CN202542774U - Stably lifting and translational feeding mechanism - Google Patents

Abstract

The utility ,model discloses a stably lifting and translational feeding mechanism. The stably lifting and translational feeding mechanism comprises a frame, a feeding device and a power device, wherein the feeding device is fixed on the frame; the power device is used for driving the feeding device; the feeding device comprises a buffering supporting plate, at least two driving swinging arms and at least two driven swinging arms; the driving swinging arms are arranged on one side of the frame; the driven swinging arms are arranged on the other side of the frame; gear sets, which are formed by big gears and small gears are formed on the driving swinging arms, wherein the big gears and the small gears are engaged with each other; the small gears are arranged at the tops of the driving swinging arms; the big gears are positioned at the bottoms of the driving swinging arms; the big gears are connected with each other in a synchronous transmission way; and one big gear is driven by the power device. According to the utility model, the buffering supporting plate can be enabled to finish reciprocating motion of stable rising, translation, stably falling, translation and stable rising; through the adoption of the stably lifting and translational feeding mechanism disclosed by the utility model, a function that tiles continuously and rapidly comes out, stably rises and then enter a translation state in a large-sized tile flow production line is solved; and the stably lifting and translational feeding mechanism disclosed by the utility model has the advantages of wide application range, low energy consumption, simplicity and convenience for unloading and loading products and easiness for cleaning and overhauling.

Description

A kind of steady elevating translational feed mechanism

Technical field

The present invention relates to a kind of feedway, be specifically related to a kind of steady elevating translational feed mechanism.

Background technology

In existing large-scale ceramic tile flow production line; The continuous quick and stable that needs to accomplish ceramic tile rises and translation motion; Adopt manipulator or hydraulic cylinder to accomplish above-mentioned action in the existing form processing; Their shortcoming is that step differs when rising, and receives force unbalance, very easily causes workpiece damages such as ceramic tile.

The utility model content

Technical matters to be solved by this invention is the deficiency to above-mentioned prior art; A kind of steady elevating translational feed mechanism is provided; The continuous quick and stable that it can accomplish workpiece rises and translation motion, when guaranteeing product design, has effectively improved production efficiency.

The technical scheme that the present invention adopted is: a kind of steady elevating translational feed mechanism; The engine installation that comprises frame, is fixed on the pay-off on the frame and drives this pay-off; Said pay-off comprises the buffering supporting plate, is arranged at least two active swing arms of said frame one side and at least two driven swing arms that are arranged on the frame opposite side; Above-mentioned active swing arm and driven swing arm are provided with in opposite directions, and said active swing arm all links to each other with the buffering supporting plate through the jointed shaft bearing with driven swing arm, is equipped with the gear cluster that is made up of intermeshing big gear wheel and miniature gears in the said active swing arm; Wherein miniature gears is arranged at initiatively swing arm tip position; Big gear wheel is positioned at initiatively swing arm bottom position, and synchrodrive connects between big gear wheel, and wherein a big gear wheel is driven by engine installation.

As preferably; Said active swing arm bent axle pivot joint and gear shaft block that link to each other with frame and initiatively fork top pivot joint bottom active fork, active fork constitutes; Initiatively the big gear wheel of swing arm is installed on this gear shaft block, and initiatively the miniature gears of swing arm is installed on this bent axle.

As preferably, all be in transmission connection between the big gear wheel of said active swing arm through the synchronizing wheel that is installed on the gear shaft block.

As preferably, said engine installation is a motor, and it drives big gear wheel and rotate through being installed on drive wheel on the gear shaft block.

As preferably, said synchronizing wheel and drive wheel all are installed on the outstanding rack section of gear shaft block.

As preferably, said driven swing arm by driven fork, driven fork bottom is that articulate and the bent axle of swing arm seat that link to each other with frame and the pivot joint of slave pendulum masthead portion constitutes.

As preferably, said bent axle articulates near frame in-to-in one side and jointed shaft bearing.

