CN213704283U - Material loading conveyor and hose processing equipment - Google Patents

Abstract

The utility model discloses a feeding and conveying device and a hose processing device with the same, wherein the feeding and conveying device comprises a frame, a first conveying mechanism and a second conveying mechanism which are connected on the frame and are distributed in sequence, feeding mechanism, second conveying mechanism includes along the first conveyer belt subassembly and the second conveyer belt subassembly that perpendicular to direction of delivery distributes side by side, be equipped with first pay-off group on the first conveyer belt subassembly, be equipped with second pay-off group on the second conveyer belt subassembly, first pay-off group includes first constant head tank, second pay-off group includes the second constant head tank, be equipped with the spacing distance between first pay-off group and the second pay-off group, first constant head tank and second constant head tank homoenergetic enough dock with first conveying mechanism's discharge end, first conveying mechanism can carry the tubulose raw materials to first constant head tank and second constant head tank, feeding mechanism can carry the tubulose raw materials on the second conveying mechanism to on the notes shoulder mould. The utility model has the advantages of simple and reasonable structure, can improve production efficiency.

Description

Material loading conveyor and hose processing equipment

Technical Field

The utility model relates to a hose processing manufacture equipment field, in particular to material loading conveyor and hose processing equipment.

Background

The hose is a container commonly used in various industries at present, such as a toothpaste tube, a medicament ointment tube, a cosmetic lotion tube and the like, the conventional hose is manufactured and processed, generally, a sheet raw material is processed and welded into a tubular shape through a welding forming device, the tubular raw material is cut according to a required length through a cutting device, the cut tubular raw material is conveyed to a shoulder injection mold through a feeding conveying device, shoulder injection forming is carried out through a shoulder injection device, and then filling packaging and the like are carried out for subsequent production and processing. The feeding efficiency of the existing feeding conveying device is low, when tubular raw materials are conveyed to the shoulder injection mold, the input of the cutting device to the tubular raw materials of the feeding conveying device needs to be suspended, the output of the cutting device to the tubular raw materials can be influenced, the overall production efficiency of hose production can also be influenced, and the production and the application are not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a material loading conveyor, its simple structure is reasonable, can make things convenient for the material loading of tubulose raw materials to carry, improves production efficiency.

The utility model discloses still provide a hose processing equipment with this material loading conveyor.

The feeding and conveying device comprises a frame, and a first conveying mechanism, a second conveying mechanism and a feeding mechanism which are connected to the frame; the second conveying mechanism is positioned at the next station of the first conveying mechanism and comprises a first conveyor belt assembly and a second conveyor belt assembly, the first conveyor belt assembly and the second conveyor belt assembly are distributed side by side along a conveying direction perpendicular to the second conveying mechanism, a first feeding group is arranged on the first conveyor belt component, a second feeding group is arranged on the second conveyor belt component, the first feeding group comprises at least one first positioning groove, the second feeding group comprises at least one second positioning groove, a spacing distance is arranged between the first feeding group and the second feeding group, the first positioning groove and the second positioning groove can be butted with the discharge end of the first conveying mechanism, the first conveying mechanism can convey the tubular raw material to the first positioning groove, and the first conveying mechanism can convey the tubular raw material to the second positioning groove; the feeding mechanism is located at the next station of the second conveying mechanism, the first conveying belt assembly can convey the first feeding group to the station corresponding to the feeding mechanism, the second conveying belt assembly can convey the second feeding group to the station corresponding to the feeding mechanism, and the feeding mechanism can convey the tubular raw materials on the second conveying mechanism to the shoulder injection mold.

