CN210060397U

CN210060397U - Be applied to blank drilling all-in-one of warmhouse booth equipment accessory processing

Info

Publication number: CN210060397U
Application number: CN201920605363.6U
Authority: CN
Inventors: 吴学军; 曹玉锁
Original assignee: Jiangsu Long Spring Greenhouse Equipment Co Ltd
Current assignee: Jiangsu Long Spring Greenhouse Equipment Co Ltd
Priority date: 2019-04-29
Filing date: 2019-04-29
Publication date: 2020-02-14
Anticipated expiration: 2029-04-29

Abstract

The utility model belongs to the technical field of big-arch shelter equipment accessory production is used, specifically disclose a blank drilling all-in-one of being applied to processing of warmhouse booth equipment accessory, erect supporting leg, first supporting rail, second supporting rail, perpendicular drilling subassembly, guide subassembly mounting panel, guide subassembly, cutting assembly operation panel and cutting assembly by first perpendicular supporting leg, second and constitute. The beneficial effects of the utility model reside in that: its project organization is reasonable, a plurality of vertical drilling subassembly that cooperatees and use, a plurality of horizontal drilling subassembly, can carry out fast to big-arch shelter equipment skeleton part, accurate and stable porous position drilling operation, and the product efficiency is improved, and the production cost is reduced, respectively with vertical drilling subassembly, the big-arch shelter equipment part auxiliary positioning structure that horizontal drilling subassembly cooperatees and uses, the big-arch shelter equipment part that can treat the drilling carries out stable location, guarantee the drilling quality of product, and guide subassembly and cutting assembly, can be synchronous to the section bar of processing, accurate and stable cutting operation.

Description

Be applied to blank drilling all-in-one of warmhouse booth equipment accessory processing

Technical Field

The utility model belongs to the technical field of big-arch shelter equipment accessory production is used, concretely relates to be applied to blank drilling all-in-one of warmhouse booth equipment accessory processing is applicable to and carries out quick, accurate and stable multi-section drilling to the equipment accessory of big-arch shelter, carries out the efficient cutting operation simultaneously.

Background

Greenhouses are classified into vegetable greenhouses, vinyl greenhouses, light-transmitting vinyl greenhouses, greenhouse greenhouses, solar panel greenhouses, intelligent greenhouses, single-span greenhouses, multi-span greenhouses, single-roof greenhouses, double-roof greenhouses, heated greenhouses, unheated greenhouses and the like. The contrast is as follows, ordinary big-arch shelter: the cost is low, the structure is simple, but the number of the added devices is small; greenhouse (B): the cost is higher than that of the common greenhouse, the structure is complex, and certain equipment can be installed; the intelligent greenhouse comprises: high cost, complex structure and complete equipment.

In the assembly of the greenhouse, the greenhouse can be basically assembled and fixed through structures such as the pull rod, the compression rod, the upright post and the like, and the greenhouse framework needs to be drilled in the production process of the pull rod, the compression rod, the upright post and the like so as to ensure the stability of subsequent assembly and connection. Currently, when the drilling operation is carried out on a pull rod, a pressure rod, an upright post and the like, no specific drilling machine exists, for longer pull rods or compression rods or upright columns and the like, the drilling can be carried out only by adopting a progressive drilling method, the time consumption is high, the efficiency is low, simultaneously to the drilling requirement at different positions, need fix the transposition through artifical (many people), drill to different parts again, artifical fixed error that exists and not synchronous the completion with the hole site of other positions, the phenomenon of boring the wrong position often can appear, cause the product to scrap, increase economic cost etc, also can not carry out synchronous cutting operation, need adopt solitary cutting machine to carry out manual work operation, low in production efficiency and cutting error big etc. can not satisfy present big-arch shelter skeleton like the pull rod, the depression bar, the synchronous high efficiency of stand etc., accurate drilling operation user demand, and this is present waiting to solve urgently.

Therefore, based on the above problem, the utility model provides a be applied to blank drilling all-in-one of warmhouse booth equipment accessory processing.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing a be applied to blank drilling all-in-one of warmhouse booth equipment accessory processing, its project organization is reasonable, a plurality of that cooperatees and use erects drilling subassembly, a plurality of cross drilling subassembly, can carry out fast to big-arch shelter equipment skeleton part, accurate and stable porous position drilling operation, and the production efficiency is improved, the production cost is reduced, simultaneously respectively with erect drilling subassembly, the big-arch shelter equipment part assistance-localization real-time structure that cross drilling subassembly cooperateed and uses, the big-arch shelter equipment part that can treat drilling carries out stable location, guarantee the drilling quality of product, and guide subassembly and cutting assembly, can be synchronous to the section bar of processing, accurate and stable cutting operation.

