CN106738193B

CN106738193B - Concrete formwork block manufacturing machine

Info

Publication number: CN106738193B
Application number: CN201611167929.9A
Authority: CN
Inventors: 姜海强
Original assignee: Nantong Ruiqiang Machinery Manufacturing Co ltd
Current assignee: Nantong Ruiqiang Machinery Manufacturing Co ltd
Priority date: 2016-12-16
Filing date: 2016-12-16
Publication date: 2022-05-24
Anticipated expiration: 2036-12-16
Also published as: CN106738193A

Abstract

The invention provides a concrete mold clamp building block manufacturing machine which comprises a feeding device, a forming device, a discharging device and a control device, wherein the feeding device, the forming device and the discharging device are sequentially connected and are all connected with the control device, the discharging device comprises a left output mechanism and a right output mechanism, the left output mechanism and the right output mechanism are respectively arranged on two sides of the forming device, the feeding device is arranged at an inlet of the forming device, and the feeding device and the discharging device are arranged in a T shape. In addition, a moving frame is arranged among the conveyor belts and is abutted to the conveyor belts on two sides, the moving frame comprises a transverse fixing plate and a plurality of vertical lifting rods, and the vertical lifting rods are uniformly arranged below the transverse fixing plate at intervals, so that concrete mold clamping building blocks of different types can be classified, and the stacking efficiency is greatly improved.

Description

Concrete formwork block manufacturing machine

Technical Field

The invention relates to the technical field of building material machinery, in particular to a concrete mold clamp building block manufacturing machine.

Background

At present, the concept of building energy conservation has been generally concerned by countries in the world, and the main reason of low building energy utilization efficiency is that the building envelope structure has poor heat insulation and tightness, so that a large amount of energy is wasted, and therefore, the building envelope structure becomes a current hot research direction as a heat insulation building block for replacing clay bricks.

If the application number is: 200620051580.8 discloses a concrete block extrusion molding machine, which comprises a molding device with a feeding mechanism at the rear part and a finished product transfer mechanism at the front part of the molding device, wherein the molding device is provided with an outer frame and a mold box, the top of an up-down moving frame arranged in the outer frame is connected with a hydraulic column of a hydraulic oil cylinder at the top of the outer frame, a plurality of mold cavities are provided with a presser foot mechanism above the mold box and connected with a hydraulic column of a hydraulic oil cylinder arranged at the top of the up-down moving frame, the bottom of the mold box is provided with a material supporting plate, a plurality of mold cavities of the mold box in the molding machine are horizontally and vertically arranged to form a square, the regular arrangement of the mold clamping blocks can be ensured, but when the mold clamping blocks are moved out through the transfer mechanism, the mold clamping blocks are not suitable for stacking, in addition, mechanical vibrators are respectively arranged on each presser foot provided with a resonance spring between the outer frames, and the concrete in the mold cavities are compacted through the mechanical vibrators, the effect of the vibration action of the mechanical vibrator is not great, and the mechanical vibrator is only suitable for the initial manufacturing stage of the die clamping building block blank, but can cause uneven material consumption on the die clamping building block blank in the later manufacturing stage.

If the application number is as follows: 201510846466.8 discloses an improved concrete block forming device, comprising a mixing tank, a working table, a first table top and a second table top; the linear guide rail is connected with the first table top; a ball screw provided on the linear guide; the first motor is connected with the ball screw, and the plurality of forming dies are arranged on the linear guide rail; a plurality of molding dies provided on the linear guide; the two first baffle plates are arranged on the second table top; the vibrating table is in contact with the workbench, and a horizontal plane is arranged at the top of the vibrating table; the first vibration exciter is arranged at the bottom of the vibrating table; the two second baffle plates are respectively provided with a first groove; the third baffle is inserted into the two first grooves; the pressing plate is arranged above the excitation table; the pressing rod is arranged at the top of the pressing plate; and the first air cylinder is connected with the pressure plate. Be provided with first vibration exciter among this concrete block forming device and vibrate the shaking table, the frequency of its excitation is wayward, and easily leads to the thick liquids to glue on the forming die surface, can cause production error. In addition, the forming device is a manufacturing procedure of feeding, forming pressing and discharging, and the production efficiency is not high.

