CN212687085U - Full-automatic numerical control cotton pulling equipment - Google Patents

Abstract

The utility model discloses a full-automatic numerical control cotton pulling device, which is provided with a frame body for mounting and supporting, wherein the middle part of the device is provided with a stacking area, a cotton pulling area is arranged above the stacking area, the cotton pulling area is provided with two cotton pulling mechanisms, the frame body in the cotton pulling area is provided with an upper running track and a lower running track, the upper running track is a circulating track, and the lower running track is a working track; the cotton-pulling mechanism comprises a first cotton-pulling mechanism, a second cotton-pulling mechanism and a third cotton-pulling mechanism, wherein the first cotton-pulling mechanism runs on a lower working track, cotton is pulled from the front end of equipment to the rear end of the equipment, the second cotton-pulling mechanism runs from the rear end of the equipment to the front end of the equipment on an upper circulating track, the second cotton-pulling mechanism ascends to the upper circulating track after the first cotton-pulling mechanism finishes cotton-pulling work and descends to the lower working track for cotton-pulling work, the two cotton-pulling mechanisms are alternately matched with cotton-pulling mechanisms to stack cotton layer by layer in a stacking area, and meanwhile, the cotton-cutting, cotton-pulling and cotton-stacking are integrated, so that the working efficiency is improved by more than two times, the traditional manual cotton-stacking.

Description

Full-automatic numerical control cotton pulling equipment

Technical Field

The utility model relates to a fold cotton technical field, concretely relates to cotton equipment is drawn in full-automatic numerical control.

Background

In the production nylon cotton buffing wheel enterprise, the non-woven fabrics is glued the back, needs to be cut into certain specification shape with the cotton, then piles up the cotton piece by piece and reach certain height after, pulls away through fork truck. The step of overlapping the cotton layers is repeated, and the domestic current operation process is simple mechanical and manual operation cooperation, so that the cotton pulling and overlapping efficiency is low, the labor cost is high, a large-scale production mode is not easy to realize, and automatic production cannot be formed.

For example, patent No. CN201620482423.6 entitled new cotton folding machine discloses that a cotton block is transported on a roller conveyor, when the cotton block reaches a baffle, a cotton feeding frame driving device is operated, the roller cotton feeding frame moves leftwards, and the roller drives the cotton block to move leftwards and push the baffle open, and then falls onto the roller cotton feeding frame, and when the cotton block completely passes through the baffle by a rear roller, the rotation is suspended, and the next cotton block is waited for transportation. Send cotton frame drive arrangement to drive the cylinder and send cotton frame to remove to the right, the cotton piece falls on the stack board this moment, collects the height that frame drive arrangement drove to collect the frame and descend a face piece. The automatic overlapping of the cotton blocks can be realized by repeating the actions. In practical application, the cotton folding machine and the existing cotton folding machine have the following defects: the first is that: when the previous cotton block does not fall onto the stacking plate, the cotton feeding and carrying device stops working, so that the working efficiency is greatly influenced; secondly, the following steps: the cotton folding machine is not provided with a cotton cutting mechanism and a subsequent transfer mechanism, and needs to be matched with manpower or equipment to operate, so that automatic operation cannot be realized, and the requirements of customers cannot be met.

SUMMERY OF THE UTILITY MODEL

The not enough to prior art, the utility model provides a cotton equipment is drawn in full-automatic numerical control adopts automatic two sets to draw cotton mechanism cooperation in turn to draw cotton, surely cotton simultaneously, draw cotton, fold cotton as an organic whole, and work efficiency improves more than the twice at least, replaces traditional artifical cotton operation mode of folding completely, lays a good foundation for having realized the automatic of electrical machinery numerical control.

