission gear connecting rod assembly; the third transverse moving motor drives the third transverse moving frame to move leftwards or rightwards on the third slide rail mechanism through the third transverse roller component.

Preferably, the transverse moving bin comprises a transverse front baffle, a transverse left baffle and a transverse right baffle, and the transverse front baffle, the transverse left baffle and the transverse right baffle are fixedly connected to the upper end of the third transverse moving frame through bolts;

the transverse left baffle and the transverse right baffle are connected to two sides of the transverse front baffle; the transverse front baffle, the transverse left baffle, the transverse right baffle and the first fur blocking combined plate are combined to form a prismatic frustum shell-shaped transverse moving hopper;

the transverse conveying belt assembly comprises a transverse conveying curtain which is connected in a third transverse moving frame through two groups of second roller assemblies;

and the lateral wall of the third transverse moving frame is connected with a transverse conveying curtain motor, and the transverse conveying curtain motor drives a transverse conveying curtain to rotate through a second roller component.

Preferably, the lifting device comprises a first lifting support frame and a lifting support shell, and the first lifting support frame is connected with a first lifting slideway arranged at the upper end of the first underframe in a sliding manner through a first lifting pulley assembly;

the lifting support shell is connected to the upper end of the first lifting support frame through a first support shell reinforcing rod, the lifting support shell comprises a first rear support shell and a first front support shell connected to the front end of the upper portion of the first rear support shell, a diagonal nail curtain conveying belt is arranged in the first rear support shell, the diagonal nail curtain conveying belt is connected with the first rear support shell through a first diagonal nail curtain conveying roller assembly, and the first diagonal nail curtain conveying roller assembly is driven to rotate through a first diagonal nail curtain motor connected to the outer wall of the first rear support shell;

a wool fiber beater assembly and a wool fiber collecting conveyor belt are arranged in the first front support shell, the wool fiber beater assembly is positioned in front of the upper part of the inclined nail curtain conveyor belt and can strip wool fibers conveyed by the inclined nail curtain conveyor belt;

the wool fiber collecting conveyor belt is positioned below the wool fiber beater assembly and can convey the wool fibers stripped by the wool fiber beater assembly to the left or the right.

Preferably, the wool fiber beater assembly is connected with the first front support shell through a beater bearing assembly, and the wool fiber beater assembly is driven to rotate through a first beater motor connected to the side wall of the first front support shell;

the wool fiber collecting and conveying belt is connected with the first front support shell through two groups of first wool fiber collecting and conveying roller components, and the first wool fiber collecting and conveying roller components are driven to rotate by a first wool fiber collecting motor connected to the outer wall of the first front support shell;

the left lower end and the right lower end of the first front support shell are both provided with first side support shell notches, and a group of wool fiber limiting mechanisms are arranged in each first side support shell notch;

the wool fiber limiting mechanism comprises a first rotary material stop door and a first linkage cylinder, the first rotary material stop door is in an L-shaped plate shape, and the upper end of the side of the first rotary material stop door is fixedly connected with a first material door connecting plate connected in a first front support shell through a hinge;

a first linkage cylinder positioning seat is connected to the first front support shell above the notch of the first side support shell, the cylinder body of the first linkage cylinder is rotatably connected with the first linkage cylinder positioning seat, and the cylinder shaft of the first linkage cylinder is connected with the first rotary stop gate through a first hook hinge assembly;

the first linkage cylinder can drive the first rotary material blocking door to rotate, and the first rotary material blocking door can penetrate through the opening of the first side support shell.

Preferably, the material receiving device comprises a material receiving support frame, the material receiving support frame comprises a second bottom frame and a material receiving L-shaped support connected to the upper end of the second bottom frame, the second bottom frame is connected with the first bottom frame, and the upper part of the material receiving L-shaped support is connected with a first collecting hopper;

the first collecting hopper is a prismoid hopper with openings at the upper end and the lower end, and the upper end surface of the first collecting hopper is abutted against the lower end surface of the front part of the first front support shell; the discharge port end below the first collecting hopper is connected with a discharge hose, and the tail end of the discharge hose is connected with a discharge fan.

The utility model has the advantages that:

above-mentioned wool fibre mixes processing equipment is provided with neotype including wool fibre conveying equipment, wool fibre storage device and wool fibre extraction equipment, and three equipment cooperation is used, very big improvement the work efficiency that wool fibre mixes processing equipment. And the structures of the wool fiber conveying equipment, the wool fiber storage equipment and the wool fiber extraction equipment in the equipment are simpler, and through a flexible and simple combined structure, the processing process is simplified, and the safety and convenience of the whole equipment in the later period are improved.

