CN112917646A - Wear-resistant refractory brick mold and rapid preparation method thereof - Google Patents

Abstract

The invention relates to the technical field of refractory brick production equipment, in particular to a wear-resistant refractory brick mold and a rapid preparation method thereof, and the technical scheme is as follows: the fireproof brick mold comprises a frame, an ejection mechanism, a fireproof brick mold, a pushing mechanism and a brick pressing mechanism, wherein the ejection mechanism is fixedly installed inside the frame, the fireproof brick mold is arranged at the top of the ejection mechanism, the pushing mechanism is arranged at the rear end of the fireproof brick mold, the brick pressing mechanism is arranged at the top of the fireproof brick mold, the frame comprises a base, a bottom plate is fixedly installed at the top of the base, guide posts are fixedly installed at two ends of the top of the bottom plate, a positioning plate is fixedly installed at the top of the outer wall of the fireproof brick mold, and a first guide sleeve is fixedly installed at two ends of the positioning plate: the spring has the effect of elastic buffering to the locating plate, reduces and is caused wearing and tearing by extrusion die's effort, and the firebrick mould under the buffering function can prevent that resistant firebrick product from adsorbing at firebrick mould inner wall, makes the successful drawing of patterns of firebrick mould, reduces the burr phenomenon.

Description

Wear-resistant refractory brick mold and rapid preparation method thereof

Technical Field

The invention relates to the technical field of refractory brick production equipment, in particular to a wear-resistant refractory brick mold and a rapid preparation method thereof.

Background

Refractory materials are generally divided into two categories, namely unshaped refractory and shaped refractory. The unshaped refractory material, also called as casting material, is a mixed powder granule composed of various aggregates or aggregates and one or more kinds of adhesives, and when in use, the unshaped refractory material must be matched with one or more kinds of liquids to be stirred uniformly, and has stronger fluidity. The shaped refractory material is generally a refractory brick, the shape of which has standard rules and can also be temporarily processed when being built and cut as required.

The existing refractory material pressing forming machine still has some defects, which affect the use: the action force of the extrusion die in the pressing process of the refractory material pressing forming machine leads to abrasion of the refractory brick die, the size is large when the product is formed, the edge burrs are more, the existing refractory brick die is fixed in position, the formed refractory brick is affected by the extrusion suction when being separated from the refractory brick die in the demolding process, demolding is not easy, and after forced demolding, the burr phenomenon appears on the outer wall of the refractory brick product.

Therefore, it is necessary to invent a wear-resistant refractory brick mold and a rapid preparation method thereof.

Disclosure of Invention

The top of the inner wall of the refractory brick mold is provided with a groove for fixedly mounting a fine steel wear-resistant block, two ends of the top of a fixing plate are provided with springs which are sleeved on guide posts, and the top of each spring is connected with the bottom of a positioning plate, so that the problems that the refractory brick mold is worn due to the acting force of an extrusion mold in the pressing process of a refractory material pressing forming machine, the size of a product is large during forming, the edge burrs are more, the formed refractory brick is influenced by the extrusion suction force when being separated from the refractory brick mold, and demolding is not easy to occur are solved.

In order to achieve the above purpose, the invention provides the following technical scheme: a wear-resistant refractory brick die comprises a frame, an ejection mechanism, a refractory brick die, a pushing mechanism and a brick pressing mechanism, wherein the ejection mechanism is fixedly installed inside the frame, the refractory brick die is arranged at the top of the ejection mechanism, the pushing mechanism is arranged at the rear end of the refractory brick die, the brick pressing mechanism is arranged at the top of the refractory brick die, the frame comprises a base, a bottom plate is fixedly installed at the top of the base, guide posts are fixedly installed at two ends of the top of the bottom plate, a positioning plate is fixedly installed at the top of the outer wall of the refractory brick die, a first guide sleeve is fixedly installed at two ends of the positioning plate, the first guide sleeve is sleeved on the guide posts, a fine steel wear-resistant block is fixedly installed at the top of the inner wall of the refractory brick die through a groove, the top of the refractory brick die, evenly set up the mould hole on the fixed plate, resistant firebrick mould cup joints at the mould hole inner wall, fixed plate top both ends are equipped with the spring, the spring cup joints on the guide post, the locating plate bottom is connected at the spring top, fixed plate top both ends fixed mounting baffle, baffle one end sets up at the locating plate top.

