CN219567082U - Automatic receiving equipment for material belt - Google Patents

Abstract

The utility model discloses automatic material receiving equipment for a material belt, which comprises a bottom plate, a vertical plate, a rubber belt tensioning assembly, a rubber belt conveying assembly, a material belt conveying assembly, a rubber pressing assembly, a material cutting assembly and a material belt jacking assembly, wherein the vertical plate is arranged on the bottom plate, the rubber belt tensioning assembly, the rubber pressing assembly and the rubber belt conveying assembly are arranged on the vertical plate, the material belt conveying assembly, the material cutting assembly and the material belt jacking assembly are arranged on the bottom plate, the rubber belt is placed on the rubber belt tensioning assembly, the rubber belt is conveyed to the material belt jacking assembly through the rubber belt conveying assembly, the material belt is conveyed to the material belt jacking assembly through the material belt jacking assembly, the rubber belt conveying assembly and the rubber belt are connected, the rubber pressing assembly is used for pressing the rubber belt on the material belt, and the material cutting assembly is used for cutting the material belt in the material belt conveying assembly.

Description

Automatic receiving equipment for material belt

Technical Field

The utility model relates to automatic equipment, in particular to automatic material receiving equipment for a material belt.

Background

The traditional material tape forming machine is used for manually receiving materials or using a special tape receiving machine to receive tapes, a roll of material tape is formed and then is manually or mechanically abutted, the situation that the tape receiving is manually carried out after the material tape is beaten up can occur in the traditional machine type, the requirement of a standard material tape forming machine on manual tape receiving is high, and a long time is spent and a lot of material tapes are wasted when the tape receiving is carried out by an unskilled worker.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides automatic material receiving equipment for a material belt, which comprises a bottom plate, a vertical plate, a belt tensioning assembly, a belt conveying assembly, a material belt conveying assembly, a rubber pressing assembly, a material cutting assembly and a material belt jacking assembly, wherein the vertical plate is arranged on the bottom plate, the belt tensioning assembly, the rubber pressing assembly and the belt conveying assembly are arranged on the vertical plate, the material belt conveying assembly, the material cutting assembly and the material belt jacking assembly are arranged on the bottom plate, the rubber belt is placed on the belt tensioning assembly, the rubber belt is conveyed to the material belt jacking assembly through the belt conveying assembly, the material belt is conveyed to the material belt jacking assembly through the material belt jacking assembly and the belt conveying assembly, the rubber pressing assembly is used for pressing the rubber belt on the material belt, and the material cutting assembly cuts the material belt in the material belt conveying assembly.

In the above-mentioned structure, sticky tape tensioning assembly includes unreel mechanism, straining device and send gluey mechanism, unreel the mechanism and set up on the riser, straining device sets up in the riser bottom, straining device include tensioning driving motor pass through the shaft coupling and be connected with the take-up pulley, send gluey mechanism including sending gluey gyro wheel module and sending gluey driving module, send gluey gyro wheel module and send gluey driving module to set up respectively in the both sides of riser, send gluey driving module to be used for the drive to send gluey gyro wheel module.

In the above-mentioned structure, send gluey driving module including sending gluey driving motor, send gluey driving motor output to be provided with the gear train, the gear train includes gear and lower gear, send gluey gyro wheel module to include the gyro wheel and send gluey spreader, it is connected with the gyro wheel to go up the gear, lower gear is connected with sending gluey driving motor output, and gear mutually support and rotate from top to bottom, still be provided with a plurality of tensioning spreader on the riser.

In the above structure, the adhesive tape conveying assembly comprises an adhesive tape conveying motor, an adhesive tape conveying platform and an adhesive tape conveying platform support, wherein the output end of the adhesive tape conveying motor is connected with an adhesive tape cutter, a connecting block is arranged on the adhesive tape cutter, the connecting block is fixedly connected with the adhesive tape conveying platform, and the adhesive tape conveying platform is arranged on the adhesive tape conveying platform support.

In the above structure, the glue pressing assembly comprises a glue pressing driving motor, a swinging member and a pressing block, wherein the output end of the glue pressing driving motor is connected with a first cam, the first cam is connected with the tail part of the swinging member, the head part of the swinging member is connected with the pressing block, a first guide rail is arranged on the vertical plate, a sliding block is arranged on the first guide rail, and the sliding block is fixedly connected with the swinging member.