The feeding movement in the front-back direction of the longitudinal feeding mechanism and the feeding movement in the left-right direction of the transverse feeding mechanism not only realize the respective filling of the wool fibers in the left bin and the right bin of the wool mixing bin, but also can convey the filler through the movement of the longitudinal feeding mechanism and the transverse feeding mechanism in the wool conveying and filling process, so that the more uniform filler conveying of the wool fibers in the left bin and the right bin of the wool mixing bin is realized. The pile of the wool fiber is avoided, and the wool fiber is conveyed more efficiently.

The flexible mobility of wool fiber extraction equipment uses with first qianmen cooperation, and it is more convenient to use, has not only improved the convenience that wool fiber extracted, still improves the security of during operation.

Drawings

In order to 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 front view of the overall structure of a wool fiber mixing processing apparatus.

Fig. 2 is a rear view schematically showing the overall structure of the wool fiber mixing processing apparatus.

Fig. 3 is a schematic view of the overall structure of the wool fiber storage device.

Fig. 4 is a schematic view of the overall structure of the wool fiber conveying apparatus.

Fig. 5 is a schematic front view of the overall structure of the wool fiber extraction apparatus.

Fig. 6 is a rear view schematically showing the overall structure of the wool fiber extracting apparatus.

FIG. 7 is a schematic illustration of the placement of the wool beater assembly and the wool collection belt structure.

FIG. 8 is a schematic illustration of the location of a set of skewed nail holes on a skewed nail curtain conveyor belt.

Detailed Description

The utility model provides a wool fiber mixes processing equipment, for making the utility model discloses a purpose, technical scheme and effect are clearer, more clear and definite, following right the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

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

example 1

Combine fig. 1 to 8, a wool fibre hybrid processing equipment, including wool fibre conveying equipment, wool fibre storage device and wool fibre extraction equipment, wool fibre storage device includes with hair storehouse 1, and the middle part with hair storehouse 1 is provided with first division board 11, and flat curtain 13 at the bottom of being equipped with first flat curtain 12 at the bottom of and the second in the hair storehouse 1 of first division board both sides, even have first back door subassembly 14 on the flat curtain 12 at the bottom of the first, even have second back door subassembly 15 on the flat curtain 12 at the bottom of the second. The front end of the wool mixing bin 1 is connected with a first sliding door track mechanism 16, and the lower end of the first sliding door track mechanism 16 is connected with a first front door 17 in a sliding mode.

The wool fiber conveying equipment comprises a longitudinal feeding mechanism 2 and a transverse feeding mechanism 3, and the rear end of the wool cabin 1 is connected with a feeding supporting mechanism 4; the longitudinal feeding mechanism 2 is connected with the wool mixing bin 1 through a feeding supporting mechanism 4, the longitudinal feeding mechanism 2 can move back and forth on the feeding supporting mechanism 4, and the transverse feeding mechanism 3 is connected to the front end of the longitudinal feeding mechanism 4.

The wool fiber extraction equipment comprises a first chassis 5, a material receiving device 6 and a material lifting device 7, wherein the first chassis 5 is arranged at the front end of the wool bin 1, the material lifting device 7 is slidably connected to the upper end of the first chassis 5, and the feeding end of the material receiving device 6 is connected with the discharging end of the lower end of the material lifting device 7.

The wool mixing bin 1 is in a rectangular shell shape; the first bottom flat curtain 12 is connected in the left part of the wool mixing bin 1 through two groups of first flat curtain rotating roller components 121, and the first flat curtain rotating roller components 121 are connected with a first bottom flat curtain motor arranged in the left part 1 of the wool mixing bin. After the first bottom flat curtain motor drives the first flat curtain rotating roller assembly 121 to rotate, the first flat curtain rotating roller assembly 121 drives the first bottom flat curtain 12 to rotate.

The first rear door assembly 14 comprises a first rear door body 141 and a first rear door body bracket 142 connected with the rear end of the first rear door body 141, and the first rear door body 141 is obliquely connected with the rear part of the first bottom flat curtain 12 and is supported and fixed by the first rear door body bracket 142; the first bottom flat curtain 12 rotates to drive the first rear door 141 to move. After the first rear door body 141 moves forward, the first rear door body is matched with the first bottom flat curtain 12 to push the wool fibers in the left part of the wool mixing bin 1 forward. When the wool fibers in the left part of the wool mixing bin 1 are lifted and collected, the first rear door body 141 is reset to the original position.