The utility model adopts the technical proposal that:

the full-automatic numerical control cotton pulling equipment is provided with a frame body for mounting and supporting, wherein the middle part of the equipment is provided with a stacking area for stacking cotton blocks, a cotton pulling area is arranged above the stacking area, and the cotton pulling area is provided with two cotton pulling mechanisms which are a first cotton pulling mechanism and a second cotton pulling mechanism respectively;

an upper layer and a lower layer of running rails are arranged on the frame body positioned in the cotton pulling area, the upper layer is a circulating rail, and the lower layer is a working rail; the cotton-pulling mechanism runs on the lower working track, cotton is pulled to the rear end of the device from the front end of the device, the cotton-pulling mechanism runs to the front end of the device from the rear end of the device on the upper circulating track, when the cotton-pulling mechanism stops cotton-pulling operation, the cotton-pulling mechanism rises to the upper circulating track to run, the cotton-pulling mechanism falls to the lower working track from the upper circulating track to pull cotton, the two cotton-pulling mechanisms alternately cooperate to pull cotton from the front end of the device to the rear end of the device, and the cotton is stacked in the stacking area layer by layer.

According to the full-automatic numerical control cotton pulling equipment, the cotton pulling area is sequentially divided into a cotton pulling initial section, a cotton pulling middle section and a cotton pulling final section from the front end of the equipment to the rear end of the equipment, and the cotton pulling middle section is positioned above the stacking area;

an upper layer and a lower layer of running rails are arranged on the frame body in the middle section of the cotton pulling, the upper layer is a circulating rail, and the lower layer is a working rail;

the frame body positioned at the cotton pulling initial section is provided with a first lifting mechanism which is used for lowering the first cotton pulling mechanism or the second cotton pulling mechanism positioned at the upper layer to the lower layer to be butted with the working track for cotton pulling operation, and then restoring to the initial original position to wait for the next lifting action command;

and the frame body at the cotton pulling final section is provided with a second lifting mechanism which is used for lifting the second cotton pulling mechanism or the first cotton pulling mechanism positioned at the lower layer after the cotton pulling operation is finished to the upper layer to be butted with the circulating track for the next cotton pulling operation cycle, and then restoring to the initial original position to wait for the next lifting action command.

Full-automatic numerical control cotton pulling equipment, first elevating system has: the lifting frame and two sets of lifting components are used for driving the lifting frame to move; the lifting frame is used for bearing the operation of the first cotton pulling mechanism or the second cotton pulling mechanism at the cotton pulling initial section; two sets of lifting components are respectively arranged on the frame body along the symmetrical arrangement of two sides of the cotton pulling initial section;

the second lifting mechanism structure is the same as the first lifting mechanism, and is provided with: the lifting frame and two sets of lifting components are used for driving the lifting frame to move; the lifting frame is used for bearing a running track of the second cotton pulling mechanism or the first cotton pulling mechanism, and the running track is positioned at the final cotton pulling section; two sets of lifting components are respectively arranged on the frame body along the symmetrical arrangement of two sides of the cotton pulling end section.

Full-automatic numerical control cotton pulling equipment, lifting unit includes the riser, by riser driven lift drive shaft, is located the lift guide shaft of lift drive shaft both sides, the crane is installed on lift drive shaft and lift guide shaft, still be equipped with linear bearing on the lift guide shaft.

Full-automatic numerical control draws cotton equipment, first draw cotton mechanism and second to draw the structure of cotton mechanism the same, all have and be used for the drive to draw the driving motor that cotton mechanism moved the walking, the driving shaft of being connected with driving motor, connect the drive gear in the driving shaft both sides to and be located the driven shaft of driving shaft front side, be located the driven gear of driven shaft both sides, install the mounting bracket on driving shaft and driven shaft, two relative punch holder and the lower plate that set up are equipped with on the mounting bracket, are used for pressing from both sides the cotton.

The full-automatic numerical control cotton pulling equipment is characterized in that the running track, the working track and the circulating track are racks matched with the driving gear and the driven gear.

Full-automatic numerical control cotton pulling equipment, it is used for bearing and piles up cotton piece to pile up the district and be equipped with the elevating platform, the elevating platform has raising and lowering functions, the function of weighing, oscilaltion function and removes the removal function.