Preferably, the ejection mechanism comprises a first hydraulic cylinder, the first hydraulic cylinder is fixedly mounted in the middle of the top of the base, a guide pillar plate is fixedly mounted at the output end of the first hydraulic cylinder, guide pillars are uniformly mounted on the top of the guide pillar plate, the tops of the guide pillars are inserted into the inner wall of the mold hole, the outer wall of each guide pillar is connected with the inner wall of the refractory brick mold, and the tops of the guide pillars are flush with the top of the fixing plate.

Preferably, the middle of the top of the bottom plate is provided with a step through hole connected with the guide pillar plate.

Preferably, the pushing mechanism comprises a storage frame, sliders are fixedly mounted at two ends of the storage frame, a bearing plate is fixedly mounted on the guide post, a guide post is fixedly mounted at the top of the bearing plate, the top of the guide post is slidably connected with the sliders, a screen is mounted in the middle of the bottom of the storage frame through a through hole, a leakage-proof plate is arranged at the bottom of the storage frame, an electric push plate support is fixedly mounted at the left end of the leakage-proof plate, an electric push rod is fixedly mounted at the top of the electric push plate support, the output end of the electric push rod is fixedly connected with the storage frame, and the top of the leakage-proof plate.

Preferably, the bottom of the leakage-proof plate is fixed through a support, clamping plates are evenly installed at the front end of the material storage frame, a miniature electric push rod is installed on the inner wall of each clamping plate, the distance between the two groups of clamping plates is larger than the width of the refractory brick mold, and a second positioner is installed on the left side of the leakage-proof plate.

Preferably, the top of the guide post is fixedly provided with a top plate, the brick pressing mechanism comprises a second hydraulic rod, the second hydraulic rod is fixedly arranged at the bottom of the top plate, the output end of the second hydraulic rod is fixedly provided with a push plate, two ends of the push plate are fixedly provided with a second guide sleeve, the inner wall of the second guide sleeve is sleeved with the guide post, the bottom of the push plate is uniformly provided with a vibrating motor, and the bottom of the vibrating motor is fixedly provided with an extrusion die.

Preferably, the bottom of the extrusion die corresponds to the position of the refractory brick die.

Preferably, the right end of the frame is provided with a conveyor belt, the top of the conveyor belt is flush with the top of the positioning plate, and the left end of the conveyor belt is provided with a third positioner.

Preferably, a first positioner is fixedly mounted above the guide column, and the first positioner is arranged above the push plate.

The rapid preparation method of the wear-resistant refractory brick further comprises the following preparation steps:

s1, placing a raw material product in a storage frame, starting an electric push rod to move the storage frame to a positioning plate, and stopping moving when the storage frame moves out of the detection range of a second positioner;

s2, starting the miniature electric push rod to clamp the formed refractory brick, starting the electric push rod again, moving the storage frame to the conveying belt in the tool group through the electric push rod, stopping pushing of the electric push rod after the third positioner on the conveying belt detects the clamping plate, and contracting the miniature electric push rod to release the formed refractory brick product;

s3, starting the electric push rod to contract and return to the original position, and enabling the raw materials of the product to fall into the refractory brick mold through a screen of the material storage frame;

s4, starting a second hydraulic rod to extend downwards, inserting the second hydraulic rod into the inner wall of a refractory brick mold for extrusion, elastically buffering the refractory brick mold in extrusion through a spring, contracting the extruded second hydraulic rod, and stopping the second hydraulic rod after a first positioner detects that the second hydraulic rod returns to the original position;

s5, starting the hydraulic cylinder to push upwards, pushing out the product formed in the refractory brick mold by the guide pillars on the guide pillar plates, and starting the step S1 to perform a circulating operation.

