CN219189197U - C-type transformer - Google Patents

Abstract

The utility model discloses a C-type gear shifter, which comprises a base structure for lifting and feeding a machining part, wherein a supporting structure for installing and arranging a rocker arm structure is arranged on the base structure, the base structure comprises a base body with a connecting hole, a first hydraulic telescopic cylinder for lifting and adjusting a lifting plate is arranged on the base body through a hinge, meanwhile, a limiting groove for limiting the workpiece is arranged on the lifting plate, two sides of the lifting plate are movably arranged with a guide ladder through a through hole connecting piece and a clamping pin rod, the lower part of the guide ladder is movably arranged with a second hydraulic telescopic cylinder through a hinge, a through hole for facilitating the penetration of the limiting rod is formed in one side of the guide ladder, the limiting rod and the through hole are movably arranged in a penetrating mode, the supporting structure comprises a supporting box body with a connecting bolt at the bottom, and the C-type gear shifter has a limiting effect for placing the workpiece through the limiting groove.

Description

C-type transformer

Technical Field

The utility model relates to the technical field of C-type variators, in particular to a C-type variators.

Background

At present, research is conducted on welding production enterprises, and the fact that in a welding production link, due to the difference of development levels among manufacturing industries, welding stations of many enterprises are not equipped with welding position shifters, in production, manual welding operation is adopted to conduct operation, manual welding is needed to change positions of workpieces to be welded according to different workpieces and welding seams, the workpieces to be welded are located at proper positions, repeated labor operation is needed to be conducted continuously manually by adopting manual welding, manual working labor intensity is high, meanwhile, when the existing position shifters are used for fixing the workpieces, the condition that the workpieces can be lifted and fixed through lifting equipment is needed, and when the workpieces are fixed in a fixed lifting mode, the condition that lifting steps are complicated exists.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a C-shaped positioner which aims to solve the problems that in the prior art, manual welding operation is adopted to perform operation, manual welding is needed to change positions of workpieces to be welded aiming at different workpieces and welding seams, the workpieces to be welded are positioned at proper positions, manual welding is needed to continuously perform repeated labor operation, the labor intensity of manual work is high, and meanwhile, when the existing positioner is used for fixing the workpieces, the workpieces are needed to be lifted and fixed through lifting equipment, and when the workpieces are fixed in a fixed lifting mode, the lifting steps are complicated.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the C-type transformer comprises a base structure for lifting and feeding the processing, wherein a supporting structure for mounting a rocker arm structure is arranged on the base structure;

the base structure comprises a base body with a connecting hole, a first hydraulic telescopic cylinder for lifting and adjusting the lifting plate is arranged on the base body through a hinge, and a limit groove for limiting the placement of a workpiece is formed in the lifting plate.

Through adopting above-mentioned technical scheme, thereby playing the spacing effect of putting to the work piece through the spacing groove that sets up.

Preferably, the jacking plate both sides are through-hole connecting piece and bayonet lock pole and the activity of guide ladder setting, and guide ladder below all sets up with the activity of second hydraulic telescoping cylinder through the hinge.

Through adopting above-mentioned technical scheme, thereby through the hinge that sets up play two-way connection setting effect.

Preferably, a through hole which is convenient for the limiting rod to penetrate is formed in one side of the guide ladder, and an active penetrating mode is adopted between the limiting rod and the through hole.

Through adopting above-mentioned technical scheme, thereby play the quick installation dismantlement effect of extraction through the gag lever post that sets up.

Preferably, the supporting structure comprises a supporting box body with a pair of connecting bolts at the bottom, a through groove convenient for installation and setting of the slewing bearing is formed in one side of the supporting box body, and a connecting frame convenient for installation and setting of parts of the rocker arm structure is arranged on one side of the supporting box body.

Through adopting above-mentioned technical scheme, thereby play the fixed effect of installation to rotating electrical machines through the link that sets up.

Preferably, the rocker arm structure comprises a rocker arm body with a connecting disc, one side of the rocker arm body is provided with a sliding rail which is convenient for the movable arrangement of the tail frame box body assembly, and meanwhile, the tail frame box body assembly is driven and adjusted through an adjusting assembly.

Through adopting above-mentioned technical scheme, thereby through the connection pad that sets up play installation setting and atress rotation regulation effect.