The full-automatic numerical control cotton pulling equipment is characterized in that a numerical control cutting area is further arranged in front of the cotton pulling area, namely the cotton inlet of the equipment, the numerical control cutting area is provided with a numerical control cutting mechanism arranged on the frame body, and the numerical control cutting mechanism is provided with a numerical control cutting knife and a cutting die.

The full-automatic numerical control cotton pulling equipment is characterized in that a plurality of exhaust fans are arranged above the cotton pulling area, namely the top of the equipment.

The full-automatic numerical control cotton pulling equipment is also provided with a control system, and the control system is respectively connected with the first cotton pulling mechanism, the second cotton pulling mechanism, the first lifting mechanism, the second lifting mechanism, the lifting platform, the numerical control cutting mechanism and the exhaust fan.

The utility model discloses following beneficial effect has:

1. the automation degree is increased, and the labor force of personnel is reduced. The utility model discloses cotton equipment is drawn in full-automatic numerical control, the collection is drawn cotton, is folded cotton, is cut cotton as an organic whole flow, replaces current manual work to fold cotton, and the solution person contacts closely with product equipment, and the intensive production form of working, equipment commonality look into the scheduling problem, improve automatic degree.

2. The number of template units is reduced; the cotton is cut off according to the set shape by adopting a control system and a numerical control cutting mechanism according to the requirement, and the problems that the universality of cotton head cutting equipment is insufficient, a plurality of matched units are needed and the like are solved.

3. The structure configuration is optimized, the cotton pulling and stacking efficiency is improved, and the equipment cost is saved.

Drawings

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

FIG. 1 is a schematic view of a side view structure of the fully automatic numerical control cotton pulling device of the present invention;

FIG. 2 is a schematic view of an axial measurement structure of the full-automatic numerical control cotton pulling device of the present invention;

FIG. 3 is a schematic axial view of a cotton pulling mechanism of the automatic stacking device shown in FIG. 1;

FIG. 4 is a schematic side view of the cotton pulling mechanism of the automatic stacking device shown in FIG. 1;

the attached drawings are as follows: 1-cotton, 1.1-cotton block; 2-numerical control cutting area, 2.1-numerical control cutting knife, 2.2-cutting die, 3-stacking area, 3.1-lifting table, 4-cotton pulling area, 4.1-first cotton pulling mechanism, 4.2-second cotton pulling mechanism, 4.3-circulating track, 4.4-working track, 4.5-first lifting mechanism, 4.6-second lifting mechanism, 4.7-lifting frame, 4.8-lifter, 4.9-lifting driving shaft, 4.10-lifting guide shaft, 4.11-linear bearing, 4.12-driving motor, 4.13-driving shaft, 4.14-driving gear, 4.15-driven gear, 4.16-mounting frame, 4.17-upper clamping plate, 4.18-lower clamping plate, 5-frame body and 6-exhaust fan.

Detailed Description

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

As shown in fig. 1-2, the full-automatic numerical control cotton pulling device has a frame body 5 for mounting and supporting, a stacking area 3 for stacking cotton blocks 1.1 is arranged in the middle of the device, a cotton pulling area 4 is arranged above the stacking area 3, and the cotton pulling area 4 is provided with two cotton pulling mechanisms, namely a first cotton pulling mechanism 4.1 and a second cotton pulling mechanism 4.2; the cotton pulling device is characterized in that a numerical control cutting area 2 is further arranged in front of the cotton pulling area 4, namely at a cotton inlet of the device, the numerical control cutting area 2 is provided with a numerical control cutting mechanism arranged on a frame body 5, and the numerical control cutting mechanism is provided with a numerical control cutting knife 2.1 and a cutting die 2.2. And a plurality of exhaust fans 6 are arranged above the cotton pulling area 4, namely the top of the equipment, and as shown in fig. 2, three exhaust fans 6 are respectively arranged on the top end of the equipment through three top exhaust fan mounting plates.

