CN210619803U

CN210619803U - Full-automatic hose cutting blanking machine and hose conveying mechanism thereof

Info

Publication number: CN210619803U
Application number: CN201920999608.8U
Authority: CN
Inventors: 彭旭东; 刘进
Original assignee: Hubei Weiyue Intelligent Technology Co ltd
Current assignee: Hubei Weiyue Intelligent Technology Co ltd
Priority date: 2019-06-30
Filing date: 2019-06-30
Publication date: 2020-05-26
Anticipated expiration: 2029-06-30

Abstract

The utility model relates to a full-automatic hose cutting blanking machine and a hose conveying mechanism thereof, wherein the blanking machine comprises a control cabinet, and a hose conveying mechanism, a length measuring mechanism and a hose pipe cutting mechanism which are arranged in sequence; the hose conveying mechanism comprises a hose reel, a conveying power motor, a hose conveying guide assembly and a conveying lifting motor; the hose conveying guide assembly is provided with more than one group to match hoses with different sizes; each group of hose conveying guide assemblies is connected with the power output end of the conveying power motor in a matching manner; the hose pipe cutting mechanism is arranged on the hose output side of the hose conveying mechanism in a matching manner; the length measuring mechanism is arranged between the hose conveying mechanism and the hose pipe cutting mechanism in a matching mode. The utility model discloses structure hose transportation process operation is reliable and stable, and hose conveying efficiency is high, is convenient for accurate management and control hose transport size in hose transportation process, can show and reduce the hose disability rate.

Description

Full-automatic hose cutting blanking machine and hose conveying mechanism thereof

Technical Field

The utility model belongs to the automobile manufacture field relates to plastics pipeline spare parts such as military project manufacturing and makes, concretely relates to full-automatic hose blanking machine of cutting and hose conveying mechanism thereof.

Background

The cutting and blanking of the hose in the current stay wire production operation are carried out by using common blanking equipment, certain defects exist in structural design, the function is single, the blanking efficiency of the hose is low, and the operation is not stable and reliable enough. In particular. At present, the hose is conveyed in a stretching mode in the production operation of a stay wire, a stretching mechanism is arranged on a linear slide rail to do linear motion, a clamping jaw is arranged on the stretching mechanism, the clamping jaw clamps the head end of the hose and then makes linear motion along the slide rail, a hose reel rotates due to the stretching of the hose, the length of the hose in the hose reel is continuously reduced, the weight of the hose reel and the winding diameter of the hose are changed, and the stretching force received by the hose is also changed at any moment; meanwhile, the accurate size is difficult to accurately measure because the toughness factors such as the stress resilience and the like of the hose are changed due to the change of weather and temperature, the hose which is a little longer than the actually required size can only be cut, and then the hose is placed for a period of time and is measured after the hose returns to the natural normal state, and then the required accurate size is cut; especially when the size is more than 10 meters, the size is more difficult to manage and control, the equipment floor area is large, the stretching mechanism walks more than 20 meters back and forth, and the hose conveying efficiency is extremely low.

Disclosure of Invention

To the problem that exists among the above-mentioned background art, the utility model provides a hose transportation process operation is reliable and stable, conveying efficiency is high and can show full-automatic hose blanking machine and hose conveying mechanism that cuts that reduces the hose disability rate.

The utility model discloses a realize through following technical scheme:

the full-automatic hose cutting blanking machine comprises a control cabinet, and a hose conveying mechanism, a length measuring mechanism and a hose pipe cutting mechanism which are sequentially arranged; the hose conveying mechanism comprises a hose reel, a conveying power motor, a hose conveying guide assembly and a conveying lifting motor; the conveying power motor is arranged on the hose output side of the hose reel; the conveying lifting motor is arranged on the lower side of the conveying power motor in a matching manner, and the power output end of the conveying lifting motor is connected with the conveying power motor; the hose conveying guide assembly is provided with more than one group to match hoses with different sizes; each group of hose conveying guide assemblies is connected with the power output end of the conveying power motor in a matching manner; the conveying power motor and the hose conveying guide assembly are driven by the conveying lifting motor to lift so as to enable the hose to be clamped and loosened on the conveying guide assembly; the conveying power motor drives the hose conveying guide assembly to operate, so that a hose clamped on the hose conveying guide assembly is driven to move; the hose reel is driven by the conveying power motor to rotate passively when the hose is driven to move.