In the structure, the material belt conveying assembly is divided into a left material belt conveying assembly and a right material belt conveying assembly, the left material belt conveying assembly and the right material belt conveying assembly are respectively arranged on the left side and the right side of the material belt jacking assembly, the structure of the left material belt conveying assembly and the right material belt conveying assembly is the same, the material belt conveying assembly comprises a material belt conveying motor, a supporting plate and a material belt conveying platform, the supporting plate is arranged on a bottom plate, the material belt conveying motor is arranged on the supporting plate, the output end of the material belt conveying motor is provided with a conveying wheel, the material belt conveying platform is fixedly connected with the supporting plate, the material belt conveying platform is arranged above the conveying wheel, the material belt conveying platform is provided with a groove, the material belt conveying platform is provided with a first opening at the position of the conveying wheel, and the top of the conveying wheel is parallel to the bottom of the groove in the first opening.

In the above-mentioned structure, the blank subassembly includes blank driving motor, drive support and material area cutter, blank driving motor sets up under the bottom plate, and blank driving motor output is provided with the second cam, be provided with oval opening on the drive support, the second cam sets up inside oval opening, the drive support both ends are provided with the transfer line, material area conveying platform still is provided with the second opening, the transfer line passes the bottom plate, is provided with the material area cutter at the top of transfer line, the material area cutter sets up the second opening part at material area conveying platform.

In the structure, the material belt jacking component comprises a jacking cylinder and a jacking plate, the jacking cylinder is arranged on the bottom plate, the jacking plate is arranged on the jacking cylinder, a fixed transverse plate is arranged on the material belt conveying component, a second guide rail is arranged in front of the jacking plate, a sliding block is arranged on the second guide rail, and the sliding block is connected with the fixed transverse plate.

In the structure, the back of the jacking plate is provided with a containing groove, and the containing groove is internally provided with an adhesive tape folded plate.

In the above structure, the adhesive tape flap comprises a flat plate part and a folding part, wherein the flat plate part is arranged in the accommodating groove, extends obliquely upwards, and extends forwards at the 90-degree angle of the extending top part to form the folding part.

The beneficial effects of the utility model are as follows: when the automatic material belt butt joint device works, the adhesive belt is placed on the adhesive belt tensioning assembly, the adhesive belt is conveyed to the material belt jacking assembly through the adhesive belt conveying assembly, the material belt is conveyed to the material belt jacking assembly through the material belt jacking assembly, the adhesive belt conveying assembly and the material belt are connected through the adhesive belt, the adhesive pressing assembly is used for pressing the adhesive belt on the material belt, and the material belt cutting assembly is used for cutting the material belt in the material belt conveying assembly.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the assembly of the present utility model;

FIG. 2 is a schematic view of the construction of the adhesive tape tensioning assembly, adhesive tape transport assembly and adhesive pressing assembly of the present utility model;

FIG. 3 is a schematic view of another angle of the tape tensioning assembly, tape transport assembly, and adhesive pressing assembly of the present utility model;

FIG. 4 is a schematic view of the belt conveyor assembly, the blanking assembly and the belt lifting assembly of the present utility model;

fig. 5 is a schematic view of another angle of the belt conveying assembly, the blanking assembly and the belt lifting assembly according to the present utility model.

Detailed Description

The conception, specific structure, and technical effects produced by the present utility model will be clearly and completely described below with reference to the embodiments and the drawings to fully understand the objects, features, and effects of the present utility model. It is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and that other embodiments obtained by those skilled in the art without inventive effort are within the scope of the present utility model based on the embodiments of the present utility model. In addition, all the coupling/connection relationships referred to in the patent are not direct connection of the single-finger members, but rather, it means that a better coupling structure can be formed by adding or subtracting coupling aids depending on the specific implementation. The technical features in the utility model can be interactively combined on the premise of no contradiction and conflict.

As shown in fig. 1, the automatic material receiving device for the material belt comprises a bottom plate 1, a vertical plate 2, a rubber belt tensioning assembly 3, a rubber belt conveying assembly 4, a material belt conveying assembly 6, a rubber pressing assembly 5, a material cutting assembly 7 and a material belt jacking assembly 8, wherein the vertical plate 2 is arranged on the bottom plate 1, the rubber belt tensioning assembly 3, the rubber pressing assembly 5 and the rubber belt conveying assembly 4 are arranged on the vertical plate 2, the material belt conveying assembly 6, the material cutting assembly 7 and the material belt jacking assembly 8 are arranged on the bottom plate 1, rubber belt is placed on the rubber belt tensioning assembly 3, the rubber belt is conveyed to the material belt jacking assembly 8 through the rubber belt conveying assembly 4, the material belt is conveyed to the material belt jacking assembly 8 through the material belt jacking assembly 8 and the rubber belt conveying assembly 6, the rubber pressing assembly is used for pressing the rubber belt on the material belt, and the material cutting assembly 7 cuts the material belt in the material belt conveying assembly 4;

