CN113459250A - Degradable environmental protection brick manufacture equipment - Google Patents

Abstract

The invention discloses degradable environment-friendly brick manufacturing equipment which structurally comprises a support, a brick making device, a hydraulic block, a swinging block and a charging opening, wherein the upper end of the support is provided with the brick making device, the hydraulic block is arranged in the middle of the bottom of the brick making device, the swinging block is clamped at two ends of the bottom of the support, the charging opening is arranged at the side end of the top of the brick making device, the brick making device comprises a discharging groove, a discharging frame, a pull handle and a mold cover, the discharging groove comprises a water storage groove, a water collecting device, a water discharging pipe and an extruding device, the water collecting device comprises a water collecting block, a water collecting hole, a water collecting groove and a water absorbing device, the water absorbing device comprises a sponge, a water guide plate, a water passing groove, a water collecting hole and a water storage block, the water storage block comprises a water storage body, an empty groove and a through hole, the hydraulic block drives the extruding device to move upwards to extrude raw materials in the discharging groove, and water mixed in the raw materials can flow away from the water discharging pipe through the extruding device, the overflow of the water mixed in the raw materials is prevented.

Description

Degradable environmental protection brick manufacture equipment

Technical Field

The invention relates to the field of environment-friendly manufacture, in particular to degradable environment-friendly brick manufacturing equipment.

Background

With the increasing waste of construction waste, the method for solving the waste can be used for burying and burning, can also be used for recycling to manufacture environment-friendly bricks, and can be used for manufacturing the environment-friendly bricks without high-temperature calcination by using fly ash, coal cinder, coal gangue, tailing slag, chemical industry slag or natural sand, tidal marsh mud, industrial waste, waste incineration slag and the like as main raw materials.

Based on the discovery of the inventor, the existing degradable environment-friendly brick manufacturing equipment mainly has the following defects, for example: the water that adds when building rubbish is made into the raw materials is too much, and moisture can mix in the raw materials for when the raw materials extrudes through the mould, the condition that can appear spilling over along with the shrink of raw materials in the moisture that mixes in the raw materials, leads to moisture and the terminal surface contact of equipment, causes the condition that the equipment surface rusted.

Disclosure of Invention

Aiming at the problems, the invention provides equipment for manufacturing degradable environment-friendly bricks.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a degradable environmental protection brick manufacture equipment, its structure includes support, brickmaking device, hydraulic pressure piece, swing piece, charge door, the upper end of support is equipped with the brickmaking device, the hydraulic pressure piece sets up in the bottom centre of brickmaking device, swing piece block in the bottom both ends of support, and cooperate with the up end of brickmaking device, the charge door sets up the top side at the brickmaking device, the brickmaking device includes blowing groove, blowing frame, pull handle, mould lid, the blowing groove sets up in the inside centre of brickmaking device, the blowing frame block is in the top side of brickmaking device, the pull handle is connected in the right side of blowing frame, the mould lid block is in the right side of brickmaking device, and with blowing groove looks block.

Further, the blow-off groove includes catch basin, water-collecting device, drain pipe, extrusion device, the catch basin sets up the left side at the blow-off groove, water-collecting device is located the right side of catch basin, drain pipe connection is in the middle of the bottom of catch basin is positive, the inside of extrusion device and blow-off groove cooperatees, the drain pipe is connected with the bottom of extrusion device.

Further, water-collecting device includes catchment piece, water absorption hole, water catch bowl, water absorption device, the piece of catchmenting inlays the left side terminal surface at the blowing groove, the water absorption hole is equipped with seven, and arranges in the right side terminal surface of catchment piece perpendicularly, the water catch bowl is connected in the rear end in the hole that absorbs water, the left side at the water catch bowl is installed in the slope of water absorption device, the contained angle between water absorption device and the horizontal plane is 15 degrees.

Further, water absorption device includes sponge, water guide plate, water trough, water collecting hole, retaining piece, the sponge sets up the inboard at water absorption device, the water guide plate is equipped with two, and sets up both ends about the sponge is inside respectively, the water trough is located the inside centre of water guide plate, the water collecting hole is equipped with more than four, and transverse arrangement in the up end of water guide plate to be linked together with the water trough, the retaining piece inlays admittedly in the rear end of water guide plate, the contained angle between water guide plate and the horizontal plane is 15 degrees.

