CN111774800A - Barrel group is to frock - Google Patents

Abstract

The invention belongs to the technical field of barrel assembly tools, and particularly relates to a barrel assembly tool which comprises a rack, a lining positioning assembly and an external pressing assembly. The rack comprises a working table top for fixing a bottom plate forming the cylinder body; the lining positioning assembly is arranged on the working table in a sliding mode, and two sides of the lining positioning assembly are respectively provided with a first ejection plate capable of horizontally extending and retracting and used for abutting against the inner side of a side plate forming the cylinder body; the external pressing component is fixed on the working table top and comprises a second ejection mechanism and a top pressing mechanism, and the second ejection mechanism comprises a second ejection plate capable of horizontally extending and retracting and is used for abutting against the outer side of a side plate forming the cylinder body; the top pressing mechanism comprises a third ejection plate which can vertically extend up and down and is used for abutting against the outer side of a top plate forming the cylinder; the tool set is simple to operate in the working process, accurate in positioning and free of manual operation dependence.

Description

Barrel group is to frock

Technical Field

The invention relates to the technical field of barrel assembly tools, in particular to a barrel assembly tool.

Background

In recent years, the cylinder structure is widely applied to the field of equipment manufacturing, the demand is increasing, and the cylinder assembly welding is a common process form in the welding field. The cylinder assembly tool also becomes a common design mechanism in welding production in the manufacturing industry, the tool is used for splicing four flat plates or a bottom plate and two L-shaped plates into a cylinder structure, and then the cylinder structure is welded by manual or automatic welding equipment to form a tubular structural member capable of bearing certain pressure or torque.

Generally speaking, the assembly of barrel mainly relies on the manual work to be assisted with some simple measuring tool or location frock, and the group that accomplishes like this is great to barrel dimensional error, and welding quality is not high, can not guarantee the product to the quality requirement of barrel, has considerable dependence moreover to workman's operating skill's proficiency.

Disclosure of Invention

The invention aims to provide a barrel assembling tool which is provided with a barrel walking type lining positioning assembly and an external pressing assembly, can accurately position and reliably press four surfaces of a barrel in an assembling mode, is simple in assembling process and does not depend on manual operation.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides a cylinder assembling tool, which comprises:

the rack comprises a working table top and a bottom plate, wherein the bottom plate is used for fixing and forming the cylinder body;

the lining positioning assembly is arranged on the working table in a sliding mode, and two sides of the lining positioning assembly are respectively provided with a first ejection plate capable of horizontally extending and retracting and used for abutting against the inner side of a side plate forming the barrel;

the external pressing assembly is fixed on the working table top and comprises a second ejection mechanism and a top pressing mechanism, and the second ejection mechanism comprises a second ejection plate capable of horizontally extending and retracting and is used for abutting against the outer side of a side plate forming the cylinder; the top pressing mechanism comprises a third ejection plate which can vertically extend up and down and is used for abutting against the outer side of the top plate of the barrel.

As a preferable structure of the invention, the lining positioning component comprises a travelling mechanism, and the travelling mechanism drives the lining positioning component to slide on the working table surface.

As a preferable structure of the present invention, the lining positioning assembly further includes a traveling roller, and the traveling roller is mounted on a bottom surface of the lining positioning assembly.

As a preferred structure of the invention, the travelling mechanism comprises a first driving motor, a gear and a sliding block, wherein an output shaft of the first driving motor is connected with the gear, and the sliding block is fixed at the bottom of the lining positioning component; the worktable surface is provided with a linear slide rail and a rack, the gear is meshed with the rack, and the sliding block is in sliding fit with the linear slide rail.

As a preferred structure of the present invention, a plurality of first ejection plates are respectively disposed on two sides of the lining positioning assembly, and the lining positioning assembly further includes a first ejection mechanism for driving the plurality of first ejection plates to simultaneously extend or retract.

As a preferred structure of the present invention, the first ejection mechanism includes a second driving motor, an intermediate connecting shaft, and a plurality of bidirectional speed reducers, an output shaft of the second driving motor is connected to the intermediate connecting shaft, the intermediate connecting shaft horizontally penetrates through a cavity of the lining positioning assembly, the plurality of bidirectional speed reducers are sequentially connected to the intermediate connecting shaft, and the first ejection plates on two sides of the lining positioning assembly are respectively fixed to two output shafts of the bidirectional speed reducers.

As a preferred structure of the present invention, further comprising a limit component configured to limit a maximum moving position of the liner positioning component.

As a preferred structure of the invention, the limiting component is provided with a limiting plate perpendicular to the working table surface, and the limiting plate is provided with a guide hole; the end part of the lining positioning component is provided with a guide post, and the guide post can be inserted into the guide hole.