Disclosure of Invention

The invention provides a concrete mold block making machine, which aims to solve the problems that the production efficiency of the mold block making machine in the prior art is low, a blank is not compact and the like.

The specific technical scheme is as follows: the utility model provides a concrete mould card block machine, includes material feeding unit, forming device, discharging device and controlling means, material feeding unit, forming device and discharging device link to each other in proper order and all link to each other with controlling means, discharging device includes left output mechanism and right output mechanism, left side output mechanism and right output mechanism set up respectively in forming device's both sides, material feeding unit sets up the entrance at forming device, material feeding unit and discharging device are "T" font and arrange.

On the basis, the forming device comprises an outer frame, a fixing frame, a mold box and a hydraulic oil cylinder, wherein the fixing frame is sleeved outside the mold box and arranged inside the outer frame, and the hydraulic oil cylinder is arranged at the upper end of the outer frame and connected with the fixing frame.

On the basis, the die box comprises a plurality of die cavities and a material supporting plate, the die cavities are arranged in a square shape in a longitudinal and transverse mode and are arranged on the material supporting plate, a presser foot is arranged above the die cavities and is connected with a hydraulic column of a hydraulic oil cylinder, and a plurality of vibrators are arranged on the lower surface of the material supporting plate.

On the basis, at least two vibrators are uniformly arranged on the lower surface of the retainer plate.

On the basis, the discharging device comprises a discharging rack and a conveyor belt system, the conveyor belt system is laid on the discharging rack, the conveyor belt system comprises a plurality of conveyor belts which are arranged in parallel, the plurality of conveyor belts are not in contact with each other, a pressure sensor is arranged on the conveyor belts, and the pressure sensor is connected with a control device.

On this basis, it is a plurality of the conveyer belt includes first conveyer belt and second conveyer belt, first conveyer belt is provided with two, and fixed the setting is in the both sides of play work or material rest respectively, the second conveyer belt is provided with many, and even interval sets up between two first conveyer belts.

On this basis, the widths of the second conveyor belts are different and are increased in sequence, the maximum width of the second conveyor belt is smaller than that of the first conveyor belt, and the length of the first conveyor belt is equal to that of the second conveyor belt.

On this basis, it is a plurality of there is the removal frame between the conveyer belt, the removal frame offsets with the conveyer belt of both sides, the removal frame links to each other with controlling means, the removal frame includes horizontal fixed plate and a plurality of vertical lifter, and is a plurality of the even interval of vertical lifter sets up the below at horizontal fixed plate.

On the basis, the height of the vertical lifting rod is higher than that of the discharging frame, and the length of the transverse fixing plate is equal to that of the second conveying belt.

On this basis, the one end that removes the frame and forming device relative is provided with photoelectric sensor, photoelectric sensor links to each other with controlling means.

Compared with the prior art, the invention has the beneficial effects that:

1. the discharging device in the concrete mold clamp block manufacturing machine comprises a left output mechanism and a right output mechanism, wherein the left output mechanism and the right output mechanism are respectively arranged on two sides of a forming device, a feeding device is arranged at an inlet of the forming device, and the feeding device and the discharging device are arranged in a T shape. The invention greatly accelerates the production efficiency of the mold card block making machine through the uninterrupted work of the two output mechanisms.

2. The forming device comprises an outer frame, a fixing frame, a mold box and a hydraulic oil cylinder, wherein the fixing frame is sleeved outside the mold box and arranged inside the outer frame, and the hydraulic oil cylinder is arranged at the upper end of the outer frame and connected with the fixing frame. The die block moves up and down under the action of the hydraulic oil cylinder and the fixing frame, and the blanks in the die cavity are more tightly connected due to inertia and can be completely separated from the die cavity in the process of moving up and down, so that the consistency of the sizes of the blanks of the die clamping block is ensured.