The technical scheme is as follows: the utility model provides a blank drilling all-in-one that is applied to warmhouse booth equipment accessory processing, by a plurality of first vertical supporting leg, and a plurality of second vertical supporting leg that cooperatees with a plurality of first vertical supporting leg and use, and respectively with a plurality of first vertical supporting leg, a plurality of second vertical supporting leg cooperatees first supporting rail, second supporting rail, and a plurality of vertical drilling subassembly that cooperatees with first supporting rail, second supporting rail and use respectively, and with first vertical supporting leg, second vertical supporting leg cooperatees guide assembly mounting panel that uses, and the guide subassembly that sets up on guide subassembly mounting panel, and the cutting assembly operation panel that is connected with guide subassembly mounting panel one end, and the cutting assembly who sets up on the cutting assembly operation panel constitutes; the vertical drilling component comprises a first supporting bottom plate, a plurality of first guide rail sliding seats, a plurality of second guide rail sliding seats, vertical threaded supporting columns, a positioning plate, threaded groove holes, a group of limiting adjusting nuts, a cylinder cover, a first driving cylinder, a first driving motor positioning sleeve and a first driving motor, wherein the first supporting bottom plate is matched with the first supporting guide rail and the second supporting guide rail, the plurality of first guide rail sliding seats and the plurality of second guide rail sliding seats are arranged on two sides of the bottom of the first supporting bottom plate and are respectively matched with the first supporting guide rail and the second supporting guide rail, the vertical threaded supporting columns are arranged on one side of the first supporting bottom plate, the positioning plate is matched with the vertical threaded supporting columns, the threaded groove holes are arranged in the positioning plate and are matched with the vertical threaded supporting columns, the group of limiting adjusting nuts are arranged on the vertical threaded supporting columns and are matched with the positioning plate, the cylinder cover is arranged on the positioning plate, the first driving cylinder is arranged in the, the first positioning sleeve is matched with the first driving motor for use, the first drill rod positioning sleeve is arranged in the first positioning sleeve, the first drill rod is matched with the first drill rod positioning sleeve for use, and the first positioning clamping plate and the second positioning clamping plate are symmetrically arranged on two sides of the first supporting bottom plate; the material guide assembly comprises a group of first vertical supporting plates and a group of second vertical supporting plates which are symmetrically arranged on the material guide assembly mounting plate and are matched with each other for use, a group of first bearings and a group of second bearings which are respectively arranged in the group of first vertical supporting plates and the group of second vertical supporting plates, a first material guide rotating shaft and a second material guide rotating shaft, and a first wear-resistant material guide sleeve and a second wear-resistant material guide sleeve which are respectively arranged on the first material guide rotating shaft and the second material guide rotating shaft, wherein the first material guide rotating shaft and the second material guide rotating shaft are respectively connected with the group of first bearings and the group of second bearings at two ends; cutting assembly, including setting up the base on the cutting assembly operation panel, and the supplementary perpendicular support column of setting one side on the base, and with supplementary perpendicular support column cooperation use supplementary drive actuating cylinder mounting panel, and set up the supplementary actuating cylinder that drives on supplementary drive actuating cylinder mounting panel, and set up the supplementary connecting plate at supplementary drive actuating cylinder tip, and the supplementary connecting plate of erecting of being connected with supplementary connecting plate, and with supplementary driving motor mounting panel of erecting connecting plate one end and being connected, and set up the supplementary motor installation cover on supplementary driving motor mounting panel, and set up the supplementary driving motor in supplementary motor installation cover, and the circular cut piece that cooperatees and use with supplementary driving motor, wherein, circular cut piece simultaneously is provided with the circular cut piece adapter sleeve of being connected with supplementary driving motor.

According to the technical scheme, the material cutting and drilling integrated machine applied to machining of greenhouse assembly accessories further comprises a plurality of transverse drilling components matched with the plurality of vertical drilling components, wherein the transverse drilling components comprise a second supporting bottom plate matched with the first supporting guide rail and the second supporting guide rail, a plurality of first guide rail sliding seats and a plurality of second guide rail sliding seats which are arranged on two sides of the bottom of the second supporting bottom plate and respectively matched with the first supporting guide rail and the second supporting guide rail, an auxiliary positioning plate arranged at one end of the second supporting bottom plate, a second driving air cylinder positioning sleeve arranged on the auxiliary positioning plate, a second driving air cylinder arranged in the second driving air cylinder positioning sleeve, a third positioning clamping plate and a fourth positioning clamping plate which are symmetrically arranged on two sides of the second supporting bottom plate, and a third positioning clamping plate and a fourth positioning clamping plate which are symmetrically arranged on the third positioning clamping plate, The first supporting chute and the second supporting chute are arranged on the inner side of the fourth positioning clamping plate and matched with each other for use, the motor supporting seat is positioned between the third positioning clamping plate and the fourth positioning clamping plate and is matched with the first supporting chute and the second supporting chute for use, a set of semicircular sliding blocks are arranged on two sides of the motor supporting seat and are matched with the first supporting chute and the second supporting chute for use, and a second driving motor is arranged on the motor supporting seat, wherein a second driving cylinder is connected with the second driving motor, a second positioning sleeve is matched with the second driving motor for use, a second drill rod positioning sleeve is arranged in the second positioning sleeve, and a second drill rod is matched with the second drill rod positioning sleeve for use.

