CN219257423U - Transfer frame for bucket machining - Google Patents

Abstract

The utility model relates to a transfer frame, and discloses a transfer frame for bucket machining, which comprises a movable frame, wherein one side of the movable frame is fixedly connected with a supporting rod, the supporting rod is fixedly connected with a universal wheel, a first fixed rod is fixedly connected in the movable frame, a sliding block is connected on the first fixed rod in a sliding manner, a movable seat is fixedly connected between the sliding blocks, fixed blocks are fixedly connected on two sides of the movable seat, a second fixed rod is fixedly connected between the fixed blocks, a sliding frame is fixedly connected on the second fixed rod, a third fixed rod is fixedly connected between the sliding frames, and two groups of symmetrically arranged driving blocks are connected on the third fixed rod in a sliding manner.

Description

Transfer frame for bucket machining

Technical Field

The utility model relates to a transfer frame, in particular to a transfer frame for bucket machining.

Background

The bucket is a bucket-shaped member for excavating loose materials such as soil, yellow sand, stones and construction waste, and is mounted on an excavator for excavating a working device. However, the excavator works in a sediment environment, four shaft hole lubrication points on the excavator bucket lugs are extremely easy to pollute, and after hard particles enter the shaft holes, the shaft and the bushing are in an abrasive particle abrasion state, so that abrasion of the shaft, the bushing and the shaft holes is quickened, and the excavator needs to be maintained and replaced in time.

However, because the excavator bucket is heavy, the bottom surface of the excavator bucket is not a plane, the excavator bucket is not stable when being directly placed on a tray, and the excavator bucket is easy to fall off when a transport vehicle starts and brakes suddenly in the process of transferring and transporting, thereby bringing potential safety hazards.

Disclosure of Invention

The utility model aims to provide a transfer frame for bucket machining, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a bucket processing is with transporting frame, including removing the frame, remove frame one side fixedly connected with bracing piece, fixedly connected with universal wheel on the bracing piece, remove the first dead lever of in-frame fixedly connected with, fixedly connected with slider on the first dead lever, fixedly connected with removes the seat between the slider, remove seat both sides fixedly connected with fixed block, fixedly connected with second dead lever between the fixed block, fixedly connected with carriage on the second dead lever, fixedly connected with third dead lever between the carriage, fixedly connected with two sets of drive blocks of symmetry setting on the third dead lever, drive block one side rotation is connected with the one end of rotation connecting rod, the other end rotation of rotation connecting rod is connected with the crane, crane one side fixedly connected with linking arm, linking arm one end fixedly connected with first axle sleeve, the other side rotation of crane is connected with hydraulic telescoping tube's one end, hydraulic telescoping tube's other end fixedly connected with second axle sleeve, fixedly connected with round pin axle in first axle sleeve and the second axle sleeve, round pin axle one end threaded connection has the nut, still includes: the first driving component is connected to one side of the movable frame and used for driving the movable seat to transversely move, the second driving component is connected to the other side of the movable frame and used for driving the movable seat to longitudinally move, and the third driving component is connected between the sliding frames and used for driving the two groups of driving blocks to synchronously move in opposite directions.

As a further scheme of the utility model: the first driving assembly comprises a first fixing rod which is connected in the movable frame in a sliding mode, one end of the first fixing rod is fixedly connected to the movable seat, and the other end of the first fixing rod is fixedly connected with a first connecting plate.

As a further scheme of the utility model: one side of the first connecting plate is rotationally connected with a first ball screw, the first ball screw is in threaded connection with the movable frame, and one end of the first ball screw penetrates through the first connecting plate and is fixedly connected with a first grab handle.

As a further scheme of the utility model: the second driving assembly comprises a fixing frame fixedly connected to the movable frame, a fourth fixing rod is connected to the fixing frame in a sliding mode, one end of the fourth fixing rod is fixedly connected with a driving frame, the driving frame is fixedly connected to the third fixing rod, and the other end of the fourth fixing rod is fixedly connected with a second connecting plate.

As a further scheme of the utility model: one side of the second connecting plate is rotationally connected with a second ball screw, the second ball screw is in threaded connection with the fixing frame, and one end of the second ball screw penetrates through the second connecting plate and is fixedly connected with a second grab handle.

As still further aspects of the utility model: the third driving assembly comprises a double-end ball screw which is rotationally connected between two groups of sliding frames, the two groups of driving blocks are respectively connected with two ends of the double-end ball screw in a threaded mode, and one end of the double-end ball screw penetrates through the sliding frames and is fixedly connected with a third grab handle.

Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, the bucket is installed and fixed through the arrangement of the shaft sleeve and the pin shaft, and free transfer of the bucket is realized through the arrangement of the universal wheels, and the fixed installation adopted by the utility model can prevent the bucket from tilting forward and tilting backward caused by sudden stop and start of a vehicle in the transportation and transfer processes, so that the potential safety hazard is reduced.

Drawings

FIG. 1 is a schematic view of a transfer frame for bucket machining according to the present utility model.

Fig. 2 is a top view of a transfer frame for bucket machining according to the present utility model.

