CN109203360B - Cloth department feed arrangement of through-flow end cover - Google Patents

Abstract

The invention discloses a cloth feeder of a through-flow end cover, which comprises a spiral feeding tray, a feeding track, an ejection mechanism and a separation mechanism, wherein the spiral feeding tray comprises a base, a driving device arranged in the base, a barrel body fixed on the base, and a spiral feeding track arranged in the barrel body and in transmission connection with the driving device at the center, a top discharge end of the feeding track passes through a feeding end of the feeding track in rotation, two symmetrical L-shaped guide plates are fixed on the feeding track, the horizontal parts of the L-shaped guide plates are positioned at the upper parts, the distance between the horizontal parts of the two L-shaped guide plates is matched with the width of a ring piece at the top of the cloth, and the gap height between the L-shaped guide plates and the feeding track is matched with the height of a disc at the bottom of the cloth. According to the invention, the cloth can be sequentially fed to the set feeding position at equal intervals according to the requirement of the feeding device.

Description

Cloth department feed arrangement of through-flow end cover

Technical Field

The invention relates to the field of feeding and discharging devices, in particular to a cloth feeding device of a through-flow end cover.

Background

The through-flow end cover consists of a cloth of a metal piece and end cover fan blades formed by injection molding. The existing through-flow end cover is manufactured by insert injection molding of the cloth in injection molding equipment, is high in speed, avoids the assembly process of the cloth and the injection molding equipment, and is high in qualification rate. The injection molding process is to heat the polymer material to a certain temperature, then squeeze the polymer material in a molten state into a mold cavity through external force and hold the polymer material for a period of time, finally cool and open the mold, and take out the workpiece. The existing injection molding production mode has the following problems: 1. the production environment is bad, for example, the workshop temperature is high, the high polymer material can emit odor during heating, the injection molding equipment can generate larger noise, and the like, and the bad environment seriously affects the health of people; 2. the production process mostly depends on manual operations such as picking up, detecting and splitting products, packaging and the like, on one hand, the safety of the manual operations is lower, the efficiency is lower, and on the other hand, along with the reduction of the bonito of China population, the labor-intensive production mode has no advantages, so that the cost of the production process is increased, the production efficiency is low, and the production of the through-flow end cover is required.

According to the invention patent with the application number of CN201510047045.9, a groove is formed in a feeding channel, so that a small-diameter part of a workpiece enters the groove, a large diameter part of the workpiece is arranged above the groove, the workpiece which is not regular in the mode is discharged from the groove through a through hole to reenter the bottom of a hopper, and meanwhile, the workpiece which is not regular can be blown out of the groove by blowing towards the air hole through an external blowing mechanism. But this structure can't be with the regular pay-off of the ring spare that the diameter is less upwards, can not effectively set up pay-off order and interval according to the required interval of loading attachment material loading one by one moreover.

Disclosure of Invention

The invention aims to provide a cloth feeder of a through-flow end cover, which solves the problems that cloth cannot be effectively regulated to be upward at the top and cannot be sequentially fed to a set feeding position at equal intervals according to the requirement of a feeding device in the prior art.

The utility model provides a cloth department feed arrangement of through-flow end cover, includes spiral feeding tray, feeding track, ejection mechanism and separating mechanism, spiral feeding tray includes the base, installs drive arrangement in the base, fix staving on the base, establish in the staving and the center with the spiral feeding track that drive arrangement transmission is connected, spiral feeding track's top discharge end passes through in rotatory feeding track's feed end department, be fixed with two symmetrical L type deflector on the feeding track, the horizontal part of L type deflector is located upper portion and the interval of the horizontal part of two L type deflector suits with the ring width at cloth department top, L type deflector with the clearance height of feeding track with cloth department bottom disc's height suits.

Preferably, a separation mounting plate is fixed on the outer side of the feeding track, the separation mounting plate is fixedly provided with a separation mechanism and a photoelectric sensor, the photoelectric sensor is arranged at the discharge end of the feeding track, the separation mechanism is arranged in front of the discharge end of the feeding track, and the photoelectric sensor is electrically connected to the separation mechanism and the ejection mechanism.

Preferably, the discharge end of the feeding track is provided with a positioning groove, the end part of the positioning groove is semicircular corresponding to the shape of the cloth, a through hole is formed in the bottom of the positioning groove, the ejection mechanism is an electric cylinder fixed at the bottom of the discharge end of the feeding track, a thimble corresponding to a concave hole in the center of the bottom of the cloth is arranged at the extending end of a piston rod of the electric cylinder, and the thimble is positioned at the center of the through hole.