as shown in fig. 1, 2 and 3, the adhesive tape tensioning assembly 3 comprises an unreeling mechanism 31, a tensioning mechanism 32 and an adhesive feeding mechanism 33, the unreeling mechanism 31 is arranged on the vertical plate 2, the unreeling mechanism 31 is used for placing adhesive tape rolls, the tensioning mechanism 32 is arranged at the bottom of the vertical plate 2, the tensioning mechanism 32 comprises two tensioning driving motors 322, in the embodiment, the tensioning driving motors 322, the output ends of the tensioning driving motors 322 are connected with the tensioning wheels 321 through couplings, the number of the tensioning wheels 321 is four, two of the tensioning driving motors 322 are connected with the tensioning driving motors 322, two of the tensioning driving motors 322 are not connected with the tensioning driving motors 322, the adhesive feeding mechanism 33 comprises an adhesive feeding roller module 331 and an adhesive feeding driving module 332, the adhesive feeding roller module 331 is arranged on the same side as the unreeling mechanism, the adhesive feeding driving module 332 is arranged on the other side of the vertical plate, the adhesive feeding driving module 332 comprises an adhesive feeding driving motor 332a, the output end of the glue feeding driving motor 332a is provided with a gear set 332b, the gear set 332b comprises an upper gear and a lower gear, the glue feeding roller module 331 comprises a roller 331a and a glue feeding cross column 331b, the upper gear is connected with the roller 331a, the lower gear is connected with the output end of the glue feeding driving motor 332a, the upper gear and the lower gear are mutually matched for rotation, the vertical plate is also provided with a plurality of tensioning cross columns 34, in the embodiment, the vertical plate is provided with 3 tensioning cross columns 34, the glue is manually placed on the unreeling mechanism 31, the glue firstly passes through the tensioning wheel 321 of the tensioning mechanism 32, the tensioning driving motor 322 drives the tensioning wheel 321 to rotate so as to drive the glue, the glue passes through the tensioning cross column 34 to the glue feeding roller module 331, the glue passes through the roller 331a and the glue feeding cross column 331b, the roller 331a continuously pushes the glue to the glue conveying assembly 4 through the driving of the glue feeding driving motor 332a, the adhesive tape conveying assembly 4 comprises an adhesive tape conveying motor 44, an adhesive tape conveying platform 42 and an adhesive tape conveying platform bracket 42, wherein the output end of the adhesive tape conveying motor 44 is connected with an adhesive tape cutter 41, a connecting block is arranged on the adhesive tape cutter, the connecting block is fixedly connected with the adhesive tape conveying platform 42, the adhesive tape conveying platform 42 is arranged on the adhesive tape conveying platform bracket 42, the adhesive tape passes through the position of the adhesive tape cutter 41 and then passes through two tensioning transverse posts 34 to be arranged on the adhesive tape conveying platform 42, and the adhesive tape conveying motor 44 drives the adhesive tape cutter 41 to move in a translational mode and simultaneously drives the adhesive tape conveying platform 42 to move in a translational mode; the glue pressing assembly 5 comprises a glue pressing driving motor 54, a swinging member 52 and a pressing block 51, wherein the output end of the glue pressing driving motor 54 is connected with a first cam 53, the first cam 53 is connected with the tail of the swinging member 52, the head of the swinging member 52 is connected with the pressing block 51, a first guide rail is arranged on the vertical plate 2, and a sliding block is arranged on the first guide rail and fixedly connected with the swinging member 52.

