CN203664737U

CN203664737U - Automatic multihole drill

Info

Publication number: CN203664737U
Application number: CN201420018179.9U
Authority: CN
Inventors: 黄国浩; 宋卫国; 杨维廷; 吴学奇
Original assignee: CIMC TAICANG REFRIGERATION EQUIPMENT LOGISTICS Co Ltd; China International Marine Containers Group Co Ltd; Shanghai CIMC Reefer Containers Co Ltd
Current assignee: Taicang Cimc Reefer Logistics Equipment Co ltd
Priority date: 2014-01-10
Filing date: 2014-01-10
Publication date: 2014-06-25
Anticipated expiration: 2024-01-10

Abstract

The utility model provides an automatic multihole drill which is used for drilling holes for a workpiece. The automatic multihole drill comprises a drilling frame and a drill bit mechanism mounted on the top of the drilling frame, and multiple drill bits are mounted on the drill bit mechanism. The automatic multihole drill further comprises a drilling template, a lifting mechanism and conveying mechanisms, the drilling template is arranged below the drill bit mechanism, multiple drill bit guide holes are formed in the drilling template, the drill bit guide holes correspond to the drill bits one by one, the lifting mechanism is arranged below the drilling hole frame and comprises a lifting table, the lifting table is used for bearing the workpiece, a locating piece used for locating the workpiece is arranged on the upper surface of the lifting table, and the conveying mechanisms are arranged on the two sides of the drilling frame and are used for conveying the workpiece. The automatic multihole drill achieves automatic drilling in its true sense, the automatic degree and the production efficiency of container production are improved, meanwhile the labor intensity of staff is lowered, and the labor efficiency is improved.

Description

Automatic porous bores

Technical field

The utility model relates to Production Container apparatus field, particularly relates to a kind of multi-hole drill.

Background technology

In the manufacture process of container, need to after completing, its integral solder on frame, offer the installing hole that multiple and cold machine is connected before container.Existing rig is that the assembled welding of frame manually pushes to boring position by roller after completing before whole container, afterwards bore template handling is arrived to front frame top, and the boring at two sides or four sides is carried out in the below that then above entirety is pushed into multi-hole drill.After boring, front frame need to be released to block together with template, after template is hung away, front frame is pushed into next station.

This manufacturing process and equipment shortcoming thereof are: due to the whole operating process handling of need driving a vehicle, workman needs manual operations, causes automaticity and production efficiency lower, and personnel labor intensity is large, and easily security incident occurs.

Therefore, how to improve the structure of porous drilling equipment now, even break current traditional handicraft, and then a kind of brand-new process or rig proposed, increase work efficiency, reduce manual operation, become a large technical problem urgently to be resolved hurrily in this area.

Utility model content

The utility model will solve the low technical problem of multi-hole drill operating efficiency in prior art.

For solving the problems of the technologies described above, the utility model adopts following technical scheme:

The automatic porous the utility model proposes bores, be used for Workpiece boring, comprise boring frame and be installed on the drill bit mechanism of described boring top of the trellis, multiple drill bits are installed on described drill bit mechanism, wherein, described automatic porous bores and also comprises bore template, elevating mechanism and conveying mechanism, described bore template is located at described drill bit mechanism below, on described bore template, offer multiple drill bit guide holes, described multiple drill bit guide hole is corresponding one by one with described multiple drill bits respectively, described elevating mechanism is located at described boring frame below, comprise lifting platform, described lifting platform is used for carrying described workpiece, described lifting platform upper surface is provided with the keeper in order to described workpiece is positioned, described conveying mechanism is located at described boring frame both sides, for delivery of described workpiece.

According to an embodiment of the present utility model, described drill bit mechanism also comprises multiple positioners.

According to another embodiment, on described bore template, offer multiple positioning pilot holes, described multiple positioning pilot holes are corresponding one by one with described multiple positioners respectively.

According to another embodiment, described bore template also comprises multiple connectors, and described multiple connectors are connected between described drill bit mechanism and bore template.