Preferably, the other side of the rocker arm body is provided with a headstock box body assembly for jacking a workpiece, the headstock box body assembly is provided with a plate retaining assembly for preventing the tailstock box body assembly from exceeding the motion limit through the rocker arm body, and the rocker arm body is provided with a rotating motor for rotating and adjusting the rocker arm body through a connecting disc.

Through adopting above-mentioned technical scheme, thereby through the rocking arm body that sets up play three-dimensional installation setting effect.

Compared with the prior art, the utility model has the beneficial effects that: the type-C type of the inverter,

(1) The present case is by setting up: the rocker arm structure is used for solving the problems that manual welding operation is adopted to carry out operation, the position of a workpiece to be welded is required to be changed manually aiming at different workpieces and welding seams, the workpiece to be welded is positioned at a proper position, repeated labor operation is required to be continuously carried out manually by adopting manual welding, the manual working labor intensity is high, the tail frame box body assembly is driven and adjusted by utilizing the adjusting assembly through the sliding rail, the tail frame box body assembly and the headstock box body assembly carry out jacking and clamping on the workpiece, the synchronous stress rotation adjustment is carried out on the workpiece when the headstock box body assembly and the headstock box body assembly synchronously bear force, the welding gun is convenient to carry out uniform welding treatment on the workpiece when the synchronous stress rotation adjustment is carried out on the workpiece, when the whole workpiece is required to be rotated and adjusted, the output motor drives the rocker arm body to rotate and adjust by utilizing the connecting disc, and when the rocker arm body rotates by force, the workpiece is synchronously stressed and welded by utilizing the arranged rocker arm structure, so that the situation is avoided;

(2) Through the base structure that sets up to solve current position changing machine and need hoist and mount through lifting device when fixing the work piece and adopting the condition that can hoist and mount the fixed work piece, when utilizing fixed hoist and mount mode to fix the work piece, thereby there is the loaded down with trivial details condition of hoist and mount step, when the work piece needs the material loading to be fixed, the operator control second hydraulic telescopic cylinder work this moment, drive the work guide ladder and the ground atress contact in the second hydraulic telescopic cylinder work, stop second hydraulic telescopic cylinder work when the work guide ladder is in atress contact with the ground, then remove the work piece on the guide ladder and utilize the gag lever post to spacing the work piece, thereby control second hydraulic telescopic cylinder work again and make the slope of guide ladder atress unloading on the jacking plate of work piece, when the work piece falls on the jacking plate, withdraw the bayonet lock pole and control first hydraulic telescopic cylinder work piece lift the material of lifting this moment, thereby avoid above-mentioned condition with the base structure that sets up;

(3) Through the bearing structure who sets up to solve the unable condition of installing the setting of spare part in the rocking arm structure, when setting up connection pad and slewing bearing installation, thereby play the installation supporting effect to the rocking arm body, thereby play the drive to rotate the regulation effect to the rocking arm body when utilizing rotation motor and link installation to set up, avoid foretell condition simultaneously through the bearing structure of setting.

Drawings

FIG. 1 is a schematic diagram of a front cross-sectional structure of the present utility model;

FIG. 2 is a schematic view of a base structure of the present utility model;

FIG. 3 is a schematic view of a support structure according to the present utility model;

FIG. 4 is a schematic view of the structure of the jacking plate, the limiting groove and the through hole connector of the present utility model;

fig. 5 is a schematic view of the rocker arm structure of the present utility model.

In the figure: 1. the device comprises a base structure, 101, a base body, 102, a hinge, 103, a first hydraulic telescopic cylinder, 104, a jacking plate, 105, a limit groove, 106, a through hole connecting piece, 107, a clamping rod, 108, a material guiding ladder, 109, a second hydraulic telescopic cylinder, 1010, a limit rod, 2, a supporting structure, 201, a supporting box body, 202, a slewing bearing, 3, a rocker arm structure, 301, a rocker arm body, 302, a connecting disc, 303, a sliding rail, 304, a tailstock box body assembly, 305, an adjusting assembly, 306, a headstock box body assembly, 307, a plate retaining assembly, 308 and a rotating motor.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides a C type machine that shifts, as shown in fig. 1, fig. 2 and fig. 4, including as the base structure 1 to processing jacking material loading, base structure 1 is including the base body 101 that has the connecting hole, and be equipped with the first hydraulic telescoping cylinder 103 of jacking plate 104 lift adjustment on the base body 101 through hinge 102, set up simultaneously on the jacking plate 104 and place spacing groove 105 to the machined part, wherein, first hydraulic telescoping cylinder 103 and hinge 102 all take prior art structure setting, thereby utilize the above-mentioned spare part that prior art structure set up to play drive adjustment effect to jacking plate 104, be provided with 4 through-hole connecting pieces 106 on single jacking plate 104 simultaneously, utilize the through-hole connecting piece 106 of symmetry setting to make things convenient for the swing joint setting effect between jacking plate 104 and the guide ladder 108 in proper order.