According to the utility model discloses material loading conveyor, it has following beneficial effect at least: when in use, the first conveying mechanism conveys the tubular raw materials to the second conveying mechanism, the first conveying belt assembly conveys the first feeding group to the corresponding position of the discharge end of the first conveying mechanism, the first positioning groove is butted with the discharge end of the first conveying mechanism, the first conveying mechanism conveys the tubular raw materials to the first positioning groove, the first conveying belt assembly conveys the first feeding group loaded with the tubular raw materials to the corresponding position of the feeding mechanism and stops, the feeding mechanism conveys the tubular raw materials on the first feeding group to the shoulder injection mold, meanwhile, the second conveying belt assembly conveys the second feeding group to the corresponding position of the discharge end of the first conveying mechanism, the second positioning groove is butted with the discharge end of the first conveying mechanism, the first conveying mechanism conveys the tubular raw materials to the second positioning groove, and as the first feeding group and the second feeding group are provided with a spacing distance, when the first feeding group stops conveying and the feeding mechanism feeds and conveys the tubular raw materials on the first feeding group, the second feeding group can still be conveyed and moved by the second conveyor belt assembly, so that the tubular raw materials are conveniently conveyed to the second positioning groove by the first conveying mechanism, the possibility of accumulation of the tubular raw materials on the first conveying mechanism is reduced, after the tubular raw materials on the first feeding group are conveyed to the shoulder injection mold by the feeding mechanism, the first conveyor belt assembly conveys the first feeding assembly to leave the station position corresponding to the feeding mechanism, the first feeding group is conveyed to the discharging end of the first conveying mechanism through the lower part of the first conveyor belt assembly in a rotating mode, the second conveyor belt assembly conveys the second feeding group loaded with the tubular raw materials to the corresponding position of the feeding mechanism, the feeding mechanism is convenient to carry out next feeding conveying, the production efficiency is improved, the structure is simple and reasonable, is convenient for production and application.

According to some embodiments of the present invention, the first conveyor belt assembly comprises a first driver and a first synchronous belt in driving connection with the first driver, the first feeding group is disposed on the first synchronous belt, the second conveyor belt assembly comprises a second driver and a second synchronous belt in driving connection with the second driver, and the second feeding group is disposed on the second synchronous belt. Through setting up first hold-in range and second hold-in range to the realization is respectively to the transport of first pay-off group and second pay-off group, and first conveyer belt subassembly and second conveyer belt subassembly all adopt the hold-in range structure, and its stability in transportation is better, makes things convenient for the location of first pay-off group and second pay-off group to carry, simple structure, convenient to use.

According to some embodiments of the present invention, the second conveying mechanism further comprises a limit rod assembly, the limit rod assembly is located above the first conveyor belt assembly and the second conveyor belt assembly, the limit rod assembly can limit the tubular raw material in the first positioning groove to be separated from the first positioning groove, and the limit rod assembly can limit the tubular raw material in the second positioning groove to be separated from the second positioning groove. Through setting up the stop lever subassembly, the stop lever subassembly limits the tubulose raw materials in first constant head tank and second constant head tank, reduces the possibility that the tubulose raw materials breaks away from first constant head tank and second constant head tank to improve second conveying mechanism and carry out the stability and the reliability carried to the tubulose raw materials.

According to some embodiments of the utility model, first conveying mechanism include the third driver and with the first conveyer belt that the third driver drive is connected, the upper portion both sides of first conveyer belt all are provided with deflector. When the tubular raw material conveying device is used, the tubular raw materials are placed on the first conveying belt, the third driver drives the first conveying belt to enable the tubular raw materials to be conveyed and moved along the conveying direction of the tubular raw materials, and the guide baffle guides the tubular raw materials on the first conveying belt so as to improve the conveying reliability.

According to some embodiments of the utility model, the upper portion of first conveyer belt is equipped with first detection module, first jet-propelled subassembly and first material returned passageway, first detection module electric connection has control module, control module with first jet-propelled subassembly electric connection, first detection module can detect the length of tubulose raw materials on the first conveyer belt and can feed back the detection condition in control module, control module can control opening and close of first jet-propelled subassembly, first jet-propelled subassembly can jet-propelled and can with tubulose raw materials on the first conveyer belt blow extremely first material returned passageway. During the use, the tubulose raw materials is carried on first conveyer belt, the length and the feedback detection condition of tubulose raw materials on first detecting element detects it detect in control module, control module controls opening and close of first jet-propelled subassembly according to the detection condition, it spouts to the tubulose raw materials that do not conform to the processing requirement through first jet-propelled subassembly, blow to first material returned passageway with the tubulose raw materials that will not conform to the processing requirement, and discharge from first material returned passageway, thereby avoid carrying out follow-up production processing to the tubulose raw materials that do not conform to the processing requirement, and the production cost is reduced, and the yield is improved.

