CN110815522A - Fast brick-switching type double-steel-wire-frame blank cutting machine - Google Patents

Abstract

A brick type fast conversion double-steel-wire frame blank cutting machine comprises a brick pushing mechanism, an upper beam, a lower beam and a plurality of cutting mechanisms, wherein a conveying roller mechanism is arranged between the brick pushing mechanism and the cutting mechanisms, each cutting mechanism comprises a handle and a cutting steel wire, mud strips are conveyed by the conveying roller mechanism and pushed by the brick pushing mechanism to be cut by the cutting steel wires, two ends of the upper beam and the lower beam are fixedly connected through two connecting stand columns respectively, a spacing stand column is arranged between the two connecting stand columns, the upper part of the spacing stand column is fixedly connected with the upper beam, the lower part of the spacing stand column is fixedly connected with the lower beam, the plurality of cutting mechanisms are sequentially arranged at intervals along the direction from one connecting stand column to the other connecting stand column, and a cutting steel wire limiting mechanism is arranged between each connecting stand column and each spacing stand column; the invention can quickly convert the produced brick shape, and the cutting steel wire can be replaced without stopping the machine, thereby ensuring more continuous production and improving the production efficiency.

Description

Fast brick-switching type double-steel-wire-frame blank cutting machine

Technical Field

The invention relates to the technical field of brick product packaging machinery, in particular to a fast brick-conversion double-steel-wire-frame blank cutting machine.

Background

The brick cutting machine is an important part in brick making equipment, the brick cutting process is mainly completed by steel wires of the brick cutting machine, and at present, the brick cutting process has the characteristics of full-automatic operation, no need of manual blank receiving and plate receiving, labor saving, high production efficiency, automatic deviation prevention, no need of oblique cutting and no need of adjustment. However, the cutting steel wire position of the blank cutting machine is fixed and cannot be adjusted, so that bricks produced by the blank cutting machine are the same in model, and the steel wire position cannot be adjusted at any time according to needs, so that bricks of different models can be produced. Because the cutting steel wire is easy to break, the cutting steel wire is frequently required to be stopped and replaced, and the production efficiency is influenced.

Disclosure of Invention

In order to overcome the defects of the technology, the invention aims to provide the brick type fast-conversion double-steel-wire-frame green brick cutting machine, which can fast convert the produced brick type, can replace cutting steel wires without stopping the machine, enables the production to be more continuous and improves the production efficiency.

The technical scheme adopted by the invention is as follows: a brick type fast-conversion double-steel-wire-frame blank cutting machine comprises a brick pushing mechanism, an upper cross beam, a lower cross beam and a plurality of cutting mechanisms, wherein a conveying roller mechanism is arranged between the brick pushing mechanism and the cutting mechanisms, each cutting mechanism comprises a handle and a cutting steel wire, mud strips are conveyed by the conveying roller mechanism and pushed by the brick pushing mechanism to be cut by the cutting steel wires, two ends of the upper cross beam and the lower cross beam are respectively and fixedly connected through two connecting upright columns, a spacing upright column is arranged between the two connecting upright columns, the upper part of the spacing upright column is fixedly connected with the upper cross beam, the lower part of the spacing upright column is fixedly connected with the lower cross beam, the plurality of cutting mechanisms are sequentially arranged at intervals along the direction from one connecting upright to the other connecting upright, a cutting steel wire limiting mechanism is arranged between each connecting upright and the spacing upright, each cutting steel wire limiting mechanism comprises a first bearing shaft and first bearings arranged at two ends of the first bearing shaft, the two first bearings are respectively provided with a fixed block, the two ends of the first bearing shaft are respectively arranged in the two first bearings in a penetrating way, the two first bearings are respectively and fixedly connected with the connecting upright column at the corresponding end, one end of the fixed block is fixedly connected with the first bearing at the corresponding end through a first screw, the other end of the fixed block is abutted against the first bearing shaft so as to prevent the first bearing shaft from rotating, a plurality of limiting block groups are sequentially arranged on the first bearing shaft along the circumferential direction of the first bearing shaft, each limiting block group comprises a plurality of limiting blocks which are sequentially arranged along the axial direction of the first bearing shaft at intervals, the distance between two adjacent limiting blocks in each limiting block group is different from that of the other limiting block groups, the limiting blocks are provided with groove bodies for cutting steel wires to pass through, a second bearing shaft and two second bearings which are symmetrically arranged at the two ends of the second bearing shaft are arranged below the cutting steel wire limiting, the utility model discloses a cutting steel wire stop gear, including cutting steel wire stop gear, bearing, two bearings, handle movable sleeve, cutting steel wire, two bearings, thereby two bearings are born the weight of the axle to the second, thereby two bearings are worn to establish respectively at two bearings at the both ends of second bearing axle, two bearings respectively with the connection stand fixed connection of corresponding one end, thereby the second bearing bears the weight of axle and bears the weight of axle fixed connection with the second, be provided with a plurality of couples along its axial on the second bearing, cutting steel wire stop gear top is provided with the fixed axle, the both ends of fixed axle respectively with be connected stand fixed connection, the handle movable sleeve is established on the fixed axle, the one end and the handle fixed connection.