Full-automatic hose cutting blanking machine, wherein: the lower part of the conveying power motor is fixedly provided with a motor mounting bracket and is connected with the power output end of the conveying lifting motor in a matching way through the motor mounting bracket; each group of hose conveying guide assemblies comprises an upper conveying guide wheel, a lower conveying guide wheel, a main transmission belt, an upper transmission wheel and a lower transmission wheel; at least one pair of upper conveying guide wheels is arranged at the upper part of the motor mounting bracket in a matching manner; at least one pair of lower conveying guide wheels are arranged on the lower side of the upper conveying guide wheel in a matching manner; the upper conveying guide wheels are connected with each other in a matched mode through an upper conveying belt, and the lower conveying guide wheels are connected with each other in a matched mode through a lower conveying belt; one of the upper conveying guide wheels is coaxially provided with an upper driving wheel, and one of the lower conveying guide wheels is coaxially provided with a lower driving wheel; the upper transmission wheel and the lower transmission wheel are positioned on the same side and are arranged up and down; the upper transmission wheel and the lower transmission wheel are connected in a matching way through a main transmission belt; one axial end of the upper driving wheel is connected with a power output shaft of the power transmission motor in a matching manner; the hose led out from the hose reel is clamped between the outer belt surfaces of the upper conveying belt and the lower conveying belt, and the hose reel passively rotates when the conveying power motor drives the hose to move.

Full-automatic hose cutting blanking machine, wherein: hose limiting grooves are formed in the middle of the outer belt surfaces of the upper conveying belt and the lower conveying belt, and hose limiting grooves in the outer belt surfaces of the upper conveying belt and hose limiting grooves in the outer belt surfaces of the lower conveying belt are combined to form a hose conveying channel.

Full-automatic hose cutting blanking machine, wherein: the back of the motor mounting bracket is provided with a guide seat; a fixed bracket is arranged on the lower side of the motor mounting bracket in a matching manner, and the lower conveying guide wheel is mounted on the fixed bracket in a matching manner; the back of the fixed support is vertically provided with a guide rod which is matched and corresponding to the guide seat, and the upper end of the guide rod is movably sleeved in the guide seat.

Full-automatic hose cutting blanking machine, wherein: the hose cutting mechanism comprises a hose cutting bracket and a hose cutting assembly; the hose cutting bracket is provided with a hose guide pipe in a matching way; the hose cutting bracket is provided with a motor walking avoidance groove between the adjacent hose guide pipes; the pipe cutting assembly is installed on the pipe cutting support and driven by the driving device to move back and forth in the motor walking avoiding groove along the direction perpendicular to the hose guide pipe, and the motor walking avoiding groove is cut by the corresponding hose.

The hose conveying mechanism of the full-automatic hose cutting blanking machine comprises a hose reel, a conveying power motor, a hose conveying guide assembly and a conveying lifting motor; the conveying power motor is arranged on the hose output side of the hose reel; the conveying lifting motor is arranged on the lower side of the conveying power motor in a matching manner, and the power output end of the conveying lifting motor is connected with the conveying power motor so as to drive the conveying power motor to lift; the hose conveying guide assembly is provided with more than one group to match hoses with different sizes; each group of hose conveying guide assemblies is connected with the power output end of the conveying power motor in a matching manner; the hose led out from the hose reel is clamped on the hose conveying guide assembly, the conveying power motor drives the hose conveying guide assembly to operate so as to drive the hose to move, and the hose reel passively rotates when the conveying power motor drives the hose to move.

Full-automatic hose cutting blanking machine's hose conveying mechanism, wherein: the lower part of the conveying power motor is fixedly provided with a motor mounting bracket and is connected with the power output end of the conveying lifting motor in a matching way through the motor mounting bracket; each group of hose conveying guide assemblies comprises an upper conveying guide wheel, a lower conveying guide wheel, a main transmission belt, an upper transmission wheel and a lower transmission wheel; at least one pair of upper conveying guide wheels is arranged at the upper part of the motor mounting bracket in a matching manner; at least one pair of lower conveying guide wheels are arranged on the lower side of the upper conveying guide wheel in a matching manner; the upper conveying guide wheels are connected with each other in a matched mode through an upper conveying belt, and the lower conveying guide wheels are connected with each other in a matched mode through a lower conveying belt; one of the upper conveying guide wheels is coaxially provided with an upper driving wheel, and one of the lower conveying guide wheels is coaxially provided with a lower driving wheel; the upper transmission wheel and the lower transmission wheel are positioned on the same side and are arranged up and down; the upper transmission wheel and the lower transmission wheel are connected in a matching way through a main transmission belt; one axial end of the upper driving wheel is connected with a power output shaft of the power transmission motor in a matching manner; the hose led out from the hose reel is clamped between the outer belt surfaces of the upper conveying belt and the lower conveying belt, and the hose reel passively rotates when the conveying power motor drives the hose to move.

