CN210001129U - kinds of net cage transfer device - Google Patents

Abstract

The utility model discloses a cylinder mould transfer device, which comprises a frame, mobilizable connection running gear in the frame, mobilizable connection elevating assembly on the running gear, the both ends of frame still are equipped with respectively keeps off the piece, and the front end that keeps off the piece is equipped with contact pick-up, contact pick-up electric connection director, the locating part is connected on its left and right lift frame's of elevating assembly top, and the lower extreme of locating part is equipped with contact pick-up, contact pick-up electric connection director the utility model discloses can cooperate cylinder mould welding position device to realize automatic the transportation to the cylinder mould that welding is good, practice thrift the manpower, shorten man-hour, very big improvement production efficiency, promoted the improvement of production process automation level.

Description

kinds of net cage transfer device

Technical Field

The utility model belongs to the technical field of the building materials production, especially, relate to cylinder mould transfer devices.

Background

In the autoclaved aerated concrete block plate production line, after the steel bar net cage is welded, the welded steel bar net cage needs to be transferred to a lower station, most of the steel bar net cage is manually carried in the existing production line, then the operation of the lower process is carried out after the net cage is integrated, a simple clamp is adopted by production enterprises for grabbing and transferring, the operation of the lower process can be carried out after the net cage is integrated by the manual work, a large amount of manpower is consumed in the transferring methods, the transferring method consumes longer time, and the automation level of production is not improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that exists, the utility model provides an kind of cylinder mould transfer device, the device can cooperate cylinder mould welding position device to realize automatic the transportation to the cylinder mould that welding is good, has practiced thrift the manpower, has shortened man-hour, very big improvement production efficiency, have promoted the improvement of production process automation level.

In order to achieve the above object, the present invention adopts the following scheme, including:

the lifting mechanism comprises a rack, a lifting mechanism and a lifting mechanism, wherein the rack is movably connected with a walking assembly;

the walking assembly comprises a walking frame, a walking reduction box, a left walking gear rack, a right walking gear rack, a left walking slider, a right walking slider, a left walking rack and a right walking slider, wherein the side frame of the walking frame is connected with the walking reduction box, the input end of the walking reduction box is connected with a walking motor, the two ends of the walking reduction box are respectively connected with the left walking transmission shaft and the right walking transmission shaft, the left walking transmission shaft and the right walking transmission shaft are respectively connected with the walking frame in a rotating way, the end parts of the left walking transmission shaft and the right walking transmission shaft are respectively connected with the left walking gear and the right walking gear, the left walking gear is meshed with the left walking rack on the left side frame of the frame, the right walking gear is meshed with the right walking rack on the right;

the lifting assembly comprises a lifting reduction box connected to the middle part of the walking frame, the input end of the lifting reduction box is connected with a lifting motor, the two ends of the lifting reduction box are respectively connected with a left lifting transmission shaft and a right lifting transmission shaft, the left lifting transmission shaft and the right lifting transmission shaft are respectively rotatably connected with the walking frame, the end parts of the left lifting transmission shaft and the right lifting transmission shaft are respectively connected with a left lifting gear and a right lifting gear, and the two ends of the walking frame are respectively connected with a left lifting slide block and; the left lifting frame and the right lifting frame are respectively positioned on two sides of the rack, the side surfaces of the left lifting frame and the right lifting frame are respectively connected with a left lifting rack and a right lifting rack, the left lifting rack is meshed with a left lifting gear, and the right lifting rack is meshed with a right lifting gear; the left lifting guide rail is connected with the left lifting slide block in a sliding manner, and the right lifting guide rail is connected with the right lifting slide block in a sliding manner; the lifting cross beam is connected to the lower ends of the left lifting frame and the right lifting frame, and a locking mechanism is connected to the lifting cross beam.

The locking mechanism comprises a plurality of locking cylinders connected to the side face of the lifting beam, piston rods of the locking cylinders are correspondingly connected with the outer side face of the locking plate respectively, a plurality of waist-shaped through holes are formed in the top face of the locking plate, two ends of the bottom face of the locking plate are connected with locking sliders respectively, the locking sliders are connected with locking guide rails on the top face of the lifting beam in a sliding mode, a plurality of circular through holes formed in the lifting beam and corresponding to the waist-shaped through holes in the locking plate, a plurality of locking steel drills, locking steel drill short rods are inserted into the waist-shaped through holes in the top face of the locking plate, locking steel drill long rods are inserted into the circular through holes in the lifting beam, and hook.

The gib head is a gyro-shaped gib head.

Both ends of the frame are respectively provided with a stopper, the front end of the stopper is provided with a contact sensor, and the contact sensor is electrically connected with the controller.