The scheme is further that the two sides of the lifting plate 104 are movably arranged with the material guiding ladder 108 through the through hole connecting piece 106 and the bayonet lock rod 107, and the lower parts of the material guiding ladder 108 are movably arranged with the second hydraulic telescopic cylinder 109 through the hinge 102, wherein the material guiding ladder 108, the second hydraulic telescopic cylinder 109 and the bayonet lock rod 107 are also arranged by adopting the structure in the prior art, the parts are symmetrically arranged, the workpiece is symmetrically arranged, the two sides of the workpiece are conveniently fed with the feeding effect, meanwhile, the bayonet lock rod 107 and the through hole connecting piece 106 are movably arranged in a penetrating manner, and thus the lifting plate 104 is conveniently stressed and adjusted in the process, and the situation of motion interference on the lifting plate 104 is avoided.

Above-mentioned scheme is further in proper order, and the through-hole that makes things convenient for gag lever post 1010 to run through the setting is offered to guide ladder 108 one side, and take the activity to run through the mode setting between gag lever post 1010 and the through-hole, and wherein, the quantity that gag lever post 1010 set up matches the installation setting with the number that guide ladder 108 set up, utilizes the gag lever post 1010 that the logarithm set up to avoid the circumstances that the work piece material loading in-process appears the gliding material that falls, and the gag lever post 1010 also takes the activity to run through the mode setting simultaneously, makes things convenient for the dismantlement installation effect of gag lever post 1010 in proper order.

In the above scheme, when the workpiece is required to be loaded and clamped, an operator controls the second hydraulic telescopic cylinder 109 to work at the moment, one end of the guide ladder 108 is in forced contact with the ground by using the hinge 102 in the working process of the second hydraulic telescopic cylinder 109, when the guide ladder 108 is in forced contact with the ground, the second hydraulic telescopic cylinder 109 stops working, then the workpiece is moved on the guide ladder 108 and the limiting rod 1010 penetrates through to limit the movement of the workpiece, meanwhile, the second hydraulic telescopic cylinder 109 is controlled to work so that the guide ladder 108 is inclined under the force of the workpiece, at the moment, the workpiece falls on the limiting groove 105 under the force of the inclination, at the moment, the operator stops the second hydraulic telescopic cylinder 109 to work and manually extracts the bayonet rod 107 to control the first hydraulic telescopic cylinder 103 to work, and the workpiece is carried by the first hydraulic telescopic cylinder 103 in the working process to lift and clamp the workpiece.

As shown in fig. 3, the base structure 1 is provided with a supporting structure 2 for installing the rocker arm structure 3, the supporting structure 2 comprises a supporting box 201 with a connecting bolt at the bottom, a through groove for installing and setting the slewing bearing 202 is formed in one side of the supporting box 201, and a connecting frame for installing and setting parts of the rocker arm structure 3 is formed in one side of the supporting box 201, wherein the slewing bearing 202, the supporting box 201 and the connecting bolt are all arranged in a structure in the prior art, and the installation and setting effects are effectively achieved with the base structure 1 and the rocker arm structure 3 when the parts are installed and set by the prior art structure.

In the above-described configuration, the operator moves the support case 201 on the base body 101, and the support case 201 and the base body 101 are connected and fixed by the connecting bolts penetrating the connecting holes through the connecting nuts.

As shown in fig. 5, the rocker arm structure 3 includes a rocker arm body 301 with a connecting disc 302, and a slide rail 303 is movably disposed on one side of the rocker arm body 301 through a tail frame box assembly 304, and at the same time, the tail frame box assembly 304 is driven and adjusted by an adjusting assembly 305, wherein the overall shape of the connecting disc 302 is in a T-shaped structure, the connecting disc 302 disposed by the T-shaped structure is convenient for mounting the rocker arm body 301 and the slewing bearing 202, and the connecting effect of the through slot and a rotating motor 308 is also facilitated, and at the same time, the tail frame box assembly 304, the slide rail 303 and the adjusting assembly 305 sequentially take the structure of the prior art, and the above parts disposed by the prior art structure are utilized to play a role in driving and adjusting the tail frame box assembly 304.