FIG. 3 is a cross-sectional view of a transfer frame for bucket machining in accordance with the present utility model.

FIG. 4 is a cross-sectional view of a transfer frame for bucket machining according to the present utility model.

In the figure: 1-movable frame, 2-supporting rod, 3-universal wheel, 4-first dead lever, 5-slider, 6-movable seat, 7-first traction lever, 8-first connecting plate, 9-first ball screw, 10-first grab handle, 11-fixed block, 12-second dead lever, 13-sliding frame, 14-third dead lever, 15-driving block, 16-rotary connecting rod, 17-driving frame, 18-fixed frame, 19-fourth dead lever, 20-second connecting plate, 21-second ball screw, 22-second grab handle, 23-double-headed ball screw, 24-third grab handle, 25-lifting frame, 26-connecting arm, 27-first sleeve, 28-hydraulic telescopic cylinder, 29-second sleeve, 30-pin shaft and 31-nut.

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 to 4, in the embodiment of the utility model, a transfer frame for bucket machining includes a moving frame 1, one side of the moving frame 1 is fixedly connected with a supporting rod 2, one side of the supporting rod 2 is fixedly connected with a universal wheel 3, a first fixing rod 4 is fixedly connected with the moving frame 1, a sliding block 5 is fixedly connected with the first fixing rod 4, a moving seat 6 is fixedly connected between the sliding blocks 5, two sides of the moving seat 6 are fixedly connected with fixing blocks 11, a second fixing rod 12 is fixedly connected between the fixing blocks 11, a sliding frame 13 is fixedly connected with a third fixing rod 14, two groups of symmetrically arranged driving blocks 15 are fixedly connected with the third fixing rod 14, one side of the driving block 15 is rotatably connected with one end of a rotating connecting rod 16, the other end of the rotating connecting rod 16 is rotatably connected with a lifting frame 25, one side of the lifting frame 25 is fixedly connected with a connecting arm 26, one end of the connecting arm 26 is fixedly connected with a first shaft sleeve 27, the other side of the lifting frame 25 is rotatably connected with one end of a hydraulic telescopic cylinder 28, the other end of the hydraulic telescopic cylinder 28 is fixedly connected with a second shaft sleeve 29, a third shaft sleeve 29 is fixedly connected with one end of the first shaft sleeve 29 and one end of the second shaft sleeve 30 is further connected with a second shaft sleeve 30, and one end of the second shaft sleeve 30 is further rotatably connected with a screw pin 30, and the other end of the second shaft sleeve 29 is further connected with a screw nut 30. The utility model relates to a movable support, which comprises a first driving component connected to one side of a movable support 1 and used for driving a movable seat 6 to transversely move, a second driving component connected to the other side of the movable support 1 and used for driving the movable seat 6 to longitudinally move, and a third driving component connected between sliding supports 13 and used for driving two groups of driving blocks 15 to synchronously and oppositely move.

In one case of this embodiment, referring to fig. 1 to 4, the first driving component includes a first fixing rod 4 slidably connected in the moving frame 1, one end of the first fixing rod 4 is fixedly connected to the moving seat 6, the other end of the first fixing rod 4 is fixedly connected with a first connecting plate 8, one side of the first connecting plate 8 is rotatably connected with a first ball screw 9, the first ball screw 9 is in threaded connection with the moving frame 1, one end of the first ball screw 9 passes through the first connecting plate 8 and is fixedly connected with a first grab handle 10, the first driving component can drive the first ball screw 9 to rotate by shaking the first grab handle 10, the first ball screw 9 drives the first ball screw 9 to stretch and retract through threaded connection with the moving frame 1, the first ball screw 9 drives the first connecting plate 8 to stretch and retract, and the first connecting plate 8 drives the moving seat 6 to transversely move through the first fixing rod 4, so as to adjust the position of the shovel head.

In one case of this embodiment, referring to fig. 1 to 4, the second driving component includes a fixing frame 18 fixedly connected to the moving frame 1, a fourth fixing rod 19 is slidably connected to the fixing frame 18, one end of the fourth fixing rod 19 is fixedly connected to the driving frame 17, the driving frame 17 is fixedly connected to the third fixing rod 14, the other end of the fourth fixing rod 19 is fixedly connected to a second connecting plate 20, one side of the second connecting plate 20 is rotatably connected to a second ball screw 21, the second ball screw 21 is in threaded connection with the fixing frame 18, one end of the second ball screw 21 passes through the second connecting plate 20 and is fixedly connected to a second grab handle 22, the second driving component can drive the second ball screw 21 to rotate by shaking the second grab handle 22, the second ball screw 21 drives the second ball screw 21 to stretch and retract through threaded connection with the fixing frame 18, the second ball screw 21 drives the second connecting plate 20 to stretch and retract, and the second connecting plate 20 drives the driving frame 17 to longitudinally move through the fourth fixing rod 19, so as to adjust the position of the shovel head.