The second bottom flat curtain 13 is connected in the right part of the wool mixing bin 1 through two groups of second flat curtain rotating roller assemblies 131, and the second flat curtain rotating roller assemblies 131 are connected with a second bottom flat curtain motor arranged in the right part of the wool mixing bin 1;

the second rear door assembly 15 comprises a second rear door body 151 and a second rear door body bracket 152 connected with the rear end of the second rear door body 151, and the first rear door body 151 is obliquely connected to the rear part of the second bottom flat curtain 13 and is supported and fixed by the second rear door body bracket 152; the second bottom flat curtain 13 rotates to drive the second rear door 151 to move. After the second rear door body 151 moves forward, the second rear door body cooperates with the second bottom flat curtain 15 to push the wool fibers in the right part of the wool mixing bin 1 forward. When the wool fibers in the right part of the wool mixing bin 1 are lifted and collected, the second rear door body 151 is reset to the original position,

the wool mixing bin 1 comprises a wool mixing bin main framework 18, and a main framework baffle plate 19 is arranged in the wool mixing bin main framework 18.

The first sliding door rail mechanism 16 includes three first sliding door rail vertical supporting beams 161, and the three first sliding door rail vertical supporting beams 161 are vertically connected to the left front end, the middle front end, and the right front end of the hair box main frame 18, respectively.

The front ends of the three first sliding door rail vertical supporting beams 161 are fixedly connected with first sliding door rail cross supporting beams 162, the lower ends of the first sliding door rail cross supporting beams 162 are connected with first sliding door rail pipes 163, and the lower ends of the first sliding door rail pipes 163 are provided with first elongated rail pipe slots.

The first sliding door rail pipe 163 at the inner side of the first rail pipe slot is connected with a first sliding door roller in a sliding way, and the lower end of the first sliding door roller is connected with the first front door 17 through a first sliding door roller connecting beam 164. The width of the first front door 17 is the same as that of the wool hopper 1, and the first front door 17 can cover the left front end of the wool hopper 1 or the right front end of the wool hopper 1.

The inner wall of the first front door 17 is connected with a first sliding door rack plate 171, the hair bin main framework 18 is connected with a first sliding door motor 181, and the first sliding door motor 181 is connected with the first sliding door rack plate 171 through a sliding door transmission gear assembly 182. The first sliding door motor 181 drives the first sliding door rack plate 171 to move left or right through the sliding door transmission gear assembly 182, thereby driving the first front door 17 to move left or right. So that the first front door 17 closes the left or right part of the hair silo 1.

The feeding support mechanism 4 comprises a first cross-frame 41 and a first longitudinal-frame 42, the first cross-frame 41 is connected to the rear end of the wool mixing bin 1, and the front part of the first longitudinal-frame 42 is connected with the upper end of the middle part of the first cross-frame 41 through a first vertical-frame 43.

The upper end of first vertical support frame 43 even has condenser 44, and the rear end of first vertical support frame 43 is provided with bale opener, and bale opener passes through first fan 45 and is connected with condenser 43.

The longitudinal feeding mechanism 2 comprises a longitudinal moving hopper 21, the longitudinal moving hopper 21 is connected with a first longitudinal slide rail 23 arranged on a first longitudinal support frame 42 through a first longitudinal moving pulley 22, and a longitudinal conveying belt assembly 24 is arranged in the longitudinal moving hopper 21.

The transverse feeding mechanism 3 comprises a second cross frame 31 and a transverse moving bin 32, and the longitudinal conveyor belt assembly 24 can convey the wool fibers in the longitudinal moving hopper 21 to the transverse moving bin 32.

The rear end of the second cross-frame 31 is fixedly connected with the front end of the longitudinal moving hopper 21 through the first hair blocking composition plate 25, and the lower end of the second cross-frame 31 is slidably connected with a second track mechanism 34 arranged at the upper end of the hair mixing bin 1 through a second moving mechanism 33.

The lower end of the transverse moving bin 32 is connected with a third slide rail mechanism 36 arranged on the second cross-frame 31 through a third moving mechanism 35, and a transverse conveying belt assembly 37 is arranged in the transverse moving bin 32. The transverse moving bin 32 can move left and right on the third slide rail mechanism 36, and the transverse conveyor belt assembly 37 can convey the wool fibers conveyed into the transverse moving bin 32 by the longitudinal conveyor belt assembly 24 to the left part of the wool silo 1 or the right part of the wool silo 1.

The second moving mechanism 33 includes a first longitudinal moving motor 331, a first front longitudinal moving roller 332 and a first rear longitudinal gear assembly 333, and the first longitudinal moving motor 331 is connected to the second cross-frame 31 behind the first feather blocking assembly plate 25.

The first front longitudinal moving roller 332 is connected to the front end of the second cross frame 31 through a first roller positioning seat, and the first rear longitudinal gear assembly 333 is connected to the rear end of the second cross frame 31 through a second roller positioning seat.

The first longitudinal moving motor 331 is connected to the first rear longitudinal gear assembly 333 through a gear shaft assembly, the first longitudinal moving motor 331 drives the first longitudinal moving roller 333 to rotate through the gear shaft assembly, and the first longitudinal moving roller 333 drives the second cross frame 31 to move forward or backward on the upper end of the second rail mechanism 34 after rotating.