This technical scheme, be applied to blank drilling all-in-one of warmhouse booth equipment accessory processing, still including setting up the first positioning cylinder on first supporting baseplate, and set up the first fixed block on first positioning cardboard, first move the locating piece, and the symmetry sets up a set of first positioning draw-in groove in first positioning cardboard, wherein, first move the locating piece and slide in a set of first positioning draw-in groove in first positioning cardboard, the one end and the first locating piece connection that moves of first positioning cylinder.

This technical scheme, be applied to blank drilling all-in-one of warmhouse booth equipment accessory processing, still including setting up the second location cylinder mount pad on assistance-localization real-time board, and set up the second location cylinder on second location cylinder mount pad, and set up the second fixed block on third location cardboard, the locating piece is moved to the second, and the symmetry sets up a set of second positioning card groove in third location cardboard, wherein, the second moves the locating piece and slides in a set of second positioning card groove in third location cardboard, the one end and the second of second positioning cylinder move the locating piece and are connected.

This technical scheme, be applied to blank drilling all-in-one of warmhouse booth equipment accessory processing, still including setting up the supplementary cavity guide slot in supplementary perpendicular support column, and run through supplementary cavity guide slot and with the stop screw that supplementary driving motor mounting panel is connected, wherein, supplementary driving motor mounting panel one end is provided with the screw that cooperatees and use with stop screw.

According to the technical scheme, the material cutting and drilling integrated machine applied to machining of greenhouse assembly accessories further comprises an auxiliary positioning cylinder mounting seat arranged on the other side of the base, an auxiliary positioning cylinder arranged on the auxiliary positioning cylinder mounting seat, an auxiliary positioning plate arranged on the base, and an auxiliary movable positioning plate which is connected with the auxiliary positioning cylinder and matched with the auxiliary positioning plate for use.

According to the technical scheme, the auxiliary positioning plate and the base are in a detachable connection structure, the auxiliary movable positioning plate and the auxiliary positioning cylinder are in a detachable connection structure, and the auxiliary positioning plate and the auxiliary movable positioning plate are arranged to be a set of semicircular limiting groove structures or square limiting groove structures or triangular limiting groove structures matched for use.

Compared with the prior art, the utility model discloses a be applied to blank drilling all-in-one of warmhouse booth equipment accessory processing's beneficial effect lies in: its project organization is reasonable, a plurality of vertical drilling subassembly that cooperatees and use, a plurality of horizontal drilling subassembly, can carry out fast to big-arch shelter equipment skeleton part, accurate and stable porous position drilling operation, and the product efficiency is improved, and the production cost is reduced, simultaneously respectively with vertical drilling subassembly, big-arch shelter equipment part auxiliary positioning structure that horizontal drilling subassembly cooperatees and uses, the big-arch shelter equipment part that can treat drilling carries out stable location, guarantee the drilling quality of product, and guide subassembly and cutting assembly, can be synchronous to the section bar of processing, accurate and stable cutting operation.

Drawings

Fig. 1 is a schematic structural view of a front view part of a cutting and drilling integrated machine applied to the processing of greenhouse assembly accessories of the present invention;

fig. 2 is a schematic structural view of a side view part of the cutting and drilling integrated machine applied to the processing of the assembly parts of the greenhouse;

fig. 3 is a schematic structural view of a top view of the material cutting and drilling integrated machine applied to the processing of the assembly parts of the greenhouse;

fig. 4 is a schematic top view of the horizontal drilling assembly of the material cutting and drilling integrated machine for processing the assembly parts of the greenhouse of the present invention;

fig. 5 is a schematic structural view of a front view part of a transverse drilling component of the material cutting and drilling integrated machine applied to the processing of assembly accessories of the greenhouse;

fig. 6 is a right side view structural schematic diagram of a material guiding assembly of the material cutting and drilling integrated machine for processing assembly parts of a greenhouse of the present invention;

fig. 7 is a schematic structural view of the material guiding assembly and the cutting assembly of the material cutting and drilling integrated machine for processing the assembly parts of the greenhouse of the present invention;