According to some embodiments of the utility model, the upper portion of first conveyer belt is equipped with the jet-propelled subassembly of second detection module, second and the second material returned passageway, second detection module electric connection has control module, control module with the jet-propelled subassembly electric connection of second, the second detection module can detect whether tubular raw materials on the first conveyer belt pile up and can feed back the detection condition in control module, control module can control the opening and closing of the jet-propelled subassembly of second, the jet-propelled subassembly of second can jet-propelled and can with tubular raw materials on the first conveyer belt blow extremely the second material returned passageway. During the use, the tubulose raw materials is carried on first conveyer belt, if the tubulose raw materials that second detection module detected on it takes place to pile up, the feedback detection condition is in control module, control module controls the start-up of the jet-propelled subassembly of second according to the detection condition, jet-propelled the tubulose raw materials of subassembly on to first conveyer belt through the second, blow to the second material returned passageway with piling up the tubulose raw materials on first conveyer belt, and discharge from the second material returned passageway, thereby avoid causing the influence to the feeding input of follow-up tubulose raw materials, reduce because the tubulose raw materials piles up and cause the possibility of trouble, improve the utility model discloses a reliability.

According to some embodiments of the utility model, the first conveyer belt slope sets up, just the feed end of first conveyer belt is higher than the discharge end of first conveyer belt. When the tubular raw materials fed, the tubular raw materials are input from the feeding end of the first conveying belt, and the first conveying belt is inclined and the feeding end of the first conveying belt is higher than the discharging end of the first conveying belt, so that the tubular raw materials can be conveniently conveyed to the discharging end from the feeding end of the first conveying belt, and the tubular raw materials are conveniently conveyed to the second conveying mechanism from the first conveying belt.

According to some embodiments of the utility model, feed mechanism include the fourth drive ware and with the rotor arm that the drive of fourth drive ware is connected, be equipped with the sucking disc subassembly on the rotor arm, the sucking disc subassembly can be drawn tubular raw materials on the second conveying mechanism, the fourth drive ware can drive the rotor arm rotates. During the use, absorb the tubulose raw materials on the second conveying mechanism corresponds the position through the sucking disc subassembly, and fourth driver drive rotor arm rotates, and the rotor arm drives the sucking disc subassembly and rotates to realize that feed mechanism snatchs the tubulose raw materials on the second conveying mechanism, its simple structure, the use in production of being convenient for.

According to the utility model discloses a some embodiments, feed mechanism still include the positioning seat with connect in the top of positioning seat pushes away the subassembly, be equipped with the third constant head tank on the positioning seat and be located the adsorption component of third constant head tank, the sucking disc subassembly can carry the tubulose raw materials extremely in the third constant head tank, adsorption component can adsorb the tubulose raw materials in the third constant head tank, the top pushes away the subassembly can with tubulose raw materials top in the third constant head tank pushes away to annotate on the shoulder mould. During the use, fourth driver drive rotor arm rotates in order to drive the sucking disc subassembly and rotates, makes the sucking disc subassembly carry the tubular raw materials to the third constant head tank in, and adsorption component adsorbs the tubular raw materials in the third constant head tank, and the top pushes away the subassembly and will adsorb the tubular raw materials top on the third constant head tank and push away to annotate on the shoulder mould to realize that feed mechanism carries the material loading of tubular raw materials, its simple structure, the material loading is carried reliable and stable, the use in production of being convenient for.

According to the utility model discloses a hose processing equipment of second aspect embodiment, it includes according to the utility model discloses the material loading conveyor of above-mentioned first aspect embodiment.

According to the utility model discloses hose processing equipment, it has following beneficial effect at least: through adopting foretell material loading conveyor, its simple structure is reasonable, can make things convenient for the material loading of tubulose raw materials to carry, improves production efficiency.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of a feeding and conveying device according to an embodiment of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic top view of a portion of the feeding conveyor of FIG. 1;

FIG. 4 is a schematic structural side view of the feeding and conveying device in FIG. 1;

fig. 5 is a schematic top view of a part of the second conveying mechanism in fig. 1.

Reference numerals:

a frame 100;

the device comprises a first conveying mechanism 200, a third driver 210, a first conveying belt 220, a guide baffle 221, a first air injection assembly 230, a first material returning channel 240, a second air injection assembly 250 and a second material returning channel 260;

the device comprises a second conveying mechanism 300, a first conveyor belt assembly 310, a first driver 311, a first synchronous belt 312, a second conveyor belt assembly 320, a second driver 321, a second synchronous belt 322, a first feeding group 330, a first positioning groove 331, a second feeding group 340, a second positioning groove 341, a limiting rod assembly 350 and a limiting stop rod 351;

the feeding mechanism 400, the fourth driver 410, the rotating arm 420, the suction cup assembly 430, the positioning seat 440, the third positioning groove 441, the pushing assembly 450, the fifth driver 451, and the pushing member 452.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it should be understood that if an orientation description is referred to, for example, the directions or positional relationships indicated by the upper and lower parts are based on the directions or positional relationships shown in the drawings, it is only for convenience of description and simplification of description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, if there are several, greater than, less than, exceeding, above, below, within, etc., the terms, wherein several means are one or more, and several means are two or more, and greater than, less than, exceeding, etc. are understood as not including the number, and above, below, within, etc. are understood as including the number.