As a preferable structure of the invention, the working table is further provided with a positioning block and an electromagnet, the positioning block is used for limiting the bottom plate of the cylinder, and the electromagnet is used for fixing the bottom plate of the cylinder.

As a preferred structure of the present invention, the top hold-down mechanism is mounted with a rotary driving member configured to rotate the top hold-down mechanism along a vertical axis.

The invention has the beneficial effects that: the cylinder assembling tool provided by the invention comprises a rack, a lining positioning assembly and an external pressing assembly. The rack can accurately position and clamp the bottom surface of the barrel, and two sides of the lining positioning assembly are respectively provided with a first ejection plate capable of horizontally extending and retracting; the external compression assembly comprises a second ejection plate capable of horizontally stretching and a third ejection plate capable of vertically stretching up and down; the lining positioning component can slide to an assembling position between the fixed external pressing components; the first ejection plate and the second ejection plate are matched inside and outside to complete positioning and clamping of two side faces of the barrel, the third ejection plate is used for positioning and clamping of the top face of the barrel, and the whole group is simple to operate in the working process, accurate in positioning and free of manual operation dependence.

Drawings

Fig. 1 is a schematic structural diagram of a barrel assembly fixture provided in an embodiment of the present invention;

FIG. 2 is a schematic diagram of a liner positioning assembly according to an embodiment of the present invention;

FIG. 3 is a bottom view of a liner positioning assembly provided by an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an operating position state of an external pressing assembly according to an embodiment of the present invention.

Fig. 5 is a schematic working diagram of the barrel assembly tooling provided by the embodiment of the invention.

In the figure:

1. a rack; 11. a frame body; 12. a work table; 121. a linear slide rail; 122. a rack; 123. positioning blocks; 124. an electromagnet;

2. a liner positioning assembly; 21. a first ejector plate; 22. a traveling mechanism; 221. a first drive motor; 222. a gear; 223. a slider; 23. a first ejection mechanism; 231. a second drive motor; 232. a middle connecting shaft; 233. a bidirectional reduction motor; 24. a guide post; 25. a walking roller;

3. an outer compression assembly; 31. a second ejection mechanism; 311. a second ejector plate; 32. a top hold down mechanism; 321. a third ejector plate; 322. a rotary drive member;

4. a limiting component; 41. a limiting plate; 411. and (4) a guide hole.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", and the like are used based on the orientations and positional relationships shown in the drawings only for convenience of description and simplification of operation, and do not indicate or imply that the referred device or element must have a specific orientation, be configured and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

As shown in fig. 1 to 5, an embodiment of the present invention provides a cylinder assembly tooling, which includes a rack 1, a liner positioning assembly 2, and an outer pressing assembly 3. The bench 1 is a rectangular workbench and comprises a rack body 11 and a workbench surface 12; the support body 11 is formed by the butt welding of section bar square pipe group, and table surface 12 is the rectangle plane, compresses tightly subassembly 3 for inside lining locating component 2, outside and provides the locating platform for the fixed bottom plate that forms the barrel. The lining positioning component 2 is of a cylindrical cavity structure, and the lining positioning component 2 is connected to the worktable surface 12 in a sliding mode and can slide along the length direction of the rack 1. The shape of the lining positioning component 2 is determined according to the shape of the barrel and is used for extending into the barrel to be positioned and pressed. In the embodiment of the invention, the cylinder is a tubular cylindrical structural member with four side surfaces, so that the lining positioning assembly 2 adopts a cylindrical cavity structure and can be better attached to the inner surface of the cylinder; preferably, two side surfaces of the lining positioning component 2 are provided with a plurality of square lightening holes, so that the cavity can keep enough rigidity, and the lining positioning component 2 can walk more flexibly. The two sides of the lining positioning component 2 are respectively provided with a first ejection plate 21 which can horizontally stretch out and draw back and can horizontally extend out or retract along the width direction of the rack 1. Preferably, the first ejection plate 21 is a rectangular plate, and can form a large contact area with the side surface of the cylinder. The outside compresses tightly subassembly 3 and is fixed in the other end of keeping away from inside lining locating component 2 on table surface 12, and the outside compresses tightly subassembly 3 and sets up in table surface 12 near the position of both sides edge along the length direction of rack 1, and the outside compresses tightly the equipment position that is equipped with between the subassembly 3 and is used for placing the barrel, is convenient for place two sides of barrel and compress tightly and fix a position, and inside lining locating component 2 can slide to equipment position. The external pressing assembly 3 includes a plurality of second ejection mechanisms 31 and a plurality of top pressing mechanisms 32, and preferably, as shown in fig. 4, one second ejection mechanism 31 and one top pressing mechanism 32 are disposed on one working frame in this embodiment, so that the overall structure of the external pressing assembly 3 is more compact. The second ejection mechanism 31 is used for positioning and pressing the side surface of the cylinder, the second ejection mechanism 31 includes a second ejection plate 311, the second ejection plate 311 can be horizontally ejected along the width direction of the rack 1, and preferably, the second ejection plate 311 is a rectangular plate and can form a larger contact area with the side surface of the cylinder. The second ejector plates 311 on the two sides of the working table 12 are matched with the first ejector plates 21 on the two sides of the lining positioning component 2 to position and compress the two side surfaces of the placed cylinder. Preferably, the second ejection mechanism 31 uses a pressing oil cylinder or an air cylinder to eject the second ejection plate 311, and the working process is sensitive and reliable. The top hold-down mechanism 32 is arranged at the top of the external hold-down assembly 3, the top hold-down mechanism 32 comprises a third ejector plate 321, the third ejector plate 321 can vertically extend and retract up and down, and is matched with the upper surface of the cavity of the lining positioning assembly 2 to position and hold down the top surface of the placed cylinder.