The second rail mechanism 34 includes three second longitudinal rack rails 341, and the three second longitudinal rack rails 341 are connected to the left upper end, the middle upper end, and the right upper end of the hair mixing box 1, respectively.

The third moving mechanism 34 comprises a third transverse moving frame 351 and a third transverse moving motor 352, the third transverse moving frame 351 is connected to the lower end of the transverse moving bin 32, and the third transverse moving frame 351 is formed by connecting four third groove steel plates;

the third traverse frame 351 is connected to the third slide rail mechanism 36 disposed above the second traverse frame 31 through two sets of third traverse roller assemblies 353.

The third traverse motor 352 is connected to a side end of the third traverse frame 351 and is connected to the third traverse roller assembly 353 through a third transmission gear link assembly; the third traverse motor 352 drives the third traverse frame 351 to move left or right on the third slide rail mechanism 36 through the third traverse roller assembly 353.

The transverse moving bin 32 comprises a transverse front baffle 321, a transverse left baffle 322 and a transverse right baffle 323, and the transverse front baffle 321, the transverse left baffle 322 and the transverse right baffle 323 are all fixedly connected to the upper end of a third transverse moving frame 351 through bolts.

A transverse left baffle 322 and a transverse right baffle 323 are connected to both sides of the transverse front baffle 321; the transverse front baffle 321, the transverse left baffle 322, the transverse right baffle 323 and the first hair baffle combination plate 25 are combined to form a frustum-shaped transverse moving hopper.

The cross conveyor belt assembly 37 includes a cross conveyor curtain 371, the cross conveyor curtain 371 being connected within the third moving frame 351 by two sets of second roller assemblies.

The lateral wall of the third traverse frame 351 is connected with a traverse conveying curtain motor 372, and the traverse conveying curtain motor 372 drives the traverse conveying curtain 371 to rotate through the second roller component.

The lifting device 7 comprises a first lifting support frame 71 and a lifting support shell, and the first lifting support frame 71 is connected with a first lifting slideway 51 arranged at the upper end of the first underframe 5 in a sliding manner through a first lifting pulley component 711;

the lifting support shell is connected to the upper end of the first lifting support frame 71 through a first support shell reinforcing rod 72, and comprises a first rear support shell 73 and a first front support shell 74 connected to the front end of the upper portion of the first rear support shell 73.

A screw curtain conveying belt 75 is arranged in the first rear support shell 73, the screw curtain conveying belt 75 is connected with the first rear support shell 73 through a first screw curtain conveying roller component, and the first screw curtain conveying roller component is driven to rotate by a first screw curtain motor 751 connected to the outer wall of the first rear support shell 73. The inclined nail curtain conveyor belt 75 is provided with a plurality of inclined nail positioning hole groups 752, when the inclined nail hole groups 752 are observed in a overlooking manner, the single inclined nail hole group 752 is in a curved arc shape, and the arrangement of the inclined nail positioning hole groups 752 is used for improving the material lifting capacity of the inclined nail curtain conveyor belt 75. Because the nails in the vertical and horizontal inclined nail curtain perforation groups are vertically arranged, the nails may not catch the wool fibers when a certain area in the longitudinal direction is empty. The curved inclined nail positioning hole set 752 can better catch the nails and prevent the nails from falling off.

A wool fiber beater assembly 76 and a wool fiber collecting conveyor belt 77 are arranged in the first front supporting shell 74, the wool fiber beater assembly 76 is positioned in front of the upper portion of the inclined pin curtain conveyor belt 75, and the wool fiber beater assembly 76 can peel the wool fibers conveyed by the inclined pin curtain conveyor belt 75.

The wool fiber collecting conveyor belt 77 is located below the wool fiber beater assembly 76, and can convey the wool fibers stripped off by the wool fiber beater assembly 76 to the left or right.

The wool fiber beater assembly 76 is connected to the first front support casing 74 through a beater bearing assembly, and the wool fiber beater assembly 76 is driven to rotate by a first beater motor 761 connected to a side wall of the first front support casing 74.

The wool fiber collecting conveyor belt 77 is connected to the first front supporting shell 74 through two sets of first wool fiber collecting conveyor roller assemblies, which are driven to rotate by a first wool fiber collecting motor 771 connected to the outer wall of the first front supporting shell 74.

First side props the shell notch all seted up to the left lower extreme and the right lower extreme of first preceding shell 74, and every first side props and is equipped with a set of wool fibre stop gear 8 in the shell notch.

The wool fiber limiting mechanism 8 comprises a first rotating material blocking door 81 and a first linkage air cylinder 82, the first rotating material blocking door 81 is in an L-shaped plate shape, and the upper end of the side of the first rotating material blocking door 81 is fixedly connected with a first material door connecting plate 83 connected into the first front support shell 74 through a hinge.

