CN218904165U - Cyclone welding platform - Google Patents

Abstract

The utility model relates to a cyclone separator welding platform, which comprises a frame; the headstock assembly comprises a first driving source, the first driving source is arranged on the frame, and the output end of the first driving source is connected with a chuck; the tailstock assembly comprises a second driving source, the second driving source is arranged on the rack, the output end of the second driving source is connected with a center, and the second driving source drives the center to tightly prop the cyclone separator on the chuck; idler supporting component, it includes multiunit idler subassembly, and idler subassembly all includes elevating system, and elevating system sets up in the frame in the position between headstock subassembly and the tailstock subassembly, and elevating system rotates and is connected with the gyro wheel. The cyclone separator welding platform can meet the automatic welding work of various cyclone separators, solves the problems that welding tools are required to be replaced frequently in the original welding process, the tool manufacturing cost is high, the welding efficiency is low and the like, reduces the skill requirements on operators, and further reduces the production cost of enterprises.

Description

Cyclone welding platform

Technical Field

The utility model relates to the technical field of welding tools, in particular to a cyclone separator welding platform.

Background

Centrifugal separation devices are a type of mechanical product that separates substances of different specific gravities by means of centrifugal force; the cyclone separator has the advantages of simple structure, low cost, convenient maintenance and the like, and is widely applied to the industries of chemical industry, metallurgy and the like. The cyclone separator has the working principle that solid particles or liquid with larger centrifugal force are thrown to the inner wall of the cyclone separator by the rotary motion caused by tangential introduction of air flow so as to realize separation of substances;

in the manufacturing and assembly processes of the cyclone separator, a plurality of parts are required to be welded, a welding tool is used for auxiliary operation in the welding process, the universality of the existing welding tool is poor, when the cyclone separators with different specifications are welded, different welding tools are required to be removed and replaced, the cost of the tool and labor is high, the welding efficiency is low, and the production is affected.

Disclosure of Invention

Therefore, the technical problem to be solved by the utility model is to overcome the problems that in the prior art, in the manufacturing and assembling processes of the cyclone separator, a plurality of parts are required to be welded, a welding tool is used for auxiliary operation in the welding process, the universality of the existing welding tool is poor, when the cyclone separators with different specifications are welded, different welding tools are required to be removed and replaced, the cost of the tool and labor is relatively high, the welding efficiency is low, and the production is affected.

In order to solve the technical problems, the utility model provides a cyclone separator welding platform, which comprises,

a frame;

the headstock assembly comprises a first driving source, the first driving source is arranged on the frame, and the output end of the first driving source is connected with a chuck;

the tail seat assembly comprises a second driving source, the second driving source is arranged on the rack opposite to the chuck, the output end of the second driving source is connected with a center, and the second driving source drives the center to tightly prop the cyclone separator on the chuck;

idler supporting component, idler supporting component includes multiunit idler component, idler component all includes elevating system, elevating system set up in be located in on the frame headstock subassembly with the position between the tailstock subassembly, elevating system's output rotates and is connected with the gyro wheel.

In one embodiment of the utility model, the device further comprises a tailstock adjusting structure, wherein the tailstock adjusting structure comprises a base, the base is arranged on the frame, an adjusting plate is horizontally arranged at the top of the base in a sliding mode, a screw rod nut is arranged at one end, away from the chuck, of the base, the screw rod nut is screwed with a screw rod, the screw rod is connected with the adjusting plate, and the second driving source is arranged on the adjusting plate.

In one embodiment of the utility model, the device further comprises a center seat, wherein the center seat is arranged on the adjusting plate, a push rod is smoothly arranged in the center seat, the second driving source is connected to the center seat, one end of the push rod is connected to the output end of the second driving source, and the other end of the push rod is coaxially and rotatably connected to the center.

In one embodiment of the utility model, a support member is arranged on the frame, the first driving source is horizontally arranged on the support member, the output end of the first driving source is connected with a speed reducer, and the output end of the speed reducer is connected with the chuck.

In one embodiment of the utility model, the auxiliary support frame further comprises an auxiliary support frame, wherein the auxiliary support frame comprises a first support rod, a second support rod and a fixing plate, the fixing plate is arranged on one side of the frame, the first support rod is vertically arranged on the fixing plate, and the second support rod is coaxially connected to the top of the first support rod.