Further, as shown in fig. 2 and 3, the liner positioning assembly 2 includes a traveling mechanism 22 for driving the liner positioning assembly 2 to slide on the work table 12 along the length direction of the gantry 1. The traveling mechanism 22 includes a first driving motor 221, a gear 222, and a slider 223. Preferably, an installation working platform of the travelling mechanism 22 is arranged at one end of the cavity of the lining positioning component 2, so that the travelling mechanism 22 is convenient to install, maintain and replace. The first driving motor 221 is fixedly installed on the working platform, an output shaft of the first driving motor passes through an installation hole of the working platform and is fixedly connected with the gear 222, the gear 222 is arranged on the bottom surface of the working platform, and the sliding block 223 is fixed at the bottom of the working platform. The work table 12 is provided with a linear slide rail 121 and a rack 122 along the length direction, a gear 222 is engaged with the rack 122, and a slider 223 is slidably mounted on the linear slide rail 121. Preferably, in order to make the liner positioning assembly 2 slide more smoothly and stably, two parallel linear sliding rails 121 are arranged on the working platform 12 along the length direction, four sliding blocks 223 are fixed at the bottom of the working platform, and every two sliding blocks 223 are matched with one linear sliding rail 121. When the running mechanism 22 works, the output shaft of the first driving motor 221 drives the gear 222 to rotate, the gear 222 is meshed with the rack 122, the rotation of the gear 222 is converted into the linear motion of the running mechanism 22, and the slide block 223 is matched with the linear slide rail 121 to enable the lining positioning assembly 2 to run more smoothly.

Further, the liner positioning assembly 2 further includes a traveling roller 25, as shown in fig. 2 and 3, the traveling roller 25 is installed on the bottom surface of the outer portion of the cavity of the liner positioning assembly 2. In the walking process of the lining positioning component 2, the roller walking rollers 25 can effectively reduce the friction force between the lining positioning component 2 and the inner surface of the cylinder. In the embodiment of the present invention, four traveling rollers 25 are installed, and two are installed at two ends of the cavity of the lining positioning assembly 2. In other embodiments, a greater number of walking rollers 25 may be used depending on the length of the liner positioning assembly 2, and is not limited in this embodiment.

Further, a plurality of first ejector plates 21 are respectively arranged on two sides of the lining positioning assembly 2, and the number of the first ejector plates 21 on the two sides can be properly increased or decreased according to the length and the size of the cylinder to be assembled. The liner positioning assembly 2 further includes a first ejector mechanism 23 for driving the first ejector plates 21 on both sides to be simultaneously extended or retracted. The first ejection mechanism 23 includes a second drive motor 231, an intermediate connection shaft 232, and a plurality of bidirectional reduction motors 233. The second driving motor 231 is fixed at one end of the lining positioning assembly 2 and can be arranged at one end of the travelling mechanism 22, so that the structure is kept compact and the maintenance is convenient. Preferably, the second driving motor 231 is vertically installed, the output shaft is connected with the intermediate connecting shaft 232 through a right-angle speed reducer, and the intermediate connecting shaft 232 horizontally penetrates through the inside of the cavity of the lining positioning assembly 2. The second driving motor 231 and the right-angle reducer which are vertically installed enable the lining positioning assembly 2 to be more compact in structure and convenient to walk. The plurality of bidirectional speed reducers 233 are sequentially connected to the intermediate connecting shaft 232, and the first ejector plates 21 on both sides of the lining positioning assembly 2 are respectively fixed to two output shafts of the bidirectional speed reducers 233. Preferably, the bidirectional speed reducer 233 is a two-way worm gear speed reducer, and the worm gear speed reducer is effectively and reliably connected through the intermediate connecting shaft 232, so that the first ejection plates 21 on both sides can be simultaneously extended or retracted.

