CN214981821U

CN214981821U - Perlite insulating brick pressing device

Info

Publication number: CN214981821U
Application number: CN202121068393.1U
Authority: CN
Inventors: 张海平; 师自成
Original assignee: Beijing Changping Hydraulic Machinery Co ltd
Current assignee: Beijing Changping Hydraulic Machinery Co ltd
Priority date: 2021-05-18
Filing date: 2021-05-18
Publication date: 2021-12-03
Anticipated expiration: 2031-05-18

Abstract

The utility model relates to a pearlite insulating brick suppression device, which comprises a supporting rack, be provided with the mounting panel at support frame one end level, a plurality of die cavities have been seted up on the mounting panel, below and the die cavity one-to-one at the mounting panel are provided with the moulding-die, the moulding-die inlays towards the one end of mounting panel and locates in the die cavity and with the cooperation of sliding of die cavity, be provided with the last pushing mechanism that is used for driving the moulding-die to rise in the below of moulding-die, be provided with in the top of mounting panel and be used for carrying out the confined last mould to the die cavity, the top of going up the mould is provided with the mechanism that pushes down that is used for driving the mould to slide from top to bottom, it has the feed bin to slide the complex on the support frame, be provided with the discharge gate in the bottom of feed bin, be provided with the driving piece that is used for driving the feed bin orientation or deviates from the mounting panel direction and slides on the support frame. This application has the intensity of labour who reduces the staff, improves the suppression efficiency's of pearlite insulating brick advantage.

Description

Perlite insulating brick pressing device

Technical Field

The application relates to the field of building material processing equipment, in particular to a pressing device for perlite insulating bricks.

Background

At present, the perlite insulating brick is a novel building decoration material, has the excellent characteristics of low heat conductivity coefficient, stable performance, light weight, fire resistance, no toxicity, no smell and the like, and is widely applied to non-bearing walls and filling wall materials such as fire resistance, heat insulation, sound insulation, partition wall masonry and the like of decoration projects of office buildings, hotels and household residences; the fireproof heat-insulating material is also widely applied to places and parts with high fireproof requirements, such as boiler linings, hot blast stove linings, drying rooms, cold storages and the like, as a fireproof heat-insulating material; the perlite insulation board is generally formed by pressing, namely raw materials mixed with a binder are pressed into a green brick in a pressing device, and then the green brick is fired.

In the related art, a pressing device generally includes a support frame, a mold plate is horizontally disposed on the support frame, a mold cavity penetrating the mold plate is disposed on the mold plate, a pressing mold is disposed on the support frame above the mold cavity, a pressing mechanism for driving the pressing mold to descend is disposed on the support frame, a support mold is disposed on the support frame below the mold cavity, and an pressing mechanism for driving the support mold to ascend is disposed on the support frame; in actual operation, a worker adds the prepared raw materials into the die cavity, then the lower pressing mechanism and the upper pressing mechanism are started, and the raw materials are pressed and formed under the matching action of the pressing die and the supporting die.

With respect to the related art in the above, the inventors consider that: when pressing the perlite insulating brick, a worker is required to continuously add raw materials into the die cavity, the working strength is high, the number of the insulating bricks pressed at one time is small, and the pressing efficiency of the insulating bricks is low.

SUMMERY OF THE UTILITY MODEL

In order to reduce staff's intensity of labour, improve pearlite insulating brick's suppression efficiency, this application provides a pearlite insulating brick suppression device.

The application provides a perlite insulating brick suppression device adopts following technical scheme:

the utility model provides a perlite insulating brick suppression device, which comprises a supporting fram, be provided with the mounting panel at support frame one end level, a plurality of die cavities have been seted up on the mounting panel, below and the die cavity one-to-one at the mounting panel are provided with the moulding-die, the moulding-die inlays towards the one end of mounting panel and locates in the die cavity and with the cooperation of sliding of die cavity, be provided with the last pushing mechanism that is used for driving the moulding-die to rise in the below of moulding-die, be provided with in the top of mounting panel and be used for carrying out the confined last mould to the die cavity, the top of going up the mould is provided with the pushing mechanism that is used for driving the mould and slides from top to bottom, it has the feed bin to slide the complex on the support frame, be provided with the discharge gate in the bottom of feed bin, be provided with on the support frame and be used for driving the feed bin orientation or deviate from the driving piece that the mounting panel orientation slided.