In one embodiment of the present utility model, the idler assembly includes a first idler assembly and a second idler assembly, the first idler assembly includes a first lifting mechanism, the first lifting mechanism is connected with the frame, the output end of the first lifting mechanism is rotatably provided with a first roller, the second idler assembly includes a second lifting mechanism, the second lifting mechanism is connected on the frame, and the output end of the second lifting mechanism is parallel and spaced with two second rollers.

In one embodiment of the utility model, the first roller is used for assisting the cyclone separator to move between the headstock assembly and the tailstock assembly, and the second rollers are used for assisting the cyclone separator to rotate.

In one embodiment of the present utility model, the first driving source may be a servo motor and the second driving source may be a cylinder.

In one embodiment of the utility model, the chuck is disc-shaped.

In one embodiment of the utility model, the tip is cone-shaped.

Compared with the prior art, the technical scheme of the utility model has the following advantages:

the utility model relates to a welding platform for a cyclone separator, which comprises a frame, a headstock assembly, a tailstock assembly and an idler wheel supporting assembly, wherein the headstock assembly and the tailstock assembly are respectively arranged at two ends of the frame, the headstock assembly and the tailstock assembly which are oppositely arranged form a clamping assembly for fixing the cyclone separator, and the idler wheel supporting assembly between the headstock assembly and the tailstock assembly is used as an auxiliary supporting assembly before clamping the cyclone separator; the cyclone separator welding platform can clamp and fix cyclone separators with different specifications, meets the automatic welding work of the cyclone separators with different specifications, solves the problems that welding tools are required to be frequently replaced in the original welding process, the tool manufacturing cost is high, the welding efficiency is low and the like, reduces the skill requirements on operators, and further reduces the production cost of enterprises. The whole device has simple structure, convenient installation and maintenance and is suitable for practical use.

Drawings

In order that the utility model may be more readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof that are illustrated in the appended drawings, in which

FIG. 1 is a perspective view of a cyclone welding platform of a preferred embodiment of the utility model;

FIG. 2 is a schematic view of a cyclone weld platform and cyclone assembly in accordance with a preferred embodiment of the utility model;

FIG. 3 is a side view of a cyclone welding platform of a preferred embodiment of the utility model;

FIG. 4 is a schematic view of the overall construction of a cyclone welding platform according to a preferred embodiment of the present utility model;

FIG. 5 is a schematic illustration of the head assembly of a cyclone welding platform in accordance with a preferred embodiment of the utility model;

FIG. 6 is a schematic view of a tailstock adjustment structure of a cyclone welding platform in accordance with a preferred embodiment of the utility model.

Description of the specification reference numerals: 1. a frame; 2. a headgear assembly; 21. a first driving source; 22. a chuck; 23. a speed reducer; 3. a tailstock assembly; 31. a second driving source; 32. a center; 4. an idler support assembly; 41. an idler assembly; 411. a lifting mechanism; 412. a roller; 5. tailstock adjusting structure; 51. a base; 52. an adjustment plate; 53. a screw nut; 54. a screw rod; 6. a center seat; 7. an auxiliary supporting frame; 71. a first support bar; 72. a second support bar; 73. and a fixing plate.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and specific examples, which are not intended to be limiting, so that those skilled in the art will better understand the utility model and practice it.

Referring to fig. 1-6, a cyclone welding platform of the present utility model, comprises,

a frame 1;

the headstock assembly 2, the headstock assembly 2 includes a first driving source 21, the first driving source 21 is arranged on the frame 1, and the output end of the first driving source 21 is connected with a chuck 22;

the tailstock assembly 3, the tailstock assembly 3 comprises a second driving source 31, the second driving source 31 is arranged on the frame 1 opposite to the chuck 22, the output end of the second driving source 31 is connected with a center 32, and the second driving source 31 drives the center 32 to tightly prop the cyclone separator on the chuck 22;

idler support assembly 4, idler support assembly 4 includes multiunit idler assembly 41, and idler assembly 41 all includes elevating system 411, and elevating system 411 sets up the position that is located between headstock subassembly 2 and tailstock subassembly 3 on frame 1, and the output rotation of elevating system 411 is connected with gyro wheel 412.

Specifically, the headstock assembly 2 and the tailstock assembly 3 are respectively arranged at two ends of the frame 1, the headstock assembly 2 and the tailstock assembly 3 which are oppositely arranged form a clamping assembly for fixing the cyclone separator, and an idler support assembly 4 between the headstock assembly 2 and the tailstock assembly 3 is used as an auxiliary support assembly before clamping the cyclone separator.