Further, barrel group is to frock still includes spacing subassembly 4, and spacing subassembly 4 is fixed in the other end of keeping away from inside lining locating component 2 on table surface 12. Spacing subassembly 4 can be used to the biggest shift position of restriction inside lining locating component 2, prevents that the walking of inside lining locating component 2 from surpassing the required biggest walking volume of barrel in the course of the work, also can support inside lining locating component 2 simultaneously, guarantees inside lining locating component 2 non-deformable.

Further, the limiting component 4 has a limiting plate 41 perpendicular to the working platform 12, as shown in fig. 1, a guiding hole 411 is provided on the limiting plate 41; the other end of inside lining locating component 2 is equipped with guide post 24, but guide post 24 joint in guiding hole 411, and the cooperation is convenient, and the location is accurate. In the embodiment of the invention, three guide holes 411 are formed in the limiting plate 41, the three guide holes 411 are vertically arranged on the vertical limiting plate 41 from top to bottom at uniform intervals, and the end part of the lining positioning component 2 is provided with three guide posts 24 at uniform intervals, which are in one-to-one correspondence with the three guide holes 411 in position. The cooperation of the three guide holes 411 with the three guide posts 24 preferably provides positional restraint for the liner positioning assembly 2.

Further, the work table 12 further includes a positioning block 123 and an electromagnet 124. As shown in fig. 1, the positioning block 123 and the electromagnet 124 are both disposed on the upper surface of the working table 12, the positioning block 123 and the electromagnet 124 are both disposed in the assembly position, the positioning block 123 is used for limiting the bottom plate of the cylinder, and the position of the positioning block 123 is set according to the shape of the cylinder; the electromagnet 124 is used for fixing the bottom plate of the cylinder, and in operation, the electromagnet 124 is electrified to generate magnetic force, so that the metal cylinder of the cylinder can be effectively fixed. The bottom plate of the barrel is limited and fixed by the positioning block 123 and the electromagnet 124, the structure is simple and reliable, and the setting can be adjusted rapidly according to the change of the overall dimension of the barrel. In this embodiment, the positioning block 123 and the electromagnet 124 are standard components, and the detailed structure thereof is not described herein.

Further, the top hold-down mechanism 32 is mounted with a rotary drive member 322, and the rotary drive member 322 can drive the top hold-down mechanism 32 to rotate along the vertical axis. Preferably, the rotary driving member 322 can adopt a rotary oil cylinder or an air cylinder, the top hold-down mechanism 32 can realize 360-degree rotation, the operation is reliable and sensitive, and the lifting appliance is convenient to use and avoids the top hold-down mechanism 32 to operate the cylinder body. The top pressing mechanism 32 has two position states of working and non-working, and when the third ejector plate 321 is located outside the top pressing mechanism 32, the working position state is shown in fig. 4; when the rotary driving member 322 is actuated to position the third ejector plate 321 inside the top pressing mechanism 32, it is in the non-operating position.

In this embodiment, when the barrel assembly tooling works, the liner positioning assembly 2 presses the distal end of the assembly 3 externally, and keeps the first ejector plates 21 at both sides in the retracted state and keeps the third ejector plate 321 in the non-working position state. Firstly, placing an assembly surface of the cylinder body on an assembly position on the working table surface 12 to form a bottom plate of the cylinder body, limiting the bottom plate by using a positioning block 123, and fixing the bottom plate by using an electromagnet 124; then the lining positioning component 2 moves to an assembly position, and then two assembly surfaces of the cylinder are placed between the lining positioning component 2 and the external pressing component 3 to form two side plates of the cylinder; starting the second ejection mechanism 31 to synchronously eject the second ejection plate 311 to a set position; starting the first ejection mechanism 23 to eject the first ejection plate 21 to a set position, and completing the positioning and clamping of the two side plates of the cylinder body by matching the first ejection plate 21 with the second ejection plate 311; subsequently, the last assembly surface is placed at a designated position to form the top plate of the barrel, the rotary driving member 322 is actuated to make the third ejection plate 321 located at the working position, and the top pressing mechanism 32 is actuated to press the top plate of the barrel, so that the assembly of the barrel is completed, as shown in fig. 5. And then, positioning welding is carried out on the completed cylinder body by a manual or robot group, the external pressing component 3 is loosened according to the reverse sequence after welding is completed, the first ejection plates 21 on the two sides of the lining positioning component 2 are retracted and returned, the electromagnet 124 is powered off, the welded cylinder body is taken out, and the operation is completed.

