CN115924324B - Mechanical conveying device for hardware machining - Google Patents

Abstract

The invention discloses a mechanical transportation device for hardware processing, which comprises a base, wherein a storage cylinder for storing hardware pipes is arranged on the base, the storage cylinder consists of two end covers and two arc-shaped plate groups fixed between the two end covers, each arc-shaped plate group consists of a plurality of concentrically arranged arc-shaped plates with the radius increasing from inside to outside, an arc-shaped storage cavity is formed between the inner wall and the outer wall of each two adjacent arc-shaped plates, and the two arc-shaped plate groups are coaxially arranged and symmetrically distributed about the center of the axis of the storage cavity, so that a straight channel passing through the axis of the storage cylinder is formed between the arc-shaped plates of the left part and the right part. Compared with the mode of storing and taking and placing the hardware pipes in the prior art, the device has the advantages that the position of the throwing port is fixed, the operation is simpler and more convenient, the hardware pipes can automatically roll downwards, the pipe fitting stacking is realized, manual intervention is not needed, and finally, the storage cavity in the device is arc-shaped, so that the gravity of the hardware pipes at all positions can be effectively shared, and the situation that the hardware pipe at the lowest layer is extruded, deformed or even damaged is avoided.

Description

Mechanical conveying device for hardware machining

Technical Field

The invention belongs to the technical field of hardware processing, and particularly relates to a mechanical conveying device for hardware processing.

Background

In the hardware processing process, the used hardware processing pipe fittings are often required to be transported and stored, and most of the hardware pipe fittings are round pipes.

In the prior art, the hardware pipes are generally stacked through the goods shelves, the hardware pipes are limited through the railings at the two sides of the goods shelves, the hardware pipes are prevented from rolling, the stacked pipes are required to be pulled out or pushed in along the axial direction when the pipes are stored and taken out, the operation positions are required to be continuously adjusted according to the stacking positions of the pipes on the goods shelves, and the pipes are required to move back and forth in front of the goods shelves.

Therefore, we propose a mechanical transportation device for hardware processing to solve the above problems.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, when hardware pipe fittings are processed and transported, the existing goods shelf stacking mode is inconvenient to store and take, and the hardware pipe fittings are easy to damage.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the mechanical transportation device for hardware processing comprises a base, wherein a storage cylinder for storing hardware pipes is arranged on the base, the storage cylinder consists of two end covers and two arc-shaped plate groups fixed between the two end covers, each arc-shaped plate group consists of a plurality of concentrically arranged arc-shaped plates with the radius increasing from inside to outside, an arc-shaped storage cavity is formed between the inner wall and the outer wall of each adjacent two arc-shaped plates, and the two arc-shaped plate groups are coaxially arranged and symmetrically distributed about the center of the axis of each arc-shaped plate group, so that a straight channel passing through the axis of the storage cylinder is formed between the arc-shaped plates of the left part and the right part;

a movable shell is arranged in the straight channel in a penetrating way, a first groove and a second groove are respectively arranged on two end faces, parallel to the axis of the storage cylinder, of the movable shell, a first opening capable of being communicated with the storage cavity is formed in the position, close to the bottom, of the first groove, and a second opening capable of being communicated with the storage cavity is formed in the position, close to the bottom, of the second groove;

the bottom of first recess sets up to protruding structure, install the regulating part that is used for controlling the switching of second opening in the second recess.

Further, the end cover comprises a rotating disc and two groups of sector blocks fixed on the side wall of the rotating disc, the sector blocks and the storage cylinder are concentrically arranged, two end faces of the arc plate are respectively fixed with the side walls of the corresponding two sector blocks on different end covers, and a gap capable of allowing the movable shell to pass through is reserved between the two sector blocks on the same end cover.

Further, the base includes two fixing bases, is used for connecting the connecting rod of two fixing bases and is used for supporting the supporting leg of fixing base, offer the arc spout with the rolling disc looks adaptation on the fixing base, the rolling disc rotates and installs in the arc spout.

Further, a plurality of handles are fixedly connected to the outer side wall of the rotating disc, and the handles are distributed at equal intervals around the center of the rotating disc.

Further, a damping is arranged between the movable shell and the straight channel, so that the movable shell can keep the original state under the action of no external force.

