CN112776153A

CN112776153A - Automatic block turnover machine

Info

Publication number: CN112776153A
Application number: CN202011612571.2A
Authority: CN
Inventors: 刘金龙
Original assignee: Zhuozhou Hengqi Building Material Co ltd
Current assignee: Zhuozhou Hengqi Building Material Co ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2021-05-11
Anticipated expiration: 2040-12-30
Also published as: CN112776153B

Abstract

The invention relates to the technical field of concrete block auxiliary production equipment, and provides an automatic block turnover machine which comprises a base; the turnover frame is rotatably arranged on the support, the rotation axis of the turnover frame is parallel to the horizontal plane, and the turnover frame is provided with a storage bin for storing the building blocks; the push plate is arranged in the storage bin in a sliding manner, and slides from one side of the storage bin to the opposite side to clamp the building block; the power mechanism comprises a sliding driving assembly and a rotating driving assembly, the sliding driving assembly is used for driving the push plate to slide, and the rotating driving assembly is used for driving the turnover frame to rotate; the control console is used for controlling the power mechanism. Through the technical scheme, the problem of low overall overturning efficiency of the stacked small and medium-sized building blocks in the related technology is solved.

Description

Automatic block turnover machine

Technical Field

The invention relates to the technical field of concrete block auxiliary production equipment, in particular to an automatic block overturning machine.

Background

The concrete block machine is a new wall material-block brick, it is very in line with the present state of our country, it is the most ideal, most economical and most practical to replace clay brick, it is a new wall material widely popularized and used in recent years. The building block is a common building monomer in building engineering such as water conservancy. Because can use miniature building block usually in some small-size engineering, consequently, need the small-size building block of mass production, need carry out the maintenance of spraying water after production to miniature building block, and when carrying out the maintenance of spraying water to the building block of piling up together, the building block of top layer can be maintained better than the building block of bottom often, the intensity of the building block of top layer can be slightly higher than the intensity of bottom promptly, consequently, often can exchange the building block of top layer and the building block of bottom in the transportation, and in daily production, often exchange through the manual work, waste time and energy, greatly reduced the production efficiency and the upset efficiency of building block. Therefore, there is a need for a block stack inversion tool that rapidly inverts blocks.

Disclosure of Invention

The invention provides an automatic block overturning machine, which solves the problem that the whole overturning efficiency is low after small and medium-sized blocks are stacked together in the related technology.

The technical scheme of the invention is as follows: an automatic block turnover machine comprising:

a base;

the turnover frame is rotatably arranged on the base, the rotation axis of the turnover frame is parallel to the horizontal plane, and the turnover frame is provided with a storage bin for storing building blocks;

the push plate is arranged in the storage bin in a sliding mode, and slides from one side of the storage bin to the opposite side of the storage bin so as to clamp the building block;

the power mechanism comprises a sliding driving assembly and a rotating driving assembly, the sliding driving assembly is used for driving the push plate to slide, and the rotating driving assembly is used for driving the turnover frame to rotate; and

and the control console is used for controlling the power mechanism.

As a further technical scheme, the sliding driving assembly comprises a second pushing piece, the second pushing piece is arranged on the turnover frame, and the pushing end is connected with the push plate.

As a further technical solution, the slide driving assembly further includes:

the third ejector piece is arranged on the turnover frame;

the guide wheel is rotatably arranged on the overturning frame;

and one end of the second traction rope moves synchronously with the pushing end of the third pushing piece, the other end of the second traction rope is connected with the push plate, the second traction rope is matched with the third pushing piece to be used for dragging the push plate, and the first pushing piece is used for pushing the push plate.

As a further technical solution, the slide driving assembly further includes:

the connecting plate is arranged at the ejection end of the third ejection piece and is provided with a through hole;

the guide rod is arranged on the turnover frame, the guide rod penetrates through the through hole, the second traction rope is connected with the connecting plate, and the connecting plate can slide on the guide rod.

As a further technical scheme, the first ejection part, the second ejection part and the third ejection part are all oil cylinders, air cylinders or electric push rods at the same time.

As a further technical solution, the rotation driving assembly includes:

the first ejector piece is provided with an ejector top end, and the other end of the first ejector piece is hinged to the base;

one end of the synchronous rod is connected with the ejection end of the first ejection piece, and the other end of the synchronous rod is provided with a lantern ring and sleeved on the cylinder body of the first ejection piece;

the first traction rope is wound for one circle and arranged on the rotating shaft of the turnover frame, one end of the first traction rope is connected with the ejection end, and the other end of the first traction rope is connected with the lantern ring.