The invention has the beneficial effects that: a groove is formed in the top of the inner wall of the refractory brick die for fixedly mounting a fine steel wear-resisting block, and the fine steel wear-resisting block is made of a fine steel material with higher hardness, so that the effect of reducing the wear of the refractory brick die is achieved;

the bottom of the positioning plate is provided with a fixing plate, two ends of the fixing plate are fixedly arranged on the guide posts, the fixing plate is uniformly provided with mold holes, the refractory brick mold is sleeved on the inner wall of the mold hole, two ends of the top of the fixing plate are provided with springs, the springs are sleeved on the guide posts, the top of the springs is connected with the bottom of the positioning plate, one end of each baffle is arranged at the top of the positioning plate, the fixing plate has a positioning effect on the refractory brick mold, the mold holes have a positioning effect on the refractory brick mold, the springs have an elastic buffering effect on the positioning plate, abrasion caused by the acting force of the extrusion mold is reduced, the refractory brick mold under the buffering operation can prevent refractory brick products from;

offer the mould hole on the fixed plate to extend to the mould downthehole portion with resistant firebrick mould, extend to the mould downthehole portion with the guide pillar again, guide pillar outer wall laminating refractory brick mould inner wall prevents that product raw materials from spilling from resistant firebrick mould.

Drawings

FIG. 1 is a front view provided by the present invention;

FIG. 2 is a left side view provided by the present invention;

FIG. 3 is a top view of the pushing mechanism provided by the present invention;

FIG. 4 is a front view of the brick pressing mechanism provided by the present invention;

FIG. 5 is a schematic view of a refractory brick mold according to the present invention;

FIG. 6 is an enlarged view of area A of FIG. 1 in accordance with the present invention;

fig. 7 is an enlarged view of the area B in fig. 2 according to the present invention.

In the figure: the device comprises a frame 100, a base 110, a bottom plate 120, a guide post 130, a top plate 140, an ejection mechanism 200, a first hydraulic cylinder 210, a guide post plate 220, a guide post 230, a refractory brick mold 300, a finish steel wear-resistant block 310, a positioning plate 320, a first guide sleeve 330, a baffle 340, a fixing plate 350, a mold hole 360, a spring 370, a pushing mechanism 400, a storage frame 410, a sliding block 420, a screen 430, a bearing plate 440, a guide post 450, a leakage-proof plate 460, an electric pushing plate bracket 461, an electric pushing rod 470, a clamping plate 480, a micro electric pushing rod 481, a conveyor belt 500, a brick pressing mechanism 600, a second hydraulic rod 610, a pushing plate 620, a second guide sleeve 630, a vibration motor 640, an extrusion mold 650, a first positioner 700, a second positioner.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Referring to fig. 1-7, the wear-resistant refractory brick mold and the rapid manufacturing method thereof according to the present invention includes a frame 100, an ejection mechanism 200, a refractory brick mold 300, a pushing mechanism 400, and a brick pressing mechanism 600;

further, an ejection mechanism 200 is fixedly installed inside the frame 100, a refractory brick mold 300 is arranged at the top of the ejection mechanism 200, a pushing mechanism 400 is arranged at the rear end of the refractory brick mold 300, a brick pressing mechanism 600 is arranged at the top of the refractory brick mold 300, the frame 100 comprises a base 110, the top of the base 110 is in threaded connection with a bottom plate 120, guide posts 130 are fixedly installed at two ends of the top of the bottom plate 120, a positioning plate 320 is fixedly installed at the top of the outer wall of the refractory brick mold 300, guide sleeves 330 are fixedly installed at two ends of the positioning plate 320, the guide sleeves 330 are sleeved on the guide posts 130, a groove is formed at the top of the inner wall of the refractory brick mold 300, a fine steel wear-resistant block 310 is fixedly installed, the top of the refractory brick mold 300 is flush with the top of the positioning plate 320, a fixing plate 350 is arranged at the bottom of the positioning plate 320, two ends, the spring 370 is sleeved on the guide post 130, the top of the spring 370 is connected with the bottom of the positioning plate 320, two ends of the top of the fixing plate 350 are fixedly provided with the baffle plates 340, one ends of the baffle plates 340 are arranged at the top of the positioning plate 320, specifically, the base 110 has an installation effect on the bottom plate 120, the bottom plate 120 has an installation effect on the guide post 130, the guide post 130 has a positioning effect on the positioning plate 320, the refractory brick mold 300 has a storage effect on refractory brick raw materials, the positioning plate 320 has a fixing effect on the refractory brick mold 300, the guide sleeve I330 has an effect of moving the positioning plate 320 up and down on the guide post 130, the fine steel wear-resistant block 310 is made of fine steel materials with higher hardness, the effect of reducing the wear of the refractory brick mold 300 is achieved, the fixing plate 350 has a positioning effect on the refractory brick mold 300, the mold hole, the baffle 340 has a limiting function on the positioning plate 320;