Preferably, the separation mechanism is two separation cylinders arranged along the feeding track direction, a stop lever fixed at the end part of a piston rod of each separation cylinder extends to the upper surface of the feeding track, the stop lever blocks a ring piece at the top of the cloth, and the cloth passes through when the stop lever is retracted.

Preferably, the cylinder bodies of the two separation cylinders are communicated through air holes, the air holes are respectively communicated with the front cavity of the cylinder body of one separation cylinder and the front cavity of the other separation cylinder, and the rear cavity of the former separation cylinder and the rear cavity of the latter separation cylinder are communicated with an air source through air pipes.

Preferably, a conveying belt is arranged at the bottom of the feeding track.

The top discharge end of the spiral feeding track is provided with a slope which is convenient for the cloth to slide inwards, the inclined angle of the slope is smaller than 30 degrees, and the width of the slope is smaller than 1/4 of the diameter of the bottom of the cloth.

The invention has the advantages that: the channel which is matched with the regular cloth is set through the L-shaped guide plate on the feeding track, so that the cloth is in a regular form which meets the requirements when entering the feeding track, and the top of the cloth is upward after the cloth is effectively regular. Meanwhile, the separating mechanism can control the discharge of the cloth at the discharge end of the feeding track through the timing switch at equal intervals, so that the latter cloth can be prevented from entering the discharge end during conveying, and the continuous feeding can be ensured as long as the discharge end is free of cloth. The effect is controlled through the photoelectric sensor and the controller, so that the cloth feeding device can sequentially feed the cloth to the set feeding position at equal intervals according to the requirement of the feeding device.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 from another perspective;

FIG. 3 is a top view of the structure shown in FIG. 1;

FIG. 4 is a schematic view of the partition mechanism in embodiment 1;

fig. 5 is a cross-sectional view of the top discharge end of the spiral feed track of the present invention.

The device comprises a base, a barrel body, a spiral feeding track, a slope, a feeding track, a guide plate, a separating mechanism, a shell, a separating cylinder, a separating rod, a locating groove, a through hole, a 7-type ejection mechanism mounting plate, an 8-type ejection mechanism, an 81-type ejection pin, a 9-type photoelectric sensor and a photoelectric sensor, wherein the base is 1, the barrel body, the spiral feeding track, the slope, the 4-type ejection mechanism, the feeding track, the 41-type ejection pin, the L-type guide plate, the separating mechanism, the 51-type ejection pin, the 52-type ejection pin, the separating cylinder, the 53-type ejection pin, the 6-type ejection mechanism mounting plate, the 8-type ejection mechanism, the 81-type ejection mechanism and the 9-type photoelectric sensor.

Detailed Description

The following detailed description of the embodiments of the invention, given by way of example only, is presented in the accompanying drawings to aid in a more complete, accurate, and thorough understanding of the inventive concepts and aspects of the invention by those skilled in the art.

Example 1:

as shown in fig. 1-5, the invention provides a cloth feeder of a through-flow end cover, and the feeding and discharging device adopting a feeding and discharging manipulator further comprises a slideway, the feeding and discharging manipulator and a cooling placement tool. The cloth feeding device of the through-flow end cover comprises a spiral feeding disc, a feeding track 4, an ejection mechanism 8 and a separation mechanism 5.

The spiral feeding tray comprises a base 1, a driving device arranged in the base 1, a barrel body 2 fixed on the base 1, and a spiral feeding track 3 arranged in the barrel body 2 and in transmission connection with the driving device at the center, wherein the top discharging end of the spiral feeding track 3 passes through the feeding end of the feeding track 4 in rotation, two symmetrical L-shaped guide plates 41 are fixed on the feeding track 4, the horizontal part of each L-shaped guide plate 41 is positioned on the upper part, the distance between the horizontal parts of each L-shaped guide plate 41 is matched with the width of a ring piece at the top of a cloth, and the gap height of each L-shaped guide plate 41 with the feeding track 4 is matched with the height of a disc at the bottom of the cloth. Thus, if the cloth which is delivered to the feeding end of the feeding track 4 is in an inclined or inverted state, the cloth cannot enter the channel formed by the two L-shaped guide plates 41, and the cloth entering the feeding track 4 can be regulated. The drive means may be an electric motor or other structural power means such as a rotary cylinder.

