CN103482369A

CN103482369A - Efficient brick setting machine

Info

Publication number: CN103482369A
Application number: CN201310458029.XA
Authority: CN
Inventors: 李天色
Original assignee: Individual
Current assignee: Quanzhou Shengke Intelligent Equipment Manufacturing Co ltd
Priority date: 2013-09-30
Filing date: 2013-09-30
Publication date: 2014-01-01
Anticipated expiration: 2033-09-30
Also published as: CN103482369B

Abstract

The invention discloses an efficient brick setting machine which comprises a rack, a carrying board capable of sliding on the rack and used for carrying bricks, and a collecting device used for collecting the bricks on the carrying board. The carrying board comprises a first carrying board and a second carrying board, wherein the first carrying board is used for carrying the bricks which are horizontally arranged, and the second carrying board is used for carrying the bricks which are longitudinally arranged. One side of the first carrying board is provided with a first brick inlet device used for conveying the bricks which are horizontally arranged on the first brick inlet device to the first carrying board, and one side of the second carrying board is provided with a second brick inlet device used for conveying the bricks which are longitudinally arranged on the second brick inlet device to the second conveying board. According to the efficient brick setting machine, palletizing of the bricks, horizontally and longitudinally arranged, of every two layers can be finished at the same time, and the arranging direction of the bricks does not need to be changed through a rotary table. Compared with an existing brick setting machine, the efficient brick setting machine greatly improves the brick setting efficiency, reduces breakage caused in the conveying process of the bricks, further improves the production efficiency of an enterprise, and has wide market space in the future.

Description

The efficient brick stacking machine of a kind of efficiency

Technical field

The present invention relates to the brick equipment field, refer to specifically the efficient brick stacking machine of a kind of efficiency.

Background technology

Brick stacking machine is that each brickmaking factory is used comparatively general mechanical equipment, and its mode automatically stacked bricks replaces the mode manually stacked bricks, and makes brickmaking factory reduce the labour expenses when the efficiency that stacks bricks improves.

At present, the patent that patent publication No. is 103112724A, provide a kind of brick stacker, it comprises that one pushes the fragment of brick on turntable to support plate and makes fragment of brick vertically near vertical device, a liftable baffle plate and the liftable gathering-device of pushing away that forms the row shape for the turntable, of placing fragment of brick and convertible fragment of brick placed angle for delivering fragment of brick support plate, that can left and right movement, described turntable is positioned at the front side of support plate, the described vertical top that device is positioned at turntable that pushes away, described baffle plate is positioned at the top of support plate, and described gathering-device is positioned at the left side of baffle plate.

The above-mentioned brick stacker provided, because the orientation of piling fragment of brick must be the piling that interlocks mutual vertically, therefore just needing turntable to rotate 90 ° during the complete one deck fragment of brick of piling changes orientations, during this stacker work, only can realize that single propelling movement separates and need change orientation through turntable; As can be seen here, this brick is comparatively low and push that stroke is long easily causes the breakage of fragment of brick corner with the work efficiency of stacker, also needs further raising, to meet the Production requirement of brickmaking factory.

Summary of the invention

The invention provides the efficient brick stacking machine of a kind of efficiency, its main purpose is to overcome the low easily problem of breakage of fragment of brick corner that reaches of existing brick stacking machine work efficiency.

In order to solve above-mentioned technical matters, the present invention adopts following technical scheme:

The efficient brick stacking machine of a kind of efficiency, comprise frame, can slide on frame and for the support plate that delivers fragment of brick and for collecting the gathering-device of fragment of brick on support plate, described support plate comprises the first support plate of the fragment of brick for delivering horizontal placement and for the second support plate of the fragment of brick that delivers vertical placement, one side of this first support plate is provided with for the horizontal fragment of brick of placing on it is delivered to first of the first support plate advances brick device, and a side of this second support plate is provided with for vertical fragment of brick of placing on it is delivered to second of the second support plate advances brick device.

Further, described first, second support plate lays respectively at the arranged on left and right sides of gathering-device.

Further, described first advances brick device comprises with first of multilayer the first brick plate and puts brick plate mechanism, for accepting first, puts the first load-transfer device of every layer of first brick plate in brick plate mechanism and the fragment of brick on the first load-transfer device is pushed to first on the first support plate and separate delivery device, and described the first brick plate comprises that the first supporting plate and transverse row are distributed in the described fragment of brick on the first supporting plate; Described second advances brick device comprises with second of multilayer the second brick plate and puts brick plate mechanism, for accepting second, puts the second load-transfer device of every layer of second brick plate in brick plate mechanism and the fragment of brick on the second load-transfer device is pushed to second on the second support plate and separate delivery device, and described the second brick plate comprises the second supporting plate and vertically is arranged in the described fragment of brick on the second supporting plate.