If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1, 3 and 5, a feeding conveyor includes a frame 100, and a first conveying mechanism 200, a second conveying mechanism 300 and a feeding mechanism 400 connected to the frame 100; the second conveying mechanism 300 is located at a next station of the first conveying mechanism 200, the second conveying mechanism 300 comprises a first conveyor belt assembly 310 and a second conveyor belt assembly 320, the first conveyor belt assembly 310 and the second conveyor belt assembly 320 are distributed side by side along a conveying direction perpendicular to the second conveying mechanism 300, a first feeding group 330 is arranged on the first conveyor belt assembly 310, a second feeding group 340 is arranged on the second conveyor belt assembly 320, the first feeding group 330 comprises at least one first positioning groove 331, the second feeding group 340 comprises at least one second positioning groove 341, a spacing distance is arranged between the first feeding group 330 and the second feeding group 340, the first positioning groove 331 and the second positioning groove 341 can be in butt joint with a discharging end of the first conveying mechanism 200, the first conveying mechanism 200 can convey the tubular raw material to the first positioning groove 331, and the first conveying mechanism 200 can convey the tubular raw material to the second positioning groove 341; the feeding mechanism 400 is located at the next station of the second conveying mechanism 300, the first conveyor belt assembly 310 can convey the first feeding group 330 to the station corresponding to the feeding mechanism 400, the second conveyor belt assembly 320 can convey the second feeding group 340 to the station corresponding to the feeding mechanism 400, and the feeding mechanism 400 can convey the tubular raw material on the second conveying mechanism 300 to the shoulder injection mold.

It can be understood that, as shown in fig. 1, 3 and 5, the first conveyor belt assembly 310 and the second conveyor belt assembly 320 are distributed side by side along a conveying direction perpendicular to the second conveying mechanism 300, a first feeding group 330 is arranged on the first conveyor belt assembly 310, the first feeding group 330 comprises four first positioning grooves 331, a second feeding group 340 is arranged on the second conveyor belt assembly 320, the second feeding group 340 comprises four second positioning grooves 341, and a spacing distance is arranged between the first feeding group 330 and the second feeding group 340.

When the device is used, cut tubular raw materials are conveyed by the first conveying mechanism 200, the tubular raw materials are conveyed to the second conveying mechanism 300 by the first conveying mechanism 200, the first conveying belt assembly 310 conveys the first feeding group 330 to the corresponding position of the discharging end of the first conveying mechanism 200, the first positioning groove 331 is butted with the discharging end of the first conveying mechanism 200, the tubular raw materials are conveyed into the plurality of first positioning grooves 331 one by the first conveying mechanism 200, the first feeding group 330 loaded with the tubular raw materials is conveyed to the corresponding position of the feeding mechanism 400 by the first conveying belt assembly 310 and is stopped, the tubular raw materials on the first feeding group 330 are conveyed to the shoulder injection mold by the feeding mechanism 400, and meanwhile, after the first feeding group 330 leaves the corresponding position of the discharging end of the first conveying mechanism 200, the second feeding group 340 is conveyed to the corresponding position of the discharging end of the first conveying mechanism 200 by the second conveying belt assembly 320, the second positioning grooves 341 are abutted with the discharge end of the first conveying mechanism 200, the first conveying mechanism 200 conveys the tubular raw materials into the plurality of second positioning grooves 341 one by one, because the first feeding group 330 and the second feeding group 340 are provided with a spacing distance, when the first feeding group 330 stops conveying and the feeding mechanism 400 feeds and conveys the tubular raw materials thereon, the second feeding group 340 can still be conveyed and moved by the second conveyor belt assembly 320, so that the first conveying mechanism 200 can convey the tubular raw materials into the second positioning grooves 341 conveniently, the possibility of accumulation of the tubular raw materials on the first conveying mechanism 200 is reduced, after the feeding mechanism 400 conveys the tubular raw materials on the first feeding group 330 onto the shoulder injection mold, the first conveyor belt assembly 310 conveys the first feeding group 330 to leave the station position corresponding to the feeding mechanism 400, and the first feeding group 330 is conveyed to the discharge end of the first conveying mechanism 200 through the lower part of the first conveyor belt assembly 310, the second conveying belt assembly 320 conveys the second feeding group 340 loaded with the tubular raw materials to the corresponding position of the feeding mechanism 400, so that the feeding mechanism 400 can conveniently carry out next feeding conveying, the waiting time of conveying is reduced, the production efficiency is improved, the structure is simple and reasonable, and the production and the application are convenient.