According to another embodiment, described elevating mechanism also comprises base and expansion bracket, and described expansion bracket is connected in described base, and upper end is connected in described lifting platform.

According to another embodiment, described conveying mechanism comprises two feeding beams being located at described boring frame and the multiple running rollers that are rotatably installed on respectively described two feeding beams, and described two feeding beams are positioned at same level plane and are all parallel to described workpiece and pass in and out the direction that described automatic porous bores.

According to another embodiment, described automatic porous bores and also comprises that load carrier, described load carrier be located at described boring frame below, for rise to elevating mechanism described in the rear support of operating position at described elevating mechanism.

According to another embodiment, described load carrier comprises the cylinder and the bearing part that are installed on described boring frame below, described cylinder has piston rod, described piston rod one end connects bearing part, when described elevating mechanism is raised to behind operating position, described cylinder is pulled to described elevating mechanism below by piston rod by described bearing part and carries.

According to another embodiment, described bearing part below is provided with the slideway to its guiding.

As shown from the above technical solution, advantage and good effect that the automatic porous the utility model proposes bores are: this automatic porous drilled through the setting of conveying mechanism, workpiece to be holed is transported in automatic porous brill by a upper station, after boring, transport again to next station, and owing to bore template being directly installed on to drill bit mechanism below, therefore no longer need manually to push the operation of workpiece and the front allocation and transportation of boring template.Realize automatic drilling truly, improved automaticity and the production efficiency of container production, reduced personnel labor intensity simultaneously, raised labour efficiency.

Accompanying drawing explanation

Fig. 1 a is the main TV structure schematic diagram that the utility model automatic porous bores, and represents not bore state;

Fig. 1 b is the main TV structure schematic diagram that the utility model automatic porous bores, and represents bore state;

Fig. 2 is the plan structure schematic diagram that the utility model automatic porous bores;

Fig. 3 is the drill bit mechanism partial enlarged drawing that the utility model automatic porous bores;

Fig. 4 is the bore template plan structure schematic diagram that the utility model automatic porous bores;

Fig. 5 a is the partial enlarged drawing of the elevating mechanism of the utility model automatic porous brill, represents not bore state;

Fig. 5 b is the partial enlarged drawing of the elevating mechanism of the utility model automatic porous brill, represents bore state;

Fig. 6 a is the partial enlarged drawing of the load carrier of the utility model automatic porous brill, represents not bore state;

Fig. 6 b is the partial enlarged drawing of the load carrier of the utility model automatic porous brill, represents bore state.

Wherein, Reference numeral is as follows:

1. boring frame; 2. drill bit mechanism; 20. drill bits; 21. positioners; 3. bore template; 30. drill bit guide holes; 31. positioning pilot holes; 32. connectors; 4. elevating mechanism; 40. lifting platforms; 400. keeper; 41. bases; 42. expansion brackets; 5. conveying mechanism; 50. feeding beams; 51. running rollers; 6. load carrier; 60. cylinders; 600. piston rod; 61. bearing parts; 62. slideways; 7. workpiece.

The specific embodiment

The exemplary embodiments that embodies the utility model feature & benefits will describe in detail in the following description.Be understood that the utility model can have various variations on different embodiment, it neither departs from scope of the present utility model, and explanation wherein and to be shown in be the use explaining in essence, but not in order to limit the utility model.

As shown in Fig. 1 a and Fig. 1 b, the utility model proposes a kind of automatic porous and bore, be mainly used in workpiece 7 to carry out porous drilling, for example, in the production process of container, the front frame of container is carried out to two sides or four sides porous drilling.Automatic porous of the present utility model bores and mainly comprises boring frame 1, drill bit mechanism 2, bore template 3, elevating mechanism 4 and conveying mechanism 5.

As shown in Fig. 1 a, Fig. 1 b and Fig. 2, boring frame 1 can be selected various structures, and for example, this boring frame 1 can comprise four pillars in rectangular layout and be arranged at the upper frame on these four pillar tops, but not as limit.In addition, this boring frame 1 can directly be installed on ground, also can be installed on a pedestal, but not as limit.