3. A pressure foot is arranged above a die cavity and connected with a hydraulic column of a hydraulic oil cylinder, and a plurality of vibrators are arranged on the lower surface of a material supporting plate. The vibrator is arranged below the material supporting plate, so that the slurry falls down more uniformly in the die cavity, and the speed of filling the die cavity with the slurry is increased under the combined action of the vibrator and the presser foot.

4. A moving frame is arranged among the conveyor belts and is abutted against the conveyor belts on two sides, the moving frame comprises a transverse fixing plate and a plurality of vertical lifting rods, and the vertical lifting rods are uniformly arranged below the transverse fixing plate at intervals. The movable frame is arranged, the mold clamping building blocks which are manufactured can be forcibly and neatly placed, stacking work after the stacking work is convenient, a plurality of movable frames are additionally arranged, the movable frame can be used for transportation of the mold clamping building blocks of different types, and the applicability is wide.

Drawings

FIG. 1 is a top plan view of a concrete form card block machine of the present invention;

FIG. 2 is a schematic view of the discharge device of a concrete form block machine of the present invention;

fig. 3 is a schematic structural view of a concrete form block making machine of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention discloses a concrete mold clamp building block making machine which comprises a feeding device 1, a forming device 2, a discharging device 3 and a control device 4, wherein the feeding device 1, the forming device 2 and the discharging device 3 are sequentially connected and are connected with the control device 4, the discharging device 3 comprises a left output mechanism 31 and a right output mechanism 32, the left output mechanism 31 and the right output mechanism 32 are respectively arranged at two sides of the forming device 2, the feeding device 1 is arranged at an inlet of the forming device 2, and the feeding device 1 and the discharging device 3 are arranged in a T shape. In the production process, after the feeding device 1 pushes the feeding device to feed materials to the forming device 2 through the pull rod pushing mechanism, the forming device 2 manufactures the die clamping block blanks, the die clamping block blanks are conveyed to the discharging device 3 after the manufacturing is finished, if the die clamping block blanks are conveyed to the right output mechanism 32 firstly, the right output mechanism 32 stacks the manufactured die clamping block blanks after conveying the manufactured die clamping block blanks to a designated position, in the process of outputting the die clamping block blanks by the right output mechanism 32, the feeding mechanism simultaneously feeds materials to the forming device 2, and after the forming device 2 manufactures the die clamping block blanks, the die clamping block blanks are conveyed to the left output mechanism 31, the manufacturing process is controlled by the control device 4.

As shown in fig. 1, the forming device 2 of the present invention includes an external frame 21, a fixing frame 22, a mold box and a hydraulic cylinder 234, wherein the fixing frame 22 is sleeved outside the mold box and is disposed inside the external frame 21, and the hydraulic cylinder 234 is disposed at the upper end of the external frame 21 and is connected to the fixing frame 22. The hydraulic column of the hydraulic cylinder 234 is connected to the fixed frame 22, and the hydraulic column can drive the fixed frame 22 to move up and down in a designated working state, so as to drive the mold box in the fixed frame 22 to move up and down. The die box comprises a plurality of die cavities 231 and a material supporting plate 232, the die cavities 231 are arranged in a square shape in a longitudinal and transverse mode and are arranged on the material supporting plate 232, a pressure foot is arranged above the die cavities 231 and is connected with a hydraulic column of a hydraulic oil cylinder 234, and a plurality of vibrators 233 are arranged on the lower surface of the material supporting plate 232. Preferably, at least two vibrators 233 are uniformly arranged on the lower surface of the retainer plate 232. When the feeding device 1 gradually sends the slurry to the forming device 2, the vibrator 233 below the material supporting plate 232 continuously vibrates to vibrate the slurry inside the die cavity 231, so that the descending speed of the slurry is accelerated, the slurry is gradually and uniformly laid in the die cavity 231, the presser foot above the die cavity 231 continuously compacts the slurry in the die cavity 231, and the laying of each layer of the slurry is guaranteed to be compact. When the slurry is completely spread over the mold cavity 231 and compacted, the hydraulic column moves the fixing frame 22 up quickly, and the slurry in the mold cavity 231 is under an overweight action and is more compact due to the inertia effect. After moving for a period of time, the moving speed is slowed down, and the moving speed is instantly accelerated and decreased, so that the slurry in the die cavity 231 is completely separated from the die cavity 231 due to the inertia effect and is in a weightless state, the viscosity of the slurry in the die cavity 231 is reduced, the cost is saved, and the consistency of the size of the manufactured die clamping building block is ensured. The hydraulic column repeatedly acts on the fixing frame 22 for multiple times until the die clamping building block blank is manufactured, wherein the time, the acceleration and the repeated times of the action of the hydraulic column for moving the fixing frame 22 upwards and the fixing frame 22 downwards can be preset in the control device 4, and parameters can be modified according to actual production requirements.

