CN107738346B - Vertical cutting type cutting device with adjustable cutting wire spacing for self-heat-preservation building blocks - Google Patents

Abstract

The invention discloses a vertical cutting type cutting device with adjustable cutting wire spacing for self-heat-preservation building blocks, which comprises a frame and a vertical trimming mechanism for cutting self-heat-preservation building block blanks. The frame includes the main frame, the crane of setting in the main frame and the elevating system who drives the crane and reciprocate, erect side cut mechanism and include reciprocating drive mechanism, two sets of cutting mechanism and reciprocating motion support, reciprocating drive mechanism sets up on the lift bed frame, this equipment adopts many cutting wires to the mode of cutting of self preservation temperature building block body simultaneously, once accomplish the cutting to a plurality of cutting surfaces of single direction, not only production efficiency improves greatly, the cost of labor also obtains reducing, low in labor strength, can realize single operation completely, the production process does not have the dust production moreover, it is consistent with the objective of the green environmental protection mill of enterprise construction.

Description

Vertical cutting type cutting device with adjustable cutting wire spacing for self-heat-preservation building blocks

Technical Field

The invention belongs to the technical field of self-heat-preservation building block production equipment for buildings, and particularly relates to a vertical cutting device with adjustable cutting wire spacing for self-heat-preservation building blocks.

Background

At present, a production line of self-heat-preservation building blocks adopts wet method and dry method cutting, and the dry method cutting is used for cutting the building blocks repeatedly by a common electric saw after the self-heat-preservation building blocks are molded and dried, so that on one hand, the wall boards cut by the method are uneven in thickness, difficult to operate and have a certain danger, operators are easy to be injured, and on the other hand, a large amount of dust is generated due to the adoption of the dry method cutting, so that the working environment of workers is polluted, and the aim of building a green environment-friendly factory by enterprises is violated. The existing self-heat-preservation building blocks are cut by a wet method, namely the self-heat-preservation building blocks are cut before being dried after being formed, but the structure of the existing self-heat-preservation building block cutting equipment for the wet method is not reasonable enough, the occupied area is large, the degree of automation is low, personnel in the production process are more, the input cost of the whole process is high, the production efficiency is low, and the production cost is high.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a vertical cutting type cutting device with adjustable cutting wire spacing for self-heat-preservation building blocks, which adopts a mode that a plurality of cutting wires simultaneously cut a self-heat-preservation building block green body, and can cut a plurality of cutting surfaces in a single direction according to product specifications.

In order to achieve the above purpose, the invention adopts the following technical scheme: a vertical cutting type cutting device with adjustable cutting wire spacing for self-heat-preservation building blocks comprises a frame and a vertical trimming mechanism for cutting self-heat-preservation building block blanks.

The frame comprises a main frame, a lifting frame arranged in the main frame and a lifting mechanism for driving the lifting frame to move up and down, the main frame is a cuboid frame, the lifting frame is connected with the main frame in a sliding way through a sliding rod mechanism, the sliding rod mechanism comprises a sliding rod and a sliding sleeve arranged outside the sliding rod, the sliding rod is connected with an upper frame and a lower frame of the main frame, the sliding sleeve is connected with the lifting frame, the lifting frame comprises a lifting base frame and two cutting base frames arranged above, the two cutting base frames are symmetrically arranged below the lifting base frames and fixedly connected with the lifting base frames, the lifting mechanism comprises a lifting motor, a first transmission rod, a second transmission rod, a driving chain and a lifting chain, the first transmission rod and the second transmission rod respectively comprise a first sprocket arranged at two ends of a rod body and a second sprocket arranged at the middle part of the rod body, the lifting motor drives the second sprocket of the first transmission rod to rotate through the driving chain so as to realize synchronous rotation of the first sprocket of the first transmission rod and the second sprocket of the second transmission rod, each first sprocket of the first transmission rod and each second transmission rod is arranged below the first sprocket of the first transmission rod and the second transmission rod is fixedly connected with the lifting base frame, the two sprockets are arranged below the first sprocket sets of the first sprocket sets and the second sprocket sets are fixedly arranged between the two sprockets of the mounting plates through a first sprocket sets and a mounting plate; one end of each lifting chain is fixedly connected to the upper frame of the lifting base frame, and the other end of each lifting chain bypasses a first sprocket of the first transmission rod or the second transmission rod and the sprocket set to be connected with the lower frame of the lifting base frame.