fig. 8 is a schematic side view of the cutting assembly of the blanking and drilling integrated machine, the auxiliary positioning cylinder mounting seat, the auxiliary positioning cylinder, the auxiliary positioning plate and the auxiliary movable positioning plate, which are applied to the processing of the assembly parts of the greenhouse;

fig. 9 and fig. 10 are schematic structural views of an auxiliary fixed positioning plate and an auxiliary movable positioning plate of a cutting assembly of the material cutting and drilling integrated machine applied to the processing of assembly accessories of a greenhouse;

wherein, the numbers in the figure are marked as follows: 1-a first vertical supporting leg, 2-a second vertical supporting leg, 3-a first supporting guide rail, 4-a second supporting guide rail, 5-a first guide rail sliding seat, 6-a second guide rail sliding seat, 7-a first supporting bottom plate, 7-a second supporting bottom plate, 8-a vertical screw thread supporting column, 9-a positioning plate, 10-a screw thread groove hole, 11-a limit adjusting nut, 12-a cylinder cover, 13-a first driving cylinder, 14-a first driving motor positioning sleeve, 15-a first driving motor, 16-a first positioning sleeve, 17-a first drill rod positioning sleeve, 18-a first drill rod, 19-a second drill rod, 20-a first positioning cylinder, 21-a first positioning clamping plate, 22-a first positioning clamping groove, 23-a first positioning fixing block, 24-a first movable positioning block, 25-a second positioning clamping plate, 26-a third positioning clamping plate, 27-a fourth positioning clamping plate, 28-a second positioning clamping groove, 29-an auxiliary positioning plate, 30-a second positioning cylinder mounting seat, 31-a second positioning cylinder, 32-a second fixed block, 33-a second movable positioning block, 34-a second driving cylinder positioning sleeve, 35-a second driving cylinder, 36-a motor supporting seat, 37-a second driving motor, 38-a semicircular sliding block, 39-a first supporting sliding chute, 40-a second supporting sliding chute, 41-a second positioning sleeve, 42-a second drill rod positioning sleeve, 43-a strip-shaped connecting plate, 44-a material guide component mounting plate, 45-a first vertical supporting plate, 46-a first bearing, 47-a first material guide rotating shaft, 48-a first wear-resistant material guide sleeve, 49-a second vertical support plate, 50-a second bearing, 51-a second material guide rotating shaft, 52-a second wear-resistant material guide sleeve, 53-a cutting component operating platform, 54-a base, 55-an auxiliary vertical support column, 56-an auxiliary driving cylinder mounting plate, 57-an auxiliary hollow guide groove, 58-a limit screw rod and 59-an auxiliary driving motor mounting plate, 60-auxiliary vertical connecting plate, 61-auxiliary motor mounting cover, 62-auxiliary driving motor, 63-circular cutting blade connecting sleeve, 64-circular cutting blade, 65-auxiliary driving cylinder, 66-auxiliary connecting plate, 67-auxiliary positioning plate, 68-auxiliary positioning cylinder mounting seat, 69-auxiliary positioning cylinder and 70-auxiliary moving positioning plate.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