Further, described first, second separates delivery device and lays respectively at the side that first, second puts brick plate mechanism, and described first, second load-transfer device lays respectively at first, second below of separating delivery device.

Further, described first, second put brick plate mechanism and included support, liftably be installed in the left and right balladeur train on support and can be located at horizontally slidingly on left and right balladeur train bottom and can contact at the strut member on corresponding bottom supporting plate bottom surface, and first, second brick plate of described multilayer lays respectively between corresponding left and right balladeur train.

Further, described first, second separation delivery device includes sliding support and can slide on sliding support and the fragment of brick on corresponding load-transfer device be pushed to the pushing piece on corresponding support plate.

Further, the described side that first, second separates delivery device is equipped with for accepting the unloader structure of the supporting plate dropped from corresponding load-transfer device.

Further, described unloader structure comprises fixed mount and liftably is located at the receipts grillage on fixed mount.

Further, described gathering-device comprises bracing frame, liftably is installed in the rewinding frame on bracing frame and liftably is installed in two baffle plates on bracing frame, this two baffle plate lays respectively at the both sides of rewinding frame, and the support plate cooperating that each baffle plate is corresponding with, make the fragment of brick on corresponding support plate drop down onto on the rewinding frame.

From the above-mentioned description of this invention, compared to the prior art, the present invention has following advantage:

First, second advances brick device can keep in respectively laterally the fragment of brick of placing, vertically placing, and can the fragment of brick of placing on it be delivered on corresponding support plate simultaneously, the first support plate of the fragment of brick that delivery is laterally placed moves and fragment of brick is delivered on gathering-device, after the fragment of brick of horizontal placement is collected on gathering-device, the second support plate is done identical action and the fragment of brick of vertically placing can be delivered on gathering-device, has so just formed the vertical double-deck fragment of brick stack of orientation; Repeat above-mentioned course of action and can realize the piling of the fragment of brick that the multilayer orientation is vertical.Can shorten the piling time of every layer of fragment of brick by such mode, the fragment of brick of placing in length and breadth can carry out the layout piling simultaneously, without change the orientation of fragment of brick by turntable, the present invention compares with existing brick stacking machine, greatly improved the efficiency stacked bricks, and reduce fragment of brick in transporting stroke and the corner breakage brought has further improved the production efficiency of enterprise, the present invention will have the wide market space in future.

The accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

The structural representation that Fig. 2 is another angle of the present invention.

The specific embodiment

See figures.1.and.2.The efficient brick stacking machine of a kind of efficiency, comprise frame 1, can on frame 1, slide and support plate and the gathering-device 2 for collecting fragment of brick on support plate for delivering fragment of brick, described support plate comprises the first support plate 3 of the fragment of brick for delivering horizontal placement and for the second support plate 4 of the fragment of brick that delivers vertical placement, one side of this first support plate 3 is provided with for the horizontal fragment of brick of placing on it is delivered to first of the first support plate 3 advances brick device 5, one side of this second support plate 4 is provided with for vertical fragment of brick of placing on it is delivered to second of the second support plate 4 advances brick device 6, this first support plate 3, the second support plate 4 lays respectively at the left side of gathering-device 2, right both sides.

See figures.1.and.2.Described first advances brick device 5 comprises with first of multilayer the first brick plate and puts brick plate mechanism 51, for accepting first, puts first load-transfer device (not shown in FIG.) of every layer of first brick plate in brick plate mechanism 51 and the fragment of brick on the first brick plate 50 on the first load-transfer device (not shown in FIG.) is pushed to first on the first support plate 3 and separate delivery device 52, and described the first brick plate comprises that the first supporting plate 50 and transverse row are distributed in the fragment of brick (not shown in FIG.) on the first supporting plate 50; Described second advances brick device 6 comprises with second of multilayer the second brick plate and puts brick plate mechanism 61, for accepting second, puts second load-transfer device (not shown in FIG.) of every layer of brick plate in brick plate mechanism 61 and the fragment of brick on the second brick plate 60 on the second load-transfer device (not shown in FIG.) is pushed to second on the second support plate 4 and separate delivery device 62, and described the second brick plate comprises the second supporting plate 60 and vertically is arranged in the fragment of brick (not shown in FIG.) on the second supporting plate 60.

See figures.1.and.2.Described the first separation delivery device 52, the second separation delivery device 62 lay respectively at first and put the side that brick plate mechanism 61 is put in brick plate mechanism 51, second, and described the first load-transfer device (not shown in FIG.), the second load-transfer device (not shown in FIG.) lay respectively at and separate delivery device 52, the second below of separating delivery device 62; The described first side of separating delivery device 52 is provided with for accepting the unloader structure 7 of the first supporting plate 50 dropped from the first load-transfer device (not shown in FIG.), and the described second side of separating delivery device 62 is provided with for accepting the unloader structure 8 of the second supporting plate 60 dropped from the second load-transfer device (not shown in FIG.).