The vertical trimming mechanism comprises a reciprocating driving mechanism, two groups of cutting mechanisms and a reciprocating motion support, wherein the reciprocating driving mechanism is arranged on a lifting base frame and comprises a reciprocating motor, a push rod assembly used for driving the reciprocating motion support to reciprocate and a sliding block mechanism used for supporting the reciprocating motion support to reciprocate on the lifting base frame, the push rod assembly comprises a rotating wheel and a push rod, the rotating wheel is arranged on a power output shaft of the reciprocating motor, one end of the push rod is hinged with a crank pin on the end face of the rotating wheel, the other end of the push rod is hinged with a vertical hanging arm arranged at the upper end of the reciprocating motion support, the reciprocating motion support is of an I-shaped structure and comprises two parallel arms and a connecting arm arranged between the two parallel arms, the sliding block mechanism comprises a sliding rod and a sliding block which is fixedly connected with the parallel arms, two ends of the sliding rod are fixedly arranged on the lifting base frame, the cutting mechanism is arranged on the cutting base frame, each group of cutting mechanisms comprises a plurality of cutting wires and four parallel roller shafts, the two ends of the roller shafts are rotatably supported on the cutting base frame in a length direction, a plurality of annular grooves used for containing the cutting wires are arranged on the shaft body, the plurality of annular grooves are evenly distributed on the roller shafts and evenly and are connected with one side of the corresponding hanging arms in parallel to the cutting wire, and the other side of the hanging arms are connected with the hanging arms in parallel to the cutting frame in parallel to the other side of the reciprocating motion support, and the hanging arm is connected with the other side of the cutting wire frame in parallel to the hanging frame.

As a further improvement of the vertical cutting device of the present invention, the depth of the annular groove is greater than the diameter of the cutting wire.

As a further improvement of the vertical cutting type cutting device, two roll shafts of each group of cutting mechanisms are arranged above the upper end frame of the cutting base frame, and the other two roll shafts are arranged below the lower end frame of the cutting base frame.

As a further improvement of the vertical cutting device, two slide block mechanisms are fixedly connected with each parallel arm.

Advantageous effects

1. The vertical cutting type cutting device is suitable for cutting machines of various self-heat-insulation building blocks, the vertical cutting type cutting device separates a vertical cutting type cutting function from a multifunctional integrated machine through improvement of the structure to serve as a single brand-new vertical cutting mechanism for initial use in China, the former cutting device needs multiple manual positioning and cutting for multiple times, production efficiency is low, operation errors are difficult to avoid, the defective rate is high, the cutting device can complete cutting of multiple parallel sections in the same direction only by one positioning and one cutting, production efficiency is greatly improved, because the distance between two cutting wires is set, compared with a single cutting wire of a traditional cutting mechanism, manual positioning errors caused by manual positioning are avoided, accurate control of product specifications can be realized, the defective rate is reduced, the invention only uses one motor power source to drive two groups of cutting parts to reciprocate synchronously, operation is easy, and the device structure is simpler and easy to maintain. By further improving the cutting driving mechanism, a driving transmission mode of taking an air cylinder as a power source is replaced, a crank rocker structure is driven by a motor to carry out driving transmission, the noise of the device is small, and the shake of the machine is hardly felt, so that the front end face and the rear end face of the device are cut off more smoothly and more attractive due to the reduction of the vibration.

2. The roller is arranged to serve as a supporting guide rod of the cutting wire, the annular grooves are formed in the roller along the length direction, and the cutting wire is distributed according to the specification of the finished product, so that the cutting device can be suitable for producing the finished products of building blocks with different specifications, meets the requirements of users to the greatest extent, saves equipment investment, and is further convenient to detach and install by connecting the cutting wire with the hanging ring on the parallel arm through the hanging hook. The groove depth of the annular groove is larger than the diameter of the cutting wire, so that defective products caused by uneven specifications due to falling-out or deviation of the cutting wire in the cutting process of the cutting wire are avoided.