As a further technical solution, the rotation driving assembly further includes:

the driven wheel is arranged on the rotating shaft of the turnover frame, and the first traction rope is wound on the driven wheel;

and one end of the flat pressing plate is arranged on the ejection end of the first ejection piece, the other end of the flat pressing plate is arranged on the lantern ring, and two ends of the first traction rope are respectively connected with two ends of the flat pressing plate.

As a further technical scheme, still include arc and prop and gyro wheel, the arc props and is circular-arc and locates the outside of upset frame, the gyro wheel rotates to be located on the base, the arc prop with gyro wheel rolling contact, the gyro wheel is two, the both ends that the arc propped all are provided with spacing arch.

As a further technical scheme, a penetrating hole is formed in the side wall of the turnover frame, and the ejector rod of the first ejector piece penetrates through the penetrating hole and then is connected with the push plate.

As a further technical scheme, the building block pushing device further comprises a rubber pad, wherein the rubber pad is arranged on the pushing plate and is used for being in contact with the building block.

The working principle and the beneficial effects of the invention are as follows: compared with the prior art, the turnover frame is rotatably arranged on the base, the rotation axis of the turnover frame is parallel to the horizontal plane, the turnover frame is provided with a storage bin for storing the building blocks, the push plate is slidably arranged in the storage bin, the building blocks stored in the storage bin can be compressed when the push plate slides from one side to the other side of the storage bin, and the building blocks can be turned over after the turnover frame is turned over for 180 degrees; the power mechanism comprises a sliding driving assembly and a rotating driving assembly, the sliding driving assembly is used for providing power for sliding of the push plate, the rotating driving assembly is used for providing power for rotating of the turnover frame, the control console is connected with the sliding driving assembly and the rotating driving assembly respectively, and a worker controls the sliding driving assembly and the rotating driving assembly through the control console, so that the turnover of the building block can be realized.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic isometric view of an automatic block turnover machine provided in accordance with the present invention;

FIG. 2 is a right side view of FIG. 1;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is a schematic view of the rotary drive assembly of the present invention;

FIG. 5 is a bottom view at another angle to FIG. 1 with the base removed;

FIG. 6 is a schematic view of a portion of the structure of the automatic block turnover machine provided by the present invention in one state;

fig. 7 is a partial structural schematic view of the automatic block turnover machine provided by the invention in another state.

In the figure:

1. the base, 2, the chassis, 3, the support, 4, the upset frame, 5, the push pedal, 6, the slip drive assembly, 7, the rotation drive assembly, 8, the control cabinet, 9, first ejector member, 10, synchronizing bar, 11, the lantern ring, 12, first haulage rope, 13, the second ejector member, 14, the third ejector member, 15, the leading wheel, 16, the second haulage rope, 17, the connecting plate, 18, the guide bar, 19, follow driving wheel, 20, the flat clamp board, 21, the arc props, 22, the gyro wheel, 23, spacing arch, 24, the rubber pad.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any inventive step, are intended to be within the scope of the present invention.

As shown in fig. 1 to 7, the present embodiment provides an automatic block turning machine, including:

the base 1 comprises an underframe 2 and a bracket 3, wherein the bracket 3 is arranged on the underframe 2;

the turnover frame 4 is rotatably arranged on the support 3, the rotation axis of the turnover frame is parallel to the horizontal plane, and the turnover frame 4 is provided with a storage bin for storing building blocks;

the push plate 5 is arranged in the storage bin in a sliding mode, and the push plate 5 slides from one side of the storage bin to the opposite side to clamp the building block;

the power mechanism comprises a sliding driving component 6 and a rotating driving component 7, the sliding driving component 6 is used for driving the push plate 5 to slide, and the rotating driving component 7 is used for driving the turnover frame 4 to rotate; and

and the control console 8 is used for controlling the power mechanism.

In the embodiment, the base 1 comprises an underframe 2 and a support 3, the support 3 is arranged on the base 1, the turnover frame 4 is rotatably arranged on the support 3, the rotation axis of the turnover frame 4 is parallel to the horizontal plane, the turnover frame 4 is provided with a storage bin for storing building blocks, the push plate 5 is slidably arranged in the storage bin, the push plate 5 can compress the building blocks stored in the storage bin when sliding from one side of the storage bin to the other side of the storage bin, and the building blocks can be turned over after the turnover frame 4 is turned over for 180 degrees; the power mechanism comprises a sliding driving assembly 6 and a rotating driving assembly 7, the sliding driving assembly 6 is used for providing power for sliding of the push plate 5, the rotating driving assembly 7 is used for providing power for rotating the turnover frame 4, the control console 8 is respectively connected with the sliding driving assembly 6 and the rotating driving assembly 7, and a worker controls the sliding driving assembly 6 and the rotating driving assembly 7 through the control console 8, so that the turnover of the building block can be realized.