Further, the bottom end rail below is provided with the shifter, the shifter includes first support, wire rope, cylinder, connecting rod and sets up the action wheel and follow driving wheel at first support both ends respectively, wire rope's one end and bottom end rail fixed connection, the other end in proper order around establishing the action wheel and follow behind the driving wheel with bottom end rail fixed connection, the one end and the action wheel of connecting rod pass through rotation axis connection, the other end is through the telescopic link fixed connection of round pin axle with the cylinder, the cylinder body and the first support fixed connection of cylinder.

Further, the brick pushing mechanism comprises a pushing plate, a second support, a pushing frame, a motor, a gear connected with the motor in a transmission manner and a rack connected with the gear in a transmission manner, the motor is fixedly connected with the second support, the rack is fixedly connected with the pushing frame, and the pushing plate is fixedly connected with the pushing frame.

Compared with the prior art, the invention has the following beneficial effects: the brick type fast-conversion double-steel-wire-frame green brick cutting machine can rapidly convert the produced brick type, and the cutting steel wires can be replaced without stopping the machine, so that the production is more continuous, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a partially enlarged schematic view at a in fig. 1.

Detailed Description

The invention is described in detail below with reference to the figures and the specific embodiments.

As shown in fig. 1 to 2, the fast brick-switching type double-steel-wire-frame blank cutting machine comprises a brick pushing mechanism 1, an upper beam 2, a lower beam 3 and a plurality of cutting mechanisms, wherein a conveying roller mechanism 4 is arranged between the brick pushing mechanism 1 and the cutting mechanisms, each cutting mechanism comprises a handle and a cutting steel wire, mud bars are conveyed by the conveying roller mechanism 4, and the mud bars are pushed by the brick pushing mechanism 1 so as to be cut by the cutting steel wires.

The two ends of the upper cross beam 2 and the lower cross beam 3 are respectively fixedly connected through two connecting upright columns 5, a spacing upright column 6 is arranged between the two connecting upright columns 5, the upper part of the spacing upright column 6 is fixedly connected with the upper cross beam 2, the lower part of the spacing upright column 6 is fixedly connected with the lower cross beam 3, the plurality of cutting mechanisms are sequentially arranged at intervals along the direction from one connecting upright column 5 to the other connecting upright column 5, a cutting steel wire limiting mechanism 7 is arranged between each connecting upright column 5 and the spacing upright column 6, each cutting steel wire limiting mechanism 7 comprises a first bearing shaft 701 and first bearings 702 arranged at the two ends of the first bearing shaft 701, fixing blocks 703 are arranged on the two first bearings 702, the two ends of the first bearing shaft 701 are respectively penetrated in the two first bearings 702, the two first bearings 702 are respectively and fixedly connected with the connecting upright column 5 at the corresponding end, one end of each fixing block 703 is fixedly connected with the first bearing 702 at the corresponding end through a first screw 704, the other end of fixed block 703 supports and pastes and prevent that first bearing shaft 701 from rotating on first bearing shaft 701, thereby first bearing shaft 701 is gone up and has set gradually multiunit spacing block group along its circumferencial direction, and every spacing block group of group all includes a plurality of stopper 705 that set up along first bearing shaft 701 axial interval in proper order, and the interval of two adjacent stopper 705 in every spacing block group all is different with other spacing block group, be provided with the cell body 7010 that supplies the cutting steel wire to pass on the stopper 705.