Drawings

FIG. 1 is a schematic view of a vertical cutting device according to the present invention;

FIG. 2 is a schematic view A of a lifting frame and a cutting mechanism of a vertical cutting type cutting device of the present invention;

FIG. 3 is a schematic view B of a lifting frame and a cutting mechanism of the vertical cutting type cutting device of the present invention;

FIG. 4 is a schematic view of the structure of a roll shaft of the vertical cutting device of the present invention;

FIG. 5 is a schematic view of the connection of the push rod and the drop arm in the vertical cutting apparatus of the present invention;

FIG. 6 is a schematic view of the working effect of a cutter made by the vertical cutting device of the present invention;

fig. 7 is a schematic structural view of a self-heat-preserving block blank according to the present invention;

the marks in the figure: 1. slide rail, 2, cutting machine, 3, self preservation temperature building block body, 4, vertical back building block body, 5, upper and lower terminal surface, 6, side end face, 7, front and back terminal surface, 8, cross arm, 21, main frame, 22, crane, 23, slide bar mechanism, 24, elevator motor, 25, first transfer line, 26, second transfer line, 27, sprocket group, 28, elevator chain, 31, cutting wire, 32, roller, 33, annular groove, 34, bearing mounting hole, 41, reciprocating support, 42, reciprocating motor, 43, runner, 44, push rod, 45, vertical arm, 46, slider mechanism, 221, elevator base frame, 222, cutting base frame.

Detailed Description

In order to make the technical scheme and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and examples.

As shown in the figure: the embodiment of the invention provides a vertical cutting type cutting device with adjustable cutting wire spacing for self-heat-preservation building blocks, which comprises a frame and a vertical trimming mechanism for cutting self-heat-preservation building block green bodies 3.

The machine frame comprises a main frame 21, a lifting frame 22 arranged in the main frame 21 and a lifting mechanism for driving the lifting frame 22 to move up and down, wherein the main frame 21 is a cuboid frame, the lifting frame 22 is connected with the main frame 21 in a sliding way through a sliding rod mechanism 23, the sliding rod mechanism 23 comprises a sliding rod and a sliding sleeve arranged outside the sliding rod, the sliding rod is connected with an upper frame and a lower frame of the main frame 21, the sliding sleeve is connected with the lifting frame 22, the lifting frame 22 comprises a lifting base frame 221 and two cutting base frames 222 which are arranged above, the two cutting base frames 222 are symmetrically arranged below the lifting base frame 221 and are fixedly connected with the lifting base frame 221, the lifting mechanism comprises a lifting motor 24, a first transmission rod 25, a second transmission rod 26, a driving chain and a lifting chain 28, the first transmission rod 25 and the second transmission rod 26 respectively comprise a first sprocket arranged at two ends of a rod body and a second sprocket arranged at the middle part of the rod body, the lifting motor 24 drives the second sprocket of the first transmission rod 25 to rotate through the driving chain, the second sprocket of the first transmission rod 25 drives the second sprocket of the second transmission rod 26 to rotate through the driving chain so as to realize the first rotation of the first transmission rod 25 and the second sprocket 26, the second sprocket of the second transmission rod 26 are symmetrically arranged below the lifting base frame 221 and the lifting base frame and the second transmission frame 26 are fixedly arranged between the first sprocket 27 and the first sprocket set and the second sprocket 27 are arranged below the corresponding to the first sprocket set and the mounting plate and the first sprocket 27; one end of each lifting chain 28 is fixedly connected to the upper frame of the lifting base frame 221, and the other end bypasses the first sprocket of the first transmission rod 25 or the second transmission rod 26 and the sprocket set 27 to be connected to the lower frame of the lifting base frame 221.

