CN219380962U - Shaping equipment for solid waste sintered bricks of coal-fired furnace slag - Google Patents

Abstract

The utility model relates to the technical field of solid waste baked brick production, in particular to a shaping device for solid waste baked bricks of coal-fired furnace slag, which comprises a supporting mechanism and a laminating mechanism, wherein the supporting mechanism comprises a base, two supporting rods arranged at the top of the base and a beam frame arranged in the two supporting rods. Through setting up motor and supplementary eccentric wheel, and connect the traction frame between motor and supplementary eccentric wheel, and swing joint setting element on traction frame bottom branch, the rectangle fastener that can gather together to the material after transferring is installed to the setting element bottom simultaneously, the row material subassembly of cooperation installation in rectangle fastener bottom carries out free extension along moulding frame inner wall, two blades by two pull rod location restraint alright carry out the ration with the inboard material of rectangle fastener and shift, the row material subassembly whole after the decline simultaneously alright be with the extrusion moulding layer upon layer of ration material after shifting, thereby can ensure the fullness of brick inner structure after the shaping.

Description

Shaping equipment for solid waste sintered bricks of coal-fired furnace slag

Technical Field

The utility model relates to the technical field of solid waste baked brick production, in particular to a shaping device for solid waste baked bricks of coal-fired furnace slag.

Background

The baked brick is a brick for building bearing and non-bearing walls, which is prepared by taking clay, shale, coal gangue or fly ash as raw materials and carrying out molding and high-temperature roasting, and the baked brick is divided into a baked clay brick, a baked fly ash brick, a baked shale brick and the like according to different raw materials.

In the process of brick making and shaping, the sintered fly ash bricks prepared from the coal-fired furnace slag are doped with other raw materials to be used as adhesion, so that when the internal extrusion is insufficient, a large number of bubbles are generated in the shaped bricks, and the hardness and the strength of the bricks are reduced.

Aiming at the sintered brick taking the coal-fired furnace slag as the raw material, how to improve the fullness of the internal structure of the molded brick is the technical difficulty to be solved by the utility model.

Disclosure of Invention

The present utility model aims to solve one of the technical problems existing in the prior art or related technologies.

The technical scheme adopted by the utility model is as follows:

the utility model provides a solid useless baked brick design equipment of coal-fired slag, includes supporting mechanism and lamination mechanism, supporting mechanism includes the base, installs two vaulting poles at the base top, installs beam frame in two vaulting poles, connect the storage tray at beam frame top, install a plurality of guide tubes and a plurality of drawing of patterns bases of activity in the base top recess in storage tray bottom, lamination mechanism includes the motor of installing in base one end stand, movable mounting is at the supplementary eccentric wheel of beam frame one end, connects the traction frame between motor and supplementary eccentric wheel, swing joint's setting element on the traction frame, connect the rectangular fastener in the setting element bottom, install the row material subassembly in rectangular fastener bottom, movable mounting is in two draw bars in rectangular fastener inner wall spouts and install the moulding frame in two draw bars bottom, row material subassembly includes two horizontal poles, utilizes the nut to install first diaphragm, second diaphragm and the third diaphragm and two diaphragms on second diaphragm and the third diaphragm of swing joint.

The present utility model may be further configured in a preferred example to: the guide rod stretching downwards is arranged at two ends of the beam frame, the circular washer is arranged at the bottom of the guide rod, the hollow through hole is arranged in the guide pipe, the whole guide pipe is distributed on the bottom surface of the Chu Liao tray in an inclined state, the eccentric rotary disc is arranged at the inner end of the motor, and the eccentric rotary disc has the same structure as the auxiliary eccentric wheel.

Through adopting above-mentioned technical scheme, utilize the guide arm of seting up at roof beam structure both ends and the ring packing ring on the guide arm to retrain the frame both sides horizontal pole that pulls, after the motor operation, the eccentric carousel of motor inner alright cooperation auxiliary eccentric wheel drives the frame that pulls and carries out the reciprocatingly and pull, and rectangle fastener and the discharge subassembly that are located the frame bottom this moment can carry out extrusion moulding layer upon layer with the material of coal-fired slag towards moulding frame inboard.