As shown in figures 1, 2, 3, 4, 5 and 6, fig. 7 and 8 show a material cutting and drilling integrated machine applied to the processing of assembly accessories of a greenhouse, which is composed of a plurality of first vertical supporting legs 1, a plurality of second vertical supporting legs 2 matched with the plurality of first vertical supporting legs 1, a first supporting guide rail 3 and a second supporting guide rail 4 respectively matched with the plurality of first vertical supporting legs 1 and the plurality of second vertical supporting legs 2, a plurality of vertical drilling assemblies respectively matched with the first supporting guide rail 3 and the second supporting guide rail 4, a material guide assembly mounting plate 44 matched with the first vertical supporting legs 1 and the second vertical supporting legs 2, a material guide assembly arranged on the material guide assembly mounting plate 44, a cutting assembly operating platform 53 connected with one end of the material guide assembly mounting plate 44, and a cutting assembly arranged on the cutting assembly operating platform 53; a vertical drilling assembly comprises a first supporting bottom plate 7 matched with a first supporting guide rail 3 and a second supporting guide rail 4 for use, a plurality of first guide rail sliding seats 5 and a plurality of second guide rail sliding seats 6 which are arranged at two sides of the bottom of the first supporting bottom plate 7 and respectively matched with the first supporting guide rail 3 and the second supporting guide rail 4 for use, a vertical threaded supporting column 8 arranged at one side of the first supporting bottom plate 7, a positioning plate 9 matched with the vertical threaded supporting column 8 for use, a threaded groove hole 10 arranged in the positioning plate 9 and matched with the vertical threaded supporting column 8 for use, a group of limit adjusting nuts 11 arranged on the vertical threaded supporting column 8 and matched with the positioning plate 9 for use, a cylinder cover 12 arranged on the positioning plate 9, a first driving cylinder 13 arranged in the cylinder cover 12, and a first driving motor positioning sleeve 14 matched with the first driving cylinder 13 for use, the first driving motor 15 is connected with the first driving motor positioning sleeve 14, the first positioning sleeve 16 is matched with the first driving motor 15 for use, the first drill rod positioning sleeve 17 is arranged in the first positioning sleeve 16, the first drill rod 18 is matched with the first drill rod positioning sleeve 17 for use, and the first positioning clamping plates 21 and the second positioning clamping plates 25 are symmetrically arranged on two sides of the first supporting bottom plate 7; the material guiding assembly comprises a group of first vertical supporting plates 45 and a group of second vertical supporting plates 49 which are symmetrically arranged on the material guiding assembly mounting plate 44 and are matched with each other for use, a group of first bearings 46 and a group of second bearings 50 which are respectively arranged in the group of first vertical supporting plates 45 and the group of second vertical supporting plates 49, a first material guiding rotating shaft 47 and a second material guiding rotating shaft 51 of which the two ends are respectively connected with the group of first bearings 46 and the group of second bearings 50, and a first wear-resistant material guiding sleeve 48 and a second wear-resistant material guiding sleeve 52 which are respectively arranged on the first material guiding rotating shaft 47 and the second material guiding rotating shaft 51; a cutting component, which comprises a base 54 arranged on a cutting component operating platform 53, an auxiliary vertical supporting column 55 arranged on one side of the base 54, an auxiliary driving cylinder mounting plate 56 matched with the auxiliary vertical supporting column 55 for use, an auxiliary driving cylinder 65 arranged on the auxiliary driving cylinder mounting plate 56, an auxiliary connecting plate 66 arranged at the end part of the auxiliary driving cylinder 65, an auxiliary vertical connecting plate 60 connected with the auxiliary connecting plate 66, an auxiliary driving motor mounting plate 59 connected with one end of the auxiliary vertical connecting plate 60, an auxiliary motor mounting cover 61 arranged on the auxiliary driving motor mounting plate 59, an auxiliary driving motor 62 arranged in the auxiliary motor mounting cover 61, and a circular cutting blade 64 matched with the auxiliary driving motor 62 for use, wherein, a circular cutting blade connecting sleeve 63 connected with the auxiliary driving motor 62 is arranged on one surface of the circular cutting blade 64.