The length of the conveying roller mechanism 4 corresponds to the length of one cutting steel wire limiting mechanism 7, namely when the mud strips are cut, only one cutting steel wire limiting mechanism 7 is in a working state. After any cutting steel wire in a plurality of cutting mechanisms that a cutting steel wire stop gear 7 corresponds breaks, through removing bottom end rail 3 to change another cutting steel wire stop gear 7 and carry 4 positions of roller mechanism department, thereby continue to cut, need not shut down, it is very convenient.

A second bearing shaft 706 and two second bearings 707 symmetrically arranged at two ends of the second bearing shaft 706 are arranged below the cutting steel wire limiting mechanism 7, two ends of the second bearing shaft 706 are respectively arranged on two second bearings 707 in a penetrating way, the two second bearings 707 are respectively fixedly connected with the connecting upright post 5 at one corresponding end, a second screw 708 is arranged on the second bearing 707, the second screw 708 penetrates through the second bearing 707 and the second bearing shaft 706 so as to fixedly connect the second bearing 707 and the second bearing shaft 706, a plurality of hooks 709 are arranged on the second bearing shaft 706 along the axial direction thereof, a fixed shaft is arranged above the cutting steel wire limiting mechanism 7, two ends of the fixed shaft are respectively fixedly connected with the connecting upright post 5, the handle is movably sleeved on the fixed shaft, one end of the cutting steel wire is fixedly connected with the handle, and the other end of the cutting steel wire is fixedly connected with the corresponding hook 709. The hooks 709 are divided into a plurality of groups, each group of hooks 709 is sequentially arranged at intervals along the circumferential direction of the second bearing shaft 706, and each group of hooks 709 corresponds to a group of limiting block groups respectively.

When the brick shape needs to be changed, namely the thickness of the cut brick is changed, the cutting steel wire is firstly separated from the hook 709, the first screw 704 is screwed out by a section length, the fixing block 703 is not abutted to the first bearing shaft 701, the first bearing shaft 701 is not in a fixed state at this time, then the first bearing shaft 701 is rotated, the position of the limiting block group on the first bearing shaft 701 is changed, then the handle is moved, the cutting steel wire penetrates through the groove 7010 at the new position, then the second screw 708 is screwed out, the second bearing shaft 706 is rotated, the hook group corresponds to the limiting block group, the cutting steel wire is connected with the hook 709, and finally the first screw 704 and the second screw 708 are screwed tightly.

A switching mechanism 8 is arranged below the lower cross beam 3, the switching mechanism 8 comprises a first support 801, a steel wire rope 804, a cylinder 805, a connecting rod 806, and a driving wheel 802 and a driven wheel 803 which are respectively arranged at two ends of the first support 801, one end of the steel wire rope 804 is fixedly connected with the lower cross beam 3, the other end of the steel wire rope sequentially winds around the driving wheel 802 and the driven wheel 803 and is fixedly connected with the lower cross beam 3, one end of the connecting rod 806 is connected with the driving wheel 802 through a rotating shaft 807, the other end of the connecting rod is fixedly connected with an expansion link of the cylinder 805 through a pin shaft, and a cylinder body of the cylinder 805. The telescopic rod of the cylinder 805 extends and retracts to drive the driving wheel 802 to rotate, so that the steel wire rope 804 drives the lower beam 3 to move. And then the cutting steel wire limiting mechanism 7 to be used is converted

The brick pushing mechanism 1 comprises a pushing plate 106, a second support 105, a pushing frame 104, a motor 101, and a rack 103 which is in transmission connection with the gear 102 and a gear 102 in transmission connection with the motor 101, wherein the motor 101 is fixedly connected with the second support 105, the rack 103 is fixedly connected with the pushing frame 104, and the pushing plate 106 is fixedly connected with the pushing frame 104. The rack 103 reciprocates back and forth, thereby driving the push plate 106 to push the mud strips through the cutting wire.

The above embodiments are based on the technical solution of the present invention, and detailed implementation and specific operation processes are given, but the scope of the present invention is not limited to the above embodiments.