By adopting the technical scheme, when the perlite insulation brick is actually pressed, firstly, raw materials are put into the bin, then the driving piece is started to push the bin to slide towards the mounting plate, when the bin slides to the mounting plate, the raw materials enter the die cavity from the discharge hole, then the pressing mechanism is started, the pressing mechanism drives the upper die to descend so as to seal the opening at the upper end of the die cavity, then the pressing mechanism is started, and the pressing mechanism drives the pressing die to move upwards to extrude the raw materials so as to extrude the raw materials; after the suppression is accomplished, start the mechanism of pushing down, the mechanism of pushing down drives the mould and slides, the die cavity upper end opening is opened, thereby it upwards slides the ejecting die cavity of the fashioned pearlite insulating brick to start the mechanism drive moulding-die of pushing up, then start the driving piece and promote the feed bin and slide towards the mounting panel direction, push down the fashioned pearlite insulating brick of suppression from the mounting panel under the effect of feed bin, then start the mechanism of pushing up and promote the moulding-die and move down, the raw materials gets into the die cavity from the feed bin, then repeated suppression operation, in-process carrying out the suppression to the pearlite insulating brick, reduce staff's intensity of labour, improve the suppression efficiency of pearlite insulating brick.

Optionally, a support frame is arranged below the mounting plate, the pressing mechanism comprises a plurality of jacking oil cylinders fixedly connected to the support frame and a connecting plate arranged below the mounting plate and fixedly connected with the plurality of jacking oil cylinders, and one end of the pressing die, which deviates from the die cavity, is fixedly connected with the connecting plate.

Through adopting above-mentioned technical scheme, carrying out the in-process of suppressing to the perlite insulating brick, through starting jacking cylinder, jacking cylinder promotes the mounting panel and slides from top to bottom, and the mounting panel promotes a plurality of moulding-die and goes up and down in step to the improvement is to suppression efficiency.

Optionally, a plurality of first guide rods are vertically arranged below the mounting plate, a first guide hole is formed in the connecting plate, and the first guide rods penetrate through the first guide hole and are in sliding fit with the first guide hole.

Through adopting above-mentioned technical scheme, first guide rod can support and guide the sliding of connecting plate to improve the stability and the smoothness degree that the connecting plate slided.

Optionally, the pressing mechanism comprises a pressing plate arranged above the mounting plate and a pressing oil cylinder arranged above the pressing plate and used for driving the pressing plate to slide up and down, and the upper die is fixedly connected to the pressing plate.

Through adopting above-mentioned technical scheme, carrying out the in-process of suppression to the perlite heated board, the holding down cylinder promotes the holding down plate and slides from top to bottom to promote a plurality of mould synchronous lifting, and then improve the efficiency of suppression.

Optionally, a plurality of second guide rods are vertically arranged on the upper surface of the mounting plate, a fixing plate is arranged at one end of each second guide rod, which is far away from the mounting plate, and the pressing oil cylinder is fixedly connected to the fixing plate; and a second guide hole is formed in the lower pressure plate, and the second guide rod penetrates through the second guide hole and is in sliding fit with the second guide hole.

Through adopting above-mentioned technical scheme, the second guide rod both can support for the fixed of hydraulic cylinder down, and in addition, the second guide rod can restrict and guide for the sliding of holding down plate, improves the stability and the smoothness degree that the holding down plate slided.

Optionally, be provided with the bearing board that extends towards the mounting panel direction on the support frame, the mounting panel is with the upper surface parallel and level of bearing board, feed bin bottom and bearing board butt work as the feed bin when sliding, discharge gate department is in the encapsulated situation under the effect of bearing board and mounting panel.

By adopting the technical scheme, the discharge port is always in a closed state under the action of the bearing plate and the mounting plate in the sliding process of the storage bin, and when the discharge port corresponds to the die cavity, raw materials in the storage bin are leaked from the discharge port and enter the die cavity; through setting up the layer board, improve the convenience to the feeding in the die cavity.

