CN211250619U - Foam brick cutting machine - Google Patents

Abstract

The utility model discloses a foam brick cutting machine, including the base that sets up along the fore-and-aft direction, the monoblock foam brick has been placed on it, the top left and right sides of monoblock foam brick is equipped with the pressing mechanism who sets up along the fore-and-aft direction respectively, two pressing mechanisms are driven its and move in opposite directions or back to back by translation actuating mechanism, two pressing mechanisms are equipped with first pneumatic cylinder respectively to the side in opposite directions, the first pneumatic cylinder on two pressing mechanisms is the mirror image setting with monoblock foam brick left and right sides direction central line, link to each other by the vertical cut steel wire between the telescopic link end of two relative first pneumatic cylinders on the left and right sides, two pressing mechanisms are driven its reciprocating by the vertical drive mechanism, still vertically be equipped with two dead levers between two vertical drive mechanisms on the left and right sides of monoblock foam brick, two dead levers are equipped with the second pneumatic cylinder respectively to the side in opposite directions, link to the telescopic link to the end of two relative; the cutting machine can cut a whole block of foam brick along the transverse direction and the vertical direction, so that the foam brick meets the use requirement.

Description

Foam brick cutting machine

Technical Field

The utility model relates to a foam brick production facility, in particular to foam brick cutting machine.

Background

The foam brick has good compression resistance: the compression strength is more than 0.5Mpa, the highest strength can reach more than 10.5Mpa, no cracking occurs, and the service life is long. The foam brick is also made of different raw materials, such as the following two types: the foam brick is made by mixing and coagulating foam particles and cement, has the excellent performances of light weight, heat preservation, sound insulation and fire prevention, greatly reduces the cost due to the use of small diameter, and is an ideal article for non-bearing walls. The autoclaved foam concrete brick is mainly prepared by taking cement, slag powder and river sand as production raw materials, mixing, foaming by pressure air, forcibly mixing air into mixed slurry for forming, molding by a concrete mold with a micro-bubble structure, carrying out autoclaved reaction and other procedures, and is a novel wall material which is environment-friendly, energy-saving and stable in material quality. The autoclaved foamed concrete brick is used as a wall material of a building, and the autoclaved foamed concrete brick is high in quality after being built and used for two years, and meets the national standard requirements on engineering quality, sound insulation, energy conservation, fire prevention and the like. The foam brick is a monoblock foam brick after the drawing of patterns, need place the cutting machine on and cut to satisfy the user demand, and current cutting machine can only follow a direction and cut, consequently will cut into the foam brick unit that accords with the demand, must overturn many times, overlap and just can accomplish, and is inefficient, and intensity of labour is big.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the utility model provides a foam brick cutting machine can follow vertical and horizontal cutting monoblock foam brick unit, and is efficient, and degree of automation is high, can practice thrift the human cost.

A foam brick cutting machine comprises a base arranged along the front-back direction, a whole block of foam bricks is placed on the base, pressing mechanisms arranged along the front-back direction are respectively arranged on the left side and the right side of the upper portion of the whole block of foam bricks, the two pressing mechanisms are arranged in a mirror image mode by the central line of the left-right direction of the whole block of foam bricks, the two pressing mechanisms are driven by a translation driving mechanism to move in opposite directions or away from each other, first air pressure cylinders are respectively arranged on the opposite sides of the two pressing mechanisms, the first air pressure cylinders on the two pressing mechanisms are arranged in a mirror image mode by the central line of the left-right direction of the whole block of foam bricks, the tail ends of telescopic rods of the two first air pressure cylinders opposite to each other on the left side and the right side are connected through a vertical cutting steel wire, the two pressing mechanisms are driven by a vertical moving driving mechanism to move up and down, two fixing rods are also, the second pneumatic cylinders on the two fixing rods are arranged in a mirror image mode through the center line of the left direction and the right direction of the whole foam brick, the tail ends of the telescopic rods of the two left and right opposite second pneumatic cylinders are arranged in opposite directions, the tail ends of the telescopic rods of the two left and right opposite second pneumatic cylinders are connected through transverse cutting steel wires, and the two fixing rods are driven by the transverse moving driving mechanism to move forwards and backwards.