Further, an adjusting mechanism for adjusting the movable shell is further arranged in the storage cylinder, the adjusting mechanism comprises two rotating shafts, the rotating shafts are rotatably arranged between the two end covers, the two rotating shafts are respectively arranged on two sides of the movable shell, tooth grooves are formed in the movable shell along the vertical direction, and a driving gear meshed with the tooth grooves is fixedly arranged on the rotating shafts.

Further, the two ends of the rotating shaft respectively penetrate through the two ends of the storage cylinder, and one end of the rotating shaft is fixed with a rocking wheel.

Further, the two rocking wheels on the rotating shafts are respectively and fixedly connected to two sides of the storage cylinder, and the rotating shafts are fixedly connected with synchronous gears which are meshed with each other, so that the two rotating shafts rotate synchronously.

Further, the adjusting piece comprises a rotating strip, the middle part of the rotating strip is rotationally connected in the second groove through a fixed shaft, the axis of the fixed shaft is perpendicular to the different surface of the axis of the storage cylinder, when the rotating strip is in an inclined state, the side wall of the rotating strip acts in the second opening to enable the second opening to be in a closed state, and when the rotating strip is in a vertical state, the second opening is enabled to be in an open state.

Compared with the prior art, the invention has the beneficial effects that:

compared with the storage mode of the hardware pipes in the prior art, the device has the advantages that the position of the throwing port is fixed, the operation is simpler and more convenient, the hardware pipes can automatically roll downwards, the pipe fitting stacking is realized, manual intervention is not needed, and finally, the storage cavity in the device is arc-shaped, so that the gravity of the hardware pipes at all positions can be effectively shared, and the situation that the hardware pipe at the lowest layer is extruded, deformed or even damaged is avoided;

compared with the mode of taking to the five metals pipe among the prior art, the device take out mouth fixed position, the operation is simpler convenient, and the in-process that the five metals pipe was taking need not drag its along the axis, also need not make a round trip to carry, and the operation degree of difficulty greatly reduced effectively improves the efficiency of getting the pipe.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a mechanical transportation device for hardware processing;

FIG. 2 is an exploded view of a mechanical transportation device for hardware processing according to the present invention;

fig. 3 is a schematic structural view of a base in a mechanical transporting device for hardware processing according to the present invention;

fig. 4 is a schematic structural view of an arc plate set in a mechanical transporting device for hardware processing according to the present invention;

fig. 5 is a schematic structural diagram of an end cover in a mechanical transportation device for hardware processing according to the present invention;

fig. 6 is a schematic top view of a mechanical transporting device for hardware processing according to the present invention;

FIG. 7 is a schematic view of the cross-sectional structure A-A of FIG. 6;

fig. 8 is a schematic structural view of a movable housing in a mechanical transporting device for hardware processing according to the present invention;

fig. 9 is a schematic structural diagram of an adjusting mechanism in a mechanical transporting device for hardware processing according to the present invention;

FIG. 10 is a schematic diagram showing a pipe storage state of a mechanical transportation device for hardware processing;

FIG. 11 is a schematic view of an intermittent tubular state of a mechanical transporting device for hardware processing according to the present invention;

fig. 12 is a schematic view of a mechanical transporting device for hardware processing in a continuous tubular state according to the present invention.

In the figure: 1 base, 2 storage cylinder, 3 end cover, 4 arc plate group, 5 arc plate, 6 storage chamber, 7 straight channel, 8 movable shell, 9 first recess, 10 second recess, 11 first opening, 12 second opening, 13 regulating part, 14 rolling disc, 15 sector, 16 fixing base, 17 arc spout, 18 handle, 19 adjustment mechanism, 20 pivot, 21 tooth groove, 22 drive gear, 23 rocking wheel, 24 synchronizing gear, 25 rotating strip, 26 fixed axle.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments.

Referring to fig. 1-2, a mechanical transportation device for hardware processing comprises a base 1, wherein a storage cylinder 2 for storing hardware pipes is installed on the base 1, the storage cylinder 2 is horizontally placed, and in order to facilitate the hardware pipe access, the storage cylinder 2 and the ground reserve enough height, and the storage cylinder 2 is composed of two end covers 3 and two arc-shaped plate groups 4 fixed between the two end covers 3.

As shown in fig. 3, the base 1 includes two fixing bases 16, a connecting rod for connecting the two fixing bases 16, and supporting legs for supporting the fixing bases 16, and an arc chute 17 with an upward opening is formed on the fixing bases 16.