Preferably, the material cutting and drilling integrated machine applied to machining of greenhouse assembly accessories further comprises a plurality of transverse drilling components matched with the plurality of vertical drilling components, wherein the transverse drilling components comprise a second supporting bottom plate 7-1 matched with the first supporting guide rail 3 and the second supporting guide rail 4 for use, a plurality of first guide rail sliding seats 5 and a plurality of second guide rail sliding seats 6 which are arranged on two sides of the bottom of the second supporting bottom plate 7-1 and respectively matched with the first supporting guide rail 3 and the second supporting guide rail 4 for use, an auxiliary positioning plate 29 arranged at one end of the second supporting bottom plate 7-1, a second driving cylinder positioning sleeve 34 arranged on the auxiliary positioning plate 29, a second driving cylinder 35 arranged in the second driving cylinder positioning sleeve 34, and third positioning clamping plates 26 symmetrically arranged on two sides of the second supporting bottom plate 7-1, A fourth positioning clamping plate 27, a first supporting sliding groove 39 and a second supporting sliding groove 40 which are symmetrically arranged at the inner sides of the third positioning clamping plate 26 and the fourth positioning clamping plate 27 and are used in cooperation, and a motor supporting seat 36 which is arranged between the third positioning clamping plate 26 and the fourth positioning clamping plate 27 and is respectively used in cooperation with the first supporting sliding groove 39 and the second supporting sliding groove 40, wherein, a group of semicircular slide blocks 38 matched with the first supporting chute 39 and the second supporting chute 40 for use and a second driving motor 37 arranged on the motor supporting seat 36 are respectively arranged at two sides of the motor supporting seat 36, the second driving cylinder 35 is connected with the second driving motor 37, a second positioning sleeve 41 matched with the second driving motor 37 for use, a second drill rod positioning sleeve 42 arranged in the second positioning sleeve 41, and a second drill rod 19 matched with the second drill rod positioning sleeve 42 for use; the cutting and drilling integrated machine applied to machining of greenhouse assembly accessories further comprises a first positioning cylinder 20 arranged on the first supporting base plate 7, a first fixing block 23, a first movable positioning block 24 and a group of first positioning clamping grooves 22 symmetrically arranged in the first positioning clamping plate 21, wherein the first movable positioning block 24 slides in the group of first positioning clamping grooves 22 in the first positioning clamping plate 21, and one end of the first positioning cylinder 20 is connected with the first movable positioning block 24; the cutting and drilling integrated machine applied to machining of greenhouse assembly accessories further comprises a second positioning cylinder mounting seat 30 arranged on the auxiliary positioning plate 29, a second positioning cylinder 31 arranged on the second positioning cylinder mounting seat 30, a second fixed block 32, a second movable positioning block 33 and a group of second positioning clamping grooves 28 symmetrically arranged in the third positioning clamping plate 26, wherein the second movable positioning block 33 slides in the group of second positioning clamping grooves 28 in the third positioning clamping plate 26, and one end of the second positioning cylinder 31 is connected with the second movable positioning block 33; the cutting and drilling integrated machine applied to machining of greenhouse assembly accessories further comprises an auxiliary hollow guide groove 57 arranged in the auxiliary vertical support column 55 and a limit screw 58 penetrating through the auxiliary hollow guide groove 57 and connected with an auxiliary drive motor mounting plate 59, wherein one end of the auxiliary drive motor mounting plate 59 is provided with a screw hole (not marked in fig. 8) matched with the limit screw 58 for use; the material cutting and drilling integrated machine applied to machining of greenhouse assembly accessories further comprises an auxiliary positioning cylinder mounting seat 68 arranged on the other side of the base 54, an auxiliary positioning cylinder 69 arranged on the auxiliary positioning cylinder mounting seat 68, an auxiliary positioning locating plate 67 arranged on the base 54, and an auxiliary movable locating plate 70 which is connected with the auxiliary positioning cylinder 69 and is matched with the auxiliary positioning locating plate 67 for use. As shown in fig. 8, 9 and 10, a detachable connection structure is provided between the auxiliary positioning plate 67 and the base 54, and a detachable connection structure is provided between the auxiliary movable positioning plate 70 and the auxiliary positioning cylinder 69, wherein the auxiliary positioning plate 67 and the auxiliary movable positioning plate 70 are configured as a set of semicircular or square or triangular positioning grooves.

The blank drilling all-in-one of being applied to warmhouse booth equipment accessory processing of this structure, its project organization is reasonable, a plurality of vertical drilling subassembly that the cooperation was used, a plurality of horizontal drilling subassembly, can carry out fast to big-arch shelter equipment skeleton part, accurate and stable porous position drilling operation, and the production efficiency is improved, the production cost is reduced, simultaneously respectively with vertical drilling subassembly, the big-arch shelter equipment part auxiliary positioning structure that horizontal drilling subassembly cooperateed and used, can treat the big-arch shelter equipment part of drilling and carry out stable location, guarantee the drilling quality of product, and guide subassembly and cutting assembly, can be synchronous to the section bar of processing, accurate and stable cutting operation.

The cutting and drilling integrated machine applied to the processing of the assembly accessories of the greenhouse further comprises a control component which is matched with the first driving cylinder 13, the first driving motor 15, the first positioning cylinder 20, the second positioning cylinder 31, the second driving cylinder 35, the second driving motor 37, the auxiliary driving motor 62, the auxiliary driving cylinder 65 and the auxiliary positioning cylinder 69 for use, wherein the control component comprises a shell, a liquid crystal display screen, a data receiving and transmitting unit, an early warning unit and a singlechip which are arranged in the shell, the first driving cylinder 13, the first driving motor 15, the first positioning cylinder 20, the second positioning cylinder 31, the second driving cylinder 35, the second driving motor 37, the auxiliary driving motor 62, the auxiliary driving cylinder 65, the auxiliary positioning cylinder 69, the liquid crystal display screen, the data receiving and sending unit and the early warning unit are respectively connected with the single chip microcomputer, and intelligent production control requirements are met.

The material cutting and drilling integrated machine applied to machining of greenhouse assembly accessories is structurally characterized in that one sides of a plurality of first supporting bottom plates 7 and a plurality of first supporting bottom plates 7-1 are connected through a strip-shaped connecting plate 43, and different adaptability adjustments are carried out on the positions of the first supporting bottom plates 7 and the first supporting bottom plates 7-1 at the first supporting guide rails 3 and the second supporting guide rails 4 through cylinders or manual (not marked in figure 1) synchronous control.