The control system of the barrel group assembly tool adopts a PLC (programmable logic controller) as a main control unit, realizes real-time communication response between the barrel group assembly tool and the external pressing assembly 3 and the lining positioning assembly 2 through I/O (input/output) signals carried by the barrel group assembly tool, and sends high-frequency pulse signals to the servo motor driver through the output end, so that the required walking amount and the extending amounts of the first ejector plate 21, the second ejector plate 311 and the third ejector plate 321 are accurately controlled by the barrel group assembly tool.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Numerous obvious variations, adaptations and substitutions will occur to those skilled in the art without departing from the scope of the invention. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. The utility model provides a barrel group is to frock which characterized in that includes:

the rack (1) comprises a working table surface (12) and a base plate for fixing and forming the cylinder body;

the lining positioning assembly (2) is arranged on the working table top (12) in a sliding mode, and two sides of the lining positioning assembly (2) are respectively provided with a first ejection plate (21) capable of horizontally extending and retracting and used for abutting against the inner side of a side plate forming the cylinder body;

the external pressing component (3) is fixed on the working table top (12), the external pressing component (3) comprises a second ejection mechanism (31) and a top pressing mechanism (32), and the second ejection mechanism (31) comprises a second ejection plate (311) capable of horizontally extending and retracting and used for abutting against the outer side of a side plate forming the cylinder body; the top pressing mechanism (32) comprises a third ejection plate (321) capable of vertically extending and retracting up and down and used for abutting against the outer side of a top plate forming the cylinder body.

2. The barrel assembly tooling of claim 1, wherein the liner positioning assembly (2) comprises a traveling mechanism (22), and the traveling mechanism (22) drives the liner positioning assembly (2) to slide on the working table (12).

3. The barrel assembly tooling as claimed in claim 2, wherein the liner positioning assembly (2) further comprises a walking roller (25), and the walking roller (25) is mounted on the bottom surface of the liner positioning assembly (2).

4. The cylinder assembly tooling as claimed in claim 2, wherein the travelling mechanism (22) comprises a first driving motor (221), a gear (222) and a sliding block (223), an output shaft of the first driving motor (221) is connected with the gear (222), and the sliding block (223) is fixed at the bottom of the lining positioning assembly (2); the working table top (12) is provided with a linear sliding rail (121) and a rack (122), the gear (222) is meshed with the rack (122), and the sliding block (223) is in sliding fit with the linear sliding rail (121).

5. The barrel assembly tooling as claimed in claim 1, wherein a plurality of first ejector plates (21) are respectively arranged on two sides of the lining positioning assembly (2), the lining positioning assembly (2) further comprises a first ejector mechanism (23), and the first ejector mechanism (23) is used for driving the first ejector plates (21) to simultaneously extend or retract.

6. The barrel assembly tooling as claimed in claim 5, wherein the first ejection mechanism (23) comprises a second driving motor (231), an intermediate connecting shaft (232) and a plurality of bidirectional speed reducers (233), an output shaft of the second driving motor (231) is connected with the intermediate connecting shaft (232), the intermediate connecting shaft (232) horizontally penetrates through a cavity of the lining positioning assembly (2), the bidirectional speed reducers (233) are sequentially connected onto the intermediate connecting shaft (232), and the first ejection plates (21) on two sides of the lining positioning assembly (2) are respectively fixed onto two output shafts of the bidirectional speed reducers (233).

7. The barrel pairing tooling of claim 1, further comprising a limit assembly (4), the limit assembly (4) configured to limit a maximum travel position of the liner positioning assembly (2).

8. The barrel assembly tooling as claimed in claim 7, wherein the limiting assembly (4) is provided with a limiting plate (41) perpendicular to the working table surface (12), and a guide hole (411) is formed in the limiting plate (41); the end part of the lining positioning component (2) is provided with a guide post (24), and the guide post (24) can be inserted into the guide hole (411).

9. The barrel assembly tooling as claimed in claim 1, wherein a positioning block (123) and an electromagnet (124) are further arranged on the working table (12), the positioning block (123) is used for limiting the bottom plate of the barrel, and the electromagnet (124) is used for fixing the bottom plate of the barrel.

10. The bowl pairing tool of claim 1, wherein the top hold-down mechanism (32) is mounted with a rotary drive (322), the rotary drive (322) being configured to rotate the top hold-down mechanism (32) along a vertical axis.

Images