Full-automatic hose cutting blanking machine's hose conveying mechanism, wherein: hose limiting grooves are formed in the middle of the outer belt surfaces of the upper conveying belt and the lower conveying belt, and hose limiting grooves in the outer belt surfaces of the upper conveying belt and hose limiting grooves in the outer belt surfaces of the lower conveying belt are combined to form a hose conveying channel.

Full-automatic hose cutting blanking machine's hose conveying mechanism, wherein: the back of the motor mounting bracket is provided with a guide seat; a fixed bracket is arranged on the lower side of the motor mounting bracket in a matching manner, and the lower conveying guide wheel is mounted on the fixed bracket in a matching manner; the back of the fixed support is vertically provided with a guide rod which is matched and corresponding to the guide seat, and the upper end of the guide rod is movably sleeved in the guide seat.

Full-automatic hose cutting blanking machine's hose conveying mechanism, wherein: the hose conveying mechanism also comprises a conveying support plate vertically fixed on the ground; the hose reel is matched and hinged with the upper part of the conveying support plate.

Has the advantages that:

the utility model discloses full-automatic hose unloader that cuts structural design is simple, reasonable, and hose transportation process operation is reliable and stable, and hose conveying efficiency is high, can be convenient in hose transportation process, quick, accurate measure the management and control to hose transport size, can show and reduce the hose disability rate.

The hose conveying mechanism of the utility model abandons the previous stretching traction mode, adopts the conveying propulsion mode to measure the length of the hose at the position without stretching force behind the hose conveying mechanism, so that the influence of the stretching force toughness factor is avoided during measurement, and the measurement length is accurate; the during operation is carried elevator motor operation and is driven the upper conveyer belt and rise a take the altitude, and inside the operator very light sent into the conveyer to the hose, got into length measurement mechanism through the pipe, then elevator motor reverse operation drove and goes up conveyor belt and descend to the setting position, carries power motor operation, drives conveyor belt synchronous operation about driving and reaches the purpose of carrying the hose.

Compared with the prior art, the hose conveying mechanism has remarkable advantages, the phenomenon that the hose falls halfway can not occur in the conveying power motor, and the phenomenon that the hose falls frequently occurs when the hose is clamped by the clamping heads to move in the prior art due to the flexible factors of the hose; the conveying power motor does not move back and forth like the traditional stretcher, only needs to run at a set speed, has efficiency more than twice of the traditional efficiency, basically has no electric energy loss, and has a hundred percent of electric energy utilization rate.

Drawings

Fig. 1 is a schematic structural view of the fully automatic hose cutting and blanking machine of the present invention;

fig. 2 is an enlarged view of the area a in fig. 1 of the fully automatic hose cutting and blanking machine of the present invention;

fig. 3 is an enlarged view of the area B in fig. 1 of the fully automatic hose cutting and blanking machine of the present invention;

fig. 4 is a front view of the fully automatic hose cutting and blanking machine of the present invention;

fig. 5 is an enlarged view of the area C in fig. 4 of the fully automatic hose cutting and blanking machine of the present invention;

fig. 6 is a rear view of the fully automatic hose cutting and blanking machine of the present invention;

fig. 7 is a top view of the full-automatic hose cutting and blanking machine of the present invention.

Detailed Description

As shown in fig. 1 to 7, the utility model discloses full-automatic hose cutting blanking machine, including bottom plate 1, frame 2, hose conveying mechanism 3, hose pipe cutting mechanism 5, length measurement mechanism 6 and switch board 7.

The bottom plate 1 is arranged on the ground, the rack 2 is arranged on the bottom plate 1 in a matching mode, the hose conveying mechanism 3, the length measuring mechanism 6 and the hose pipe cutting mechanism 5 are sequentially arranged, and the control cabinet 7 is also arranged on the bottom plate 1 in a matching mode.

The hose conveying mechanism 3 comprises a pair of conveying support plates 31, a hose reel 32, a conveying lifting motor 33, a conveying power motor 34, an upper conveying guide wheel 35, a lower conveying guide wheel 36, a main transmission belt 37, an upper transmission wheel 38 and a lower transmission wheel 39; the upper conveying guide wheel 35, the lower conveying guide wheel 36, the main driving belt 37, the upper driving wheel 38 and the lower driving wheel 39 form a hose conveying guide assembly, and the hose conveying guide assembly has multiple groups and is used for matching hoses with different sizes.