See figures.1.and.2.Described first put brick plate mechanism 51, second put brick plate mechanism 61 include support 511, liftably be installed in left balladeur train 512 and the right balladeur train 513 on support 511 and can be located at horizontally slidingly left balladeur train 512 and right balladeur train 513 bottoms on and can contact at the strut member 514 on corresponding bottom supporting plate bottom surface, described multilayer the first brick plate, multilayer the second brick plate lay respectively between corresponding left balladeur train 512 and right balladeur train 513, this multilayer first brick plate, the second brick plate all adopt the mode vertically stacked, and are placed with the multiple row fragment of brick on every layer of first supporting plate 50, the second supporting plate 60.

See figures.1.and.2.Described the first separation delivery device 52, second separates delivery device 62 and includes sliding support 521 and can slide on sliding support 521 and the fragment of brick on corresponding load-transfer device be pushed to the pushing piece 522 on corresponding support plate; Described unloader structure 7 and unloader structure 8 include fixed mount 71 and liftably are located at the receipts grillage 72 on fixed mount 71; Described gathering-device 2 comprises bracing frame 21, liftably is installed in the rewinding frame 22 on bracing frame 21 and liftably is installed in baffle plate 23 and the baffle plate 24 on bracing frame 21, this baffle plate 23 and baffle plate 24 lay respectively at the both sides of rewinding frame 22, and baffle plate 23 and the first support plate 3 cooperatings, baffle plate 24 and the second support plate 4 cooperatings, make the fragment of brick on the first support plate 3, the second support plate 4 drop down onto on the rewinding frame.

See figures.1.and.2.The actuating device (not marking in figure) that described collecting frame 22, baffle plate 23, baffle plate 24, the first support plate 3, the second support plate 4, left balladeur train 512, right balladeur train 513, strut member 514, the first load-transfer device (not shown in FIG.), the second load-transfer device (not shown in FIG.), pushing piece 522 and receipts grillage 72 all have a correspondence is for driving motion, and the plurality of actuating device (not marking in figure) unification is controlled by a control system (not shown in FIG.).

See figures.1.and.2.Working process of the present invention is as follows: the first brick plate that will laterally be placed with respectively multilayer, the the second brick plate that vertically is placed with multilayer is put into respectively first and advances brick device 5, second advances on the strut member 514 of brick device 6, every layer of fragment of brick has corresponding supporting plate for placing this layer of fragment of brick, and every layer of fragment of brick is placed with multiple row on corresponding supporting plate, control system (not shown in FIG.) is controlled first and is put brick plate mechanism 51, the second left balladeur train 512 and right balladeur train 513 of putting in brick plate mechanism 61 drops on the runout table of corresponding load-transfer device, then the strut member 514 on left balladeur train 512 and right balladeur train 513 is made horizontal dorsal glide, make first to put brick plate mechanism 51, the second multilayer supporting plate and fragment of brick on supporting plate of putting in brick plate mechanism 61 fallen on corresponding load-transfer device (not shown in FIG.), left balladeur train 512 and right balladeur train 513 rise to the place higher than bottom brick plate, strut member 514 on it is made horizontal slide in opposition, this strut member 514 gets final product the above all supporting plates of support substrate and the fragment of brick on supporting plate, the supporting plate of bottom and fragment of brick are just stayed on corresponding load-transfer device like this, control system (not shown in FIG.) is controlled corresponding load-transfer device by the fragment of brick of laterally placing on it simultaneously, the fragment of brick of vertically placing is delivered to respectively the first separation delivery device 52, second separates the below of delivery device 62, treat that fragment of brick is sent to the first separation delivery device 52, second while separating the below of delivery device 62, corresponding load-transfer device stop motion, control system (not shown in FIG.) is controlled corresponding pushing piece 522 the every row fragment of brick on supporting plate is pushed to respectively to the first support plate 3, on the second support plate 4, when pushing to the first support plate 3, when the fragment of brick on the second support plate 4 is covered with row (because the size specification of fragment of brick is various, the separation delivery device likely needs repeatedly to push fragment of brick and could on support plate, be covered with row, row just on support plate, have been covered with when likely the every row fragment of brick on flitch has not also pushed away yet), the first support plate 3, the distance of the second support plate 4 just mobile column width, when the fragment of brick on the first supporting plate 50, the second supporting plate 60 has often pushed away row, corresponding load-transfer device is the distance of an and then mobile column width also, to the last the supporting plate on it drops down onto respectively on corresponding receipts grillage 72, supporting plate of every reception, control system (not shown in FIG.) is just controlled the distance of receiving a supporting plate thickness of grillage 72 declines, after the first support plate 3, the second support plate 4 are covered with the multiple row fragment of brick, control system (not shown in FIG.) is controlled the fragment of brick that the first support plate 3 movement from left to right will laterally place and is delivered on collecting frame 22, and control descends with the baffle plate 23 of the corresponding side of the first support plate 3, then the first support plate 3 mobile next action of preparation from right to left, and fragment of brick fell on collecting frame 22 in stopping of baffle plate 23, last control system (not shown in FIG.) is controlled the distance of collecting frame 22 decline one deck block thickness, with the principle that the first support plate 3 is same, fragment of brick on the second support plate 4 is delivered on collecting frame 22, so just formed the two-layer fragment of brick of arranging in length and breadth.Repeat the piling that above-mentioned action can complete every two-layer fragment of brick of placing in length and breadth, with this, superpose and just completed the piling of the fragment of brick that multilayer places in length and breadth.