As shown in fig. 1, 4 and 5, the material belt conveying assembly 6 is divided into a left material belt conveying assembly and a right material belt conveying assembly, the left material belt conveying assembly and the right material belt conveying assembly are respectively arranged at the left side and the right side of the material belt jacking assembly 8, the left material belt conveying assembly and the right material belt conveying assembly have the same structure, the material belt conveying assembly comprises a material belt conveying motor 61, a supporting plate 62 and a material belt conveying platform 63, the supporting plate 62 is arranged on the bottom plate 1, the material belt conveying motor 61 is arranged on the supporting plate 62, the output end of the material belt conveying motor 61 is provided with a conveying wheel 64, the material belt conveying platform 63 is fixedly connected with the supporting plate 62, the material belt conveying platform 63 is arranged above the conveying wheel 64, the material belt conveying platform 63 is provided with a groove, the material belt conveying platform 63 is provided with a first opening 631 at the position of the conveying wheel 64, the top of the conveying wheel 64 is parallel to the bottom of the groove in the first opening 631, the bottom plate 1 is provided with a blanking component 7 which comprises a blanking driving motor 72, a transmission bracket 71 and a material belt cutter 75, the blanking driving motor 72 is arranged under the bottom plate 1, the output end of the blanking driving motor 72 is provided with a second cam 73, the transmission bracket 71 is provided with an elliptical opening, the second cam 73 is arranged inside the elliptical opening, two ends of the transmission bracket 71 are provided with a transmission rod 74, the material belt conveying platform 63 is also provided with a second opening 632, the transmission rod 74 penetrates through the bottom plate 1, the top of the transmission rod 74 is provided with the material belt cutter 75, the material belt cutter 75 is arranged at the second opening 632 of the material belt conveying platform 63, a material belt jacking component 8 which comprises a jacking cylinder 81 and a jacking plate 82 is arranged between the left and right material belt conveying components, the jacking cylinder 81 is arranged on the bottom plate 1, the jacking plate 82 is arranged on the jacking cylinder 81, the material belt passes through the groove of the material belt conveying platform 63, the conveying wheel 64 rotates to push the material belt to translate to the top of the jacking plate 82, the material belt cutter 75 moves up and down under the action of the material cutting driving motor 72, and the material belt passes through the second opening 632 of the material belt conveying platform 63 and is cut and segmented by the material belt cutter 75.

The material is provided with fixed diaphragm 65 on the backup pad 62 of material area conveying assembly 6, the backup pad 62 of left and right material area conveying assembly 6 is connected respectively at fixed diaphragm 65 both ends, the front of jacking plate 82 sets up the second guide rail, be provided with the slider on the second guide rail, the fixed diaphragm 65 of slider connects, the back of jacking plate 82 is provided with the storage tank 821, be provided with sticky tape folded plate 822 in the storage tank 821, sticky tape folded plate 822 can reciprocate relative to jacking plate 82 in the storage tank 82, sticky tape folded plate 822 includes flat plate portion and folding portion, flat plate portion is arranged in the storage tank 821, flat plate portion extends upwards to extend forward at extension top 90 to form folding portion.

During operation, a roll of adhesive tape is manually installed on the unreeling mechanism 31, the tensioning mechanism 32 and the adhesive feeding mechanism 33 are combined, the adhesive tape is fed onto the adhesive tape conveying platform 42, the adhesive tape conveying platform 42 is pushed by a motor to convey the adhesive tape to the top of the lifting plate 82 in the lifting assembly 8, meanwhile, the left and right material tape conveying assemblies push the material tapes onto the lifting plate 82, the lifting cylinder 81 can lift the material tapes first, the material tapes are stuck on the reverse side first, the pressing block 51 on the adhesive pressing assembly 5 can press the material tapes under the action of the adhesive pressing driving motor 54, the adhesive tape sent out by the adhesive tape conveying platform 42 is stuck on the bottom of the material tapes first, the lifting cylinder 81 is lowered, the adhesive tape folding plate 822 can fold the adhesive tape, the pressing block 51 on the adhesive pressing assembly 5 can be pressed again, the adhesive tape is stuck on the two material tapes firmly, and the adhesion of the two material tapes is realized.

While the preferred embodiment of the present utility model has been described in detail, the present utility model is not limited to the embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present utility model, and the equivalent modifications or substitutions are included in the scope of the present utility model as defined in the appended claims.

Claims (10)

1. The utility model provides a material area automatic material receiving equipment, its characterized in that includes bottom plate, riser, sticky tape tensioning assembly, sticky tape conveying assembly, material area conveying assembly, pressure gluey subassembly, blank subassembly and material area jacking subassembly, the riser sets up on the bottom plate, sticky tape tensioning assembly, pressure gluey subassembly and sticky tape conveying assembly set up on the riser, material area conveying assembly, blank subassembly and material area jacking subassembly set up on the bottom plate, place the sticky tape on the sticky tape tensioning assembly, the sticky tape is delivered to material area jacking subassembly department through sticky tape conveying assembly, material area conveying assembly also carries the material area to material area jacking subassembly department, through material area jacking subassembly and sticky tape conveying assembly, material area conveying assembly and with the sticky tape joint, pressure gluey subassembly is used for compressing tightly the sticky tape on the material area, blank subassembly cuts the material area in material area conveying assembly.