As shown in fig. 4, the arc plate set 4 is composed of a plurality of concentrically arranged arc plates 5 with the radius increasing from inside to outside, an arc-shaped storage cavity 6 is formed between the inner wall and the outer wall of two adjacent arc plates 5, when in use, pipe fittings are directly stored in the storage cavity 6, in order to store hardware pipes with different specifications, the arc plates 5 with different sizes can be arranged, so that the space of the storage cavity 6 can meet the storage requirements of different hardware pipes, the two arc plate sets 4 are coaxially arranged and symmetrically distributed about the center of the axis of the arc plate sets, and a straight channel 7 passing through the axis of the storage cylinder 2 is formed between the arc plates 5 of the left and right parts, as shown by the dotted line part in fig. 4.

As shown in fig. 5, the end cover 3 includes a rotating disc 14 and two sets of sector blocks 15 fixed on the side walls of the rotating disc 14, the sector blocks 15 and the storage barrel 2 are concentrically arranged, two end faces of the arc plate 5 are respectively fixed with the corresponding side walls of the two sector blocks 15 on different end covers 3, so that two ends of the storage cavity 6 are in a closed state, in addition, the arc chute 17 is matched with the rotating disc 14, and the rotating disc 14 is rotatably installed in the arc chute 17, so that the position of the storage barrel 2 is convenient to adjust.

Further, for convenience of operation, a plurality of handles 18 are fixedly connected to the outer sidewall of the rotating disc 14, and the plurality of handles 18 are equally spaced around the center of the rotating disc 14.

As shown in fig. 6-7, the movable housing 8 is arranged in the straight channel 7 in a penetrating manner, a gap for the movable housing 8 to pass through is reserved between the two fan-shaped blocks 15 positioned on the same end cover 3, and in order to keep the movable housing 8 in an original state under the action of non-external force, a damping is arranged between the movable housing 8 and the straight channel 7, so that the movable housing 8 can be kept at a certain position against the gravity of the movable housing 8.

As shown in fig. 8, a first groove 9 and a second groove 10 are respectively arranged on two end faces of the movable housing 8, which are parallel to the axis of the storage barrel 2, a first opening 11 which can be communicated with the storage cavities 6 is formed in a position, close to the bottom, of the first groove 9, the first opening 11 penetrates through the first groove 9, so that the first groove 9 can be communicated with the storage cavities 6 on two sides, a second opening 12 which can be communicated with the storage cavities 6 is formed in a position, close to the bottom, of the second groove 10, and the second opening 12 penetrates through the second groove 10, so that the second groove 10 can be communicated with the storage cavities 6 on two sides.

As shown in fig. 8, in order to facilitate guiding the hardware pipe into the storage cavity 6 during pipe storage, the bottom of the first groove 9 is provided with a convex structure, that is, when the first groove 9 is located at the upper side, two sides of the convex structure are inclined planes which are inclined downwards and are convenient for guiding the hardware pipe, and the hardware pipe can be prevented from being mistakenly rolled into the first groove 9 from the storage cavity 6 during the up-down movement of the movable housing 8.

As shown in fig. 8, in order to realize controllable intermittent tube taking, an adjusting member 13 for controlling the opening and closing of the second opening 12 is installed in the second groove 10, when the second opening 12 is opened, the hardware tube can roll into the second groove 10, and when the second opening 12 is closed, the hardware tube is blocked by the adjusting member 13 and cannot enter the second groove 10.

As shown in fig. 8, the adjusting member 13 includes two rotating strips 25, the number of the rotating strips 25 is two, the rotating strips are respectively disposed at two sides of the second opening 12, the middle of the rotating strip 25 is rotatably connected in the second groove 10 through a fixing shaft 26, the axis of the fixing shaft 26 is perpendicular to the different plane of the axis of the storage barrel 2, when the rotating strip 25 is in an inclined state, the side wall of the rotating strip 25 acts in the second opening 12 to enable the second opening 12 to be in a closed state, and when the rotating strip 25 is in a vertical state, the second opening 12 is enabled to be in an open state, and further, it is required that the distance between the two rotating strips 25 is smaller than the length of the hardware pipe, so that the rotating strip 25 can block two ends of the hardware pipe.