The top of left and right lift frame is connected the locating part, and the lower extreme of locating part is equipped with the contact inductor, and the contact inductor electricity connection controller.

The utility model discloses can cooperate cylinder mould welding position device to realize automatic the transportation to the cylinder mould that welding is good, practice thrift the manpower, shorten man-hour, very big improvement production efficiency, promoted the horizontal improvement of production process automation.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic sectional view A-A of FIG. 1.

Fig. 3 is a schematic view of the three-dimensional structure of the locking assembly of the present invention.

Fig. 4 is a schematic view of the three-dimensional structure of the locking drill rod of the present invention.

Fig. 5 is a schematic view of the three-dimensional structure of the net cage transported by the present invention.

Fig. 6 is a schematic diagram of the utility model in cooperation with a cylinder mould welding and positioning device.

Detailed Description

The present invention is further described in below in conjunction with the following figures to facilitate a better understanding of the invention by those skilled in the art.

As shown in fig. 1 and fig. 2, the present invention includes:

the device comprises a rack 1, a traveling component movably connected to the rack, and a lifting component movably connected to the traveling component;

the walking assembly comprises a walking frame 2, a walking reduction box 3 is connected to the side frame of the walking frame, the input end of the walking reduction box is connected with a walking motor 4, the two ends of the walking reduction box are respectively connected with a left walking transmission shaft 5 and a right walking transmission shaft 6, the left walking transmission shaft and the right walking transmission shaft are respectively connected with the walking frame in a rotating way, the end parts of the left walking transmission shaft and the right walking transmission shaft are respectively connected with a left walking gear 7 and a right walking gear 8, the left walking gear is meshed with a left walking rack 9 on the left side frame of the frame, the right walking gear is meshed with a right walking rack 10 on the right side frame of the frame;

the lifting assembly comprises a lifting reduction box 15 connected to the middle part of the walking frame, the input end of the lifting reduction box is connected with a lifting motor 16, the two ends of the lifting reduction box are respectively connected with a left lifting transmission shaft 17 and a right lifting transmission shaft 18, the left lifting transmission shaft and the right lifting transmission shaft are respectively rotatably connected with the walking frame, the end parts of the left lifting transmission shaft and the right lifting transmission shaft are respectively connected with a left lifting gear 19 and a right lifting gear 20, and the two ends of the walking frame are respectively connected with a left lifting slide block 21 and a right lifting; the left lifting frame 23 and the right lifting frame 24 are respectively positioned at two sides of the frame, the side surfaces of the left lifting frame and the right lifting frame are respectively connected with a left lifting rack 25 and a right lifting rack 26, the left lifting rack is meshed with a left lifting gear, and the right lifting rack is meshed with a right lifting gear; the left lifting guide rail and the right lifting guide rail are respectively connected with the inner side surfaces of the left lifting frame and the right lifting frame, the left lifting guide rail is connected with the left lifting slide block in a sliding mode, and the right lifting guide rail is connected with the right lifting slide block in a sliding mode; and a lifting cross beam 29 connected to the lower ends of the left and right lifting frames, and a locking mechanism connected to the lifting cross beam.

As shown in figures 3 and 4, the locking mechanism comprises a plurality of locking cylinders 30 connected to the side surfaces of the lifting beam, piston rods of the locking cylinders are correspondingly connected with the outer side surfaces of locking plates 31 respectively, a plurality of waist-shaped through holes are formed in the top surfaces of the locking plates, two ends of the bottom surfaces of the locking plates are connected with locking sliders 32 respectively, the locking sliders are connected with locking guide rails 33 on the top surfaces of the lifting beam in a sliding mode, a plurality of circular through holes formed in the lifting beam and corresponding to the waist-shaped through holes in the locking plates, a plurality of locking steel rods 34, locking steel short rods 34-1 are inserted into the waist-shaped through holes in the top surfaces of the locking plates, locking steel long rods 34-2 are inserted into the circular through holes in the lifting beam, and hooks are arranged.

As the preferred embodiment of the utility model, the hook head is a gyro-shaped hook head 34-3.

, as shown in fig. 1 and 2, the two ends of the frame are respectively provided with a stopper 35, the front end of the stopper is provided with a contact sensor, and the contact sensor is electrically connected to the controller.

Step , as shown in fig. 1 and fig. 2, the top ends of the left and right lifting frames are connected to the position-limiting members 36, and the lower ends of the position-limiting members are provided with contact sensors electrically connected to the controller.