In practical application, the first feeding group 330 and the second feeding group 340 can be provided with a plurality of groups according to actual production requirements, correspondingly, the number of the first positioning grooves 331 and the second positioning grooves 341 can be correspondingly set according to requirements, and the preset spacing distance between the first feeding group 330 and the second feeding group 340 can be correspondingly set according to the number of the actual first positioning grooves 331 and the actual second positioning grooves 341 and the use requirements, which can be understood by those skilled in the art; the specific structures of the first conveying mechanism 200 and the loading mechanism 400 are not described in detail herein, and will be described in detail below.

In some embodiments, the first conveyor belt assembly 310 includes a first driver 311 and a first timing belt 312 in driving connection with the first driver 311, the first feeding set 330 is disposed on the first timing belt 312, the second conveyor belt assembly 320 includes a second driver 321 and a second timing belt 322 in driving connection with the second driver 321, and the second feeding set 340 is disposed on the second timing belt 322.

It can be understood that, as shown in fig. 1, 3 and 5, by providing the first synchronous belt 312 and the second synchronous belt 322, the first driver 311 drives the first synchronous belt 312 to transport the first feeding group 330, the second driver 321 drives the second synchronous belt 322 to transport the second feeding group 340, and the first conveyor belt assembly 310 and the second conveyor belt assembly 320 both adopt a synchronous belt structure, which has better transport stability, facilitates positioning and transport of the first feeding group 330 and the second feeding group 340, and has a simple structure and is convenient to use. In practical applications, the first driver 311 and the second driver 321 may be stepper motors, servo motors, or the like, and besides the synchronous belt structure, the first conveyor belt assembly 310 and the second conveyor belt assembly 320 may also adopt a chain transmission conveying structure, and the specific structures of the first conveyor belt assembly 310 and the second conveyor belt assembly 320 may be changed according to practical application needs, and are not limited herein.

In some embodiments, the second conveying mechanism 300 further comprises a limiting rod assembly 350, the limiting rod assembly 350 is located above the first conveyor belt assembly 310 and the second conveyor belt assembly 320, the limiting rod assembly 350 can limit the tubular raw material in the first positioning groove 331 from escaping from the first positioning groove 331, and the limiting rod assembly 350 can limit the tubular raw material in the second positioning groove 341 from escaping from the second positioning groove 341.

It can be understood that, as shown in fig. 1, 2 and 3, the stopper rod assembly 350 includes a plurality of stopper rods 351, the stopper rods 351 are located above the first conveyor belt assembly 310 and the second conveyor belt assembly 320 to limit and block the upper openings of the first positioning slot 331 and the second positioning slot 341, so as to limit the tubular raw material in the first positioning slot 331 and the second positioning slot 341, and reduce the possibility that the tubular raw material is separated from the first positioning slot 331 and the second positioning slot 341, thereby improving the stability and reliability of the tubular raw material conveyed by the second conveyor mechanism 300. In practical application, the specific structure of the stop lever assembly 350 may be changed according to practical needs, such as a strip-shaped baffle, without limitation.

In some embodiments, the first conveying mechanism 200 includes a third driver 210 and a first conveying belt 220 in driving connection with the third driver 210, and guide baffles 221 are disposed on both sides of an upper portion of the first conveying belt 220. It can be understood that, as shown in fig. 1 and 3, in use, the tubular raw material is placed on the first conveyor belt 220, the third driver 210 drives the first conveyor belt 220 to make the tubular raw material move along the conveying direction, and the guide baffle 221 guides the tubular raw material on the first conveyor belt 220 to improve the conveying reliability. In practical applications, the third driver 210 may be a stepping motor or a servo motor, and besides the first conveyor belt 220, the first conveyor mechanism 200 may also be a movable clamping robot, and the specific structure of the first conveyor mechanism 200 may be set according to practical needs, which can be understood by those skilled in the art.