Further, the vertical moving driving mechanism comprises first supporting columns vertically arranged in the middle of the left side and the right side of the whole foam brick, grooves are respectively arranged on the opposite sides of the two first supporting columns, the upper part of each groove extends to the upper part of the whole foam brick, the lower part of each groove extends to the lower part of the whole foam brick, a screw is vertically arranged in each groove, the two ends of each screw are respectively connected onto the first supporting columns through bearings, the upper ends of the screws extend out of the top surfaces of the first supporting columns, chain wheels are sleeved on the screws on the top surfaces of the first supporting columns, the chain wheels on the left screw and the right screw are connected through chains, driven gears are sleeved on the screws on the top surfaces of the first supporting columns on the left side, motors are further arranged on the top surfaces of the first supporting columns on the left side, first rotating shafts are connected through couplers on output shafts of the motors, driving gears meshed with the driven gears are sleeved, the pressing mechanism is fixedly connected to the two lead screw nuts through the translation driving mechanism.

Further, the translation driving mechanism comprises a beam, two ends of the beam are respectively and fixedly connected with the two lead screw nuts, the cross beam is provided with a slideway, the longitudinal section of the slideway in the front and back direction is of an inverted convex shape, the slideway is internally provided with two racks which are arranged in a mirror image manner by the central line of the whole foam brick in the left and right direction, the longitudinal section of the rack in the front and back direction is of an inverted convex shape, the blade teeth of the rack are arranged on the top surface of the rack, the top surface of the rack and the top surface of the slideway are arranged in a clearance way, a second rotating shaft is arranged between the two sides of the upper part of the rack, the two second rotating shafts are respectively sleeved with a first gear, the two first gears are arranged in a mirror image mode by the central line of the whole foam brick in the left and right directions, the first gear is meshed with the rack, the two rotating shafts are driven by synchronous motors with opposite rotation directions, and the middle part of the bottom surface of the rack is connected with the middle part of the pressing mechanism through a connecting rod.

Furthermore, the transverse moving driving mechanism comprises two second supporting columns arranged on two sides in front of the whole cement supporting block, the second supporting columns are vertically arranged, third cylinders are arranged in the middle of the second supporting columns respectively, the third cylinders are arranged in the front-back direction, and the tail ends of telescopic rods of the two third cylinders are vertically connected with the middle of the fixing rod respectively.

Still further, the pressing mechanism is a long strip-shaped pressing block.

The beneficial effects of the utility model reside in that:

the utility model discloses a foam brick cutting machine can once only cut into the foam brick unit that accords with the demand from horizontal and vertical cutting monoblock foam brick, and whole cutting process is automatic to be accomplished, need not the manpower and intervenes, can practice thrift labour cost, and production efficiency is high.

Drawings

Fig. 1 is a front sectional view of the present invention.

Fig. 2 is a view a-a of fig. 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only some embodiments, but not all embodiments of the present invention.

Referring to fig. 1-2, a foam brick cutting machine comprises a base 1 arranged along the front and back direction, a whole foam brick 2 is placed on the base 1, pressing mechanisms arranged along the front and back direction are respectively arranged at the left and right sides above the whole foam brick 2, the two pressing mechanisms are arranged in a mirror image mode with the central line of the left and right directions of the whole foam brick 2, the two pressing mechanisms are driven by a translation driving mechanism to move in opposite directions or away from each other, first pneumatic cylinders 3 are respectively arranged at the opposite sides of the two pressing mechanisms, the first pneumatic cylinders 3 on the two pressing mechanisms are arranged in a mirror image mode with the central line of the left and right directions of the whole foam brick 2, the tail ends of telescopic rods of the two first pneumatic cylinders 3 opposite to each other at the left and right sides are arranged in opposite directions, the tail ends of the telescopic rods of the two first pneumatic cylinders 3 opposite to each other at the left and right sides are connected by a vertical cutting steel wire 4, two dead levers 5 are equipped with second pneumatic cylinder 6 respectively to the side in opposite directions, and second pneumatic cylinder 6 on two dead levers 5 is the mirror image setting with 2 left right directions central lines of monoblock foam brick, and the telescopic link end of controlling two relative second pneumatic cylinders 6 sets up in opposite directions, controls and links to each other by crosscut steel wire 7 between the telescopic link end of two relative second pneumatic cylinders 6, and two dead levers 5 are its forward and backward direction removal by sideslip actuating mechanism drive.