Further, cotton equipment is drawn in full-automatic numerical control, it is used for bearing and piles up cotton piece to pile up district 3 and be equipped with elevating platform 3.1, the elevating platform has raising and lowering functions, the function of weighing, oscilaltion function and removes the removal function about.

As shown in fig. 1, an upper layer and a lower layer of running rails are arranged on the frame body 5 positioned in the cotton pulling area 4, the upper layer is a circulating rail 4.3, and the lower layer is a working rail 4.4; the cotton pulling mechanism 4.1 runs on the lower working track 4.4, cotton is pulled to the rear end of the device from the front end of the device, the second cotton pulling mechanism 4.2 runs to the front end of the device from the rear end of the device on the upper circulating track, when the first cotton pulling mechanism 4.1 finishes cotton pulling work, the cotton pulling mechanism rises to the upper circulating track 4.3 to run, the second cotton pulling mechanism 4.2 descends to the lower working track 4.4 from the upper circulating track 4.3 to perform cotton pulling work, the two cotton pulling mechanisms are alternately matched in such a way to pull cotton from the front end of the device to the rear end of the device, and the cotton pulling mechanisms are stacked on the lifting platform 3.1 in the stacking area 3 layer by layer.

The cotton pulling area 4 is sequentially divided into a cotton pulling starting section, a cotton pulling middle section and a cotton pulling end section from the front end of the equipment to the rear end of the equipment, and the cotton pulling middle section is positioned above the stacking area 3; the upper and lower layers of running rails are arranged on the frame body 5 in the middle section of the cotton pulling, the upper layer is a circulating rail 4.3, and the lower layer is a working rail 4.4;

the frame body 5 positioned at the cotton pulling initial section is provided with a first lifting mechanism 4.5 which is used for lowering the first cotton pulling mechanism 4.1 or the second cotton pulling mechanism 4.2 positioned at the upper layer to the lower layer to be butted with the working track 4.4 for cotton pulling work, and then restoring to the initial original position to wait for the next lifting action command; the first lifting mechanism 4.5 has: the lifting frame 4.7 and two sets of lifting components are used for driving the lifting frame 4.7 to move; the lifting frame 4.7 is used for bearing a running track of the first cotton pulling mechanism 4.1 or the second cotton pulling mechanism 4.2, which is positioned at a cotton pulling starting section; the two sets of lifting components are respectively arranged on the frame body 5 along the symmetrical arrangement of two sides of the cotton pulling initial section.

And a second lifting mechanism 4.6 is arranged on the frame body 5 at the final cotton pulling section and is used for lifting the second cotton pulling mechanism 4.2 or the first cotton pulling mechanism 4.1 which is positioned at the lower layer and finishes the cotton pulling work to the upper layer to be butted with the circulating track 4.3 for the next cotton pulling work cycle, and then restoring to the initial original position to wait for the next lifting action command. The second lifting mechanism 4.6 is structurally the same as the first lifting mechanism 4.5, and comprises: the lifting frame 4.7 and two sets of lifting components are used for driving the lifting frame 4.7 to move; the lifting frame 4.7 is used for bearing a running track of the second cotton pulling mechanism 4.2 or the first cotton pulling mechanism 4.1, which is positioned at the cotton pulling end section; the two sets of lifting components are respectively arranged on the frame body 5 along the symmetrical arrangement of the two sides of the final cotton pulling section. The lifting assembly comprises a lifter 4.8, a lifting driving shaft 4.9 driven by the lifter 4.8 and lifting guide shafts 4.10 positioned on two sides of the lifting driving shaft, the lifter 4.7 is arranged on the lifting driving shaft 4.9 and the lifting guide shafts 4.10, and linear bearings 4.11 are also arranged on the lifting guide shafts 4.10;