The top discharge end of the spiral feeding track 3 is provided with a slope 31 which is convenient for the cloth to slide inwards, the inclined angle of the slope 31 is smaller than 30 degrees, and the width is smaller than 1/4 of the diameter of the bottom of the cloth. Thus, when irregular cloth reaches the feeding hole of the feeding track 4 and is blocked by the L-shaped guide plate 41, the movable slope 31 slides into the spiral feeding track 3 to be ready to be sent to the feeding track 4 next time. The inclination angle of less than 30 degrees and the width of less than 1/4 of the diameter of the bottom of the cloth are both intended to prevent the cloth, the bottom of which is in contact with the screw feed rail 3, from slipping off during the latter transport.

And a conveying belt is arranged at the bottom of the feeding track 4. The cloth was transported to the feed end. The discharge end of the feeding track 4 is provided with a positioning groove 6, the end part of the positioning groove 6 is semicircular corresponding to the shape of the sauce, the bottom of the positioning groove 6 is provided with a through hole 61, the ejection mechanism mounting plate 7 is fixed on the outer side wall of the square edge part of the barrel body 2 provided with the feeding track 4, and the ejection mechanism mounting plate is provided with a hole corresponding to the through hole 6161 for the extending end of the ejection mechanism 8 to pass through. The ejection mechanism 8 is an electric cylinder fixed at the bottom of the discharge end of the feeding track 4 and is arranged below the ejection mechanism mounting plate 7 positioned at the bottom of the discharge end. The piston rod extension end of the electric cylinder is provided with a thimble 81 corresponding to the central concave hole at the bottom of the cloth, and the thimble 81 is positioned at the center of the through hole 61. Thus, the cloth in the positioning groove 6 can be lifted to a position suitable for grabbing by the feeding and discharging mechanical arm under the action of the ejection mechanism 8, so that the ejection mechanism can greatly facilitate the arrangement and grabbing of the mechanical arm, and the universality and the convenience degree of the invention are improved.

A separation mounting plate is fixed on the outer side of the feeding track 4, and a separation mechanism 5 and a photoelectric sensor 9 are fixed on the separation mounting plate. The separation mechanism 5 is composed of two separation cylinders 52 arranged along the direction of the feeding track 4, a stop lever 53 fixed at the end of a piston rod of each separation cylinder 52 extends to the upper surface of the feeding track 4, a ring member at the top of the cloth is blocked when the stop lever 53 extends, and the cloth passes through when the stop lever 53 is retracted. The cylinder bodies of the two separation cylinders 52 are communicated through air holes, the air holes are respectively communicated with the front cavity of the cylinder body of one separation cylinder 52 and the front cavity of the other separation cylinder 52, and the rear cavity of the front separation cylinder 52 and the rear cavity of the rear separation cylinder 52 are communicated with an air source through air pipes. The two stop rods 53 can extend out in turn under the action of the separation cylinder 52, stop the cloth at the front of the separation mechanism 5 when feeding towards the feeding end, and prevent the feeding end from reentering the cloth and allow the cloth at the front of the separation mechanism 5 to enter the separation mechanism 5 when ejecting the cloth.

The photoelectric sensor 9 is arranged at the discharge end of the feeding track 4, and the separation mechanism 5 is arranged in front of the discharge end of the feeding track 4. The photo-sensor 9 is electrically connected to the partitioning mechanism 5 and the ejection mechanism 8. The controller is respectively and electrically connected with the photoelectric sensor 9 electricity, the conveyer belt and the driving device in the base 1.

The working procedure of each of the above embodiments is as follows: a plurality of toasts are poured into the barrel body 2, and the toasts are upwards conveyed to the feeding end of the feeding track 4 in the process that the spiral feeding track 3 rotates along with the driving device. If the bottom of the cloth is downward and accords with the shaping state of the feeding rule, the cloth can move forward under the action of the conveying belt through the feeding track 4; otherwise caught by the ends of the L-shaped guide plate 41 and will slip off the ramp 31 due to the irregular state of the cloth with its top disc itself in an inclined unstable state. When the photoelectric sensor 9 at the discharge end of the feeding track 4 senses that the ring piece at the top of the cloth is positioned in the positioning groove 6, a signal is sent to enable the ejection mechanism 8 to operate so as to jack up the cloth positioned in the positioning groove 6, meanwhile, the separation mechanism 5 receives the signal of the photoelectric sensor 9 and stretches out the stop lever 53 close to the positioning groove 6, other cloth is prevented from entering the positioning groove 6, meanwhile, the stop lever 53 far away from the positioning groove 6 is retracted, and the next cloth enters the feeding track 4 at the position of the separation mechanism 5.