The vertical trimming mechanism comprises a reciprocating driving mechanism, two groups of cutting mechanisms and a reciprocating support 41, wherein the reciprocating driving mechanism is arranged on a lifting base frame 221 and comprises a reciprocating motor 42, a push rod assembly used for driving the reciprocating support 41 to reciprocate and a sliding block mechanism 46 used for supporting the reciprocating support 41 to reciprocate on the lifting base frame 221, the push rod assembly comprises a rotating wheel 43 and a push rod 44, the rotating wheel 43 is arranged on a power output shaft of the reciprocating motor 42, one end of the push rod 44 is hinged with a crank pin on the end face of the rotating wheel 43, the other end of the push rod 44 is hinged with a vertical hanging arm 45 arranged at the upper end of the reciprocating support 41, the reciprocating support 41 is of an I-shaped structure, the reciprocating support 41 comprises two parallel arms and a connecting arm erected between the two parallel arms, the sliding block mechanism 46 comprises a sliding rod and a sliding block arranged outside the sliding rod, the sliding block is fixedly connected with the parallel arms, two ends of the sliding rod are fixed on the lifting base frame 221, the two groups of the cutting mechanisms are symmetrically arranged on the cutting base frame 222, each group of the cutting mechanism comprises a plurality of cutting wires 31 and a plurality of roller shafts 32, two ends of the roller shafts 32 are provided with bearing mounting holes 34, one ends of the roller shafts 32 are rotatably supported on the cutting base frame 222 through bearings, the plurality of the cutting wires 31 are arranged on the cutting base frame 32 along the length direction of the cutting base frame 31, the two ends of the cutting arms 33 are connected with the cutting wire 33 in parallel to one side of the cutting support 33, and the other side of the cutting wire frame 33 are parallel to the cutting wire frame 33 and are connected with one end of the other side of the cutting wire frame 33 in parallel. The cooperation of the hanging ring and the hanging hook makes the installation and replacement of the cutting wire 31 more convenient and quick.

The roller 32 of every group cutting mechanism is provided with four and parallel arrangement, and two of them set up the up end at cutting bed frame 222, and two other sets up the corresponding position in cutting bed frame 222 lower extreme face, is provided with the link on the parallel arm, and cutting wire 31 tip is provided with the couple of being connected with the link cooperation, the dismantlement installation of being convenient for cutting wire 31, is provided with the through-hole that is used for wearing to establish cutting wire 31 on the lifting bed frame 221 frame.

The push rod 44 includes a straight rod section and a C-shaped section including a first short arm and a second short arm, and an outer end surface of a junction of the first short arm and the second short arm is connected to the straight rod section. The vertical arm 45 is provided with a connecting handle for connecting with the push rod 44, and the connecting handle is arranged between the first short arm and the second short arm and is connected with the push rod 44 through a pin shaft. The reciprocating motor 42 is fixed to the lifting frame 22 by means of a cross arm 8, which cross arm 8 is arranged parallel to the connecting arm of the reciprocating bracket 41.

In the invention, the upper end face 5 and the lower end face 5 of the self-heat-preservation building block green body 3 refer to an upper end face and a lower end face, the side end faces 6 refer to two vertical end faces of the self-heat-preservation building block green body 3 parallel to the parallel arms, and the front end face 7 and the rear end face 7 refer to two vertical end faces of the self-heat-preservation building block green body 3 perpendicular to the parallel arms.

The annular grooves 33 on the roll shaft 32 are uniformly distributed at intervals, and the correspondingly supported cutting wires 31 are respectively used for cutting off the front end face 7 and the rear end face 7 of the self-heat-insulation block green body 3 and the parting plane parallel to the front end face and the rear end face. It should be noted that the number of the cutting wires 31 can be increased or decreased according to the specifications of the product, for example, in actual production, the self-insulation block blank 3 is 600mm in specification length, when a finished product with 300mm in specification length is produced, three cutting wires 31 are required, when a finished product with 200mm in specification length is produced, four cutting wires 31 are required to be provided, and so on.