Optionally, slide rails the same as the extension direction of the bearing plate are arranged on the two sides of the bearing plate on the support frame, slide grooves are formed in the slide rails, slide blocks are arranged on the installation blocks, and the slide blocks are embedded in the slide grooves and are in sliding fit with the slide grooves.

Through adopting above-mentioned technical scheme, slider and the spout of mutually supporting can restrict and guide the sliding of feed bin, improve the stability and the smoothness nature of feed bin slip process.

Optionally, the sliding groove is arranged on one surface of the two sliding rails which deviates from each other.

Through adopting above-mentioned technical scheme, can reduce in reinforced or pressing process raw materials get into the spout in to the influence that the feed bin slided and causes.

Optionally, the one end that the mounting panel deviates from the support frame is provided with the guide board of downward sloping, has seted up the sieve mesh at the face of guide board, is provided with upper end open-ended dump bin in the below of guide board.

By adopting the technical scheme, after the pressing of the perlite insulation board is finished, the bin slides towards the direction of the mounting plate to push the perlite insulation board and the residual waste on the mounting plate into the guide plate, the perlite insulation board and the waste slide downwards along the guide plate under the action of gravity, and the residual waste falls into the waste bin through the sieve mesh in the sliding process; through setting up the guide board, improve the convenience to remaining waste recovery on the mounting panel.

Optionally, the both sides protrusion that the guide board is relative is provided with the limiting plate, the face of limiting plate is perpendicular with the face of guide board and extends along the length direction of guide board.

Through adopting above-mentioned technical scheme, the limiting plate can restrict the sliding of perlite insulation board on the guide board, improves the stability that perlite insulation board slided on the guide board.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the plurality of die grooves are formed in the heat insulation plate, and the driving piece is used for finishing the operation of feeding materials into the die grooves, so that the single pressing quantity of the perlite heat insulation brick is increased, the labor intensity of workers is reduced, and the pressing efficiency of the perlite heat insulation brick is improved;

2. the sliding block and the sliding chute which are matched with each other are arranged, so that the sliding of the storage bin can be limited and guided, and the stability and the smoothness of the sliding process of the storage bin are improved;

3. through setting up the guide board, improve the convenience to remaining waste recovery on the mounting panel.

Drawings

FIG. 1 is a schematic structural diagram of a pressing device for perlite insulating bricks in the embodiment of the application;

FIG. 2 is a sectional view of a pressing device for perlite insulating bricks in the embodiment of the application;

fig. 3 is a schematic structural diagram of the slide rail and the mounting block in the embodiment of the present application.

Description of reference numerals: 1. a support frame; 10. a drive member; 11. a support plate; 12. a slide rail; 120. a chute; 2. mounting a plate; 20. a die cavity; 21. a first guide bar; 22. a second guide bar; 220. a fixing plate; 3. pressing the die; 4. a pressing mechanism; 40. a jacking oil cylinder; 41. a connecting plate; 410. a first guide hole; 5. an upper die; 6. a pressing mechanism; 60. a lower pressing plate; 600. a second guide hole; 61. pressing the oil cylinder; 7. a storage bin; 71. a feed inlet; 72. mounting blocks; 720. a slider; 8. a mounting frame; 9. a guide plate; 90. screening holes; 91. a waste bin; 92. and a limiting plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses pearlite insulating brick suppression device. Referring to fig. 1 and 2, perlite insulating brick suppression device includes support frame 1, there is mounting panel 2 at 1 one end level of support frame, a plurality of die cavities 20 have been seted up on mounting panel 2, below and die cavity 20 one-to-one at mounting panel 2 are provided with moulding-die 3, moulding-die 3 inlays towards the one end of mounting panel 2 and locates in die cavity 20 and with the cooperation of sliding of die cavity 20, be provided with last pushing mechanism 4 that is used for driving moulding-die 3 to rise below moulding-die 3, be provided with in the top of mounting panel 2 and be used for carrying out confined last mould 5 to die cavity 20, be provided with in the top of last mould 5 and be used for driving last mould 5 pushing mechanism 6 that slides from top to bottom, it has feed bin 7 to slide the cooperation on support frame 1, be provided with the discharge gate in the bottom of feed bin 7, be provided with on support frame 1 and be used for driving feed bin 7 towards or deviate from the driving piece 10 that mounting panel 2 direction slided.