2. The automatic receiving equipment of a material belt according to claim 1, wherein the adhesive tape tensioning assembly comprises an unreeling mechanism, a tensioning mechanism and a glue feeding mechanism, the unreeling mechanism is arranged on the vertical plate, the tensioning mechanism is arranged at the bottom of the vertical plate and comprises a tensioning driving motor, the tensioning driving motor is connected with the tensioning wheel through a coupler, the glue feeding mechanism comprises a glue feeding roller module and a glue feeding driving module, the glue feeding roller module and the glue feeding driving module are respectively arranged on two sides of the vertical plate, and the glue feeding driving module is used for driving the glue feeding roller module.

3. The automatic receiving equipment for the material belt according to claim 2, wherein the glue feeding driving module comprises a glue feeding driving motor, a gear set is arranged at the output end of the glue feeding driving motor, the gear set comprises an upper gear and a lower gear, the glue feeding roller module comprises a roller and a glue feeding cross column, the upper gear is connected with the roller, the lower gear is connected with the output end of the glue feeding driving motor, the upper gear and the lower gear are mutually matched for rotation, and a plurality of tensioning cross columns are further arranged on the vertical plate.

4. The automatic material receiving equipment for the material belt according to claim 1, wherein the adhesive tape conveying assembly comprises an adhesive tape conveying motor, an adhesive tape conveying platform and an adhesive tape conveying platform support, an output end of the adhesive tape conveying motor is connected with an adhesive tape cutter, a connecting block is arranged on the adhesive tape cutter, the connecting block is fixedly connected with the adhesive tape conveying platform, and the adhesive tape conveying platform is arranged on the adhesive tape conveying platform support.

5. The automatic receiving equipment for the material belt according to claim 1, wherein the glue pressing assembly comprises a glue pressing driving motor, a swinging piece and a pressing block, the output end of the glue pressing driving motor is connected with a first cam, the first cam is connected with the tail part of the swinging piece, the head part of the swinging piece is connected with the pressing block, a first guide rail is arranged on the vertical plate, a sliding block is arranged on the first guide rail, and the sliding block is fixedly connected with the swinging piece.

6. The automatic material receiving equipment for the material belt according to claim 1, wherein the material belt conveying assembly is divided into a left material belt conveying assembly and a right material belt conveying assembly, the left material belt conveying assembly and the right material belt conveying assembly are respectively arranged on the left side and the right side of the material belt jacking assembly, the left material belt conveying assembly and the right material belt conveying assembly are identical in structure and comprise a material belt conveying motor, a supporting plate and a material belt conveying platform, the supporting plate is arranged on a bottom plate, the material belt conveying motor is arranged on the supporting plate, a conveying wheel is arranged at the output end of the material belt conveying motor, the material belt conveying platform is fixedly connected with the supporting plate, the material belt conveying platform is arranged above the conveying wheel, a groove is formed in the material belt conveying platform, a first opening is formed in the position of the conveying wheel, and the top of the conveying wheel is parallel to the bottom of the groove in the first opening.

7. The automatic material receiving device for a material belt according to claim 6, wherein the material cutting assembly comprises a material cutting driving motor, a transmission support and a material belt cutter, the material cutting driving motor is arranged below the bottom plate, a second cam is arranged at the output end of the material cutting driving motor, an elliptical opening is arranged on the transmission support, the second cam is arranged inside the elliptical opening, transmission rods are arranged at two ends of the transmission support, a second opening is further arranged on the material belt conveying platform, the transmission rods penetrate through the bottom plate, the material belt cutter is arranged at the top of the transmission rods, and the material belt cutter is arranged at the second opening of the material belt conveying platform.

8. The automatic material receiving device for material belts according to claim 1, wherein the material belt jacking assembly comprises a jacking cylinder and a jacking plate, the jacking cylinder is arranged on the bottom plate, the jacking plate is arranged on the jacking cylinder, the material belt conveying assembly is provided with a fixed transverse plate, a second guide rail is arranged in front of the jacking plate, and a sliding block is arranged on the second guide rail and is connected with the fixed transverse plate.

9. The automatic material receiving device for material strips according to claim 8, wherein the back surface of the jacking plate is provided with a containing groove, and an adhesive tape folded plate is arranged in the containing groove.

10. The automatic tape splicing apparatus according to claim 9, wherein the tape flap comprises a flat plate portion and a folded portion, the flat plate portion is disposed in the receiving slot, and the flat plate portion extends obliquely upward and extends forward at an extension top portion by 90 ° to form the folded portion.