A first linkage cylinder positioning seat 84 is connected to the first front support shell 74 above the notch of the first side support shell, a cylinder body of the first linkage cylinder 82 is rotatably connected with the first linkage cylinder positioning seat 84, and a cylinder shaft of the first linkage cylinder 82 is connected with the first rotary material blocking door 81 through a first hook hinge assembly;

the first linkage cylinder 82 can drive the first rotary material stop gate 81 to rotate, and the first rotary material stop gate 81 can penetrate through the first side support shell notch.

The material receiving device 6 comprises a material receiving support frame, the material receiving support frame comprises a second bottom frame 61 and a material receiving L-shaped support 62 connected to the upper end of the second bottom frame 61, the second bottom frame 61 is connected with the first bottom frame 5, and the upper part of the material receiving L-shaped support 62 is connected with a first collecting hopper 63;

the first collecting hopper 63 is a frustum-shaped hopper with openings at the upper and lower ends, and the upper end surface of the first collecting hopper 63 abuts against the lower end surface of the front part of the first front support shell 74; the discharge port end below the first collecting hopper 63 is connected with a discharge hose, and the tail end of the discharge hose is connected with a discharge fan.

Example 2

With reference to fig. 1 to 8, a wool fiber hybrid processing device comprises a wool fiber conveying device and a wool fiber storage device, wherein the wool fiber storage device comprises a wool mixing bin 1, a first partition plate 11 is arranged in the middle of the wool mixing bin 1, a first bottom flat curtain 12 and a second bottom flat curtain 13 are arranged in the wool mixing bin 1 on two sides of the first partition plate, a first rear door assembly 14 is connected to the first bottom flat curtain 12, and a second rear door assembly 15 is connected to the second bottom flat curtain 12. The front end of the wool mixing bin 1 is connected with a first sliding door track mechanism 16, and the lower end of the first sliding door track mechanism 16 is connected with a first front door 17 in a sliding mode.

The wool fiber conveying equipment comprises a longitudinal feeding mechanism 2 and a transverse feeding mechanism 3, and the rear end of the wool cabin 1 is connected with a feeding supporting mechanism 4; the longitudinal feeding mechanism 2 is connected with the wool mixing bin 1 through a feeding supporting mechanism 4, the longitudinal feeding mechanism 2 can move back and forth on the feeding supporting mechanism 4, and the transverse feeding mechanism 3 is connected to the front end of the longitudinal feeding mechanism 4.

When the wool fiber mixing processing equipment works, workers enable wool fiber raw materials to reach the condenser 43 after passing through the bale opener, the wool fiber conveying pipe connected between the bale opener and the first fan, wool fiber materials in the condenser 43 fall into the longitudinal feeding mechanism 2, and the longitudinal feeding mechanism 2 can convey the wool fibers into the transverse feeding mechanism 3; the longitudinal feeding mechanism 2 can drive the transverse feeding mechanism 3 to move back and forth, and after the transverse moving bin 32 in the transverse feeding mechanism 3 moves left and right, the wool fiber conveying belt in the transverse moving bin 32 and the left inner part and the right inner part of the wool bin 1 can be driven by the transverse conveying belt.

Through the feeding movement in the front-back direction of the longitudinal feeding mechanism 2 and the feeding movement in the left-right direction of the transverse feeding mechanism 3, the wool fibers in the left bin and the right bin of the wool mixing bin are respectively filled, and in the wool conveying and filling process, the filling materials can be conveyed through the movement of the longitudinal feeding mechanism 2 and the transverse feeding mechanism 3, so that the more uniform filling conveying of the wool fibers in the left bin and the right bin of the wool mixing bin is realized. And the accumulation of wool fibers is avoided, and the wool fibers are conveyed more efficiently.

Example 3

Combine fig. 1 to 8, a wool fibre hybrid processing equipment, including wool fibre conveying equipment, wool fibre storage device and wool fibre extraction equipment, wool fibre storage device includes with hair storehouse 1, and the middle part with hair storehouse 1 is provided with first division board 11, and flat curtain 13 at the bottom of being equipped with first flat curtain 12 at the bottom of and the second in the hair storehouse 1 of first division board both sides, even have first back door subassembly 14 on the flat curtain 12 at the bottom of the first, even have second back door subassembly 15 on the flat curtain 12 at the bottom of the second. The front end of the wool mixing bin 1 is connected with a first sliding door track mechanism 16, and the lower end of the first sliding door track mechanism 16 is connected with a first front door 17 in a sliding mode.

The wool fiber conveying equipment comprises a longitudinal feeding mechanism 2 and a transverse feeding mechanism 3, and the rear end of the wool cabin 1 is connected with a feeding supporting mechanism 4; the longitudinal feeding mechanism 2 is connected with the wool mixing bin 1 through a feeding supporting mechanism 4, the longitudinal feeding mechanism 2 can move back and forth on the feeding supporting mechanism 4, and the transverse feeding mechanism 3 is connected to the front end of the longitudinal feeding mechanism 4.