further, the ejection mechanism 200 comprises a first hydraulic cylinder 210, the first hydraulic cylinder 210 is in threaded connection with the middle of the top of the base 110, a guide pillar plate 220 is fixedly mounted at the output end of the first hydraulic cylinder 210, guide pillars 230 are uniformly mounted on the top of the guide pillar plate 220, the tops of the guide pillars 230 are inserted into the inner wall of the mold holes 360, the outer walls of the guide pillars 230 are connected with the inner wall of the refractory brick mold 300, the tops of the guide pillars 230 are flush with the top of the fixing plate 350, specifically, the first hydraulic cylinder 210 has an up-and-down movement effect on the guide pillar plate 220, the guide pillar plate 220 has an installation effect on the guide;

further, a step through hole is formed in the middle of the top of the bottom plate 120 and connected with the guide post plate 220;

further, the material pushing mechanism 400 includes a material storing frame 410, sliders 420 are fixedly mounted at two ends of the material storing frame 410, a bearing plate 440 is fixedly mounted on the guide post 130, a guide post 450 is fixedly mounted at the top of the bearing plate 440, the top of the guide post 450 is slidably connected with the sliders 420, a screen 430 is mounted in the middle of the bottom of the material storing frame 410 through a hole, a leakage-proof plate 460 is arranged at the bottom of the material storing frame 410, a current-proof plate support 461 is fixedly mounted at the left end of the leakage-proof plate 460, a current-proof push rod 470 is fixedly mounted at the top of the current-proof plate support 461, the output end of the current-push rod 470 is fixedly connected with the material storing frame 410, the top of the leakage-proof plate 460 is flush with the top of the positioning plate 320, specifically, the material storing frame 410 has a function of storing product materials, the sliders 420 has a sliding function on the material storing frame 410, the screen 430 has a filtering function on the product materials, the leakage-, the electric push rod 470 has the pushing and retracting functions on the storage frame 410;

further, the bottom of the leakage-proof plate 460 is fixed through a support, the clamping plates 480 are uniformly arranged at the front end of the storage frame 410, the micro electric push rods 481 are arranged on the inner walls of the clamping plates 480, the distance between the two groups of clamping plates 480 is larger than the width of the refractory brick mold 300, and the second positioner 710 is arranged on the left side of the leakage-proof plate 460. specifically, the clamping plates 480 are used for clamping products through the extension of the micro electric push rods 481 and moving the products to the conveyor belt 500 after being separated from the refractory brick mold 300 through the movement of the storage frame 410.

Further, the top of the guide post 130 is fixedly provided with the top plate 140, the brick pressing mechanism 600 comprises a second hydraulic rod 610, the second hydraulic rod 610 is fixedly arranged at the bottom of the top plate 140, the output end of the second hydraulic rod 610 is fixedly provided with the push plate 620, two ends of the push plate 620 are fixedly provided with the guide sleeves 630, the inner wall of the two guide sleeves 630 is sleeved with the guide post 130, the bottom of the push plate 620 is uniformly provided with the vibrating motor 640, the bottom of the vibrating motor 640 is fixedly provided with the extrusion die 650, concretely, the top plate 140 has a fixing effect on the brick pressing mechanism 600, the second hydraulic rod 610 has a lifting effect on the push plate 620, the two guide sleeves 630 have a moving effect on the push plate 620, the vibrating motor 640 has a vibration balancing effect on the raw materials inside the refractory brick die 300, the extrusion die 650 extrudes the.

Further, the bottom of the extrusion mold 650 corresponds to the position of the firebrick mold 300.