Fig. 6 is a state diagram of the turning frame 4 before the building block is stacked, and fig. 7 is a state diagram after the building block is turned, wherein the push plate 5 pushes the tray to press on the building block stack, so that after turning, the turned building block stack can be directly transported away by using a forklift.

As shown in fig. 1 and 3, based on the same concept as the above embodiments, the present embodiment further proposes that the sliding driving assembly 6 includes a second pushing member 13, the second pushing member 13 is disposed on the turnover frame 4, and the pushing end is connected to the pushing plate 5.

In this embodiment, the sliding driving assembly 6 includes a second ejector 13, the second ejector 13 is disposed on the turnover frame 4 and connected to the push plate 5 after the push end passes through the side wall of the turnover frame 4, the second ejector 13 has a movable push end, and the push end can drive the push plate 5 to slide in the storage compartment, and finally clamp and loosen the building block.

As shown in fig. 1 to 3, based on the same concept as the above-described embodiment, the present embodiment further proposes that the slide drive assembly 6 further includes:

the third ejector 14 is arranged on the turnover frame 4;

the guide wheel 15 is rotatably arranged on the turnover frame 4;

one end of the second traction rope 16 moves synchronously with the pushing end of the third pushing piece 14, the other end of the second traction rope is connected with the push plate 5, the second traction rope 16 is matched with the third pushing piece 14 to be used for dragging the push plate 5, and the first pushing piece 9 is used for pushing the push plate 5.

In this embodiment, the sliding drive assembly 6 further comprises a third ejector 14, a guide wheel 15 and a second traction rope 16, the third ejector 14 is arranged on the turn-over frame 4, and the movement direction of the pushing end of the third pushing member 14 is opposite to the movement direction of the pushing end of the second pushing member 13 at the same time, the guide wheel 15 is rotatably arranged on the turnover frame 4, the second traction rope 16 is arranged by bypassing the guide wheel 15, one end of the second traction rope is connected with the pushing end of the second pushing member 13, the other end of the second traction rope is connected with the pushing end of the third pushing member 14, since the directions of movement of the pushing tips of the second ejector 13 and the third ejector 14 are opposite at the same time, the second ejector member 13 thus effects an ejector motion of the push plate 5, the third ejector member 14 effects a drag motion of the push plate 5, and the power is conducted by the aid of the first traction rope, and the arrangement mode can ensure that the push plate 5 can stably slide in the storage bin.

As shown in fig. 5, based on the same concept as the above-described embodiment, the present embodiment further proposes that the slide drive assembly 6 further includes:

the connecting plate 17 is arranged at the pushing top end of the third pushing piece 14, and a through hole is formed in the connecting plate 17;

the guide rod 18 is arranged on the turnover frame 4, the guide rod 18 penetrates through the through hole, the second traction rope 16 is connected with the connecting plate 17, and the connecting plate 17 can slide on the guide rod 18.

In this embodiment, the sliding driving assembly 6 includes a connecting plate 17 and a guide rod 18, the connecting plate 17 is disposed at the pushing end of the third pushing member 14, a through hole is formed in the connecting plate 17, the guide rod 18 is disposed on the turning frame 4, the guide rod 18 penetrates through the through hole, the second traction rope 16 is connected to the connecting plate 17 to be connected to the pushing end of the third pushing member 14, when the pushing end of the third pushing member 14 moves, the connecting plate 17 moves along with the connecting plate, because the connecting plate 17 is sleeved outside the guide rod 18, the guide rod 18 can guide the moving direction of the connecting plate 17, and one end of the second traction rope 16 is fixedly connected to the connecting plate 17, so that the second traction rope 16 can be always kept in a stretched state, and the phenomenon of interference with the turning frame 4 does not occur.

Based on the same concept as the above embodiments, the present embodiment also proposes that the first ejector 9, the second ejector 13, and the third ejector 14 are all simultaneously cylinders, air cylinders, or electric push rods.

In this embodiment, the first ejector 9, the second ejector 13, and the third ejector 14 are selected as the same power source, which can greatly reduce the complexity of the entire apparatus and also reduce the production cost. When the weight of the building block is larger, the first ejector 9, the second ejector 13 and the third ejector 14 can be selected as oil cylinders, and larger power can be provided for the whole device.