The frame of the present invention further comprises a C-shaped clamping frame for fixing the lifting frame 22, the C-shaped clamping frame comprising a first short arm and a second short arm, the opening support of the C-shaped clamping frame engaging the lifting frame 22 and the main frame 21 when the cutting machine 2 is stopped, the first short arm of the C-shaped clamping frame being in contact with the lifting frame 22 and the second short arm being in contact with the upper rim of the main frame 21. When the device is in a shutdown state or placed for a long time, the C-shaped clamping frame can avoid bearing of gears or chains, and the service life of each part is prolonged.

The limit switch for limiting the lifting height of the lifting frame 22 is arranged on the main frame 21 of the cutting machine, so that the lifting frame 22 is controlled to lift in a limited height range, the operation difficulty is reduced, and the economic losses of equipment, green bodies and the like caused by misoperation are prevented.

The working principle of the vertical cutting type cutting device for the self-heat-preservation building block assembly line is as follows: the lifting motor 24 drives the first transmission rod 25 to rotate through the driving chain, the first transmission rod 25 drives the second transmission rod 26 to synchronously rotate through the driving chain, the first chain wheels at two ends of the first transmission rod 25 and the second transmission rod 26 respectively drive the lifting chain to lift or lower the height of the lifting frame 22, the reciprocating motor 42 outputs power to drive the rotating wheel 43 to rotate and drive the push rod assembly to convey power to the reciprocating support 41, the reciprocating support 41 on one hand reciprocates on the lifting base frame 221 through the sliding block mechanism 46, meanwhile, the two ends of the cutting wire 31 connected with the reciprocating support 41 are driven to reciprocate to cut, and due to the fact that two groups of cutting mechanisms are arranged, two rows of self-heat-insulation block blanks 3 can be synchronously cut at the same time, when one group of blanks are cut, when the lifting frame 22 contacts with the lower limit switch, the computer controls the lifting motor 24 to reversely rotate, so that the lifting frame 22 is driven to recover to the position upwards, one group of cutting actions are completely completed, the block blanks 4 after vertical cutting are obtained, the cutting machine 2 is moved, and the next group of cutting is continued until the self-insulation block blanks 3 on one production line are cut.

In the first embodiment, the self-insulation block 3 is fixed, the cutting device is moved, the cutting device can be installed on a movable cutting machine for use, the cutting machine 2 is driven to move on the sliding rails 1 through the driving device, the self-insulation block green body 3 is arranged on the floor between the sliding rails 1, and the cutting machine 2 cuts the self-insulation block green body 3 arranged between the sliding rails 1. After cutting one group of blanks, the cutting machine 2 is moved forward to automatically perform the next group of cutting.

In another embodiment, the self-heat-insulation block green body 3 is moved by the fixed cutting device, the self-heat-insulation block green body 3 can be installed on the fixed cutting machine for use, the moving trolley and the trolley track are arranged below the fixed cutting machine, the self-heat-insulation block green body 3 can be discharged on the moving trolley, the fixed clamping cylinder of the fixed moving trolley is arranged on the frame of the cutting machine, and after a group of green bodies are cut by the fixed moving trolley and the cutting machine, the moving trolley can be pulled to move forwards by the traction device arranged on the trolley track for automatically cutting the next group.

The present invention is not limited to the above-mentioned embodiments, but is intended to be limited to the following embodiments, and any modifications, equivalent changes and variations in the above-mentioned embodiments can be made by those skilled in the art without departing from the scope of the present invention.

Claims (4)

1. A vertical cutting type cutting device with adjustable cutting wire spacing for self-heat-preservation building blocks comprises a frame and a vertical trimming mechanism for cutting self-heat-preservation building block blanks (3); the method is characterized in that:

the frame comprises a main frame (21), a lifting frame (22) arranged in the main frame (21) and a lifting mechanism for driving the lifting frame (22) to move up and down, wherein the main frame (21) is a cuboid frame, the lifting frame (22) is connected with the main frame (21) in a sliding way through a sliding rod mechanism (23), the sliding rod mechanism (23) comprises a sliding rod and a sliding sleeve arranged outside the sliding rod, the sliding rod is connected with an upper frame and a lower frame of the main frame (21), the sliding sleeve is connected with the lifting frame (22), the lifting frame (22) comprises a lifting base frame (221) and two cutting base frames (222) arranged above, the two cutting base frames (222) are symmetrically arranged below the lifting base frame (221) and fixedly connected with the lifting base frame (221), the lifting mechanism comprises a lifting motor (24), a first transmission rod (25), a second transmission rod (26), a driving chain and a lifting chain (28), the first transmission rod (25) and the second transmission rod (26) respectively comprise a first sprocket arranged at two ends of the rod body and a second sprocket arranged at the middle part, the lifting motor (24) drives the first sprocket (25) to rotate through the driving chain, the second sprocket (26) is driven by the driving chain (25) and the second sprocket (25) to rotate synchronously, a sprocket group (27) is correspondingly arranged below each first sprocket of the first transmission rod (25) and each second transmission rod (26), the sprocket group (27) is fixedly arranged on the lower frame of the main frame (21), the sprocket group (27) comprises a third sprocket and two sprocket mounting plates, the two sprocket mounting plates are vertically and mutually parallel, and the third sprocket is erected between the two sprocket mounting plates through a rotating shaft; one end of each lifting chain (28) is fixedly connected to the upper frame of the lifting base frame (221), and the other end bypasses a first sprocket of the first transmission rod (25) or the second transmission rod (26) and the sprocket group (27) to be connected with the lower frame of the lifting base frame (221);

the vertical trimming mechanism comprises a reciprocating driving mechanism, two groups of cutting mechanisms and a reciprocating support (41), wherein the reciprocating driving mechanism is arranged on a lifting base frame (221), the reciprocating driving mechanism comprises a reciprocating motor (42), a push rod assembly used for driving the reciprocating support (41) to reciprocate and a slide block mechanism (46) used for supporting the reciprocating support (41) to reciprocate on the lifting base frame (221), the push rod assembly comprises a rotating wheel (43) and a push rod (44), the rotating wheel (43) is arranged on a power output shaft of the reciprocating motor (42), one end of the push rod (44) is hinged with a crank pin on the end face of the rotating wheel (43), the other end of the push rod is hinged with a vertical arm (45) vertically arranged at the upper end of the reciprocating support (41), the reciprocating support (41) is in an I-shaped structure, the reciprocating support (41) comprises two parallel arms and a connecting arm erected between the two parallel arms, the slide block mechanism (46) comprises a slide block and a slide rod which is glidingly arranged outside the slide rod, the slide block is fixedly connected with the parallel arms, two ends of the slide rod are fixedly arranged on the lifting base frame (221), the cutting mechanism is arranged on the cutting base frame (222), each group of the cutting mechanism comprises a plurality of roller shafts (31) and a plurality of cutting roller shafts (32) which are arranged on the cutting shafts (32) in parallel to the length of the cutting shafts (32) respectively, the cutting wire (31) is detachably connected with the parallel arms of the reciprocating support (41), hooks are arranged at two ends of the cutting wire (31), and hanging rings which are matched and connected with the hooks are arranged on the parallel arms;

the cutting machine also comprises a clamping frame fixedly connected to the main frame (21) and used for fixing the lifting frame (22), and when the cutting machine (2) is stopped, the clamping frame can support the lifting frame (22);

the lifting frame also comprises a limit switch which is arranged on the main frame (21) and used for limiting the lifting height of the lifting frame (22).

2. The vertical cutting device with adjustable cutting wire spacing for self-heat-preservation building blocks as claimed in claim 1, wherein: the depth of the annular groove (33) is greater than the diameter of the cutting wire (31).

3. The vertical cutting device with adjustable cutting wire spacing for self-heat-preservation building blocks as claimed in claim 1, wherein: two roll shafts (32) of each group of cutting mechanism are arranged above the upper frame of the cutting base frame (222), and the other two roll shafts (32) are arranged below the lower frame of the cutting base frame (222).

4. The vertical cutting device with adjustable cutting wire spacing for self-heat-preservation building blocks as claimed in claim 1, wherein: two slide block mechanisms (46) are fixedly connected with each parallel arm.