The working process comprises the following steps: firstly, spot welding is carried out on a simple welding tool in a workshop, then the cyclone separator subjected to preliminary spot welding is hoisted to an idler wheel supporting assembly 4 through hoisting equipment, and each idler wheel assembly 41 can lift the cyclone separator through a lifting mechanism 411 thereof so as to adjust the position of the cyclone separator until the heights of two ends of the cyclone separator are adjusted to positions corresponding to the heights of a chuck 22 and a center 32 respectively; the second driving source 31 is controlled to push the center 32 to tightly prop the cyclone separator on the chuck 22, so that the cyclone separator is clamped, the idler wheel assemblies 41 are lowered, and the welding robot starts to weld the cyclone separator.

It is conceivable that the cyclone welding platform can meet the automatic welding work of cyclone separators with various specifications, solves the problems that welding tools are required to be frequently replaced in the original welding process, the tool manufacturing cost is high, the welding efficiency is low and the like, reduces the skill requirements on operators, and further reduces the production cost of enterprises.

Referring to fig. 1, 3 and 6, further, the tailstock adjusting structure 5 is further included, the tailstock adjusting structure 5 includes a base 51, the base 51 is disposed on the frame 1, an adjusting plate 52 is horizontally slidably disposed on the top of the base 51, a screw nut 53 is mounted at one end of the base 51 facing away from the chuck 22, a screw rod 54 is screwed to the screw nut 53, the screw rod 54 is connected to the adjusting plate 52, and the second driving source 31 is disposed on the adjusting plate 52. Specifically, a plurality of horizontal T-shaped sliding grooves are arranged at intervals in parallel on the top of the base 51, a plurality of sliding blocks corresponding to the T-shaped sliding grooves are arranged at the bottom of the adjusting plate 52, a first mounting seat is arranged on the base 51, a screw rod nut 53 is arranged on the first mounting seat, a screw rod 54 is screwed on the screw rod nut 53, and one end, close to the adjusting plate 52, of the screw rod 54 is fixedly connected with a second mounting seat on the adjusting plate 52; the position of the adjusting plate 52 can be adjusted by rotating the screw rod 54, so that the position of the tailstock assembly 3 arranged on the adjusting plate 52 is finely adjusted to meet the fixation of cyclone separators with different specifications.

Referring to fig. 2 and 4, further, the device further comprises a center seat 6, the center seat 6 is arranged on the adjusting plate 52, a push rod is smoothly arranged in the center seat 6, the second driving source 31 is connected to the center seat 6, one end of the push rod is connected to the output end of the second driving source 31, and the other end of the push rod is coaxially and rotatably connected to the center 32. The second driving source 31 pushes the center 32 to reciprocate through the push rod, so that the center 32 can jack the cyclone separator and release the cyclone separator.

Referring to fig. 5, further, a support member is provided on the frame 1, the first driving source 21 is horizontally provided on the support member, an output end of the first driving source 21 is connected with a speed reducer 23, and an output end of the speed reducer 23 is connected with the chuck 22. It is conceivable that by providing the speed reducer 23 at the output end of the first drive source 21, it is ensured that the first drive source 21 can provide a sufficient torque output to drive the cyclone to rotate, so that the welding robot can weld different positions of the cyclone.

Referring to fig. 2 and 4, further, the auxiliary supporting frame 7 is further included, the auxiliary supporting frame 7 includes a first supporting rod 71, a second supporting rod 72 and a fixing plate 73, the fixing plate 73 is disposed on one side of the frame 1, the first supporting rod 71 is vertically disposed on the fixing plate 73, and the second supporting rod 72 is coaxially connected to the top of the first supporting rod 71. Specifically, the auxiliary support frame 7 is used for carrying out auxiliary support to the air inlet pipeline on the cyclone separator, improves the stability of the cyclone separator after being fixed, and ensures the safe performance of the production process.