The multi-station pneumatic punching machine with the structure applied to processing of greenhouse assembly accessories is characterized in that the plurality of first supporting bottom plates 7 and the plurality of first supporting bottom plates 7-1 independently control the positions of the plurality of first supporting bottom plates 7 and the plurality of first supporting bottom plates 7-1 on the first supporting guide rails 3 and the second supporting guide rails 4 through cylinders or manually (not marked in figure 1) to carry out different adaptability adjustments.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principle of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides a be applied to blank drilling all-in-one of warmhouse booth equipment accessory processing which characterized in that: the device is composed of a plurality of first vertical supporting legs (1), a plurality of second vertical supporting legs (2) matched with the first vertical supporting legs (1), a plurality of first supporting guide rails (3) and second supporting guide rails (4) matched with the first vertical supporting legs (1) and the second vertical supporting legs (2) respectively, a plurality of vertical drilling assemblies matched with the first supporting guide rails (3) and the second supporting guide rails (4) respectively, a material guide assembly mounting plate (44) matched with the first vertical supporting legs (1) and the second vertical supporting legs (2), a material guide assembly arranged on the material guide assembly mounting plate (44), a cutting assembly operating platform (53) connected with one end of the material guide assembly mounting plate (44), and a cutting assembly arranged on the cutting assembly operating platform (53); the vertical drilling component comprises a first supporting bottom plate (7) matched with a first supporting guide rail (3) and a second supporting guide rail (4) for use, a plurality of first guide rail sliding seats (5) and a plurality of second guide rail sliding seats (6) which are arranged at two sides of the bottom of the first supporting bottom plate (7) and respectively matched with the first supporting guide rail (3) and the second supporting guide rail (4) for use, a vertical thread supporting column (8) arranged at one side of the first supporting bottom plate (7), a positioning plate (9) matched with the vertical thread supporting column (8) for use, a thread groove hole (10) arranged in the positioning plate (9) and matched with the vertical thread supporting column (8) for use, a group of limiting adjusting nuts (11) arranged on the vertical thread supporting column (8) and matched with the positioning plate (9) for use, and a cylinder cover (12) arranged on the positioning plate (9), the first driving cylinder (13) is arranged in the cylinder cover (12), the first driving motor positioning sleeve (14) is matched with the first driving cylinder (13) for use, the first driving motor (15) is connected with the first driving motor positioning sleeve (14), the first positioning sleeve (16) is matched with the first driving motor (15) for use, the first drill rod positioning sleeve (17) is arranged in the first positioning sleeve (16), the first drill rod (18) is matched with the first drill rod positioning sleeve (17) for use, and the first positioning clamping plates (21) and the second positioning clamping plates (25) are symmetrically arranged on two sides of the first supporting base plate (7); the material guide assembly comprises a group of first vertical supporting plates (45) and a group of second vertical supporting plates (49) which are symmetrically arranged on the material guide assembly mounting plate (44) and are matched with each other for use, a group of first bearings (46) and a group of second bearings (50) which are respectively arranged in the group of first vertical supporting plates (45) and the group of second vertical supporting plates (49), a first material guide rotating shaft (47) and a second material guide rotating shaft (51) of which the two ends are respectively connected with the group of first bearings (46) and the group of second bearings (50), and a first wear-resistant material guide sleeve (48) and a second wear-resistant material guide sleeve (52) which are respectively arranged on the first material guide rotating shaft (47) and the second material guide rotating shaft (51); the cutting assembly comprises a base (54) arranged on a cutting assembly operating table (53), an auxiliary vertical supporting column (55) arranged on one side of the base (54), an auxiliary driving cylinder mounting plate (56) matched with the auxiliary vertical supporting column (55) for use, an auxiliary driving cylinder (65) arranged on the auxiliary driving cylinder mounting plate (56), an auxiliary connecting plate (66) arranged at the end part of the auxiliary driving cylinder (65), an auxiliary vertical connecting plate (60) connected with the auxiliary connecting plate (66), an auxiliary driving motor mounting plate (59) connected with one end of the auxiliary vertical connecting plate (60), an auxiliary motor mounting cover (61) arranged on the auxiliary driving motor mounting plate (59), an auxiliary driving motor (62) arranged in the auxiliary motor mounting cover (61), and a circular cutting blade (64) matched with the auxiliary driving motor (62) for use, wherein, a circular cutting blade connecting sleeve (63) connected with the auxiliary driving motor (62) is arranged on one surface of the circular cutting blade (64).