as shown in fig. 3-4, the first cotton pulling mechanism 4.1 and the second cotton pulling mechanism 4.2 have the same structure, and each has a driving motor 4.12 for driving the cotton pulling mechanism to travel, a driving shaft 4.13 connected with the driving motor 4.2, driving gears 4.14 connected to two sides of the driving shaft 4.13, and a driven shaft located at the front side of the driving shaft 4.13, driven gears 4.15 located at two sides of the driven shaft, and a mounting rack 4.16 mounted on the driving shaft 4.13 and the driven shaft, wherein two upper clamping plates 4.17 and two lower clamping plates 4.18 arranged oppositely are mounted on the mounting rack 4.16 and used for clamping cotton 1. The running track, the circulating track 4.3 and the working track 4.4 are all racks matched with a driving gear 4.14 and a driven gear 4.15.

When the first cotton pulling mechanism 4.1 carries out cotton pulling work on the lower working track 4.4 and pulls cotton from a cotton pulling initial section to a cotton pulling final section, the numerical control cutting knife 2.1 cuts the cotton, the cotton 1.1 falls on the lifting platform 3.1, the lifting platform 4.7 of the first lifting mechanism 4.6 drives the running track of the cotton pulling initial section to ascend to meet the second cotton pulling mechanism 4.2 running on the upper circulating track 4.3, the second cotton pulling mechanism 4.2 descends from the upper layer to the lower layer to be in butt joint with the lower working track 4.4, the second cotton pulling mechanism 4.2 starts cotton pulling work, meanwhile, the lifting platform 4.7 of the second lifting mechanism 4.6 drives the running track of the final section to ascend from the lower layer to the upper layer to be in butt joint with the upper circulating track 4.3, and simultaneously sends the first cotton pulling mechanism 4.1 at the cotton pulling final section to the upper circulating track 4.3 to run, the rear end of the device runs to the front end of the device, and waits for the first cotton pulling mechanism to descend to the lower working track 4.4.6 to carry out cotton pulling work, the first cotton pulling mechanism 4.1 and the second cotton pulling mechanism 4.2 alternately circulate in a reciprocating way in sequence.

Preferably, the full-automatic numerical control cotton pulling equipment is further provided with a control system, and the control system is respectively connected with the first cotton pulling mechanism, the second cotton pulling mechanism, the first lifting mechanism, the second lifting mechanism, the lifting table, the numerical control cutting mechanism and the exhaust fan. The control system mainly comprises a PLC, a touch screen and a motion controller. The PLC stores the programs and corresponding parameters of the whole set of equipment, and a manual mode, an automatic mode and a parameter modification mode are designed on the touch screen; the motion controller controls the running track of the numerical control cutting knife, and the program is stored in the motion controller.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

Furthermore, the terms "first", "second", "element i", "element ii" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying a number of technical features indicated. Thus, features defined as "first", "second", "element i", "element ii" may explicitly or implicitly include one or more of such features. In the description of the present invention, "plurality" or "a plurality" means two or more unless specifically limited otherwise.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The full-automatic numerical control cotton pulling equipment is provided with a frame body for mounting and supporting, and is characterized in that a stacking area is arranged in the middle of the equipment and used for stacking cotton blocks, a cotton pulling area is arranged above the stacking area, and the cotton pulling area is provided with two cotton pulling mechanisms which are a first cotton pulling mechanism and a second cotton pulling mechanism respectively;

an upper layer and a lower layer of running rails are arranged on the frame body positioned in the cotton pulling area, the upper layer is a circulating rail, and the lower layer is a working rail; the cotton-pulling mechanism runs on the lower working track, cotton is pulled to the rear end of the device from the front end of the device, the cotton-pulling mechanism runs to the front end of the device from the rear end of the device on the upper circulating track, when the cotton-pulling mechanism stops cotton-pulling operation, the cotton-pulling mechanism rises to the upper circulating track to run, the cotton-pulling mechanism falls to the lower working track from the upper circulating track to pull cotton, the two cotton-pulling mechanisms alternately cooperate to pull cotton from the front end of the device to the rear end of the device, and the cotton is stacked in the stacking area layer by layer.