Referring to fig. 1 and 2, the mounting plate 2 and the support frame 1 may be fixed by welding, in this embodiment, an angle plate is disposed between the mounting plate 2 and the support frame 1, and the angle plate is fixed to the mounting plate 2 and the support frame 1 by bolts, so as to fix the support frame 1 and the mounting plate 2; the die cavities 20 are arranged on the mounting plate 2 in a matrix; a mounting rack 8 is arranged below the mounting plate 2, and the mounting rack 8 is fixedly connected with the ground; the upward pressing mechanism 4 comprises a plurality of jacking oil cylinders 40 fixedly connected to the mounting frame 8 and a connecting plate 41 horizontally arranged below the mounting plate 2 and fixedly connected with piston rods of the plurality of jacking oil cylinders 40; one end of the pressing die 3, which is far away from the die cavity 20, is fixedly connected with the connecting plate 41, so that the pressing dies 3 can be lifted synchronously; in order to improve the stability and the fluency that connecting plate 41 slided, be provided with many first guide bars 21 at the lower surface of mounting panel 2, first guide bar 21 is vertical to be set up and both ends respectively with mounting panel 2 and mounting bracket 8 fixed connection, has seted up first bullport 410 with the corresponding position of first guide bar 21 on connecting plate 41, and first guide bar 21 wears to locate in first bullport 410 and slides the cooperation with first bullport 410.

Referring to fig. 1 and 2, a plurality of second guide rods 22 are convexly arranged on the upper surface of the mounting plate 2, one ends of the second guide rods 22 are fixedly connected with the mounting plate 2, a fixing plate 220 is horizontally arranged at one end of each second guide rod 22, which is far away from the mounting plate 2, the fixing plate 220 is fixedly connected with the second guide rods 22, and the pressing mechanism 6 comprises a pressing plate 60 and a pressing oil cylinder 61; a second guide hole 600 penetrating through the plate surface of the lower pressing plate 60 is formed in the lower pressing plate 60, a second guide rod 22 penetrates through the second guide hole 600 and is in sliding fit with the second guide hole 600, and an upper die 5 is fixedly connected to one surface, facing the mounting plate 2, of the lower pressing plate 60; the pressing cylinder 61 is fixed on the fixing plate 220 and the output end is fixedly connected with the pressing plate 60.

Referring to fig. 1 and 3, a supporting plate 11 extending towards the mounting plate 2 is horizontally arranged on the support frame 1, the mounting plate 2 is flush with the upper surface of the supporting plate 11, and the bottom end of the bin 7 is abutted against the supporting plate 11, so that the discharging port of the bin 7 is closed by the supporting plate 11 and the mounting plate 2 when the bin 7 slides, and the material in the bin 7 can only fall into the die cavity 20; a feeding hole 71 is formed in the upper surface of the storage bin 7, so that a feeding device can feed materials into the storage bin 7 conveniently; two symmetrical slide rails 12 are arranged on the support frame 1 at two sides of the bearing plate 11 along the sliding direction of the stock bin 7, the slide rails 12 extend to the mounting plate 2, a sliding groove 120 is formed in one surface of the support frame opposite to the two slide rails 12, mounting blocks 72 integrally cast with the stock bin 7 are arranged on two opposite sides of the stock bin 7 in a protruding mode, a sliding block 720 is arranged on the mounting blocks 72 in a protruding mode at a position corresponding to the sliding groove 120, and the sliding block 720 is embedded in the sliding groove 120 and is in sliding fit with the sliding groove 120; the driving member 10 may be a gear rack that is engaged with each other, or any device that can drive the storage bin 7 to slide along the slide rail 12, such as a lead screw and a lead screw nut that are engaged with each other.