In some embodiments, a first detection assembly (not shown), a first air injection assembly 230, and a first material returning channel 240 are disposed on the upper portion of the first conveyor belt 220, the first detection assembly is electrically connected to a control module (not shown), the control module is electrically connected to the first air injection assembly 230, the first detection assembly can detect the length of the tubular raw material on the first conveyor belt 220 and feed back the detection condition to the control module, the control module can control the opening and closing of the first air injection assembly 230, and the first air injection assembly 230 can inject air and blow the tubular raw material on the first conveyor belt 220 to the first material returning channel 240.

It can be understood that, as shown in fig. 1, when in use, the tubular raw material is conveyed on the first conveyor belt 220, the first detection assembly detects the length of the tubular raw material thereon and feeds back the detection condition to the control module, the control module controls the opening and closing of the first air injection assembly 230 according to the detection condition, when the tubular raw material on the first conveyor belt 220 is detected to be not in accordance with the length of the processing requirement, the control module controls the starting of the first air injection assembly 230, the tubular raw material which is not in accordance with the processing requirement is injected by the first air injection assembly 230, so that the tubular raw material which is not in accordance with the processing requirement is blown to the first material returning channel 240 and discharged from the first material returning channel 240, thereby avoiding the subsequent production and processing of the tubular raw material which is not in accordance with the processing requirement, reducing the production cost and.

In practical applications, the first detecting component may be an infrared sensor or an image recognition and analysis system, the first air injection component 230 may be an air pump and a nozzle connected to the air pump, or an air hole is formed in the guide baffle 221 and connected to the air pump, and the specific structure of the control module will be understood by those skilled in the art and will not be described in detail herein.

In some embodiments, a second detection assembly (not shown), a second air injection assembly 250 and a second material returning channel 260 are disposed on the upper portion of the first conveyor belt 220, the second detection assembly is electrically connected to the control module, the control module is electrically connected to the second air injection assembly 250, the second detection assembly can detect whether the tubular raw material on the first conveyor belt 220 is stacked or not and feed back the detection condition to the control module, the control module can control the opening and closing of the second air injection assembly 250, and the second air injection assembly 250 can inject air and blow the tubular raw material on the first conveyor belt 220 to the second material returning channel 260.

It will be appreciated that, in use, as shown in figure 1, tubular stock material is conveyed on the first conveyor belt 220 and, when the second conveying structure fails or is shut down, since the tubular raw material on the first conveyor belt 220 cannot be timely output and is stacked on the first conveyor belt 220, after the second detection assembly detects that the tubular raw material on the second detection assembly is stacked, the detection condition is fed back to the control module, the control module controls the start of the second air injection assembly 250 according to the detection condition, the tubular raw material on the first conveyor belt 220 is sprayed by the second spraying unit 250, so as to blow the tubular raw materials stacked on the first conveyor belt 220 to the second material returning channel 260, and discharge the tubular raw materials from the second material returning channel 260, thereby avoid causing the influence to the feeding input of follow-up tubulose raw materials, reduce because the tubulose raw materials piles up and cause the possibility of trouble, improve the utility model discloses a reliability.

In practical applications, the second detecting component may be an infrared sensor, and detects whether the tubular raw material is stacked by detecting the retention time or the movement speed of the tubular raw material on the first conveyor belt 220, or detects whether the tubular raw material is stacked by analyzing the movement of the tubular raw material through an image recognition and analysis system, the second air injection component 250 may be an air pump and a nozzle connected to the air pump, or an air hole is formed in the guide baffle 221 and connected to the air pump, and the specific structure of the control module will be understood by those skilled in the art, and will not be described in detail herein.

In some embodiments, the first conveyor belt 220 is inclined with the infeed end of the first conveyor belt 220 being higher than the outfeed end of the first conveyor belt 220. It can be understood that, as shown in fig. 4, when the tubular raw material is fed, the tubular raw material is fed from the feeding end of the first conveyor belt 220, and since the first conveyor belt 220 is disposed obliquely and the feeding end thereof is higher than the discharging end thereof, the tubular raw material can be conveniently conveyed from the feeding end to the discharging end of the first conveyor belt 220, and the tubular raw material can be conveniently conveyed from the first conveyor belt 220 to the second conveying mechanism 300. In practical applications, the inclination angle of the first conveyor belt 220 may be set according to practical needs, and is not limited herein.