The above scheme is further that the other side of the rocker arm body 301 is provided with a headstock box body assembly 306 for jacking a workpiece, the headstock box body assembly 306 is provided with a plate retaining assembly 307 for preventing the tailstock box body assembly 304 from exceeding the motion limit through the rocker arm body 301, meanwhile, the rocker arm body 301 is provided with a rotating motor 308 for rotating and adjusting the rocker arm body 301 through the connecting disc 302, wherein the plate retaining assembly 307 and the headstock box body assembly 306 are also arranged by adopting the prior art structure, and the parts arranged by utilizing the prior art structure play a role of preventing the tailstock box body assembly 304 from exceeding the motion limit and play a role of jacking and rotating and adjusting one end of the workpiece.

In the above scheme, when the workpiece moves in the corresponding position, the operator controls the adjusting assembly 305 to work at this moment, the adjusting assembly 305 drives the tailstock box assembly 304 to move relatively to the sliding rail 303 and the rocker arm body 301 in the working process, when both ends of the workpiece are contacted with the stressed lifters of the tailstock box assembly 304 and the headstock box assembly 306, the adjusting assembly 305 stops working, at this moment, the first hydraulic telescopic cylinder 103 is controlled to move reversely, and the parts in the tailstock box assembly 304 and the headstock box assembly 306 are controlled to bear force and carry the workpiece to synchronously bear force and rotate, so that the welding gun is convenient for the welding gun to weld the periphery of the workpiece rotationally, when the workpiece needs reversing welding, the rotating motor 308 is controlled to work, the rocker arm body 301 carries the workpiece to rotate relatively to the supporting box body 201 through the connecting disc 302 and the slewing bearing 202 in the working process, and when the workpiece rotates in the corresponding welding direction, the welding gun stops working of the rotating motor 308.

The terms "center," "longitudinal," "transverse," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used for descriptive simplicity and convenience only and not as an indication or implying that the apparatus or element being referred to must have a particular orientation, be constructed and operated for a particular orientation, based on the orientation or positional relationship illustrated in the drawings, and thus should not be construed as limiting the scope of the present utility model.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. The utility model provides a C type transformer, is including as base structure (1) to processing jacking material loading, its characterized in that: the base structure (1) is provided with a supporting structure (2) for installing the rocker arm structure (3);

the base structure (1) comprises a base body (101) with a connecting hole, a first hydraulic telescopic cylinder (103) for lifting and adjusting a lifting plate (104) is arranged on the base body (101) through a hinge (102), and a limiting groove (105) for limiting the placement of a workpiece is formed in the lifting plate (104).

2. A type C transducer according to claim 1, wherein: the two sides of the jacking plate (104) are movably arranged with the material guiding ladder (108) through the through hole connecting piece (106) and the bayonet lock rod (107), and the lower parts of the material guiding ladder (108) are movably arranged with the second hydraulic telescopic cylinder (109) through the hinge (102).

3. A type C transducer according to claim 2, wherein: one side of the guide ladder (108) is provided with a through hole which is convenient for the limiting rod (1010) to penetrate through, and the limiting rod (1010) and the through hole are movably penetrated.

4. A type C transducer according to claim 1, wherein: the supporting structure (2) comprises a supporting box body (201) with a pair of connecting bolts at the bottom, a through groove convenient for installation and setting of the slewing bearing (202) is formed in one side of the supporting box body (201), and a connecting frame convenient for installation and setting of parts of the rocker arm structure (3) is arranged on one side of the supporting box body (201) through the through groove.

5. A type C transducer according to claim 1, wherein: the rocker arm structure (3) comprises a rocker arm body (301) with a connecting disc (302), one side of the rocker arm body (301) is provided with a sliding rail (303) which is convenient for a tail frame box body assembly (304) to be movably arranged, and meanwhile, the tail frame box body assembly (304) is driven and adjusted through an adjusting assembly (305).

6. A type C transducer as defined in claim 5, wherein: the other side of the rocker arm body (301) is provided with a headstock box body assembly (306) for jacking a workpiece, the headstock box body assembly (306) is provided with a plate retaining assembly (307) for preventing the tailstock box body assembly (304) from exceeding the motion limit through the rocker arm body (301), and meanwhile, the rocker arm body (301) is provided with a rotating motor (308) for rotating and adjusting the rocker arm body (301) through a connecting disc (302).

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