As shown in fig. 4, the present embodiment also proposes, based on the same concept as the above-described embodiment, that the rotation drive assembly 7 includes:

a first ejector 9 having a push top end and the other end hinged to the chassis 2;

one end of the synchronizing rod 10 is connected with the pushing end of the first pushing piece 9, and the other end of the synchronizing rod is provided with a lantern ring 11 and is sleeved on the cylinder body of the first pushing piece 9;

the first traction rope 12 is wound for one circle and arranged on the rotating shaft of the turnover frame 4, one end of the first traction rope is connected with the pushing end, and the other end of the first traction rope is connected with the lantern ring 11.

In this embodiment, the rotation driving assembly 7 includes a first ejector 9, a synchronizing rod 10 and a first hauling rope 12, one end of the first ejector 9 is an ejector end, the other end is a fixed end, the fixed end is hinged to the chassis 2, one end of the synchronizing rod 10 is fixedly connected to the ejector end, the other end is provided with a lantern ring 11, the lantern ring 11 is sleeved outside the first ejector 9 and has positioning, the lantern ring 11 can slide outside the first ejector 9, both ends of the first hauling rope 12 are respectively connected to the lantern ring 11 and the ejector end of the first ejector 9 after being wound around the rotation shaft, so that in the process of reciprocating motion of the ejector end of the first ejector 9, the rotation shaft of the turnover frame 4 can be pulled by the first hauling rope 12 to rotate synchronously, thereby realizing the rotation driving of the turnover frame 4, and realizing the rotation of the turnover frame 4.

As shown in fig. 4, based on the same concept as the above-described embodiment, the present embodiment further proposes that the rotation driving assembly 7 further includes:

the driven wheel 19 is arranged on the rotating shaft of the turnover frame 4, and the first traction rope 12 is wound on the driven wheel 19;

one end of the flat pressing plate 20 is arranged on the pushing end of the first pushing piece 9, the other end of the flat pressing plate is arranged on the lantern ring 11, and two ends of the first traction rope 12 are respectively connected with two ends of the flat pressing plate 20.

In this embodiment, the rotation driving assembly 7 further includes a driven wheel 19 and a flat pressing plate 20, the driven wheel 19 is disposed on the rotation axis of the turnover frame 4 and rotates synchronously with the rotation axis of the turnover frame 4, the first pulling rope 12 is disposed by winding around the driven wheel 19 for one turn, one end of the flat pressing plate 20 is connected with the pushing end of the third pushing member 14, the other end of the flat pressing plate is connected with the sleeve ring 11, the flat pressing plate 20 can lean against the driven wheel 19, so that the pushing rod of the third pushing member 14 can be prevented from keeping contact with the driven wheel 19, and the first pulling rope 12 and the driven wheel 19 are disposed on the same side of the flat pressing plate 20, so that the transmission of stable advancing force between the first pulling rope 12 and the driven wheel 19 can.

As shown in fig. 1 to 5, based on the same concept as the above embodiment, the present embodiment further proposes that the present embodiment further includes an arc support 21 and a roller 22, the arc support 21 is arc-shaped and is disposed outside the turnover frame 4, the roller 22 is rotatably disposed on the base frame 2, and the arc support 21 is in rolling contact with the roller 22.

In this embodiment, arc support 21 is circular-arc, and fixed the setting in the outside of upset frame 4, gyro wheel 22 rotates and sets up on chassis 2, and the semicircle portion outside and the gyro wheel 22 cylinder contact of arc support 21, gyro wheel 22 plays the effect of supporting to arc support 21, and gyro wheel 22 and arc support 21 between be rolling friction, the arc supports 21 and the form that gyro wheel 22 set up between upset frame 4 and chassis 2 makes upset frame 4 have more the strong point, the unstable condition can not appear in upset frame 4 pivoted in-process.

As shown in fig. 5, based on the same concept as the above embodiments, the present embodiment further proposes that there are two rollers 22, and both ends of the arc support 21 are provided with the limiting protrusions 23.

In this embodiment, in order to ensure that the turning frame 4 maintains better stability in the rotating process, a plurality of supporting points, namely a plurality of rollers 22, may be provided for the arc support 21, two rollers 22 may be selected for cost reduction, and in order to ensure that the arc support 21 does not separate from the rollers 22, the limiting protrusions 23 may be provided at both ends of the semicircular side of the arc support 21, and the limiting protrusions 23 may play a role in protection.

As shown in fig. 1, based on the same concept as the above embodiments, the present embodiment further proposes that a through hole is formed in the side wall of the turnover frame 4, and the ejector rod of the first ejector member 9 is connected to the ejector plate 5 after passing through the through hole.