The discharging device 3 according to the present invention as shown in fig. 2 comprises a discharging frame 33 and a conveyor system, wherein the conveyor system is laid on the discharging frame 33, the conveyor system comprises a plurality of parallel conveyors, the plurality of conveyors are not in contact with each other, a pressure sensor 344 is arranged on the conveyor, the pressure sensor 344 is connected with the control device 4, and when the pressure sensor 344 on the conveyor is triggered, the conveyor is indicated to have a manufactured mold clamping block blank. The plurality of conveyor belts comprise a first conveyor belt 341 and a second conveyor belt 342, two first conveyor belts 341 are respectively and fixedly arranged on two sides of the discharging frame 33, and a plurality of second conveyor belts 342 are arranged between the two first conveyor belts 341 at even intervals. The widths of the plurality of second conveyor belts 342 are different and sequentially increased, the maximum width of the second conveyor belts 342 is smaller than the width of the first conveyor belt 341, and the length of the first conveyor belt 341 is equal to the length of the second conveyor belt 342. A moving frame 343 is arranged between the plurality of conveyor belts, the moving frame 343 abuts against the conveyor belts on both sides, the moving frame 343 is connected with a control device 4, and the control device 4 can control the moving frame 343 to ascend and descend. The movable frame 343 includes a horizontal fixing plate and a plurality of vertical lift rods, and the vertical lift rods are uniformly spaced below the horizontal fixing plate. The height of the vertical lifting rod is higher than that of the discharging frame 33, and the length of the transverse fixing plate is equal to that of the second conveyor belt 342. The end of the moving frame 343 opposite to the forming device 2 is provided with a photoelectric sensor 345, the photoelectric sensor 345 is connected to the control device 4, the photoelectric sensor 345 is not triggered, and the control device 4 controls the corresponding moving frame 343 to descend. As shown in fig. 2 and fig. 3, the molding device 2 outputs the manufactured die clamping block blanks through the discharging device 3, the control device 4 receives signals collected by the pressure sensors 344 on the conveyor belts in the left discharging mechanism and the right discharging mechanism in the discharging device 3, if the pressure sensors 344 are triggered, it is indicated that the discharging mechanism is charged, the control device 4 controls the block blanks to be output to the other discharging mechanism, and if both the blocks are charged, the block blanks are output later. If the right output mechanism 32 is empty, the control device 4 transmits the manufactured die clamping block blank to the right output mechanism 32 to prepare for discharging. The photoelectric sensor 345 at one end of the movable frame 343 is shielded by the width of the mold clamping block, so that the photoelectric sensor 345 of the movable frame 343 with the same width as the mold clamping block blank stops triggering, the movable frame 343 where the photoelectric sensors 345 are located is controlled to descend by the control device 4, the rest movable frames 343 are not moved, the conveyor belt rotates, the conveyed mold clamping block assemblies are arranged and conveyed under the forced execution of the transverse fixing plate of the movable frame 343, the mechanism can convey a plurality of mold clamping blocks together according to the width of the conveyed mold clamping block, the arrangement function can be achieved, subsequent stacking is facilitated, the stacking efficiency is greatly improved, and the mold clamping blocks cannot be damaged.