The pair of conveying support plates 31 are vertically fixed on the top surface of one end of the bottom plate 1, and the pair of conveying support plates 31 are arranged in parallel and opposite to each other and are spaced from each other by a certain distance; a pair of hose reels 32 arranged up and down are respectively mounted on the opposite sides of the pair of conveying support plates 31 in a matched and hinged manner, and the hose reels 32 are driven to rotate by a conveying power motor 34 when the hose is driven. Each hose reel 32 is uniformly wound with the hose to be processed. The conveying power motors 34 are provided with a plurality of conveying power motors and are sequentially and uniformly distributed along the front-back direction of the upper part of one end of the rack 2, and the conveying lifting motor 33 is arranged at the lower side of the conveying power motors 34 in a matching way; each conveying power motor 34 is electrically connected with the control cabinet 7 through a wire harness, and a motor mounting bracket 341 is arranged on the power output side of each conveying power motor 34; a guide holder 3411 is provided on the back of the motor mounting bracket 341; the lower part of the motor mounting bracket 341 is connected with the power output end of the conveying lifting motor 33 in a matching way, and the upper part is provided with a pair of upper conveying guide wheels 35 along the horizontal direction; a pair of lower conveying guide wheels 36 are arranged on the lower sides of the pair of upper conveying guide wheels 35 in a matching manner, the pair of lower conveying guide wheels 36 are also horizontally arranged and fixedly mounted on the upper part of the frame 2 through a fixed bracket 362, a guide rod 3621 matched and corresponding to the guide seat 3411 is vertically arranged on the back surface of the fixed bracket 362, and the upper end of the guide rod 3621 is movably sleeved in the guide seat 3411; the pair of upper conveying guide wheels 35 are connected in a matched manner through an upper conveying belt 351, the pair of lower conveying guide wheels 36 are connected in a matched manner through a lower conveying belt 361, hose limiting grooves are formed in the middle parts of the outer belt surfaces of the upper conveying belt 351 and the lower conveying belt 361, and a hose limiting groove in the outer belt surface of the upper conveying belt 351 and the hose limiting groove in the outer belt surface of the lower conveying belt 361 are combined to form a hose conveying channel; an upper driving wheel 38 is coaxially arranged at one axial end of one of the upper conveying guide wheels 35, and a lower driving wheel 39 is coaxially arranged at one axial end of one of the lower conveying guide wheels 36; one axial end of the upper driving wheel 38 is connected to the power output shaft of the power transmission motor 34 in a matching manner, the upper driving wheel 38 and the lower driving wheel 39 are located on the same side and are arranged up and down, and the upper driving wheel 38 and the lower driving wheel 39 are connected in a matching manner through a main driving belt 37.

Wherein, when the hose conveying mechanism 3 conveys the hose, the conveying lifting motor 33 is firstly operated positively to drive the motor mounting bracket 341 and the pair of upper conveying guide wheels 35 to rise to a certain height, the operator inserts the hose from the hose reel 32 into the hose limiting groove on the outer belt surface of the lower conveying belt 36, then, the conveying lifting motor 33 runs reversely to drive the motor mounting bracket 341 and the pair of upper conveying guide wheels 35 to descend to a set position, so that the hose is clamped in a hose conveying channel formed by combining the hose limiting groove on the outer surface of the upper conveying belt 351 and the hose limiting groove on the outer surface of the lower conveying belt 361, the upper drive wheel 3837 and the lower drive wheel 3938 are driven to rotate by the conveyance power motor 33, the upper transmission wheel 3837 drives the upper transmission guide wheel 35 to operate, the lower transmission wheel 3938 drives the lower transmission guide wheel 35 to operate, and finally the upper transmission belt 351 and the lower transmission belt 361 are driven to synchronously operate to achieve the purpose of conveying the hose.

The hose cutting mechanism 5 comprises a hose cutting support 51, a hose cutting motor mounting frame 52, a cutter baffle plate 53, a hose cutting motor 54, a hose cutting cylinder 55 and a cutter blade 55.