After the pressing is finished, the perlite heat-insulating brick which is subjected to the pressing forming can be pushed down from the mounting plate 2 through the sliding of the bin 7, in order to separate and recover raw materials remained on the mounting plate 2 after the pressing is finished, referring to fig. 1 and fig. 2, a guide plate 9 which is inclined downwards is arranged at one end, away from the support frame 1, of the mounting plate 2, the guide plate 9 and the mounting plate 2 can be fixed by welding, a sieve mesh 90 is arranged on the surface of the guide plate 9, a waste bin 91 with an open upper end is arranged below the guide plate 9, the upper end opening of the waste bin 91 is matched with the guide plate 9, and a conveying device such as a conveyor belt can be arranged at one end, away from the mounting plate 2, of the guide plate 9, so that the perlite heat-insulating brick which is subjected to the pressing forming can be conveyed conveniently; in order to improve the stability of insulating brick when sliding along guide plate 9, be provided with limiting plate 92 in the both sides protrusion that guide plate 9 is relative, limiting plate 92's face is perpendicular and extend along the length direction of guide plate 9 with the face of guide plate 9, limiting plate 92 and guide plate 9 integrated casting shaping.

The implementation principle of the perlite insulating brick pressing device in the embodiment of the application is as follows: when the perlite insulation brick is actually pressed, firstly, raw materials are added into the stock bin 7 from the feeding hole 71, then the driving piece 10 is started to push the stock bin 7 to slide towards the mounting plate 2, the sliding rail 12 and the sliding block 720 which are matched with each other can limit and guide the sliding of the stock bin 7, the stability and the fluency of the sliding process of the stock bin 7 are improved, in the sliding process of the stock bin 7, under the action of the bearing plate 11 and the mounting plate 2, the discharging hole is always in a closed state, when the stock bin 7 slides to the discharging hole corresponding to the mold groove 20, the raw materials in the stock bin 7 leak out of the discharging hole and enter the mold groove 20, then the pressing mechanism 6 is started, the pressing oil cylinder 61 pushes the pressing plate 60 to slide on the second guide rod 22, the second guide rod 22 can limit and guide the sliding of the pressing plate 60, the stability and the fluency of the sliding of the pressing plate 60 are improved, the pressing plate 60 pushes the upper dies 5 to synchronously descend to close the upper openings of the mold grooves 20, then start the mechanism 4 of pushing up, jacking cylinder 40 promotes the mounting panel 2 and slides on first guide bar 21, and first guide bar 21 can support and guide the slip of connecting plate 41 to improve the stability and the fluency that connecting plate 41 slided, thereby connecting plate 41 promotes a plurality of moulding-dies 3 synchronous motion with raw materials extrusion.

After pressing is completed, the pressing mechanism 6 is started, the pressing mechanism 6 drives the pressing plate 60 to slide upwards, the upper die 5 is withdrawn from the die cavity 20 to open the opening at the upper end of the die cavity 20, then the pressing mechanism 4 is started to drive the pressing die 3 to slide upwards so as to push the pressed perlite heat-insulating brick out of the die cavity 20, the driving part 10 is started, the driving part 10 pushes the bin 7 to slide towards the mounting plate 2, the pressed perlite heat-insulating brick and residual waste materials are pushed into the guide plate 9 from the mounting plate 2 under the action of the bin 7, the perlite heat-insulating brick slides downwards to the conveying device under the action of gravity, the residual waste materials fall into the waste material box 91 through the sieve holes 90, the limiting plate 92 can limit the sliding of the perlite heat-insulating plate on the guide plate 9, and the stability of the perlite heat-insulating plate sliding on the guide plate 9 is improved; the pressing mechanism 4 is started, the pressing die 3 slides downwards in the die cavity 20, the raw materials fall into the die cavity 20, the driving piece 10 is started to push the bin 7 to slide towards the direction departing from the mounting plate 2, then the pressing mechanism 6 is started to drive the upper die 5 to close the opening at the upper end of the die cavity 20, and the pressing operation of the next round is carried out. In conclusion, in the process of pressing the perlite heat-insulating bricks, the labor intensity of workers is reduced, and the pressing efficiency of the perlite heat-insulating bricks is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a pearlite insulating brick suppression device which characterized in that: the device comprises a support frame (1), a mounting plate (2) is horizontally arranged at one end of the support frame (1), a plurality of die grooves (20) are formed in the mounting plate (2), pressing dies (3) are arranged below the mounting plate (2) in one-to-one correspondence with the die grooves (20), one ends of the pressing dies (3) facing the mounting plate (2) are embedded in the die grooves (20) and are in sliding fit with the die grooves (20), an upper pressing mechanism (4) used for driving the pressing dies (3) to ascend is arranged below the pressing dies (3), an upper die (5) used for sealing the die grooves (20) is arranged above the mounting plate (2), a lower pressing mechanism (6) used for driving the upper die (5) to slide up and down is arranged above the upper die (5), a bin (7) is matched with the sliding on the support frame (1), a discharge port is arranged at the bottom of the bin (7), and a driving piece (7) used for driving the bin (7) to slide towards or away from the mounting plate (2) is arranged on the support frame (1) 10).