The wool fiber extraction equipment comprises a first chassis 5, a material receiving device 6 and a material lifting device 7, wherein the first chassis 5 is arranged at the front end of the wool bin 1, the material lifting device 7 is slidably connected to the upper end of the first chassis 5, and the feeding end of the material receiving device 6 is connected with the discharging end of the lower end of the material lifting device 7.

When the wool fibers in the right chamber at the right part of the wool mixing chamber 1 are filled, the lifting device 7 moves to the front end of the right part of the wool mixing chamber 1, and the first front door 17 moves to the front end of the left part of the wool mixing chamber. Then the wool fiber in the right chamber is filled by the conveying of the wool fiber conveying equipment. The work of the material lifting device 7, the inclined nail curtain conveyor belt 75 lifts the wool fiber, the inclined nail curtain conveyor belt 75 is peeled off through the wool fiber beater assembly 76 in the rotating process, the peeled wool fiber falls on the wool fiber collecting conveyor belt 77, the wool fiber collecting conveyor belt 77 conveys the wool fiber to the left end outlet, the wool fiber falls in the hopper of the material collecting device 6, and then the wool fiber is sucked away through the fan to be processed by the wool fiber of the next procedure.

In the process of lifting and collecting by the lifting device 7, the wool fibers in the left cabin are filled by the conveying of the wool fiber conveying equipment. The lifter 7 then moves to the front end of the first front door 17, and after the lifter 7 reaches the designated position, the first front door 17 then moves to the front end of the vacated right bin. When the material lifting device 7 is used for lifting and collecting wool fibers in the left bin, the wool fiber conveying equipment is used for filling the empty right bin with the wool fibers. The work is repeated, the continuous work of the material lifting device 7 and the wool fiber conveying equipment can be ensured, the conveying speed, the wool blending speed, the extraction speed and the collection speed of the wool fibers are greatly improved, and the production rate of an enterprise is integrally improved.

Example 4

Above-mentioned wool fibre mixes processing equipment is provided with neotype including wool fibre conveying equipment, wool fibre storage device and wool fibre extraction equipment, and three equipment cooperation is used, very big improvement the work efficiency that wool fibre mixes processing equipment. And the structures of the wool fiber conveying equipment, the wool fiber storage equipment and the wool fiber extraction equipment in the equipment are simpler, and through a flexible and simple combined structure, the processing process is simplified, and the safety and convenience of the whole equipment in the later period are improved.

The feeding movement in the front-back direction of the longitudinal feeding mechanism and the feeding movement in the left-right direction of the transverse feeding mechanism not only realize the respective filling of the wool fibers in the left bin and the right bin of the wool mixing bin, but also can convey the filler through the movement of the longitudinal feeding mechanism and the transverse feeding mechanism in the wool conveying and filling process, so that the more uniform filler conveying of the wool fibers in the left bin and the right bin of the wool mixing bin is realized. The pile of the wool fiber is avoided, and the wool fiber is conveyed more efficiently.

The flexible mobility of wool fiber extraction equipment uses with first qianmen cooperation, and it is more convenient to use, has not only improved the convenience that wool fiber extracted, still improves the security of during operation.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

The parts not mentioned in the utility model can be realized by adopting or using the prior art for reference.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present invention should also belong to the protection scope of the present invention.

Claims (10)

1. The wool fiber mixing processing equipment is characterized by comprising wool fiber conveying equipment, wool fiber storage equipment and wool fiber extraction equipment, wherein the wool fiber storage equipment comprises a wool mixing bin, a first partition plate is arranged in the middle of the wool mixing bin, a first bottom flat curtain and a second bottom flat curtain are arranged in the wool mixing bin on two sides of the first partition plate, the first bottom flat curtain is connected with a first rear door assembly, the second bottom flat curtain is connected with a second rear door assembly, the front end of the wool mixing bin is connected with a first sliding door track mechanism, and the lower end of the first sliding door track mechanism is connected with a first front door in a sliding mode;

the wool fiber conveying equipment comprises a longitudinal feeding mechanism and a transverse feeding mechanism, and the rear end of the wool cabin is connected with a feeding supporting mechanism; the longitudinal feeding mechanism is connected with the wool mixing bin through the feeding supporting mechanism and can move forwards and backwards on the feeding supporting mechanism; the transverse feeding mechanism is connected to the front end of the longitudinal feeding mechanism;

the wool fiber extraction equipment comprises a first chassis, a material receiving device and a material lifting device, wherein the first chassis is arranged at the front end of a wool mixing bin, the material lifting device is slidably connected to the upper end of the first chassis, and the feeding end of the material receiving device is connected with the discharging end of the lower end of the material lifting device.