In some embodiments, the feeding mechanism 400 includes a fourth driver 410 and a rotating arm 420 in driving connection with the fourth driver 410, the rotating arm 420 is provided with a suction cup assembly 430, the suction cup assembly 430 can suck the tubular raw material on the second conveying mechanism 300, and the fourth driver 410 can drive the rotating arm 420 to rotate.

It can be understood that, as shown in fig. 1, fig. 2 and fig. 3, the suction cup assembly 430 includes a plurality of vacuum suction cups, when in use, the suction cup assembly 430 sucks the tubular raw material on the corresponding position of the second conveying mechanism 300, the fourth driver 410 drives the rotating arm 420 to rotate, and the rotating arm 420 drives the suction cup assembly 430 to rotate, so as to realize the grabbing of the tubular raw material on the second conveying mechanism 300 by the feeding mechanism 400, and the device has a simple structure and is convenient to produce and use. In practical applications, the fourth driver 410 may be a stepping motor or a servo motor, the specific structure of the rotating arm 420 and the transmission structure between the fourth driver 410 and the rotating arm 420 may be changed according to practical application requirements, and the specific structure of the chuck assembly 430 should be understood by those skilled in the art and will not be described in detail herein.

In some embodiments, the feeding mechanism 400 further includes a positioning seat 440 and a pushing assembly 450 connected to the positioning seat 440, the positioning seat 440 is provided with a third positioning groove 441 and an adsorbing assembly (not shown in the drawings) located in the third positioning groove 441, the sucking assembly 430 can convey the tubular raw material to the third positioning groove 441, the adsorbing assembly can adsorb the tubular raw material in the third positioning groove 441, and the pushing assembly 450 can push the tubular raw material in the third positioning groove 441 to the shoulder injection mold.

It can be understood that, as shown in fig. 1, fig. 2 and fig. 3, the pushing assembly 450 includes a fifth driver 451 and a pushing element 452 in driving connection with the fifth driver 451, and the pushing element 452 is slidably disposed in the third positioning slot 441. During the use, fourth driver 410 drives rotor arm 420 and rotates in order to drive sucking disc subassembly 430 and rotate, makes sucking disc subassembly 430 carry tubular raw materials to third constant head tank 441 in, and the tubular raw materials is adsorbed to third constant head tank 441 with the adsorption component, and sucking disc subassembly 430 removes the absorption to tubular raw materials afterwards, and the shoulder casting mould is carried to the below of positioning seat 440 by shoulder casting device's conveying mechanism, and fifth driver 451 drives ejector 452 to remove to push the tubular raw materials that adsorbs on third constant head tank 441 to the shoulder casting mould, in order to realize that feed mechanism 400 carries the material loading of tubular raw materials, its simple structure, the material loading is carried reliable and stable, and convenient to use.

In practical application, the fifth driver 451 may be an air cylinder or a linear motor, etc., and the specific structure of the pushing assembly 450 may be changed according to practical needs; the adsorption member may be an air hole provided in the third positioning groove 441 and a vacuum suction member connected to the air hole to adsorb the tubular raw material in the third positioning groove 441, or the adsorption member may be a vacuum chuck provided in the third positioning groove 441; the specific structure and the number of the third positioning grooves 441 can be set according to actual use requirements, and are not limited herein.

According to the utility model discloses a hose processing equipment of second aspect embodiment, it includes according to the utility model discloses above-mentioned first aspect embodiment's material loading conveyor.

According to the utility model discloses hose processing equipment, through adopting foretell material loading conveyor, its simple structure is reasonable, can make things convenient for the material loading of tubulose raw materials to carry, improves production efficiency.

Since other configurations of the hose processing apparatus according to the embodiments of the present invention are known to those skilled in the art, they will not be described in detail herein.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. A material loading conveyor, comprising:

a frame (100);

a first conveying mechanism (200) connected to the frame (100);

a second conveying mechanism (300) connected to the rack (100) and located at a next station of the first conveying mechanism (200), wherein the second conveying mechanism (300) comprises a first conveyor belt assembly (310) and a second conveyor belt assembly (320), the first conveyor belt assembly (310) and the second conveyor belt assembly (320) are distributed side by side along a conveying direction perpendicular to the second conveying mechanism (300), a first feeding group (330) is arranged on the first conveyor belt assembly (310), a second feeding group (340) is arranged on the second conveyor belt assembly (320), the first feeding group (330) comprises at least one first positioning groove (331), the second feeding group (340) comprises at least one second positioning groove (341), a spacing distance is arranged between the first feeding group (330) and the second feeding group (340), and both the first positioning groove (331) and the second positioning groove (341) can be matched with the first conveying mechanism (200) The first conveying mechanism (200) can convey the tubular raw material to the first positioning groove (331), and the first conveying mechanism (200) can convey the tubular raw material to the second positioning groove (341);