As shown in fig. 9, in order to further facilitate the adjustment of the position of the movable housing 8, an adjusting mechanism 19 for adjusting the movable housing 8 is further installed in the storage barrel 2, the adjusting mechanism 19 includes two rotating shafts 20, the rotating shafts 20 are rotatably installed between the two end covers 3, the axis of the rotating shafts 20 is parallel to the axis of the storage barrel 2, the two rotating shafts 20 are respectively installed at two sides of the movable housing 8, tooth slots 21 are formed in the movable housing 8 along the vertical direction, a driving gear 22 meshed with the tooth slots 21 is fixedly installed on the rotating shafts 20, and when the driving gear 22 rotates along with the rotating shafts 20, the driving gear 22 acts on the tooth slots 21, and along with the forward rotation or the reverse rotation of the rotating shafts 20, the upward movement or the downward movement of the movable housing 8 is realized, so as to adjust the positional relationship between the first opening 11, the second opening 12 and the storage cavity 6.

As shown in fig. 9, in order to achieve more stable adjustment, two ends of the rotating shaft 20 respectively penetrate through two ends of the storage cylinder 2, one end of the rotating shaft 20 is fixed with a rocking wheel 23, the rocking wheels 23 on the two rotating shafts 20 are respectively and fixedly connected to two sides of the storage cylinder 2, the rotating shafts 20 are fixedly connected with synchronous gears 24, and the synchronous gears 24 on the two rotating shafts 20 are meshed with each other, so that the two rotating shafts 20 synchronously rotate.

When the device is used, three functions of continuous tube storage, intermittent tube taking and continuous tube taking can be realized.

As shown in fig. 10, when the continuous pipe storage is implemented: through adjusting the position of movable casing 8, make the position of first opening 11 align with the upper side opening of different storage chamber 6, follow first recess 9 and continue inwards throw into the five metals pipe, under protruding structure's effect, make the five metals pipe get into storage chamber 6 towards both sides and store, because storage chamber 6 is the arc, and the five metals pipe fitting is cylindrical also, consequently, the five metals pipe fitting can get into the automatic stack that rolls downwards from the upper opening of storage chamber 6, at this moment, make rotation strip 25 be in the inclined condition, at this moment, the five metals pipe can't get into in the second recess 10 from the second opening 12 of downside, only need adjust the position of first opening 11, make first opening 11 dock with different storage chamber 6, all can store the five metals pipe in different storage chamber 6.

Compared with the storage mode to the hardware pipe among the prior art, the device puts in a mouthful fixed position, and the operation is simpler convenient, and the hardware pipe can roll downwards automatically, realizes the stacking of pipe fitting, need not manual intervention, and finally, because the storage chamber 6 in this device is the arc, can effectively share the gravity of each position hardware pipe, avoids the condition that the extrusion deformation even damage appears in the hardware pipe of the lowest floor.

As shown in fig. 11, when intermittent tube taking is implemented: the position of the second opening 12 is aligned with the lower openings of different storage cavities 6 by adjusting the position of the movable shell 8, then the two rotating strips 25 are adjusted to be in a vertical state, at the moment, the second opening 12 is opened, under the action of gravity, the hardware pipe automatically enters the second groove 10 and vertically falls from the second groove 10, and when pipe taking is required to be stopped, the rotating strips 25 are adjusted to be in an inclined state.

Compared with the mode of taking to the five metals pipe among the prior art, the device take out mouth fixed position, the operation is simpler convenient, and the in-process that the five metals pipe was taking need not drag its along the axis, also need not make a round trip to carry, and the operation degree of difficulty greatly reduced effectively improves the efficiency of getting the pipe.

As shown in fig. 12, when continuous tube fetching is implemented: firstly, the position of the first opening 11 is adjusted to the position between the two storage cavities 6 or the axis of the storage cylinder 2, so that the hardware pipe in the storage cavity 6 cannot enter the first opening 11, at the moment, the storage cylinder 2 is rotated 180 degrees around the axis of the storage cylinder to enable the positions of the first groove 9 and the second groove 10 to be exchanged, then the position of the movable shell 8 is adjusted to enable the first opening 11 to be communicated with each storage cavity 6 in sequence, so that the hardware pipe can enter the first opening 11 in sequence and continuously roll out from the first groove 9 until all the hardware pipes in each storage cavity 6 are taken out.

Compared with the prior art, the device can continuously take out the hardware pipe completely, has low difficulty and high speed, and greatly improves the processing efficiency.

The present invention is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present invention and the inventive concept thereof, can be replaced or changed within the scope of the present invention.