Further, frame 100 right-hand member is equipped with conveyer belt 500, and the conveyer belt 500 top flushes with locating plate 320 top, and the third 720 of locator is installed to the conveyer belt 500 left end, and is concrete, and conveyer belt 500 adopts crawler-type conveyer belt, and conveyer belt 500's effect shifts out the product, and the third 720 of locator adopts the infrared locator, and the third 720 of locator has the effect of detecting to the removal of splint 480.

Further, a first positioner 700 is fixedly mounted above the guide column 130, and the first positioner 700 is arranged above the push plate 620.

The using process of the invention is as follows: a person skilled in the art connects the circuit components of the device with a controller and a power supply, places the raw material product inside the material storage frame 410, starts the electric push rod 470 to move the material storage frame 410 to the positioning plate 320, and stops moving when the material storage frame 410 moves out of the detection range of the second positioner 710; starting the miniature electric push rod 481 to clamp the formed refractory brick, starting the electric push rod 470 again, moving the material storage frame 410 to the conveyor belt 500 in the tool group through the electric push rod 470, stopping the pushing of the electric push rod 470 after a third positioner 720 on the conveyor belt 500 detects the clamping plate 480, and contracting the miniature electric push rod 481 to release the formed refractory brick product; the electric push rod 470 is actuated to contract and return to the original position, and the product raw material drops inside the firebrick mold 300 through the screen 430 of the storage frame 410; the second hydraulic rod 610 is started to extend downwards and is inserted into the inner wall of the refractory brick mold 300 for extrusion, the refractory brick mold 300 in extrusion is elastically buffered through a spring 370, the second hydraulic rod 610 after extrusion is contracted, and the first positioner 700 stops the operation of the second hydraulic rod 610 after detecting that the second hydraulic rod 610 returns to the original position; the first hydraulic cylinder 210 is actuated to advance upwards, the guide post 230 on the guide post plate 220 pushes out the product molded inside the firebrick mold 300, and the step S1 is actuated to perform a cycle operation.

The above description is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solution described above. Therefore, any simple modifications or equivalent substitutions made in accordance with the technical solution of the present invention are within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a wear-resisting resistant firebrick mould, includes frame (100), ejection mechanism (200), firebrick mould (300), pushing equipment (400) and brick pressing mechanism (600), frame (100) inside fixed mounting ejection mechanism (200), ejection mechanism (200) top is equipped with firebrick mould (300), firebrick mould (300) rear end is equipped with pushing equipment (400), firebrick mould (300) top is equipped with brick pressing mechanism (600), its characterized in that: the frame (100) comprises a base (110), a bottom plate (120) is fixedly installed at the top of the base (110), guide posts (130) are fixedly installed at two ends of the top of the bottom plate (120), a positioning plate (320) is fixedly installed at the top of the outer wall of the refractory brick mold (300), guide sleeves (330) are fixedly installed at two ends of the positioning plate (320), the guide sleeves (330) are sleeved on the guide posts (130), fine steel wear-resistant blocks (310) are fixedly installed on the tops of the inner walls of the refractory brick mold (300) in a groove mode, the tops of the refractory brick mold (300) are flush with the tops of the positioning plate (320), a fixing plate (350) is arranged at the bottom of the positioning plate (320), two ends of the fixing plate (350) are fixedly installed on the guide posts (130), mold holes (360) are uniformly formed in the fixing plate (350), and the refractory brick mold (300), the spring (370) is arranged at two ends of the top of the fixing plate (350), the spring (370) is sleeved on the guide post (130), the top of the spring (370) is connected with the bottom of the positioning plate (320), the two ends of the top of the fixing plate (350) are fixedly provided with the baffle (340), and one end of the baffle (340) is arranged at the top of the positioning plate (320).

2. The wear-resistant refractory brick mold of claim 1, wherein: the ejection mechanism (200) comprises a first hydraulic cylinder (210), the first hydraulic cylinder (210) is fixedly mounted in the middle of the top of the base (110), a guide pillar plate (220) is fixedly mounted at the output end of the first hydraulic cylinder (210), guide pillars (230) are uniformly mounted on the top of the guide pillar plate (220), the tops of the guide pillars (230) are inserted into the inner wall of a mold hole (360), the outer wall of the guide pillar (230) is connected with the inner wall of a refractory brick mold (300), and the tops of the guide pillars (230) are flush with the top of the fixing plate (350).