The pipe cutting bracket 51 is of a U-shaped bracket structure and is fixed at the upper part of the rack 2 at the output side of the hot baking oven 43, and consists of a horizontal plate 511 which is horizontally arranged and a pair of vertical plates 512 which are vertically connected with the two ends of the horizontal plate in the horizontal direction; the upper ends of the pair of vertical plates 512 are respectively provided with a plurality of hose guide pipes 513 in a matching way; the upper portion of the vertical plate 512 is provided with a motor walking avoiding groove 510 in a region between every two adjacent hose guide pipes 513, the inner side surface of the vertical plate 512 of the pipe cutting bracket 51 is further provided with a slide rail 514, and the slide rail 514 is arranged along the inner side surface of the vertical plate 512 in the front-back direction.

The lower portion of the tube cutting motor mount 52 is slidably mounted on the slide rail 514 in a mating relationship. The cutter baffle 53 is matched and installed on the outer side surface of the upper end of the vertical plate 512 far away from the hot baking oven 43, and a cutter running space is reserved between the cutter baffle 53 and the outer side surface of the upper end of the vertical plate 512 far away from the hose output side of the hot baking oven 43. The tube cutting motor 54 is arranged on the upper part of the tube cutting motor mounting frame 52 in a matching way, and the cutting blade 56 is arranged on the power output end of the tube cutting motor 54 in a matching way and rotates at a high speed in the cutter running space.

The pipe cutting cylinder 55 is located at the lower side of the pipe cutting motor mounting frame 52 in a matching way, and the power output end of the pipe cutting cylinder is connected with the lower part of the pipe cutting motor mounting frame 52. When a pipe needs to be cut, the pipe cutting motor 54 operates at a high speed to drive the cutting blade 56 to operate at a high speed, then the pipe cutting cylinder 55 reciprocates to drive the pipe cutting motor mounting rack 52 and the pipe cutting motor 54 slide rail 514 to displace, so that the cutting blade 56 which rotates at a high speed reciprocates in the motor walking avoiding groove 510 along a direction perpendicular to the hose guide pipe 513, two adjacent hoses corresponding to the motor walking avoiding groove 510 are cut, and the hoses are quickly cut at the moment that the cutting blade 56 which operates at a high speed contacts the hoses, so that the hoses are cut by the hoses due to the fact that the cutting feed amount is ahead of the cutting feed amount, the hoses cannot be stressed and cannot be deformed, and therefore, the cuts are flat and smooth, the size is accurate, and the yield is improved.

The length measuring mechanism 6 is provided with a plurality of pipe cutting brackets 51 which are respectively arranged on the hose pipe cutting mechanism 5 in a matching way; each length measuring device 6 is arranged on the side of each hose guide 513.

The utility model has the advantages of simple and reasonable design, hose transportation process operation is reliable and stable, and hose conveying efficiency is high, is convenient for accurate management and control hose transport size in hose transportation process, can show reduction hose disability rate.

Claims

1. A full-automatic hose cutting blanking machine comprises a control cabinet, a hose conveying mechanism, a length measuring mechanism and a hose pipe cutting mechanism, wherein the hose conveying mechanism, the length measuring mechanism and the hose pipe cutting mechanism are sequentially arranged; the method is characterized in that:

the hose conveying mechanism comprises a hose reel, a conveying power motor, a hose conveying guide assembly and a conveying lifting motor; the conveying power motor is arranged on the hose output side of the hose reel; the conveying lifting motor is arranged on the lower side of the conveying power motor in a matching manner, and the power output end of the conveying lifting motor is connected with the conveying power motor;

the hose conveying guide assembly is provided with more than one group to match hoses with different sizes; each group of hose conveying guide assemblies is connected with the power output end of the conveying power motor in a matching manner; the conveying power motor and the hose conveying guide assembly are driven by the conveying lifting motor to lift so as to enable the hose to be clamped and loosened on the conveying guide assembly; the conveying power motor drives the hose conveying guide assembly to operate, so that a hose clamped on the hose conveying guide assembly is driven to move; the hose reel is driven by the conveying power motor to rotate passively when the hose is driven to move.