Beneficial effect of the present invention is: because active swing arm of the present invention is provided with the gear cluster that is made up of intermeshing big gear wheel and miniature gears; It makes that initiatively the jointed shaft bearing at swing arm top can move back and forth on the trajectory of a sub-elliptical; And the active swing arm drives the buffering supporting plate and driven swing arm is moved together; Thereby make the buffering supporting plate accomplish steadily rising-translation-steadily decline-translation-steady crank motion that rises; The rise function of translation again of the continuous quick and stable of brick output that this mechanism has solved large-scale ceramic tile flow production line; Replaced manipulator location paperback, can also the quick conveying mechanism of double as ceramic tile, have applied widely, power consumption is low, loading/unloading products is simple and convenient, the easy to clean and advantage of overhauling.

Description of drawings

Fig. 1 is structural representation of the present invention;

Fig. 2 is the embodiment of the invention one structural representation;

Fig. 3 is the embodiment of the invention two structural representations.

Among the figure: 1, frame; 2, active fork; 3, big gear wheel; 4, miniature gears; 5, synchronizing wheel; 6, driven fork; 7, bent axle; 8, jointed shaft bearing; 9, swing arm seat; 10, buffering supporting plate; 11, drive wheel; 12, motor; 13, gear shaft block.

The specific embodiment

To combine accompanying drawing and specific embodiment that the present invention is done further explain below.

Embodiment one: as depicted in figs. 1 and 2; A kind of steady elevating translational feed mechanism of the present invention, the engine installation that comprises frame 1, is fixed on the pay-off on the frame 1 and drives this pay-off, said pay-off comprise buffering supporting plate 10, are arranged at least two active swing arms of said frame 1 one sides and at least two driven swing arms that are arranged on frame 1 opposite side; Above-mentioned active swing arm and driven swing arm are provided with in opposite directions; Be equipped with the gear cluster that constitutes by intermeshing big gear wheel 3 and miniature gears 4 in the said active swing arm, initiatively swing arm by active fork 2, initiatively that articulate and the gear shaft block 13 that link to each other with frame 1 in fork 2 bottoms and initiatively the bent axle 7 that articulates of fork 2 tops constitute, the big gear wheel 3 of active swing arm is installed on this gear shaft block 13; Initiatively the miniature gears 4 of swing arm is installed on this bent axle 7; Big gear wheel 3 is meshing with each other with miniature gears 4, and when big gear wheel 3 was rotated under engine installation drives, it drove miniature gears 4 through engaging tooth and rotates; Miniature gears 4 rotates with big gear wheel 3 engagements and around big gear wheel 3; At this moment, miniature gears 4 just drives initiatively fork 2 rotations through bent axle 7, thereby realizes reciprocal regular orbiting motion.Said driven swing arm by driven fork 6, driven fork 6 bottoms are that articulate and the bent axle 7 of swing arm seat 9 that link to each other with frame 1 and the pivot joint of driven fork 6 tops constitutes.

In addition; Initiatively 3 of the big gear wheels of swing arm connect through synchronizing wheel 5 and the synchronous band synchrodrive between the synchronizing wheel 5 that is installed on the respective gears axle bed 13; Wherein a big gear wheel 3 is driven by engine installation; Present embodiment medium power device is a motor 12, and this motor 12 drives big gear wheel 3 rotations through the drive wheel 11 that is installed on the gear shaft block 13.

Said active fork 2 all is articulated with jointed shaft bearing 8 with the bent axle 7 that driven fork 6 tops articulate near frame 1 in-to-in one side; They link to each other with buffering supporting plate 10 through the jointed shaft bearing 8 that articulates; Jointed shaft bearing 8 is provided with the fixed installation hole, and is affixed with buffering supporting plate 10 through this fixed installation hole.