Example 1: the utility model provides a concrete mould card block machine, includes material feeding unit 1, forming device 2, discharging device 3 and controlling means 4, material feeding unit 1, forming device 2 and discharging device 3 link to each other in proper order and all link to each other with controlling means 4, discharging device 3 includes left output mechanism 31 and right output mechanism 32, left side output mechanism 31 and right output mechanism 32 set up respectively in forming device 2's both sides, material feeding unit 1 sets up the entrance at forming device 2, material feeding unit 1 and discharging device 3 are "T" font and arrange. The forming device 2 comprises an outer frame 21, a fixing frame 22, a mold box and a hydraulic oil cylinder 234, wherein the fixing frame 22 is sleeved outside the mold box and is arranged inside the outer frame 21, and the hydraulic oil cylinder 234 is arranged at the upper end of the outer frame 21 and is connected with the fixing frame 22. The die box comprises a plurality of die cavities 231 and a material supporting plate 232, the die cavities 231 are arranged in a square shape in a longitudinal and transverse mode and are arranged on the material supporting plate 232, a pressure foot is arranged above the die cavities 231 and is connected with a hydraulic column of a hydraulic oil cylinder 234, and two vibrators 233 are arranged on the lower surface of the material supporting plate 232.

In the embodiment, the production efficiency of the mold clamp block making machine is greatly accelerated through the uninterrupted work of the two output mechanisms. And the dropping of the slurry is accelerated under the combined action of the vibrator 233, the presser foot and the hydraulic column on the fixing frame 22, so that the slurry is distributed more uniformly in the die cavity 231, the speed of filling the die cavity 231 with the slurry is improved, the die clamping block is completely separated from the die cavity 231, and the consistency of the size of the die clamping block blank is ensured.

Example 2:

the utility model provides a concrete mould card block machine, includes material feeding unit 1, forming device 2, discharging device 3 and controlling means 4, material feeding unit 1, forming device 2 and discharging device 3 link to each other in proper order and all link to each other with controlling means 4, discharging device 3 includes left output mechanism 31 and right output mechanism 32, left side output mechanism 31 and right output mechanism 32 set up respectively in forming device 2's both sides, material feeding unit 1 sets up the entrance at forming device 2, material feeding unit 1 and discharging device 3 are "T" font and arrange. The forming device 2 comprises an outer frame 21, a fixing frame 22, a mold box and a hydraulic oil cylinder 234, wherein the fixing frame 22 is sleeved outside the mold box and is arranged inside the outer frame 21, and the hydraulic oil cylinder 234 is arranged at the upper end of the outer frame 21 and is connected with the fixing frame 22. The die box comprises a plurality of die cavities 231 and a material supporting plate 232, the die cavities 231 are arranged in a square shape in a longitudinal and transverse mode and are arranged on the material supporting plate 232, a pressure foot is arranged above the die cavities 231 and is connected with a hydraulic column of a hydraulic oil cylinder 234, and two vibrators 233 are arranged on the lower surface of the material supporting plate 232.

The discharging device 3 includes a discharging rack 33 and a conveyor belt system, the conveyor belt system is laid on the discharging rack 33, the conveyor belt system includes a plurality of conveyor belts arranged in parallel, the plurality of conveyor belts are not in contact with each other, and the conveyor belts are provided with pressure sensors 344. The plurality of conveyor belts comprise a first conveyor belt 341 and a second conveyor belt 342, two first conveyor belts 341 are respectively and fixedly arranged on two sides of the discharging frame 33, and a plurality of second conveyor belts 342 are arranged between the two first conveyor belts 341 at even intervals. The widths of the plurality of second conveyor belts 342 are different and sequentially increased, the maximum width of the second conveyor belts 342 is smaller than the width of the first conveyor belt 341, and the length of the first conveyor belt 341 is equal to the length of the second conveyor belt 342. A plurality of there is removal frame 343 between the conveyer belt, removal frame 343 offsets with the conveyer belt of both sides, removal frame 343 includes horizontal fixed plate and a plurality of vertical lifter, a plurality of the even interval of vertical lifter sets up the below at horizontal fixed plate. The height of the vertical lifting rod is higher than that of the discharging frame 33, and the length of the transverse fixing plate is equal to that of the second conveyor belt 342. The end of the movable frame 343 opposite to the molding device 2 is provided with a photoelectric sensor 345.