the feeding mechanism (400) is connected to the rack (100) and located at the next station of the second conveying mechanism (300), the first conveyor belt assembly (310) can convey the first feeding group (330) to the station corresponding to the feeding mechanism (400), the second conveyor belt assembly (320) can convey the second feeding group (340) to the station corresponding to the feeding mechanism (400), and the feeding mechanism (400) can convey the tubular raw materials on the second conveying mechanism (300) to the shoulder injection mold.

2. The infeed conveyor of claim 1,

the first conveyor belt assembly (310) comprises a first driver (311) and a first synchronous belt (312) in driving connection with the first driver (311), the first feeding group (330) is arranged on the first synchronous belt (312), the second conveyor belt assembly (320) comprises a second driver (321) and a second synchronous belt (322) in driving connection with the second driver (321), and the second feeding group (340) is arranged on the second synchronous belt (322).

3. The infeed conveyor of claim 1,

the second conveying mechanism (300) further comprises a limiting rod assembly (350), the limiting rod assembly (350) is located above the first conveying belt assembly (310) and the second conveying belt assembly (320), the limiting rod assembly (350) can limit the tubular raw materials in the first positioning groove (331) to be separated from the first positioning groove (331), and the limiting rod assembly (350) can limit the tubular raw materials in the second positioning groove (341) to be separated from the second positioning groove (341).

4. The infeed conveyor of claim 1,

the first conveying mechanism (200) comprises a third driver (210) and a first conveying belt (220) in driving connection with the third driver (210), and guide baffles (221) are arranged on two sides of the upper portion of the first conveying belt (220).

5. The infeed conveyor of claim 4,

the upper portion of the first conveying belt (220) is provided with a first detection assembly, a first air injection assembly (230) and a first material returning channel (240), the first detection assembly is electrically connected with a control module, the control module is electrically connected with the first air injection assembly (230), the first detection assembly can detect the length of the tubular raw materials on the first conveying belt (220) and feed back the detection condition to the control module, the control module can control the opening and closing of the first air injection assembly (230), and the first air injection assembly (230) can inject air and blow the tubular raw materials on the first conveying belt (220) to the first material returning channel (240).

6. The infeed conveyor of claim 4,

the upper portion of first conveyer belt (220) is equipped with second detection module, the jet-propelled subassembly of second (250) and second material returned passageway (260), the detection module of second detection module electric connection has a control module, control module with the jet-propelled subassembly of second (250) electric connection, the detection condition in can feeding back is in the detection module can be detected to the second detection module whether tubular raw materials on first conveyer belt (220) pile up, control module can control the opening and closing of the jet-propelled subassembly of second (250), the jet-propelled subassembly of second (250) can jet gas and can with tubular raw materials on first conveyer belt (220) blow extremely second material returned passageway (260).

7. The infeed conveyor of claim 4,

the first conveying belt (220) is obliquely arranged, and the feeding end of the first conveying belt (220) is higher than the discharging end of the first conveying belt (220).

8. The infeed conveyor of claim 1,

the feeding mechanism (400) comprises a fourth driver (410) and a rotating arm (420) in driving connection with the fourth driver (410), a sucker component (430) is arranged on the rotating arm (420), the sucker component (430) can suck the tubular raw materials on the second conveying mechanism (300), and the fourth driver (410) can drive the rotating arm (420) to rotate.

9. The infeed conveyor of claim 8,

the feeding mechanism (400) further comprises a positioning seat (440) and a pushing assembly (450) connected to the positioning seat (440), a third positioning groove (441) and an adsorption assembly located in the third positioning groove (441) are arranged on the positioning seat (440), the sucker assembly (430) can convey the tubular raw material to the third positioning groove (441), the adsorption assembly can adsorb the tubular raw material in the third positioning groove (441), and the pushing assembly (450) can push the tubular raw material in the third positioning groove (441) to the shoulder injection mold.

10. A hose processing plant, characterized by comprising a loading conveyor according to any one of claims 1 to 9.

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