2. The fully automatic hose cutting and blanking machine as claimed in claim 1, wherein: the lower part of the conveying power motor is fixedly provided with a motor mounting bracket and is connected with the power output end of the conveying lifting motor in a matching way through the motor mounting bracket;

each group of hose conveying guide assemblies comprises an upper conveying guide wheel, a lower conveying guide wheel, a main transmission belt, an upper transmission wheel and a lower transmission wheel;

at least one pair of upper conveying guide wheels is arranged at the upper part of the motor mounting bracket in a matching manner; at least one pair of lower conveying guide wheels are arranged on the lower side of the upper conveying guide wheel in a matching manner; the upper conveying guide wheels are connected with each other in a matched mode through an upper conveying belt, and the lower conveying guide wheels are connected with each other in a matched mode through a lower conveying belt; one of the upper conveying guide wheels is coaxially provided with an upper driving wheel, and one of the lower conveying guide wheels is coaxially provided with a lower driving wheel; the upper transmission wheel and the lower transmission wheel are positioned on the same side and are arranged up and down; the upper transmission wheel and the lower transmission wheel are connected in a matching way through a main transmission belt; one axial end of the upper driving wheel is connected with a power output shaft of the power transmission motor in a matching manner;

the hose led out from the hose reel is clamped between the outer belt surfaces of the upper conveying belt and the lower conveying belt, and the hose reel passively rotates when the conveying power motor drives the hose to move.

3. The fully automatic hose cutting and blanking machine as claimed in claim 2, wherein: hose limiting grooves are formed in the middle of the outer belt surfaces of the upper conveying belt and the lower conveying belt, and hose limiting grooves in the outer belt surfaces of the upper conveying belt and hose limiting grooves in the outer belt surfaces of the lower conveying belt are combined to form a hose conveying channel.

4. The fully automatic hose cutting and blanking machine as claimed in claim 2, wherein: the back of the motor mounting bracket is provided with a guide seat; a fixed bracket is arranged on the lower side of the motor mounting bracket in a matching manner, and the lower conveying guide wheel is mounted on the fixed bracket in a matching manner; the back of the fixed support is vertically provided with a guide rod which is matched and corresponding to the guide seat, and the upper end of the guide rod is movably sleeved in the guide seat.

5. The fully automatic hose cutting and blanking machine as claimed in claim 1, wherein: the hose cutting mechanism comprises a hose cutting bracket and a hose cutting assembly; the hose cutting bracket is provided with a hose guide pipe in a matching way; the hose cutting bracket is provided with a motor walking avoidance groove between the adjacent hose guide pipes; the pipe cutting assembly is installed on the pipe cutting support and driven by the driving device to move back and forth in the motor walking avoiding groove along the direction perpendicular to the hose guide pipe, and the motor walking avoiding groove is cut by the corresponding hose.

6. The utility model provides a full-automatic hose conveying mechanism who cuts hose blanking machine which characterized in that: the hose conveying mechanism comprises a hose reel, a conveying power motor, a hose conveying guide assembly and a conveying lifting motor; the conveying power motor is arranged on the hose output side of the hose reel; the conveying lifting motor is arranged on the lower side of the conveying power motor in a matching manner, and the power output end of the conveying lifting motor is connected with the conveying power motor so as to drive the conveying power motor to lift;

the hose conveying guide assembly is provided with more than one group to match hoses with different sizes; each group of hose conveying guide assemblies is connected with the power output end of the conveying power motor in a matching manner; the hose led out from the hose reel is clamped on the hose conveying guide assembly, the conveying power motor drives the hose conveying guide assembly to operate so as to drive the hose to move, and the hose reel passively rotates when the conveying power motor drives the hose to move.

7. The hose conveying mechanism of a full-automatic hose cutting and blanking machine according to claim 6, characterized in that: the lower part of the conveying power motor is fixedly provided with a motor mounting bracket and is connected with the power output end of the conveying lifting motor in a matching way through the motor mounting bracket;

8. The hose conveying mechanism of a fully automatic hose cutting and blanking machine according to claim 7, characterized in that: hose limiting grooves are formed in the middle of the outer belt surfaces of the upper conveying belt and the lower conveying belt, and hose limiting grooves in the outer belt surfaces of the upper conveying belt and hose limiting grooves in the outer belt surfaces of the lower conveying belt are combined to form a hose conveying channel.

9. The hose conveying mechanism of a fully automatic hose cutting and blanking machine according to claim 7, characterized in that: the back of the motor mounting bracket is provided with a guide seat; a fixed bracket is arranged on the lower side of the motor mounting bracket in a matching manner, and the lower conveying guide wheel is mounted on the fixed bracket in a matching manner; the back of the fixed support is vertically provided with a guide rod which is matched and corresponding to the guide seat, and the upper end of the guide rod is movably sleeved in the guide seat.

10. The hose conveying mechanism of a full-automatic hose cutting and blanking machine according to claim 6, characterized in that: the hose conveying mechanism also comprises a conveying support plate vertically fixed on the ground; the hose reel is matched and hinged with the upper part of the conveying support plate.