In addition, according to need of production, the first support plate 3, the second support plate 4 also can be arranged vertically, and this arrangement also can be realized horizontal placement, the vertically delivery of the fragment of brick of placement; First advances brick device 5, second advances brick device 6 and also can be manipulator etc. other suitable enter brick mechanism.

Above are only the specific embodiment of the present invention, but design concept of the present invention is not limited to this, allly utilizes this design to carry out the change of unsubstantiality to the present invention, all should belong to the behavior of invading protection domain of the present invention.

Claims

1. the efficient brick stacking machine of efficiency, comprise frame, can slide on frame and for the support plate that delivers fragment of brick and for collecting the gathering-device of fragment of brick on support plate, it is characterized in that: described support plate comprises the first support plate of the fragment of brick for delivering horizontal placement and for the second support plate of the fragment of brick that delivers vertical placement, one side of this first support plate is provided with for the horizontal fragment of brick of placing on it is delivered to first of the first support plate advances brick device, and a side of this second support plate is provided with for vertical fragment of brick of placing on it is delivered to second of the second support plate advances brick device.

2. the efficient brick stacking machine of a kind of efficiency as claimed in claim 1, it is characterized in that: described first, second support plate lays respectively at the arranged on left and right sides of gathering-device.

3. the efficient brick stacking machine of a kind of efficiency as claimed in claim 1, it is characterized in that: described first advances brick device comprises with first of multilayer the first brick plate and puts brick plate mechanism, for accepting first, puts the first load-transfer device of every layer of first brick plate in brick plate mechanism and the fragment of brick on the first load-transfer device is pushed to first on the first support plate and separate delivery device, and described the first brick plate comprises that the first supporting plate and transverse row are distributed in the described fragment of brick on the first supporting plate; Described second advances brick device comprises with second of multilayer the second brick plate and puts brick plate mechanism, for accepting second, puts the second load-transfer device of every layer of second brick plate in brick plate mechanism and the fragment of brick on the second load-transfer device is pushed to second on the second support plate and separate delivery device, and described the second brick plate comprises the second supporting plate and vertically is arranged in the described fragment of brick on the second supporting plate.

4. the efficient brick stacking machine of a kind of efficiency as claimed in claim 3, it is characterized in that: described first, second separates delivery device and lays respectively at the side that first, second puts brick plate mechanism, and described first, second load-transfer device lays respectively at first, second below of separating delivery device.

5. the efficient brick stacking machine of a kind of efficiency as claimed in claim 3, it is characterized in that: described first, second put brick plate mechanism and included support, liftably be installed in the left and right balladeur train on support and can be located at horizontally slidingly on left and right balladeur train bottom and can contact at the strut member on corresponding bottom supporting plate bottom surface, and first, second brick plate of described multilayer lays respectively between corresponding left and right balladeur train.

6. the efficient brick stacking machine of a kind of efficiency as claimed in claim 3 is characterized in that: described first, second separates delivery device and includes sliding support and can slide on sliding support and the fragment of brick on corresponding load-transfer device be pushed to the pushing piece on corresponding support plate.

7. the efficient brick stacking machine of a kind of efficiency as claimed in claim 3 is characterized in that: the described side that first, second separates delivery device is equipped with for accepting the unloader structure of the supporting plate dropped from corresponding load-transfer device.

8. the efficient brick stacking machine of a kind of efficiency as claimed in claim 7, it is characterized in that: described unloader structure comprises fixed mount and liftably is located at the receipts grillage on fixed mount.

9. the efficient brick stacking machine of a kind of efficiency as claimed in claim 1, it is characterized in that: described gathering-device comprises bracing frame, liftably is installed in the rewinding frame on bracing frame and liftably is installed in two baffle plates on bracing frame, this two baffle plate lays respectively at the both sides of rewinding frame, and the support plate cooperating that each baffle plate is corresponding with, make the fragment of brick on corresponding support plate drop down onto on the rewinding frame.