Claims (3)

1. The utility model provides a two steel wire frame blank cutters of fast switch brick type, is including pushing away brick mechanism (1), entablature (2), bottom end rail (3) and a plurality of cutting mechanism, it carries roller mechanism (4) to be provided with between brick mechanism (1) and the cutting mechanism to push away, cutting mechanism includes handle and cutting steel wire, and thereby the mud strip is transported by carrying roller mechanism (4), thereby promotes the mud strip through pushing away brick mechanism (1) and makes the mud strip cut by cutting steel wire, its characterized in that: the cutting device is characterized in that two ends of the upper cross beam (2) and the lower cross beam (3) are respectively fixedly connected through two connecting upright columns (5), a spacing upright column (6) is arranged between the two connecting upright columns (5), the upper part of the spacing upright column (6) is fixedly connected with the upper cross beam (2), the lower part of the spacing upright column is fixedly connected with the lower cross beam (3), the cutting mechanisms are sequentially arranged at intervals along the direction from one connecting upright column (5) to the other connecting upright column (5), a cutting steel wire limiting mechanism (7) is arranged between each connecting upright column (5) and the spacing upright column (6), each cutting steel wire limiting mechanism (7) comprises a first bearing shaft (701) and first bearings (702) arranged at two ends of the first bearing shaft (701), fixed blocks (703) are arranged on the two first bearings (702), two ends of the first bearing shaft (701) are respectively penetrated in the two first bearings (702), two first bearings (702) are respectively fixedly connected with a connecting upright post (5) at one corresponding end, one end of a fixed block (703) is fixedly connected with the first bearing (702) at one corresponding end through a first screw (704), the other end of the fixed block (703) abuts against the first bearing shaft (701) so as to prevent the first bearing shaft (701) from rotating, a plurality of groups of limiting block groups are sequentially arranged on the first bearing shaft (701) along the circumferential direction of the first bearing shaft, each group of limiting block groups comprises a plurality of limiting blocks (705) which are sequentially arranged along the axial direction of the first bearing shaft (701) at intervals, the distance between two adjacent limiting blocks (705) in each limiting block group is different from that of the other limiting block groups, a groove body (7010) for a cutting steel wire to pass through is arranged on each limiting block (705), a second bearing shaft (706) and two second bearings (707) symmetrically arranged at two ends of the second bearing shaft (706) are arranged below the cutting steel wire limiting mechanism (7), two second bearings (707) are worn to establish respectively at the both ends of second bearing (706), two second bearings (707) respectively with the connection stand (5) fixed connection of corresponding one end, be provided with second screw (708) on second bearing (707), thereby second bearing (707) and second bearing (706) are passed in second screw (708) and second bearing (706) with second bearing (707) and second bearing (706) fixed connection, second bearing (706) are gone up and are provided with a plurality of couples (709) along its axial, cutting steel wire stop gear (7) top is provided with the fixed axle, the both ends of fixed axle respectively with connection stand (5) fixed connection, the handle movable sleeve is established on the fixed axle, cutting steel wire's one end and handle fixed connection, the other end and corresponding couple (709) fixed connection.

2. The fast-switching brick-type double-wire frame green brick cutting machine according to claim 1, characterized in that: lower beam (3) below is provided with shifter (8), shifter (8) include first support (801), wire rope (804), cylinder (805), connecting rod (806) and set up action wheel (802) and follow driving wheel (803) respectively at first support (801) both ends, the one end and the lower beam (3) fixed connection of wire rope (804), the other end in proper order around establishing action wheel (802) and follow driving wheel (803) back and lower beam (3) fixed connection, the one end and the action wheel (802) of connecting rod (806) are connected through axis of rotation (807), the other end passes through the telescopic link fixed connection of round pin axle with cylinder (805), the cylinder body and the first support (801) fixed connection of cylinder (805).

3. The fast-switching brick-type double-wire frame green brick cutting machine according to claim 1, characterized in that: the brick pushing mechanism (1) comprises a pushing plate (106), a second support (105), a pushing frame (104), a motor (101), a gear (102) in transmission connection with the motor (101) and a rack (103) in transmission connection with the gear (102), the motor (101) is fixedly connected with the second support (105), the rack (103) is fixedly connected with the pushing frame (104), and the pushing plate (106) is fixedly connected with the pushing frame (104).

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