2. The wool fiber mixing processing device according to claim 1, wherein the wool hopper is in a rectangular shell shape; the first bottom flat curtain is connected in the left part of the wool mixing bin through two groups of first flat curtain rotating roller shaft assemblies, and the first flat curtain rotating roller shaft assemblies are connected with a first bottom flat curtain motor arranged in the left part of the wool mixing bin;

the first rear door assembly comprises a first rear door body and a first rear door body support connected with the rear end of the first rear door body, and the first rear door body is obliquely connected to the rear part of the first bottom flat curtain and then supported and fixed through the first rear door body support; the first bottom flat curtain drives the first rear door body to move after rotating;

the second bottom flat curtain is connected in the right part of the wool mixing bin through two groups of second flat curtain rotating roller shaft assemblies, and the second flat curtain rotating roller shaft assemblies are connected with a second bottom flat curtain motor arranged in the right part of the wool mixing bin;

the second rear door assembly comprises a second rear door body and a second rear door body support connected with the rear end of the second rear door body, and the first rear door body is obliquely connected to the rear part of the second bottom flat curtain and then supported and fixed through the second rear door body support; the second bottom flat curtain drives the second rear door body to move after rotating.

3. The wool fiber hybrid processing equipment according to claim 2, wherein the wool mixing bin comprises a wool mixing bin main framework, and a main framework baffle is arranged in the wool mixing bin main framework; the first sliding door track mechanism comprises three first sliding door track vertical supporting beams which are respectively and vertically connected with the left front end, the middle front end and the right front end of the wool-mixing bin main framework;

the front ends of the three first sliding door track vertical supporting beams are fixedly connected with first sliding door track cross supporting beams, the lower ends of the first sliding door track cross supporting beams are connected with first sliding door track pipes, and the lower ends of the first sliding door track pipes are provided with strip-shaped first track pipe slot holes;

a first sliding door track pipe on the inner side of the first track pipe slotted hole is connected with a first sliding door roller in a sliding manner, and the lower end of the first sliding door roller is connected with a first front door through a first sliding door roller connecting beam;

the inner wall of the first front door is connected with a first sliding door rack plate, the wool-mixing bin main framework is connected with a first sliding door motor, and the first sliding door motor is connected with the first sliding door rack plate through a sliding door transmission gear assembly.

4. The wool fiber hybrid processing device according to claim 1, wherein the feeding support mechanism comprises a first cross-frame and a first longitudinal frame, the first cross-frame is connected to the rear end of the wool mixing bin, and the front part of the first longitudinal frame is connected with the upper end of the middle part of the first cross-frame through the first vertical frame; the upper end of the first vertical support frame is connected with a condenser, the rear end of the first vertical support frame is provided with a bale opener, and the bale opener is connected with the condenser through a first fan;

the longitudinal feeding mechanism comprises a longitudinal moving hopper, the longitudinal moving hopper is connected with a first longitudinal sliding rail arranged on a first longitudinal support frame through a first longitudinal moving pulley, and a longitudinal conveying belt assembly is arranged in the longitudinal moving hopper;

the transverse feeding mechanism comprises a second transverse support frame and a transverse moving bin, and the longitudinal conveyor belt component can convey the wool fibers in the longitudinal moving hopper into the transverse moving bin;

the rear end of the second cross-support frame is fixedly connected with the front end of the longitudinal moving hopper through a first hair blocking composition plate, and the lower end of the second cross-support frame is in sliding connection with a second track mechanism arranged at the upper end of the hair mixing bin through a second moving mechanism;

the lower end of the transverse moving bin is connected with a third sliding rail mechanism arranged on a second transverse support frame through a third moving mechanism, and a transverse conveying belt assembly is arranged in the transverse moving bin.

5. The wool fiber hybrid processing device according to claim 4, wherein the second moving mechanism comprises a first longitudinal moving motor, a first front longitudinal moving roller and a first rear longitudinal gear assembly, the first longitudinal moving motor is connected to the second cross-frame behind the first wool blocking composition board;

the first front longitudinal moving roller is connected to the front end of the second cross-support frame through a first roller positioning seat, and the first rear longitudinal gear assembly is connected to the rear end of the second cross-support frame through a second roller positioning seat;

the first longitudinal moving motor is connected with the first rear longitudinal gear assembly through the gear transmission shaft assembly, the first longitudinal moving motor drives the first longitudinal moving roller to rotate through the gear transmission shaft assembly, and the first longitudinal moving roller drives the second cross support to move forward or backward at the upper end of the second track mechanism after rotating;

the second track mechanism comprises three second longitudinal rack tracks which are respectively connected to the upper ends of the left part, the middle part and the right part of the wool mixing bin.