Working process of the present invention is following: starter motor 12, and motor 12 rotates through the synchronizing wheel 5 that drive wheel 11 drives on the respective gears axle bed 13, and synchronizing wheel 5 drives other synchronizing wheel 5 through synchronous band and rotates, and so just forms and revolves round the sun; The big gear wheel 3 that each synchronizing wheel 5 all drives on the respective gears axle bed 13 is rotated, and big gear wheel 3 drives miniature gears 4 through engagement again and rotates, thereby realizes the initiatively reciprocal regular orbiting motion of fork 2, so just forms rotation.Under above-mentioned revolution and rotation effect; Buffering supporting plate 10 by bent axle 7 and jointed shaft bearing 8 drive can be accomplished steady rising-translation-steadily decline-translation-steady crank motion that rises; The continuous quick and stable of brick output that the has solved large-scale ceramic tile flow production line function of translation again that rises; Replaced manipulator location paperback, all right quick conveying mechanism of double as ceramic tile offers convenience for the conveyor line production and processing.

Embodiment two: as shown in Figure 3, in the present embodiment, said synchronizing wheel 5 all is installed on gear shaft block 13 outstanding frame 1 parts with drive wheel 11, and said motor 12 is placed in frame 1 outside; All the other structures of present embodiment are all identical with embodiment one.Because present embodiment is installed on frame 1 outside with synchronizing wheel 5, drive wheel 11 and motor 12, therefore very convenient when changing and overhaul, be convenient to install and use.

Claims (8)

1. steady elevating translational feed mechanism; It is characterized in that: the engine installation that comprises frame (1), is fixed on the pay-off on the frame (1) and drives this pay-off; Said pay-off comprises buffering supporting plate (10), is arranged at least two active swing arms of said frame (1) one side and at least two driven swing arms that are arranged on frame (1) opposite side; Above-mentioned active swing arm and driven swing arm are provided with in opposite directions; Said active swing arm all links to each other with buffering supporting plate (10) through jointed shaft bearing (8) with driven swing arm; Be equipped with the gear cluster that is made up of intermeshing big gear wheel (3) and miniature gears (4) in the said active swing arm, wherein miniature gears (4) is arranged at initiatively swing arm tip position, and big gear wheel (3) is positioned at initiatively swing arm bottom position; Synchrodrive connects between big gear wheel (3), and wherein a big gear wheel (3) is driven by engine installation.

2. a kind of steady elevating translational feed mechanism according to claim 1; It is characterized in that: said active swing arm is by active fork (2), initiatively that articulate and gear shaft block (13) that link to each other with frame (1) in fork (2) bottom and bent axle (7) formation that articulates of fork (2) top initiatively; Initiatively the big gear wheel (3) of swing arm is installed on this gear shaft block (13), and initiatively the miniature gears (4) of swing arm is installed on this bent axle (7).

3. a kind of steady elevating translational feed mechanism according to claim 2 is characterized in that: all be in transmission connection through the synchronizing wheel (5) that is installed on the gear shaft block (13) between the big gear wheel of said active swing arm (3).

4. a kind of steady elevating translational feed mechanism according to claim 3 is characterized in that: said synchronizing wheel (5) is installed on outstanding frame (1) part of gear shaft block (13).

5. according to claim 2,3 or 4 described a kind of steady elevating translational feed mechanisms, it is characterized in that: said engine installation is motor (12), and it drives big gear wheel (3) rotation through the drive wheel (11) that is installed on the gear shaft block (13).

6. a kind of steady elevating translational feed mechanism according to claim 5 is characterized in that: said drive wheel (11) is installed on outstanding frame (1) part of gear shaft block (13).

7. a kind of steady elevating translational feed mechanism according to claim 1 is characterized in that: said driven swing arm bent axle (7) pivot joint and swing arm seat (9) that link to each other with frame (1) and the pivot joint of driven fork (6) top bottom driven fork (6), driven fork (6) constitutes.

8. according to claim 2 or 7 described a kind of steady elevating translational feed mechanisms, it is characterized in that: said bent axle (7) articulates near frame (1) in-to-in one side and jointed shaft bearing (8).

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