Further, the retaining piece includes the retaining body, dead slot, through-hole, the up end of the retaining body is circular-arc, the dead slot sets up the inside at the retaining body, the through-hole is equipped with more than five, and arranges in the outer terminal surface of the retaining body of surrounding, the width of through-hole is dwindled by outside to inboard gradually.

Further, the extrusion device includes supporting seat, stripper plate, tye, aqueduct, undercuts the piece, the stripper plate has been inlayed to the upper end of supporting seat, the side of stripper plate and the side clearance fit of blowing groove, the tye sets up the inside at the stripper plate, the aqueduct sets up in the bottom left side of stripper plate, and is linked together with the tye, undercuts the piece and is equipped with six, and uses two to be a set of transverse arrangement in the upper end of stripper plate, the aqueduct is connected with the drain pipe.

Further, it includes cavity, fixed block, intake antrum, elastic rod, kicking block, underflow groove to draw the empty piece, the cavity sets up the inside of drawing the empty piece, the fixed block inlays at the top of cavity in the middle of being positive, the intake antrum is equipped with five, and encircles and arrange in the side top of cavity, the elastic rod is equipped with five, and encircles and arrange in the side of fixed block, the kicking block inlays at the end of elastic rod, the underflow groove is located the lower extreme of intake antrum, kicking block and intake antrum looks block, the contained angle between underflow groove and the horizontal plane is 60 degrees.

Further, the underflow groove includes cell body, water conservancy diversion piece, elastic sheet, dead slot, the inside of cell body is equipped with the water conservancy diversion piece, the water conservancy diversion piece is equipped with two, and transverse arrangement is in the inside of cell body, the elastic sheet inlays the top left side at the cell body, the dead slot is located the inside of elastic sheet, the elastic sheet is the spring steel material, has stronger elasticity.

Advantageous effects

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

1. the extrusion device is driven by the hydraulic block to move upwards to extrude and form the raw materials in the feeding groove, and the water mixed in the raw materials can flow away into the drain pipe through the extrusion device when being extruded, so that the overflow of the water mixed in the raw materials is prevented.

2. According to the invention, the elastic rod is driven to contract by the ejection block under the extrusion of the raw material, so that the ejection block moves towards the inner end of the water inlet groove, the downward flow groove is exposed on the end surface of the water inlet groove, the moisture can flow downwards into the cavity from the downward flow groove, and the speed of draining the water flow is increased.

Drawings

FIG. 1 is a schematic structural view of a degradable environmental protection brick manufacturing device according to the present invention.

Fig. 2 is a schematic front view of the brick making device of the present invention.

Fig. 3 is a front view of the discharging trough of the present invention.

Fig. 4 is a schematic front view of the water collecting device of the present invention.

Fig. 5 is a schematic front view of the water absorbing device of the present invention.

Fig. 6 is a schematic structural view of a water storage block in elevation of the present invention.

Fig. 7 is a schematic front view of the extruding apparatus of the present invention.

Fig. 8 is a front view of the hollowed block of the present invention.

Fig. 9 is a schematic view of the structure of the downcomer in front view.

In the figure: the device comprises a bracket 1, a brick making device 2, a hydraulic block 3, a swinging block 4, a charging port 5, a discharging groove 21, a discharging frame 22, a pull handle 23, a mold cover 24, a water storage groove 211, a water collecting device 212, a water discharging pipe 213, an extruding device 214, a water collecting block a1, a water suction hole a2, a water collecting groove a3, a water suction device a4, sponge a41, a water guide plate a42, a water passage groove a43, a water collecting hole a44, a water storage block a45, a water storage body b1, an empty groove b2, a through hole b3, a supporting seat c1, an extruding plate c2, a water flowing groove c3, a water guide pipe c4, an emptying block c5, a cavity c51, a fixed block c52, a water inlet groove c53, an elastic rod c54, a top block c55, a lower flowing groove c56, a groove body d1, a flow guide piece d2, an elastic piece d3 and an empty groove d 4.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows: referring to fig. 1-6, the embodiments of the present invention are as follows:

its structure includes support 1, brickmaking device 2, hydraulic block 3, swing block 4, charge door 5, the upper end of support 1 is equipped with brickmaking device 2, hydraulic block 3 sets up in the middle of brickmaking device 2's bottom is positive, swing block 4 block is in the bottom both ends of support 1, and cooperatees with brickmaking device 2's up end, charge door 5 sets up the top side at brickmaking device 2, brickmaking device 2 includes blowing groove 21, blowing frame 22, pull handle 23, mould lid 24, blowing groove 21 sets up in the middle of brickmaking device 2's inside is positive, blowing frame 22 block is in brickmaking device 2's top side, pull handle 23 is connected in the right side of blowing frame 22, mould lid 24 blocks in brickmaking device 2's right side, and the block mutually with blowing groove 21.

Discharge tank 21 includes catch basin 211, water-collecting device 212, drain pipe 213, extrusion device 214, catch basin 211 sets up the left side at discharge tank 21, water-collecting device 212 is located catch basin 211's right side, drain pipe 213 is connected in the bottom centre of catch basin 211, extrusion device 214 cooperatees with discharge tank 21's inside, drain pipe 213 is connected with extrusion device 214's bottom, is favorable to pressing device 214 rebound to carry out extrusion to the raw materials of placing in discharge tank 21.

The water collecting device 212 comprises a water collecting block a1, a water suction hole a2, a water collecting tank a3 and a water suction device a4, wherein the water collecting block a1 is embedded in the left end face of the discharging tank 21, seven water suction holes a2 are formed in the water collecting block a1, the water collecting tank a3 is connected to the rear end of the water suction hole a2, the water suction device a4 is obliquely arranged on the left side of the water collecting tank a3, and the included angle between the water suction device a4 and the horizontal plane is 15 degrees, so that water can be favorably absorbed into the water collecting tank a3 through the water suction hole a 2.

The water absorbing device a4 comprises a sponge a41, a water guide plate a42, water passing grooves a43, water collecting holes a44 and a water storage block a45, the sponge a41 is arranged on the inner side of the water absorbing device a4, the water guide plate a42 is provided with two water passing grooves a42 which are respectively arranged at the upper end and the lower end of the inside of the sponge a41, the water passing grooves a43 are located in the middle of the inside of the water guide plate a42, the water collecting holes a44 are more than four and are transversely arranged on the upper end face of the water guide plate a42 and communicated with the water passing grooves a43, the water storage block a45 is fixedly embedded at the rear end of the water guide plate a42, an included angle between the water guide plate a42 and the horizontal plane is 15 degrees, so that water can be absorbed through the water collecting holes a44 in the water guide plate a42, and excessive water flow can be prevented from being retained in the sponge a 41.

The water storage block a45 comprises a water storage body b1, an empty groove b2 and a through hole b3, the upper end face of the water storage body b1 is arc-shaped, the empty groove b2 is arranged inside the water storage body b1, more than five through holes b3 are arranged and surround the outer end face of the water storage body b1 to be arranged, the width of the through hole b3 is gradually reduced from the outer side to the inner side, and water flow is guided into the empty groove b2 through the through hole b 3.

Based on the above embodiment, the specific working principle is as follows: when the raw material is extruded through the die, the moisture mixed in the raw material overflows along with the shrinkage of the raw material, the extrusion device 214 is driven by the hydraulic block 3 to move upwards to extrude the raw material in the discharge chute 21, the moisture mixed in the raw material can flow away from the drain pipe 213 through the extrusion device 214 after being extruded, the included angle between the water suction device a4 and the horizontal plane is set to be 15 degrees, the moisture can be absorbed into the water collection tank a3 through the water suction hole a2, the moisture is guided into the water storage tank 211 through the water suction device a4, the included angle between the water guide plate a42 and the horizontal plane is set to be 15 degrees, the water collection hole a44 in the water guide plate a42 can absorb the moisture, the water flow is guided into the water storage tank 211 through the water passage tank a43, excessive water flow in the sponge a41 is avoided, the retention and drainage speed is accelerated, and finally, the width of the through hole b3 is gradually reduced from the outer side to the inner side, can lead water flow to empty groove b2 through-hole b3 to accelerate the speed that water flow discharged, prevent to mix the condition that the moisture appearance that appears overflowing in the raw materials.