When the waiting interval time is up, the ejected cloth is taken away by the feeding and discharging mechanical arm, the feeding mechanism is reset, the stop lever 53 close to the positioning groove 6 is retracted when the photoelectric sensor 9 cannot detect the cloth, and the other stop lever 53 extends. The cloth originally at the separating mechanism 5 enters the positioning groove 6 under the action of the conveyer belt, but the rear cloth is blocked by the stop lever 53 and cannot enter the feeding track 4 at the separating mechanism 5. Until the photo sensor 9 detects the passage of the cloth, the previous flow of the ejection mechanism 8 and the partition mechanism 5 is repeated. During feeding, the spiral feeding track 3 and the conveyer belt always run at equal intervals or at equal speeds according to the instruction of the controller. If the controller finds that the signal sent by the photoelectric sensor does not accord with the normal signal standard, the abnormal condition is indicated, the spiral feeding track 3 and the conveyer belt can stop working and warn an operator, and production accidents are prevented.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present invention, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While the invention has been described above with reference to the accompanying drawings, it will be apparent that the invention is not limited to the above embodiments, but is capable of being modified or applied to other applications without modification, as long as various insubstantial modifications of the method concept and technical scheme of the invention are adopted, all within the scope of the invention.

Claims (5)

1. A cloth department feed arrangement of through-flow end cover, its characterized in that: the spiral feeding device comprises a spiral feeding disc, a feeding track (4), an ejection mechanism (8) and a separation mechanism (5), wherein the spiral feeding disc comprises a base (1), a driving device arranged in the base (1), a barrel body (2) fixed on the base (1) and a spiral feeding track (3) which is arranged in the barrel body (2) and is in transmission connection with the driving device at the center, a top discharging end of the spiral feeding track (3) passes through the feeding end of the feeding track (4) in rotation, two symmetrical L-shaped guide plates (41) are fixed on the feeding track (4), the horizontal parts of the L-shaped guide plates (41) are positioned at the upper part, the distance between the horizontal parts of the two L-shaped guide plates (41) is matched with the width of a ring piece at the top of a cloth, and the gap height of the L-shaped guide plates (41) and the feeding track (4) is matched with the height of a disc at the bottom of the cloth;

a separation mounting plate is fixed on the outer side of the feeding track (4), the separation mounting plate is fixedly provided with a separation mechanism (5) and a photoelectric sensor (9), the photoelectric sensor (9) is arranged at the discharge end of the feeding track (4), the separation mechanism (5) is arranged in front of the discharge end of the feeding track (4), and the photoelectric sensor (9) is electrically connected to the separation mechanism (5) and the ejection mechanism (8);

the top discharge end of the spiral feeding track (3) is provided with a slope (31) which is convenient for the cloth to slide inwards, the inclined angle of the slope (31) is smaller than 30 degrees, and the width of the slope is smaller than 1/4 of the diameter of the bottom of the cloth.

2. A through-flow end cap cloth feeder according to claim 1, wherein: the discharging end of the feeding track (4) is provided with a positioning groove (6), the end part of the positioning groove (6) is semicircular in shape corresponding to the shape of the cloth, the bottom of the positioning groove (6) is provided with a through hole (61), the ejection mechanism (8) is an electric cylinder fixed at the bottom of the discharge end of the feeding track (4), a thimble (81) corresponding to a central concave hole at the bottom of the cloth is arranged at the extending end of a piston rod of the electric cylinder, and the thimble (81) is positioned at the center of the through hole (61).

3. A through-flow end cap cloth feeder according to claim 1, wherein: the separation mechanism (5) is composed of two separation cylinders (52) which are arranged along the direction of the feeding track (4), a stop lever (53) fixed at the end of a piston rod of each separation cylinder (52) stretches out to the upper surface of the feeding track (4), a ring piece which stops the top of the cloth when the stop lever (53) stretches out, and the cloth passes through when the stop lever (53) is retracted.

4. A through-flow end cap cloth feeder according to claim 3, wherein: the cylinder bodies of the two separation cylinders (52) are communicated through air holes, the air holes are respectively communicated with the front cavity of the cylinder body of one separation cylinder (52) and the front cavity of the other separation cylinder (52), and the rear cavity of the former separation cylinder (52) and the rear cavity of the latter separation cylinder (52) are communicated with an air source through air pipes.

5. A through-flow end cap cloth feeder according to claim 1, wherein: and a conveying belt is arranged at the bottom of the feeding track (4).