The vertical moving driving mechanism comprises first supporting columns 8 vertically arranged in the middle of the left side and the right side of a whole foam brick, grooves are respectively arranged on the opposite sides of the two first supporting columns 8, the upper part of each groove extends to the upper part of the whole foam brick 2, the lower part of each groove extends to the lower part of the whole foam brick 2, a screw 9 is vertically arranged in each groove, two ends of each screw 9 are respectively connected to the first supporting columns 8 through bearings 10, the upper end of each screw 9 extends out of the top surface of the first supporting column 8, a chain wheel 10 is sleeved on each screw 9 on the top surface of the first supporting column 8, the chain wheels 10 on the left screw 9 and the right screw 9 are connected through a chain 11, a driven gear 12 is sleeved on each screw 9 on the top surface of the first supporting column 8 on the left side, a motor 13 is further arranged on the top surface of the first supporting column 8 on the left side, a first rotating shaft is connected through a coupler on an output shaft of the motor 13, a, the pressing mechanism is fixedly connected to the two lead screw nuts 15 through the translation driving mechanism, the motor rotates to drive the first rotating shaft to rotate, the driving gear on the motor drives the driven gear to rotate, the left screw rod rotates, the right screw rod rotates through the chain, the screw rod rotates to drive the nuts to move up and down, and the translation driving mechanism drives the pressing mechanism to move up and down.

The translation driving mechanism comprises a cross beam 16, two ends of the cross beam 16 are respectively fixedly connected to two lead screw nuts 15, a slide way is arranged on the cross beam 16, the slide way is of an inverted convex shape in the longitudinal section in the front-back direction, two racks 17 are arranged in the slide way, the two racks 17 are arranged in a mirror image mode by taking the central line of the whole foam brick in the left-right direction, the racks 17 are of the inverted convex shape in the longitudinal section in the front-back direction, the cutting teeth of the racks 17 are arranged on the top surface of the racks 17, the top surface of the racks 17 and the top surface of the slide way are arranged in a clearance mode, a second rotating shaft is arranged between the two sides above the racks 17 in a sliding mode, the two second rotating shafts are two, the two rotating shafts are respectively sleeved with first gears 18, the two first gears 18 are arranged in a mirror image mode by taking the central line of the whole foam brick 2 in, the synchronous motor rotates to enable the two first gears to rotate towards the same direction or the opposite direction, and further enable the rack to drive the pressing mechanism to move towards the same direction or the opposite direction.

The transverse moving driving mechanism comprises two second supporting columns 21 located on two sides in front of the whole cement 2 supporting block, the second supporting columns 21 are vertically arranged, third air cylinders 22 are arranged in the middle of the second supporting columns 21 respectively, the third air cylinders 22 are arranged in the front-back direction, the tail ends of telescopic rods of the two third air cylinders 22 are vertically connected with the middle of the fixing rod 5 respectively, and the telescopic rods of the third air cylinders extend or shorten to drive the fixing rod to move back and forth.

The pressing mechanism is a strip-shaped pressing block 23.