2. The full-automatic numerical control cotton pulling equipment as claimed in claim 1, wherein the cotton pulling area is divided into a cotton pulling initial section, a cotton pulling middle section and a cotton pulling final section in sequence from the front end of the equipment to the rear end of the equipment, and the cotton pulling middle section is positioned above the stacking area;

an upper layer and a lower layer of running rails are arranged on the frame body in the middle section of the cotton pulling, the upper layer is a circulating rail, and the lower layer is a working rail;

the frame body positioned at the cotton pulling initial section is provided with a first lifting mechanism which is used for lowering the first cotton pulling mechanism or the second cotton pulling mechanism positioned at the upper layer to the lower layer to be butted with the working track for cotton pulling operation, and then restoring to the initial original position to wait for the next lifting action command;

and the frame body at the cotton pulling final section is provided with a second lifting mechanism which is used for lifting the second cotton pulling mechanism or the first cotton pulling mechanism positioned at the lower layer after the cotton pulling operation is finished to the upper layer to be butted with the circulating track for the next cotton pulling operation cycle, and then restoring to the initial original position to wait for the next lifting action command.

3. The fully-automatic numerical control cotton pulling device according to claim 2, wherein the first lifting mechanism comprises: the lifting frame and two sets of lifting components are used for driving the lifting frame to move; the lifting frame is used for bearing the operation of the first cotton pulling mechanism or the second cotton pulling mechanism at the cotton pulling initial section; two sets of lifting components are respectively arranged on the frame body along the symmetrical arrangement of two sides of the cotton pulling initial section;

the second lifting mechanism structure is the same as the first lifting mechanism, and is provided with: the lifting frame and two sets of lifting components are used for driving the lifting frame to move; the lifting frame is used for bearing a running track of the second cotton pulling mechanism or the first cotton pulling mechanism, and the running track is positioned at the final cotton pulling section; two sets of lifting components are respectively arranged on the frame body along the symmetrical arrangement of two sides of the cotton pulling end section.

4. The full-automatic numerical control cotton pulling device as claimed in claim 3, wherein the lifting assembly comprises a lifter, a lifting driving shaft driven by the lifter, and lifting guide shafts positioned at both sides of the lifting driving shaft, the lifter is installed on the lifting driving shaft and the lifting guide shafts, and the lifting guide shafts are further provided with linear bearings.

5. The full-automatic numerical control cotton pulling equipment as claimed in claim 1, wherein the first cotton pulling mechanism and the second cotton pulling mechanism are identical in structure and are respectively provided with a driving motor for driving the cotton pulling mechanism to run and walk, a driving shaft connected with the driving motor, driving gears connected to two sides of the driving shaft, a driven shaft positioned on the front side of the driving shaft, driven gears positioned on two sides of the driven shaft, and a mounting frame arranged on the driving shaft and the driven shaft, wherein an upper clamping plate and a lower clamping plate which are arranged oppositely are arranged on the mounting frame and used for clamping cotton.

6. The fully automatic numerical control cotton pulling device as claimed in claim 1, wherein the running track, the working track and the circulating track are racks which are matched with the driving gear and the driven gear.

7. The full-automatic numerical control cotton pulling equipment as claimed in claim 1, wherein the stacking area is provided with a lifting platform for bearing stacked cotton blocks, and the lifting platform has a lifting function, a weighing function, an up-down lifting function and a left-right moving function.

8. The full-automatic numerical control cotton pulling equipment as claimed in claim 1, wherein a numerical control cutting area is further arranged in front of the cotton pulling area, namely at a cotton inlet of the equipment, the numerical control cutting area is provided with a numerical control cutting mechanism arranged on the frame body, and the numerical control cutting mechanism is provided with a numerical control cutting knife and a cutting die.

9. The full-automatic numerical control cotton pulling equipment as claimed in claim 1, wherein a plurality of exhaust fans are arranged above the cotton pulling area, namely the top of the equipment.

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