In this embodiment, set up the through hole on the lateral wall of upset frame 4, the ejector pin of first ejecting 9 passes the through hole and is connected with push pedal 5, and first ejecting 9 just can set up the outside of putting the thing storehouse at upset frame 4 like this, need not occupy the space of putting the inside thing storehouse, in order to reduce the whole quality of upset frame 4, can set up the lightening hole at the lateral part that sets up first ejecting 9 to still need to set up and dodge the hole, second haulage rope 16 can pass and dodge the hole after be connected with push pedal 5.

As shown in fig. 1, based on the same concept as the above embodiment, the present embodiment further proposes to further include a rubber pad 24, and the rubber pad 24 is disposed on the pushing plate 5 and is used for contacting with the block.

In this embodiment, rubber pads 24 are provided to ensure that the blocks do not experience surface damage due to extrusion.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An automatic block turnover machine is characterized by comprising:

a base (1);

the turnover frame (4) is rotatably arranged on the base (1) and the rotation axis of the turnover frame is parallel to the horizontal plane, and the turnover frame (4) is provided with a storage bin for storing building blocks;

the push plate (5) is arranged in the storage bin in a sliding mode, and the push plate (5) slides from one side of the storage bin to the opposite side to clamp the building block;

the power mechanism comprises a sliding driving assembly (6) and a rotating driving assembly (7), the sliding driving assembly (6) is used for driving the push plate (5) to slide, and the rotating driving assembly (7) is used for driving the turnover frame (4) to rotate; and

and the control console (8) is used for controlling the power mechanism.

2. The automatic block turnover machine according to claim 1, wherein the sliding drive assembly (6) comprises a second ejector (13), and the second ejector (13) is arranged on the turnover frame (4) and connected with the push plate (5).

3. The automatic block turnover machine according to claim 2, characterized in that said slide drive assembly (6) further comprises:

the third ejector piece (14) is arranged on the turnover frame (4);

the guide wheel (15) is rotatably arranged on the overturning frame (4);

one end of the second traction rope (16) moves synchronously with the pushing end of the third pushing piece (14), the other end of the second traction rope (16) is connected with the push plate (5), the second traction rope (16) is matched with the third pushing piece (14) and used for dragging the push plate (5), and the first pushing piece (9) is used for pushing the push plate (5).

4. The automatic block turnover machine according to claim 3, characterized in that said slide drive assembly (6) further comprises:

the connecting plate (17) is arranged at the pushing top end of the third pushing piece (14), and a through hole is formed in the connecting plate (17);

the guide rod (18) is arranged on the turnover frame (4), the guide rod (18) penetrates through the through hole, the second traction rope (16) is connected with the connecting plate (17), and the connecting plate (17) can slide on the guide rod (18).

5. The automatic block turnover machine according to claim 3, characterized in that said first ejector (9), said second ejector (13) and said third ejector (14) are simultaneously oil cylinders, air cylinders or electric push rods.

6. The automatic block turnover machine according to claim 1, characterized in that said rotary drive assembly (7) comprises:

the first ejector piece (9) is provided with an ejector top end, and the other end of the first ejector piece is hinged to the base (1);

one end of the synchronous rod (10) is connected with the ejection end of the first ejector (9), and the other end of the synchronous rod is provided with a lantern ring (11) which is sleeved on the cylinder body of the first ejector (9);

and the first traction rope (12) is wound for one circle and is arranged on the rotating shaft of the turnover frame (4), one end of the first traction rope is connected with the ejection end, and the other end of the first traction rope is connected with the lantern ring (11).

7. The automatic block turning machine according to claim 6, characterized in that said rotary drive assembly (7) further comprises:

the driven wheel (19) is arranged on the rotating shaft of the turnover frame (4), and the first traction rope (12) is wound on the driven wheel (19);

and one end of the flat pressing plate (20) is arranged on the ejection end of the first ejection piece (9), the other end of the flat pressing plate is arranged on the lantern ring (11), and two ends of the first traction rope (12) are respectively connected with two ends of the flat pressing plate (20).

8. The automatic turning machine for building blocks as claimed in claim 1, further comprising arc supports (21) and rollers (22), wherein the arc supports (21) are arc-shaped and are arranged outside the turning frame (4), the rollers (22) are rotatably arranged on the base (1), the arc supports (21) are in rolling contact with the rollers (22), the number of the rollers (22) is two, and limiting protrusions (23) are arranged at two ends of each arc support (21).

9. The automatic block turnover machine according to claim 1, wherein a through hole is formed in the side wall of the turnover frame (4), and the ejector rod of the first ejector (9) penetrates through the through hole and then is connected with the ejector plate (5).

10. The automatic block turnover machine according to any one of claims 1-9, further comprising a rubber pad (24), wherein said rubber pad (24) is disposed on said pusher plate (5) and is adapted to contact a block.