This embodiment has set up removal frame 343 on embodiment 1's basis, sets up removal frame 343 and can carry out mandatory neatly putting to the mould card building block that the preparation finishes, and convenient stacking work after sets up a plurality of removal frames 343 in addition, can be used for the transportation of the mould card building block of different grade type, and extensive applicability is extensive.

While the foregoing description shows and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as described herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a concrete formwork card block making machine which characterized in that: the automatic feeding device comprises a feeding device (1), a forming device (2), a discharging device (3) and a control device (4), wherein the feeding device (1), the forming device (2) and the discharging device (3) are sequentially connected and are all connected with the control device (4), the discharging device (3) comprises a left output mechanism (31) and a right output mechanism (32), the left output mechanism (31) and the right output mechanism (32) are respectively arranged on two sides of the forming device (2), the feeding device (1) is arranged at an inlet of the forming device (2), and the feeding device (1) and the discharging device (3) are arranged in a T shape; the forming device (2) comprises an outer frame (21), a fixing frame (22), a mold box and a hydraulic oil cylinder (234), wherein the fixing frame (22) is sleeved outside the mold box and arranged inside the outer frame (21), and the hydraulic oil cylinder (234) is arranged at the upper end of the outer frame (21) and connected with the fixing frame (22); the die box comprises a plurality of die cavities (231) and a material supporting plate (232), the die cavities (231) are arranged in a square shape and are arranged on the material supporting plate (232), a pressure foot is arranged above the die cavities (231), the pressure foot is connected with a hydraulic column of a hydraulic oil cylinder (234), and a plurality of vibrators (233) are arranged on the lower surface of the material supporting plate (232); the discharging device (3) comprises a discharging rack (33) and a conveyor belt system, the conveyor belt system is laid on the discharging rack (33), the conveyor belt system comprises a plurality of conveyor belts which are arranged in parallel, the plurality of conveyor belts are not in contact with each other, a pressure sensor (344) is arranged on each conveyor belt, and the pressure sensor (344) is connected with the control device (4); the plurality of conveyor belts comprise a first conveyor belt (341) and a second conveyor belt (342), two first conveyor belts (341) are respectively and fixedly arranged on two sides of the discharging frame (33), and a plurality of second conveyor belts (342) are arranged between the two first conveyor belts (341) at uniform intervals; a plurality of have between the conveyer belt and remove frame (343), remove frame (343) and the conveyer belt of both sides offsets, remove frame (343) and link to each other with controlling means (4), remove frame (343) including horizontal fixed plate and a plurality of vertical lifter, a plurality of vertical lifter evenly interval sets up the below at horizontal fixed plate.

2. The concrete form-card block making machine according to claim 1, characterized in that: the lower surface of the retainer plate (232) is uniformly provided with at least two vibrators (233).

3. A concrete form-card block machine as claimed in claim 2, wherein: the widths of the second conveyor belts (342) are different and are sequentially increased, the maximum width of the second conveyor belts (342) is smaller than the width of the first conveyor belt (341), and the length of the first conveyor belt (341) is equal to the length of the second conveyor belt (342).

4. A concrete form-card block making machine as claimed in claim 3, wherein: the height of the vertical lifting rod is higher than that of the discharging frame (33), and the length of the transverse fixing plate is equal to that of the second conveying belt (342).

5. The concrete form-card block making machine of claim 4, wherein: and a photoelectric sensor (345) is arranged at one end of the moving frame (343), which is opposite to the forming device (2), and the photoelectric sensor (345) is connected with the control device (4).