Example two: referring to fig. 7-9, the embodiment of the present invention is as follows:

the squeezing device 214 comprises a supporting seat c1, a squeezing plate c2, a water flowing groove c3, a water guide pipe c4 and a hollow block c5, wherein the squeezing plate c2 is embedded at the upper end of the supporting seat c1, the side end of the squeezing plate c2 is movably matched with the side end of the discharging groove 21, the water flowing groove c3 is arranged inside the squeezing plate c2, the water guide pipe c4 is arranged on the left side of the bottom of the squeezing plate c2 and communicated with the water flowing groove c3, six hollow blocks c5 are arranged and transversely arranged at the upper end of the squeezing plate c2 in a group of two water guide pipes c4 and the water guide pipes c4 are connected with the water discharge pipe 213, so that the water overflowing by squeezing is absorbed by the hollow blocks c 5.

The hollowed block c5 comprises a cavity c51, a fixed block c52, a water inlet groove c53, an elastic rod c54, a top block c55 and a water outlet groove c56, the cavity c51 is arranged inside the hollowed block c5, the fixed block c52 is embedded in the middle of the top of the cavity c51, five water inlet grooves c53 are arranged and surround the side end of the cavity c51, five elastic rods c54 are arranged and surround the side end of the fixed block c52, the top block c55 is embedded at the tail end of the elastic rod c54, the water outlet groove c56 is located at the lower end of the water inlet groove c53, the top block c55 is engaged with the water inlet groove c53, and the included angle between the water outlet groove c56 and the horizontal plane is 60 degrees, so that the elastic rod c54 is driven to shrink by the extrusion of raw materials through the top block c55, and the water inlet groove c56 is exposed on the end face of the 53.

The underflow groove c56 includes cell body d1, water conservancy diversion piece d2, elastic sheet d3, dead slot d4, the inside of cell body d1 is equipped with water conservancy diversion piece d2, water conservancy diversion piece d2 is equipped with two, and transverse arrangement is in the inside of cell body d1, elastic sheet d3 inlays the top left side at cell body d1, dead slot d4 is located the inside of elastic sheet d3, elastic sheet d3 is the spring steel material, has stronger elasticity, is favorable to closely closing in the bottom of kicking block c55 through the elasticity of elastic sheet d3 self, will attach the raw materials of kicking block c55 bottom and scrape off.

Based on the above embodiment, the specific working principle is as follows: the water guide pipe c4 is connected with the drain pipe 213, the water overflowing by extrusion can be absorbed by the emptying block c5, the water guide pipe c4 is used for guiding the water flow into the drain pipe 213, the included angle between the downward flow groove c56 and the horizontal plane is set to be 60 degrees, the elastic rod c54 can be driven to contract by the extrusion of the raw materials on the top block c55, the top block c55 moves towards the inner end of the water inlet groove c53, the downward flow groove c56 is exposed on the end face of the water inlet groove c53, the water can flow downwards into the cavity c51 from the downward flow groove c56, finally, the elastic sheet d3 is tightly attached to the bottom end of the top block c55 by the elasticity of the elastic sheet d3, when the top block c55 moves inwards, the raw materials attached to the bottom of the top block c55 can be scraped, the raw materials are prevented from falling into the groove d1, the water in the raw materials can be discharged, and the water flow discharging speed is increased.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides an equipment is made to degradable environmental protection brick, its structure includes support (1), brickmaking device (2), hydraulic pressure piece (3), swing piece (4), charge door (5), the upper end of support (1) is equipped with brickmaking device (2), hydraulic pressure piece (3) set up in the middle of the bottom of brickmaking device (2) is positive, swing piece (4) block in the bottom both ends of support (1), and cooperate with the up end of brickmaking device (2), charge door (5) set up the top side at brickmaking device (2), its characterized in that:

brickmaking device (2) are including blowing groove (21), blowing frame (22), pull handle (23), mould lid (24), blowing groove (21) set up at the inside centre of brickmaking device (2), blowing frame (22) block is in the top side of brickmaking device (2), pull handle (23) are connected in the right side of blowing frame (22), mould lid (24) block is in the right side of brickmaking device (2), and with blowing groove (21) looks block.