As shown in Fig. 1 a, Fig. 2 and Fig. 3, drill bit mechanism 2 is installed on boring frame 1 top.Multiple drill bits 20 and multiple positioner 21 are installed on this drill bit mechanism 2.These drill bits 20 stretch out this drill bit mechanism 2 downwards and have respectively independently drive motors, and these positioners 21 also stretch out this drill bit mechanism 2 downwards and have respectively independently drive unit, but not as limit.

As shown in Fig. 1 a, Fig. 3 and Fig. 4, bore template 3 is located at the below of drill bit mechanism 2, offers multiple drill bit guide holes 30 and multiple positioning pilot hole 31 on this bore template 3.These drill bit guide holes 30 and positioning pilot hole 31 offer the respectively position of drill bit 20 and positioner 21 on corresponding drill bit mechanism 2, position, be under bore state, these drill bits 20 on drill bit mechanism 2 and positioner 21 can be stretched out by these drill bit guide holes 30 and positioning pilot hole 31 respectively, and workpiece 7 is holed and located.Further, this bore template 3 also comprises multiple connectors 32, and these connectors 32 are connected between borehole drill construction and bore template 3.

As shown in Fig. 1 a, Fig. 1 b, Fig. 5 a and Fig. 5 b, elevating mechanism 4 is installed on the below of boring frame 1, mainly comprises lifting platform 40, base 41 and expansion bracket 42.

Base 41 is directly installed on ground, or is installed on pedestal, but not as limit.

Expansion bracket 42 is installed on above this base 41, and this expansion bracket 42 can be selected V shape expansion bracket 42, when workpiece 7 weight are when larger, also can select flexibly as devices such as two V shape expansion brackets 42 or hydraulic jack, but not as limit.

Lifting platform 40 is installed on this expansion bracket 42 upper ends, for carrying workpiece 7.Further, this lifting platform 40 is provided with multiple keepers 400 above, and these keepers 400 are for positioning workpiece 7.

As shown in Fig. 1 a, Fig. 1 b, Fig. 6 a, Fig. 6 b, conveying mechanism 5 is installed on the both sides of boring frame 1, for delivery of workpiece 7.This conveying mechanism 5 mainly comprises two feeding beams 50 and multiple running roller 51.

Two feeding beams 50 are installed on the both sides of boring frame 1, and these two feeding beams 50 are positioned at same level plane and are parallel to the direction that workpiece 7 these automatic porous of turnover bore.

Multiple running rollers 51 are rotatably installed on respectively on these two feeding beams 50.

In addition, this conveying mechanism 5 also can use the structure of drive and driving belt etc., but not as limit.

Further, automatic porous of the present utility model bores, and also comprises load carrier 6, as shown in Fig. 1 a, Fig. 1 b, Fig. 6 a and Fig. 6 b.This load carrier 6 is located at boring frame 1 below, for rise to this elevating mechanism 4 of operating position rear support at elevating mechanism 4.This load carrier 6 mainly comprises the cylinder 60 and the bearing part 61 that are installed on boring frame 1 below.

Cylinder 60 has piston rod 600, and these piston rod 600 one end connect bearing part 61, and when elevating mechanism 4 is raised to behind operating position, this cylinder 60 is pulled to elevating mechanism 4 belows by piston rod 600 by bearing part 61 and carries.This bearing part 61 optional by I-beam or other structures as angle steel etc., its quantity is also not unique, but not as limit.

This load carrier 6 also comprises slideway 62, and this slideway 62 is located at these bearing part 61 belows and to its guiding.

In working order, be example as the front frame of container is carried out to porous drilling.Automatic porous of the present utility model is bored and is connected into container automatic production line, after the assembled welding of frame completes before container, by conveying mechanism 5, the front frame on a upper station is sent into automatic porous and bore.