6. The wool fiber mixing processing device according to claim 4, wherein the third moving mechanism comprises a third transverse moving frame and a third transverse moving motor, the third transverse moving frame is connected to the lower end of the transverse moving bin, and the third transverse moving frame is formed by connecting four third groove steel plates;

the third transverse moving frame is connected with a third slide rail mechanism arranged above the second transverse support frame through two groups of third transverse roller assemblies; the third transverse moving motor is connected to the side end of the third transverse moving frame and is connected with the third transverse roller assembly through a third transmission gear connecting rod assembly; the third transverse moving motor drives the third transverse moving frame to move leftwards or rightwards on the third slide rail mechanism through the third transverse roller component.

7. The wool fiber hybrid processing device according to claim 6, wherein the laterally moving bin comprises a laterally forward baffle, a laterally left baffle and a laterally right baffle, and the laterally forward baffle, the laterally left baffle and the laterally right baffle are all fixedly connected to the upper end of the third laterally moving frame through bolts;

the transverse left baffle and the transverse right baffle are connected to two sides of the transverse front baffle; the transverse front baffle, the transverse left baffle, the transverse right baffle and the first fur blocking combined plate are combined to form a prismatic frustum shell-shaped transverse moving hopper;

the transverse conveying belt assembly comprises a transverse conveying curtain which is connected in a third transverse moving frame through two groups of second roller assemblies;

and the lateral wall of the third transverse moving frame is connected with a transverse conveying curtain motor, and the transverse conveying curtain motor drives a transverse conveying curtain to rotate through a second roller component.

8. The wool fiber hybrid processing device according to claim 1, wherein the lifting device comprises a first lifting support frame and a lifting support shell, and the first lifting support frame is connected with a first lifting slideway arranged at the upper end of the first underframe in a sliding manner through a first lifting pulley assembly;

the lifting support shell is connected to the upper end of the first lifting support frame through a first support shell reinforcing rod, the lifting support shell comprises a first rear support shell and a first front support shell connected to the front end of the upper portion of the first rear support shell, a diagonal nail curtain conveying belt is arranged in the first rear support shell, the diagonal nail curtain conveying belt is connected with the first rear support shell through a first diagonal nail curtain conveying roller assembly, and the first diagonal nail curtain conveying roller assembly is driven to rotate through a first diagonal nail curtain motor connected to the outer wall of the first rear support shell;

a wool fiber beater assembly and a wool fiber collecting conveyor belt are arranged in the first front support shell, the wool fiber beater assembly is positioned in front of the upper part of the inclined nail curtain conveyor belt and can strip wool fibers conveyed by the inclined nail curtain conveyor belt;

the wool fiber collecting conveyor belt is positioned below the wool fiber beater assembly and can convey the wool fibers stripped by the wool fiber beater assembly to the left or the right.

9. The wool fiber hybrid processing device according to claim 8, wherein the wool fiber beater assembly is connected with the first front support shell through a beater bearing assembly, and the wool fiber beater assembly is driven to rotate by a first beater motor connected to the side wall of the first front support shell;

the wool fiber collecting and conveying belt is connected with the first front support shell through two groups of first wool fiber collecting and conveying roller components, and the first wool fiber collecting and conveying roller components are driven to rotate by a first wool fiber collecting motor connected to the outer wall of the first front support shell;

the left lower end and the right lower end of the first front support shell are both provided with first side support shell notches, and a group of wool fiber limiting mechanisms are arranged in each first side support shell notch;

the wool fiber limiting mechanism comprises a first rotary material stop door and a first linkage cylinder, the first rotary material stop door is in an L-shaped plate shape, and the upper end of the side of the first rotary material stop door is fixedly connected with a first material door connecting plate connected in a first front support shell through a hinge;

a first linkage cylinder positioning seat is connected to the first front support shell above the notch of the first side support shell, the cylinder body of the first linkage cylinder is rotatably connected with the first linkage cylinder positioning seat, and the cylinder shaft of the first linkage cylinder is connected with the first rotary stop gate through a first hook hinge assembly;

the first linkage cylinder can drive the first rotary material blocking door to rotate, and the first rotary material blocking door can penetrate through the opening of the first side support shell.

10. The wool fiber hybrid processing device according to claim 8, wherein the receiving device comprises a receiving support frame, the receiving support frame comprises a second bottom frame and a receiving L-shaped support connected to the upper end of the second bottom frame, the second bottom frame is connected with the first bottom frame, and a first receiving hopper is connected to the upper part of the receiving L-shaped support;

the first collecting hopper is a prismoid hopper with openings at the upper end and the lower end, and the upper end surface of the first collecting hopper is abutted against the lower end surface of the front part of the first front support shell; the discharge port end below the first collecting hopper is connected with a discharge hose, and the tail end of the discharge hose is connected with a discharge fan.

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