3. The wear-resistant refractory brick mold of claim 1, wherein: the middle of the top of the bottom plate (120) is provided with a step through hole which is connected with the guide post plate (220).

4. The wear-resistant refractory brick mold of claim 1, wherein: the material pushing mechanism (400) comprises a material storage frame (410), sliding blocks (420) are fixedly installed at two ends of the material storage frame (410), a bearing plate (440) is fixedly installed on a guide post (130), a guide post (450) is fixedly installed at the top of the bearing plate (440), the top of the guide post (450) is slidably connected with the sliding blocks (420), a through hole installation screen (430) is formed in the middle of the bottom of the material storage frame (410), a leakage-proof plate (460) is arranged at the bottom of the material storage frame (410), an electric push plate support (461) is fixedly installed at the left end of the leakage-proof plate (460), an electric push rod (470) is fixedly installed at the top of the electric push plate support (461), the output end of the electric push rod (470) is fixedly connected with the material storage frame (410), and the top of the leakage-proof.

5. The wear-resistant refractory brick mold of claim 4, wherein: the bottom of the leakage-proof plate (460) is fixed through a support, the clamping plates (480) are uniformly installed at the front end of the material storage frame (410), the miniature electric push rods (481) are installed on the inner walls of the clamping plates (480), the distance between the two groups of clamping plates (480) is larger than the width of the refractory brick mold (300), and a second positioner (710) is installed on the left side of the leakage-proof plate (460).

6. The wear-resistant refractory brick mold of claim 1, wherein: guide post (130) top fixed mounting roof (140), brick pressing mechanism (600) includes two (610) hydraulic stems, two (610) fixed mounting of hydraulic stems are in roof (140) bottom, two (610) output end fixed mounting push pedal (620) of hydraulic stems, two (630) of push pedal (620) both ends fixed mounting guide pin bushing, guide pin post (130) are cup jointed to two (630) inner walls of guide pin bushing, evenly install vibrating motor (640) bottom push pedal (620), vibrating motor (640) bottom fixed mounting extrusion die (650).

7. The wear-resistant refractory brick mold of claim 6, wherein: the bottom of the extrusion die (650) corresponds to the position of the refractory brick die (300).

8. The wear-resistant refractory brick mold of claim 1, wherein: frame (100) right-hand member is equipped with conveyer belt (500), conveyer belt (500) top and locating plate (320) top flush, conveyer belt (500) left end installation locator three (720).

9. The wear-resistant refractory brick mold of claim 1, wherein: a first positioner (700) is fixedly arranged above the guide column (130), and the first positioner (700) is arranged above the push plate (620).

10. A method for quickly preparing wear-resistant refractory bricks is characterized by comprising the following steps: also comprises the following preparation steps:

s1, placing raw material products in a material storage frame (410), starting an electric push rod (470) to move the material storage frame (410) to a positioning plate (320), and stopping moving when the material storage frame (410) moves out of the detection range of a second positioner (710);

s2, starting a miniature electric push rod (481) to clamp the formed refractory brick, starting the electric push rod (470) again, moving the material storage frame (410) to a conveyor belt (500) in the tool set through the electric push rod (470), stopping pushing of the electric push rod (470) after a third positioner (720) on the conveyor belt (500) detects a clamping plate (480), and contracting the miniature electric push rod (481) to release the formed refractory brick product;

s3, starting the electric push rod (470) to contract and return to the original position, and enabling the product raw materials to fall into the refractory brick mold (300) through the screen (430) of the material storage frame (410);

s4, starting a second hydraulic rod (610) to extend downwards and insert into the inner wall of the refractory brick mold (300) for extrusion, elastically buffering the refractory brick mold (300) in extrusion through a spring (370), contracting the extruded second hydraulic rod (610), and stopping the second hydraulic rod (610) after the first positioner (700) detects that the second hydraulic rod (610) returns to the original position;

s5, starting the first hydraulic cylinder (210) to push upwards, pushing out a product molded inside the refractory brick mold (300) by the guide pillar (230) on the guide pillar plate (220), and starting the step S1 to perform a circulating operation.

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