As shown in fig. 5 and 6, during transportation, the cylinder mould welding and positioning device 40 together with the welded cylinder mould 41 moves to the lower part of the end of the cylinder mould transportation device through the slide rail, the lifting assembly of the cylinder mould transportation device is started, the lifting cross beam descends, the locking steel rod is sequentially inserted into the upper connecting piece 42 of the cylinder mould and the through hole on the lower connecting piece 43, the locking assembly is started, the locking cylinder pushes the locking plate to move, the locking steel rod rotates, when the cylinder mould is clamped, the tail end hook head of the locking steel rod hooks the lower connecting piece of the cylinder mould, the lifting assembly is started, the lifting cross beam ascends, the walking assembly is started, the walking frame moves, and the cylinder mould is transported to the lower station.

The utility model discloses can cooperate cylinder mould welding position device to realize automatic the transportation to the cylinder mould that welding is good, practice thrift the manpower, shorten man-hour, very big improvement production efficiency, promoted the horizontal improvement of production process automation.

Claims (5)

1. The net cage transfer device comprises a frame (1) and is characterized in that the frame is movably connected with a walking assembly, and the walking assembly is movably connected with a lifting assembly;

   the walking assembly comprises a walking frame (2), wherein a frame of the walking frame is connected with a walking reduction gearbox (3), the input end of the walking reduction gearbox is connected with a walking motor (4), the two ends of the walking reduction gearbox are respectively connected with a left walking transmission shaft (5) and a right walking transmission shaft (6), the left walking transmission shaft and the right walking transmission shaft are respectively connected with the walking frame in a rotating way, the end parts of the left walking transmission shaft and the right walking transmission shaft are respectively connected with a left walking gear (7) and a right walking gear (8), the left walking gear is meshed with a left walking rack (9) on the left frame of the rack, the right walking gear is meshed with a right walking rack (10) on the right frame of the rack, a left walking slider (11) and a right walking slider (12) are respectively connected to the bottoms of the two ends of the walking frame, the left walking slider is slidably connected with a left walking guide rail (13) on;

   the lifting assembly comprises a lifting reduction box (15) connected to the middle part of the walking frame, the input end of the lifting reduction box is connected with a lifting motor (16), the two ends of the lifting reduction box are respectively connected with a left lifting transmission shaft (17) and a right lifting transmission shaft (18), the left lifting transmission shaft and the right lifting transmission shaft are respectively rotatably connected with the walking frame, the end parts of the left lifting transmission shaft and the right lifting transmission shaft are respectively connected with a left lifting gear (19) and a right lifting gear (20), and the two ends of the walking frame are respectively connected with a left lifting slide block (21; the left lifting frame (23) and the right lifting frame (24) are respectively positioned on two sides of the rack, the side surfaces of the left lifting frame and the right lifting frame are respectively connected with left lifting racks (25) and right lifting racks (26), the left lifting racks are meshed with a left lifting gear, and the right lifting racks are meshed with a right lifting gear; left and right lifting guide rails (27, 28) respectively connected with the inner side surfaces of the left and right lifting frames, wherein the left lifting guide rail is connected with a left lifting slide block in a sliding manner, and the right lifting guide rail is connected with a right lifting slide block in a sliding manner; and a lifting cross beam (29) connected to the lower ends of the left and right lifting frames, and a locking mechanism connected to the lifting cross beam.
2. 2. The cylinder mould transfer device of claim 1, wherein the locking mechanism comprises a plurality of locking cylinders (30) connected to the side surfaces of the lifting beam, piston rods of the locking cylinders are correspondingly connected to the outer side surfaces of the locking plates (31), kidney-shaped through holes are formed in the top surfaces of the locking plates, locking sliders (32) are connected to two ends of the bottom surfaces of the locking plates, the locking sliders are slidably connected to locking guide rails (33) on the top surfaces of the lifting beam, circular through holes are formed in the lifting beam and correspond to the kidney-shaped through holes in the locking plates, a plurality of locking steel rods (34) are inserted into the kidney-shaped through holes in the top surfaces of the locking plates, long locking steel rods (34-2) are inserted into the circular through holes in the lifting beam, and hooks are arranged at the tail ends of the long locking steel rods.
3. 3. The netpen transfer device of claim 2, wherein: the hook head is a gyro-shaped hook head (34-3).
4. 4. The netpen transfer device of claim 1, wherein: both ends of the frame are respectively provided with a stopper (35), the front end of the stopper is provided with a contact sensor, and the contact sensor is electrically connected with the controller.
5. 5. The netpen transfer device of claim 1, wherein: the top of left and right lift frame is connected locating part (36), and the lower extreme of locating part is equipped with the contact inductor, and the contact inductor electricity connection controller.

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