The vertical-moving driving mechanism is started firstly during use, the whole foam brick is pressed on the base by the pressing mechanism, then the transverse-moving driving mechanism is started to enable the fixed rod to move backwards, the transverse-moving steel wire is tensioned by the left and right two opposite second cylinders, the transverse-moving steel wire transversely cuts the whole foam brick, after transverse cutting is completed, the transverse-moving driving mechanism is restored to the original position, the transverse-moving driving mechanism is started again to enable the pressing mechanism to be located on the left and right sides above the whole foam brick, then the vertical-moving driving mechanism is started, the pressing mechanism is driven to move downwards, the vertical-moving steel wire is tensioned by the left and right two opposite first cylinders, the vertical-moving steel wire vertically cuts the multilayer foam brick, and the multilayer.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. Foam brick cutting machine, its characterized in that: the device comprises a base arranged along the front and back direction, a whole block of foam brick is placed on the base, pressing mechanisms arranged along the front and back direction are respectively arranged on the left side and the right side above the whole block of foam brick, the two pressing mechanisms are arranged in a mirror image mode by the central line of the left and the right directions of the whole block of foam brick, the two pressing mechanisms are driven by a translation driving mechanism to move in opposite directions or away from each other, first pneumatic cylinders are respectively arranged on the opposite sides of the two pressing mechanisms, first pneumatic cylinders on the two pressing mechanisms are arranged in a mirror image mode by the central line of the left and the right directions of the whole block of foam brick, the tail ends of telescopic rods of the two first pneumatic cylinders opposite to each other on the left and the right sides are arranged in opposite directions, the tail ends of the telescopic rods of the two first pneumatic cylinders opposite to each other on the left and the right sides are connected by a vertical cutting steel wire, the second pneumatic cylinders on the two fixing rods are arranged in a mirror image mode through the center line of the left direction and the right direction of the whole foam brick, the tail ends of the telescopic rods of the two left and right opposite second pneumatic cylinders are arranged in opposite directions, the tail ends of the telescopic rods of the two left and right opposite second pneumatic cylinders are connected through transverse cutting steel wires, and the two fixing rods are driven by the transverse moving driving mechanism to move forwards and backwards.

2. The foam brick cutting machine according to claim 1, wherein: the vertical movement driving mechanism comprises first supporting columns vertically arranged in the middle of the left side and the right side of the whole foam brick, grooves are respectively arranged on the opposite sides of the two first supporting columns, the upper part of each groove extends to the upper part of the whole foam brick, the lower part of each groove extends to the lower part of the whole foam brick, a screw is vertically arranged in each groove, the two ends of each screw are respectively connected onto the first supporting columns through bearings, the upper ends of the screws extend out of the top surfaces of the first supporting columns, chain wheels are sleeved on the screws on the top surfaces of the first supporting columns, the chain wheels on the left screw and the right screw are connected through chains, driven gears are sleeved on the screws on the top surfaces of the first supporting columns on the left side, motors are further arranged on the top surfaces of the first supporting columns on the left side, first rotating shafts are connected onto output shafts of the motors through couplings, driving gears meshed with the driven gears are, the pressing mechanism is fixedly connected to the two lead screw nuts through the translation driving mechanism.

3. The foam brick cutting machine according to claim 2, wherein: the translation driving mechanism comprises a cross beam, two ends of the cross beam are respectively and fixedly connected with two lead screw nuts, the cross beam is provided with a slideway, the longitudinal section of the slideway in the front and back direction is of an inverted convex shape, the slideway is internally provided with two racks which are arranged in a mirror image manner by the central line of the whole foam brick in the left and right direction, the longitudinal section of the rack in the front and back direction is of an inverted convex shape, the blade teeth of the rack are arranged on the top surface of the rack, the top surface of the rack and the top surface of the slideway are arranged in a clearance way, a second rotating shaft is arranged between the two sides of the upper part of the rack, the two second rotating shafts are respectively sleeved with a first gear, the two first gears are arranged in a mirror image mode by the central line of the whole foam brick in the left and right directions, the first gear is meshed with the rack, the two rotating shafts are driven by synchronous motors with opposite rotation directions, and the middle part of the bottom surface of the rack is connected with the middle part of the pressing mechanism through a connecting rod.

4. The foam brick cutting machine according to claim 3, wherein: the transverse moving driving mechanism comprises two second supporting columns which are arranged on two sides in front of the whole cement supporting block, the second supporting columns are vertically arranged, third cylinders are arranged in the middle of the second supporting columns respectively, the third cylinders are arranged in the front-back direction, and the tail ends of telescopic rods of the two third cylinders are vertically connected with the middle of the fixing rod respectively.

5. The foam brick cutting machine according to claim 3, wherein: the pressing mechanism is a long strip-shaped pressing block.

Images