2. The pressing device for the perlite insulating bricks as recited in claim 1, which is characterized in that: the below of mounting panel (2) is provided with support frame (1), go up pressure mechanism (4) including a plurality of rigid couplings jacking cylinder (40) on support frame (1) and set up in mounting panel (2) below and with connecting plate (41) of a plurality of jacking cylinder (40) rigid couplings, moulding-die (3) deviate from the one end and the connecting plate (41) rigid coupling of die cavity (20).

3. The pressing device for the perlite insulating bricks as recited in claim 2, which is characterized in that: the mounting plate is characterized in that a plurality of first guide rods (21) are vertically arranged below the mounting plate (2), a first guide hole (410) is formed in the connecting plate (41), and the first guide rods (21) penetrate through the first guide hole (410) and are in sliding fit with the first guide hole (410).

4. The pressing device for perlite insulating bricks according to claim 3 is characterized in that: the pressing mechanism (6) comprises a pressing plate (60) arranged above the mounting plate (2) and a pressing oil cylinder (61) arranged above the pressing plate (60) and used for driving the pressing plate (60) to slide up and down, and the upper die (5) is fixedly connected onto the pressing plate (60).

5. The pressing device for perlite insulating bricks according to claim 4 is characterized in that: a plurality of second guide rods (22) are vertically arranged on the upper surface of the mounting plate (2), a fixing plate (220) is arranged at one end, deviating from the mounting plate (2), of each second guide rod (22), and the pressing oil cylinder (61) is fixedly connected onto the fixing plate (220); and a second guide hole (600) is formed in the lower pressure plate (60), and the second guide rod (22) is arranged in the second guide hole (600) in a penetrating mode and is in sliding fit with the second guide hole (600).

6. The pressing device for perlite insulating bricks according to claim 4 is characterized in that: be provided with on support frame (1) and hold layer board (11) that extend towards mounting panel (2) direction, the upper surface parallel and level of mounting panel (2) and hold layer board (11), feed bin (7) bottom and hold layer board (11) butt work as feed bin (7) are when sliding, and the discharge gate is in the closed condition under the effect of hold layer board (11) and mounting panel (2).

7. The pressing device for perlite insulating bricks according to claim 6 is characterized in that: the supporting frame is characterized in that sliding rails (12) which are the same as the supporting plate (11) in the extending direction are arranged on two sides of the supporting plate (11) on the supporting frame (1), sliding grooves (120) are formed in the sliding rails (12), sliding blocks (720) are arranged on the mounting blocks (72), and the sliding blocks (720) are embedded in the sliding grooves (120) and are in sliding fit with the sliding grooves (120).

8. The pressing device for perlite insulating bricks according to claim 7 is characterized in that: the sliding groove (120) is arranged on one surface of the two sliding rails (12) which deviates from each other.

9. The pressing device for perlite insulating bricks according to claim 7 is characterized in that: one end of the mounting plate (2) deviating from the support frame (1) is provided with a guide plate (9) which inclines downwards, a sieve mesh (90) is arranged on the surface of the guide plate (9), and an upper end open waste box (91) is arranged below the guide plate (9).

10. The pressing device for perlite insulating bricks according to claim 9 is characterized in that: the relative both sides protrusion of guide board (9) is provided with limiting plate (92), the face of limiting plate (92) is perpendicular just to extend along the length direction of guide board (9) with the face of guide board (9).