Expansion bracket 42 promotes lifting platform 40 and rises, and the space through two feeding beams 50, by front frame jack-up and approach bore template 3.The positioning pilot hole 31 that multiple positioners 21 stretch out on bore template 3 positions front frame, and multiple drill bits 20 stretch out bore template 3 front frame is holed.Load carrier 6, under bore state, utilizes cylinder 60 that bearing part 61 is regained, and the lifting platform 40 of its top is carried.

After boring finishes, load carrier 6 utilizes cylinder 60 that bearing part 61 is stretched out, and expansion bracket 42 is fallen lifting platform 40.Along with the decline of lifting platform 40, the front frame after having holed drops on conveying mechanism 5 again, and is transported to next station by multiple running rollers 51.

Though described ship of the present utility model and hatch board thereof with reference to several exemplary embodiments, should be understood that term used is explanation and illustrative, and not restrictive.Because the utility model can specifically be implemented in a variety of forms and not depart from its design or essence, therefore, above-described embodiment is not limited to any aforesaid details, and explain widely in the design that should limit in the claim of enclosing and scope, therefore all should be the claim of enclosing, the whole variations in the claim of falling into or its equivalent scope and remodeling contains.

Claims

1. an automatic porous bores, for workpiece (7) is holed, comprise boring frame (1) and be installed on the drill bit mechanism (2) at described boring frame (1) top, multiple drill bits (20) are installed on described drill bit mechanism (2), it is characterized in that, described automatic porous bores and also comprises:

Bore template (3), be located at described drill bit mechanism (2) below, on described bore template (3), offer multiple drill bit guide holes (30), described multiple drill bit guide holes (30) are corresponding one by one with described multiple drill bits (20) respectively;

Elevating mechanism (4), be located at described boring frame (1) below, comprise lifting platform (40), described lifting platform (40) is for carrying described workpiece (7), and described lifting platform (40) upper surface is provided with the keeper (400) in order to described workpiece (7) is positioned; And

Conveying mechanism (5), is located at described boring frame (1) both sides, for delivery of described workpiece (7).

2. automatic porous according to claim 1 bores, and it is characterized in that, described drill bit mechanism (2) also comprises multiple positioners (21).

3. automatic porous according to claim 2 bores, it is characterized in that, on described bore template (3), offer multiple positioning pilot holes (31), described multiple positioning pilot holes (31) are corresponding one by one with described multiple positioners (21) respectively.

4. automatic porous according to claim 1 bores, it is characterized in that, described bore template (3) also comprises multiple connectors (32), and described multiple connectors (32) are connected between described drill bit mechanism (2) and bore template (3).

5. automatic porous according to claim 1 bores, it is characterized in that, described elevating mechanism (4) also comprises base (41) and expansion bracket (42), described expansion bracket (42) bottom is connected in described base (41), and upper end is connected in described lifting platform (40).

6. bore according to the automatic porous described in any one in claim 1～5, it is characterized in that, described conveying mechanism (5) comprises two feeding beams (50) of being located at described boring frame (1) and the multiple running rollers (51) that are rotatably installed on respectively described two feeding beams (50), and described two feeding beams (50) are positioned at same level plane and are all parallel to described workpiece (7) and pass in and out the direction that described automatic porous bores.

7. automatic porous according to claim 1 bores, it is characterized in that, described automatic porous bores and also comprises load carrier (6), described load carrier (6) is located at described boring frame (1) below, for rise to elevating mechanism (4) described in the rear support of operating position at described elevating mechanism (4).

8. automatic porous according to claim 7 bores, it is characterized in that, described load carrier (6) comprises the cylinder (60) and the bearing part (61) that are installed on described boring frame (1) below, described cylinder (60) has piston rod (600), described piston rod (600) one end connects bearing part (61), when described elevating mechanism (4) is raised to behind operating position, described cylinder (60) is pulled to described elevating mechanism (4) below by piston rod (600) by described bearing part (61) and carries.

9. automatic porous according to claim 8 bores, and it is characterized in that, described bearing part (61) below is provided with the slideway (62) to its guiding.