Further, the idler assembly 41 includes a first idler assembly and a second idler assembly, the first idler assembly includes a first lifting mechanism, the first lifting mechanism is connected with the frame 1, the output end of the first lifting mechanism is rotatably provided with a first roller, the second idler assembly includes a second lifting mechanism, the second lifting mechanism is connected to the frame 1, and the output end of the second lifting mechanism is parallel and spaced with two second rollers. Specifically, the first lifting mechanism and the second lifting mechanism can both adopt air cylinders; the first lifting mechanism is vertically arranged on the frame 1, the output end of the first lifting mechanism is connected with a first supporting seat, and the first roller is rotatably arranged on the first supporting seat; the second elevating system is vertical to be set up on frame 1, and second elevating system's output symmetry is provided with two second supporting seats, rotates on two second supporting seats and is provided with the second gyro wheel that is parallel to each other. The first roller and the two second rollers form a triangular supporting structure to support the cyclone separator, wherein the two second rollers can assist the cyclone separator to rotate, and the first roller can assist the cyclone separator to move between the headstock assembly 2 and the tailstock assembly 3.

Further, the first roller is used for assisting the cyclone separator to move between the headstock assembly 2 and the tailstock assembly 3, and the two second rollers are used for assisting the cyclone separator to rotate.

Further, the first driving source 21 may be a servo motor, and the second driving source 31 may be a cylinder.

Further, the chuck 22 has a disk shape.

Further, the tip 32 is cone-shaped.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations and modifications of the present utility model will be apparent to those of ordinary skill in the art in light of the foregoing description. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (10)

1. A cyclone welding platform, characterized in that: comprising the steps of (a) a step of,

a frame;

the headstock assembly comprises a first driving source, the first driving source is arranged on the frame, and the output end of the first driving source is connected with a chuck;

the tail seat assembly comprises a second driving source, the second driving source is arranged on the rack opposite to the chuck, the output end of the second driving source is connected with a center, and the second driving source drives the center to tightly prop the cyclone separator on the chuck;

idler supporting component, idler supporting component includes multiunit idler component, idler component all includes elevating system, elevating system set up in be located in on the frame headstock subassembly with the position between the tailstock subassembly, elevating system's output rotates and is connected with the gyro wheel.

2. The cyclone weld platform as claimed in claim 1, wherein: still include tailstock adjustment structure, tailstock adjustment structure includes the base, the base set up in the frame, the top horizontal slip of base is provided with the regulating plate, the base deviates from the one end of chuck is installed screw-nut, screw-nut twists and connects the lead screw, the lead screw is connected the regulating plate, the second drive source set up in on the regulating plate.

3. The cyclone weld platform as claimed in claim 2, wherein: the novel water-smooth type adjusting device comprises an adjusting plate, and is characterized by further comprising a center seat, wherein the center seat is arranged on the adjusting plate, a push rod is smoothly arranged in the center seat, a second driving source is connected to the center seat, one end of the push rod is connected with the output end of the second driving source, and the other end of the push rod is coaxially connected with the center in a rotating mode.

4. The cyclone weld platform as claimed in claim 1, wherein: the chuck is characterized in that a support piece is arranged on the frame, the first driving source is horizontally arranged on the support piece, the output end of the first driving source is connected with a speed reducer, and the output end of the speed reducer is connected with the chuck.

5. The cyclone weld platform as claimed in claim 1, wherein: the auxiliary support frame comprises a first support rod, a second support rod and a fixing plate, wherein the fixing plate is arranged on one side of the frame, the first support rod is vertically arranged on the fixing plate, and the second support rod is coaxially connected to the top of the first support rod.

6. The cyclone weld platform as claimed in claim 1, wherein: the idler assembly comprises a first idler assembly and a second idler assembly, the first idler assembly comprises a first lifting mechanism, the first lifting mechanism is connected with the frame, a first roller is rotatably arranged at the output end of the first lifting mechanism, the second idler assembly comprises a second lifting mechanism, the second lifting mechanism is connected to the frame, and two second rollers are arranged at the output end of the second lifting mechanism at parallel intervals.

7. The cyclone weld platform as claimed in claim 6, wherein: the first roller is used for assisting the cyclone separator to move between the headstock assembly and the tailstock assembly, and the two second rollers are used for assisting the cyclone separator to rotate.

8. The cyclone weld platform as claimed in claim 1, wherein: the first driving source may be a servo motor and the second driving source may be a cylinder.

9. The cyclone weld platform as claimed in claim 1, wherein: the chuck is disc-shaped.

10. The cyclone weld platform as claimed in claim 1, wherein: the center is cone-shaped.

Images