2. The apparatus for manufacturing degradable environmental protection brick according to claim 1, wherein: the feed trough (21) comprises a water storage tank (211), a water collecting device (212), a water discharging pipe (213) and an extruding device (214), wherein the water storage tank (211) is arranged on the left side of the feed trough (21), the water collecting device (212) is arranged on the right side of the water storage tank (211), the water discharging pipe (213) is connected to the middle of the bottom of the water storage tank (211), and the extruding device (214) is matched with the inside of the feed trough (21).

3. The apparatus for manufacturing degradable environmental protection brick according to claim 2, wherein: the water collecting device (212) comprises a water collecting block (a1), a water suction hole (a2), a water collecting groove (a3) and a water suction device (a4), wherein the water collecting block (a1) is embedded in the left end face of the discharging groove (21), seven water suction holes (a2) are formed in the right end face of the water collecting block (a1), the water collecting groove (a3) is connected to the rear end of the water suction hole (a2), and the water suction device (a4) is obliquely installed on the left side of the water collecting groove (a 3).

4. The apparatus for manufacturing degradable environmental protection brick according to claim 3, wherein: the water absorbing device (a4) comprises a sponge (a41), a water guide plate (a42), a water trough (a43), a water collecting hole (a44) and a water storage block (a45), wherein the sponge (a41) is arranged on the inner side of the water absorbing device (a4), the water guide plate (a42) is provided with two water guide plates, the two water guide plates are respectively arranged at the upper end and the lower end of the inside of the sponge (a41), the water trough (a43) is located in the middle of the inside of the water guide plate (a42), the water collecting hole (a44) is provided with more than four water collecting blocks, the water collecting blocks are transversely arranged on the upper end face of the water guide plate (a42) and communicated with the water guide plate (a43), and the water storage block (a45) is fixedly embedded at the rear end of the water guide plate (a 42).

5. The apparatus for manufacturing degradable environmental protection brick according to claim 4, wherein: the water storage block (a45) comprises water storage bodies (b1), empty grooves (b2) and through holes (b3), the upper end faces of the water storage bodies (b1) are arc-shaped, the empty grooves (b2) are arranged inside the water storage bodies (b1), and more than five through holes (b3) are arranged and surround the outer end faces of the water storage bodies (b1) to be arranged.

6. The apparatus for manufacturing degradable environmental protection brick according to claim 2, wherein: extrusion device (214) include supporting seat (c1), stripper plate (c2), tye (c3), aqueduct (c4), draw empty block (c5), the inherent stripper plate (c2) of upper end inlay of supporting seat (c1), the side end of stripper plate (c2) and the side end clearance fit of baiting groove (21), tye (c3) sets up the inside at stripper plate (c2), aqueduct (c4) set up in the bottom left side of stripper plate (c2), and be linked together with tye (c3), draw empty block (c5) to be equipped with six, and use two to be a set of transverse arrangement in the upper end of stripper plate (c 2).

7. The apparatus for manufacturing degradable environmental protection brick according to claim 6, wherein: draw empty piece (c5) including cavity (c51), fixed block (c52), intake channel (c53), elastic rod (c54), kicking block (c55), underflow groove (c56), cavity (c51) sets up the inside of drawing empty piece (c5), fixed block (c52) are inlayed and are fixed in the middle of the top of cavity (c51) is median, intake channel (c53) are equipped with five, and encircle the side top arrangement in cavity (c51), elastic rod (c54) are equipped with five, and encircle the side arrangement in fixed block (c52), kicking block (c55) are inlayed and are fixed at the end of elastic rod (c54), underflow groove (c56) is located the lower extreme of intake channel (c 53).

8. The apparatus for manufacturing degradable environmental protection brick according to claim 7, wherein: the downward chute (c56) includes cell body (d1), water conservancy diversion piece (d2), elastic sheet (d3), dead slot (d4), the inside of cell body (d1) is equipped with water conservancy diversion piece (d2), water conservancy diversion piece (d2) are equipped with two, and transverse arrangement is in the inside of cell body (d1), elastic sheet (d3) are embedded and are fixed on the left side of the top of cell body (d1), dead slot (d4) are located the inside of elastic sheet (d 3).

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