Claims (9)

1. The mechanical conveying device for hardware processing comprises a base (1), and is characterized in that a storage cylinder (2) for storing hardware pipes is arranged on the base (1), the storage cylinder (2) is composed of two end covers (3) and two arc-shaped plate groups (4) fixed between the two end covers (3), each arc-shaped plate group (4) is composed of a plurality of concentrically arranged arc-shaped plates (5) with the radius increasing from inside to outside, an arc-shaped storage cavity (6) is formed between the inner wall and the outer wall of each adjacent two arc-shaped plates (5), and the two arc-shaped plate groups (4) are coaxially arranged and symmetrically distributed about the center of the axis of each arc-shaped plate group, so that a straight channel (7) passing through the axis of the storage cylinder (2) is formed between the arc-shaped plates (5) of the left part and the right part;

a movable shell (8) is arranged in the straight channel (7) in a penetrating way, a first groove (9) and a second groove (10) are respectively arranged on two end faces, parallel to the axis of the storage cylinder (2), of the movable shell (8), a first opening (11) which can be communicated with the storage cavity (6) is formed in a position, close to the bottom, of the first groove (9), and a second opening (12) which can be communicated with the storage cavity (6) is formed in a position, close to the bottom, of the second groove (10);

the bottom of the first groove (9) is provided with a protruding structure, and an adjusting piece (13) for controlling the second opening (12) to be opened and closed is arranged in the second groove (10).

2. The mechanical transportation device for hardware processing according to claim 1, wherein the end cover (3) comprises a rotating disc (14) and two groups of sector blocks (15) fixed on the side wall of the rotating disc (14), the sector blocks (15) and the storage cylinder (2) are concentrically arranged, two end faces of the arc plate (5) are respectively fixed with the side walls of the two corresponding sector blocks (15) on different end covers (3), and a gap capable of allowing the movable shell (8) to pass is reserved between the two sector blocks (15) on the same end cover (3).

3. The mechanical transportation device for hardware processing according to claim 2, wherein the base (1) comprises two fixing seats (16), a connecting rod for connecting the two fixing seats (16) and supporting legs for supporting the fixing seats (16), an arc-shaped chute (17) matched with the rotating disc (14) is formed in the fixing seats (16), and the rotating disc (14) is rotatably arranged in the arc-shaped chute (17).

4. The mechanical transportation device for hardware processing according to claim 2, wherein a plurality of handles (18) are fixedly connected to the outer side wall of the rotating disc (14), and the handles (18) are equidistantly distributed around the center of the rotating disc (14).

5. The mechanical transportation device for hardware processing according to claim 1, wherein a damping is provided between the movable housing (8) and the through passage (7), so that the movable housing (8) can be kept in an original state under the action of no external force.

6. The mechanical transportation device for hardware processing according to claim 1, wherein an adjusting mechanism (19) for adjusting the movable housing (8) is further installed in the storage cylinder (2), the adjusting mechanism (19) comprises two rotating shafts (20), the rotating shafts (20) are rotatably installed between the two end covers (3), the two rotating shafts (20) are respectively installed at two sides of the movable housing (8), tooth grooves (21) are formed in the movable housing (8) along the vertical direction, and a driving gear (22) meshed with the tooth grooves (21) is fixedly installed on the rotating shafts (20).

7. The mechanical transportation device for hardware processing according to claim 6, wherein two ends of the rotating shaft (20) respectively penetrate through two ends of the storage cylinder (2), and one end of the rotating shaft (20) is fixed with a rocking wheel (23).

8. The mechanical transportation device for hardware processing according to claim 7, wherein the rocking wheels (23) on the two rotating shafts (20) are respectively and fixedly connected to two sides of the storage cylinder (2), the synchronizing gears (24) are fixedly connected to the rotating shafts (20), and the synchronizing gears (24) on the two rotating shafts (20) are meshed with each other, so that the two rotating shafts (20) synchronously rotate.

9. The mechanical transportation device for hardware processing according to claim 1, wherein the adjusting member (13) comprises a rotating bar (25), a middle part of the rotating bar (25) is rotatably connected in the second groove (10) through a fixed shaft (26), an axis of the fixed shaft (26) is perpendicular to an axis different plane of the storage cylinder (2), when the rotating bar (25) is in an inclined state, a side wall of the rotating bar (25) acts in the second opening (12) to enable the second opening (12) to be in a closed state, and when the rotating bar (25) is in a vertical state, the second opening (12) is enabled to be in an open state.

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