2. The cutting and drilling integrated machine applied to machining of greenhouse assembly accessories as claimed in claim 1, wherein the cutting and drilling integrated machine comprises: the cutting and drilling integrated machine applied to the processing of the assembly accessories of the greenhouse comprises a plurality of transverse drilling components matched with a plurality of vertical drilling components, wherein the transverse drilling components comprise a plurality of first supporting bottom plates (7-1) matched with a first supporting guide rail (3) and a second supporting guide rail (4) for use, a plurality of first guide rail sliding seats (5) and a plurality of second guide rail sliding seats (6) which are arranged at two sides of the bottom of the second supporting bottom plate (7-1) and respectively matched with the first supporting guide rail (3) and the second supporting guide rail (4) for use, an auxiliary positioning plate (29) arranged at one end of the second supporting bottom plate (7-1), a second driving cylinder positioning sleeve (34) arranged on the auxiliary positioning plate (29), and a second driving cylinder (35) arranged in the second driving cylinder positioning sleeve (34), and a third positioning clamping plate (26) and a fourth positioning clamping plate (27) which are symmetrically arranged at two sides of the second supporting bottom plate (7-1), a first supporting sliding groove (39) and a second supporting sliding groove (40) which are symmetrically arranged at the inner sides of the third positioning clamping plate (26) and the fourth positioning clamping plate (27) and are matched with each other for use, a motor supporting seat (36) which is arranged between the third positioning clamping plate (26) and the fourth positioning clamping plate (27) and is respectively matched with the first supporting sliding groove (39) and the second supporting sliding groove (40) for use, wherein, a group of semicircular sliding blocks (38) which are matched with the first supporting sliding groove (39) and the second supporting sliding groove (40) for use and a second driving motor (37) which is arranged on the motor supporting seat (36) are respectively arranged at two sides of the motor supporting seat (36), wherein, the second driving cylinder (35) is connected with the second driving motor (, and a second positioning sleeve (41) matched with the second driving motor (37) for use, a second drill rod positioning sleeve (42) arranged in the second positioning sleeve (41), and a second drill rod (19) matched with the second drill rod positioning sleeve (42) for use.

3. The cutting and drilling integrated machine applied to machining of greenhouse assembly accessories as claimed in claim 2, wherein the cutting and drilling integrated machine comprises: be applied to blank drilling all-in-one of warmhouse booth assembly accessory processing, still including setting up first positioning cylinder (20) on first supporting baseplate (7), and set up first fixed block (23) on first positioning cardboard (21), first move locating piece (24), and a set of first positioning draw-in groove (22) of symmetry setting in first positioning cardboard (21), wherein, first move locating piece (24) and slide in a set of first positioning draw-in groove (22) in first positioning cardboard (21), the one end and the first locating piece (24) of first positioning cylinder (20) are connected.

4. The cutting and drilling integrated machine applied to machining of greenhouse assembly accessories as claimed in claim 2, wherein the cutting and drilling integrated machine comprises: be applied to blank drilling all-in-one of warmhouse booth assembly accessory processing, still including setting up second location cylinder mount pad (30) on auxiliary positioning board (29), and set up second location cylinder (31) on second location cylinder mount pad (30), and set up second fixed block (32) on third location cardboard (26), locating piece (33) are moved to the second, and a set of second positioning card groove (28) of symmetry setting in third location cardboard (26), wherein, the second is moved locating piece (33) and is slided in a set of second positioning card groove (28) of third location cardboard (26), the one end and the second of second location cylinder (31) are moved locating piece (33) and are connected.

5. The cutting and drilling integrated machine applied to machining of greenhouse assembly accessories as claimed in claim 1, wherein the cutting and drilling integrated machine comprises: be applied to blank drilling all-in-one of warmhouse booth equipment accessory processing, still including setting up supplementary cavity guide slot (57) in supplementary perpendicular support column (55), and run through supplementary cavity guide slot (57) and with stop screw (58) that supplementary driving motor mounting panel (59) are connected, wherein, supplementary driving motor mounting panel (59) one end is provided with the screw that cooperatees and use with stop screw (58).

6. The cutting and drilling integrated machine applied to machining of greenhouse assembly accessories as claimed in claim 5, wherein the cutting and drilling integrated machine comprises: be applied to blank drilling all-in-one of warmhouse booth assembly parts processing, still including setting up on base (54) auxiliary positioning cylinder mount pad (68) of opposite side, and set up auxiliary positioning cylinder (69) on auxiliary positioning cylinder mount pad (68), and set up on base (54) auxiliary positioning board (67), and be connected with auxiliary positioning cylinder (69) and with auxiliary positioning board (67) cooperation use auxiliary movable positioning board (70).

7. The cutting and drilling integrated machine applied to machining of greenhouse assembly accessories as claimed in claim 6, wherein the cutting and drilling integrated machine comprises: the auxiliary positioning plate (67) and the base (54) are in a detachable connection structure, the auxiliary movable positioning plate (70) and the auxiliary positioning cylinder (69) are in a detachable connection structure, and the auxiliary positioning plate (67) and the auxiliary movable positioning plate (70) are set to be a group of semicircular limiting groove structures or square limiting groove structures or triangular limiting groove structures which are matched for use.