In one case of this embodiment, referring to fig. 1 to 4, the third driving assembly includes a double-ended ball screw 23 rotatably connected between two sets of sliding frames 13, two sets of driving blocks 15 are respectively screwed on two ends of the double-ended ball screw 23, one end of the double-ended ball screw 23 passes through the sliding frames 13 and is fixedly connected with a third grab handle 24, the third driving assembly drives the double-ended ball screw 23 to rotate by shaking the third grab handle 24, and the double-ended ball screw 23 drives the two sets of driving blocks 15 to synchronously move in opposite directions through the threaded connection with the driving blocks 15.

The working principle of the utility model is as follows: according to the utility model, first shaft sleeve 27 and second shaft sleeve 29 are aligned to two groups of mounting holes of the excavator bucket respectively, pin shaft 30 is inserted into the mounting holes and the shaft sleeve, the mounting end of pin shaft 30 is limited through nut 31, so that slipping of pin shaft 30 is prevented, after that, the device can drive double-headed ball screw 23 to rotate through shaking third grab handle 24, double-headed ball screw 23 drives two groups of driving blocks 15 to synchronously move in opposite directions through threaded connection with driving block 15, driving block 15 drives rotary connecting rod 16 to lift, rotary connecting rod 16 drives lifting frame 25 to lift, lifting frame 25 drives excavator bucket to lift, and in the lifting process, the device can drive excavator bucket to rotate by taking first shaft sleeve 27 as center through hydraulic telescopic cylinder 28, so that the placing angle of excavator bucket is adjusted, after that, the device can realize free movement of the device through setting of universal wheel 3, after that, when the device needs to put down the excavator bucket, the device can drive first ball screw 9 to rotate through shaking first grab handle 10, first ball 9 drives first ball screw seat 9 to move through threaded connection with moving frame 1, first ball screw 8 drives first connecting rod 8 to drive first ball screw seat 21 to move transversely through threaded connection with first connecting rod 21, first ball screw seat 21 drives first connecting rod 21 to move transversely through first connecting rod 8 to move transversely, and second ball connecting rod 21 drives first connecting rod 21 to move transversely through second connecting rod 20 is also moves through first connecting rod 21 to rotate through first connecting rod 21, and 20 is driven by connecting rod 20 is driven by fixing plate 20 to rotate through setting of universal wheel 3, thereby adjusting the placement position of the bucket.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (6)

1. The utility model provides a bucket processing is with transporting frame, including removing the frame, its characterized in that removes frame one side fixedly connected with bracing piece, fixedly connected with universal wheel on the bracing piece, remove the first dead lever of in-frame fixedly connected with, sliding connection has the slider on the first dead lever, fixedly connected with removes the seat between the slider, remove seat both sides fixedly connected with fixed block, fixedly connected with second dead lever between the fixed block, sliding connection has the carriage on the second dead lever, fixedly connected with third dead lever between the carriage, sliding connection has the drive block of two sets of symmetry settings on the third dead lever, the one end of drive block one side rotation is connected with the rotation connecting rod, the other end rotation of rotation connecting rod is connected with the crane, crane one side fixedly connected with linking arm, linking arm one end fixedly connected with first axle sleeve, crane opposite side rotation is connected with hydraulic telescoping tube's one end, hydraulic telescoping tube's other end fixedly connected with second axle sleeve, sliding connection has the round pin axle in first axle sleeve and the second axle sleeve, round pin axle one end threaded connection has the nut, still includes: the first driving component is connected to one side of the movable frame and used for driving the movable seat to transversely move, the second driving component is connected to the other side of the movable frame and used for driving the movable seat to longitudinally move, and the third driving component is connected between the sliding frames and used for driving the two groups of driving blocks to synchronously move in opposite directions.

2. The transfer frame for bucket machining according to claim 1, wherein the first driving assembly comprises a first fixing rod slidably connected in the moving frame, one end of the first fixing rod is fixedly connected to the moving seat, and the other end of the first fixing rod is fixedly connected with a first connecting plate.

3. The transfer frame for bucket machining according to claim 2, wherein a first ball screw is rotatably connected to one side of the first connecting plate, the first ball screw is in threaded connection with the movable frame, and one end of the first ball screw penetrates through the first connecting plate to be fixedly connected with a first grab handle.

4. The transfer frame for bucket machining according to claim 1, wherein the second driving assembly comprises a fixing frame fixedly connected to the moving frame, a fourth fixing rod is slidably connected to the fixing frame, one end of the fourth fixing rod is fixedly connected to the driving frame, the driving frame is fixedly connected to the third fixing rod, and the other end of the fourth fixing rod is fixedly connected to the second connecting plate.

5. The transfer frame for bucket machining according to claim 4, wherein a second ball screw is rotatably connected to one side of the second connecting plate, the second ball screw is in threaded connection with the fixing frame, and one end of the second ball screw penetrates through the second connecting plate to be fixedly connected with a second grab handle.

6. The transfer frame for bucket machining according to claim 1, wherein the third driving assembly comprises a double-ended ball screw rotatably connected between two sets of sliding frames, the two sets of driving blocks are respectively in threaded connection with two ends of the double-ended ball screw, and one end of the double-ended ball screw penetrates through the sliding frames and is fixedly connected with a third grab handle.

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