The present utility model may be further configured in a preferred example to: the bottom of traction frame has seted up multiunit branch that is triangle structure, and the buckle has been seted up to the bottom of branch.

Through adopting above-mentioned technical scheme, utilize the multiunit triangle structure branch of seting up of traction frame bottom to the connection of multiunit setting element, after traction frame reciprocatingly stretches, connect the rectangle fastener in the setting element bottom and install the row material subassembly whole alright shift down the material in the rectangle fastener bottom, cooperate two pull rods to the location constraint of two leafs to this alright realize the ration transfer of material.

The present utility model may be further configured in a preferred example to: the top of the blade plate is provided with a concave hole, and the end head on the pull rod is adapted to penetrate into the concave hole at the top of the blade plate.

Through adopting above-mentioned technical scheme, utilize two leafs of swing joint in second diaphragm and third diaphragm, combine two pull rod inner slide to the guide and restraint in the rectangle fastener inner wall spout, two leafs that lie in rectangle fastener bottom this moment alright extrude the material of fire coal slag in moulding frame and drawing of patterns base.

By adopting the technical scheme, the beneficial effects obtained by the utility model are as follows:

1. according to the utility model, the motor and the auxiliary eccentric wheel are arranged, the traction frame is connected between the motor and the auxiliary eccentric wheel, the positioning piece is movably connected to the supporting rod at the bottom of the traction frame, meanwhile, the rectangular fastener capable of gathering the transferred materials is arranged at the bottom of the positioning piece, the discharging assembly arranged at the bottom of the rectangular fastener is matched to freely extend along the inner wall of the molding outer frame, at the moment, the materials at the inner side of the rectangular fastener can be quantitatively transferred by the two blades restrained by the positioning of the two pull rods, and meanwhile, the whole descending discharging assembly can be subjected to layer-by-layer extrusion molding of the quantitatively transferred materials, so that the compactness of the internal structure of the molded brick can be ensured.

2. According to the utility model, the plurality of demolding bases distributed in the array are arranged in the groove at the top of the base, and the molding outer frame is matched with the ring buckle of the demolding bases, so that the materials transferred by the discharging assembly in the opened and closed state can be extruded layer by layer towards the top of the demolding bases, and finally, the molded and extruded bricks can be rapidly withdrawn along with the lifting of the molding outer frame.

Drawings

FIG. 1 is a schematic illustration of the present utility model;

FIG. 2 is an internal schematic view of FIG. 1 according to the present utility model;

FIG. 3 is a schematic view of a supporting mechanism according to the present utility model;

FIG. 4 is an internal schematic view of the lamination mechanism of the present utility model;

FIG. 5 is an internal schematic view of FIG. 4 according to the present utility model;

FIG. 6 is a schematic view of a discharge assembly according to the present utility model.

Reference numerals:

100. a support mechanism; 110. a base; 120. a brace rod; 130. a beam frame; 140. a storage tray; 150. a material guiding pipe; 160. demolding the base;

200. a laminating mechanism; 210. a motor; 220. a traction frame; 230. an auxiliary eccentric wheel; 240. a positioning piece; 250. rectangular fasteners; 260. a discharge assembly; 261. a cross bar; 262. a first cross plate; 263. a second cross plate; 264. a third cross plate; 265. a blade; 270. a pull rod; 280. and shaping the outer frame.

Detailed Description

The objects, technical solutions and advantages of the present utility model will become more apparent by the following detailed description of the present utility model with reference to the accompanying drawings. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.

It is to be understood that this description is merely exemplary in nature and is not intended to limit the scope of the present utility model.

The following describes a setting device for solid waste baked bricks of coal-fired furnace slag according to some embodiments of the present utility model with reference to the accompanying drawings.

Embodiment one:

referring to fig. 1 to 6, the setting device for the solid waste baked bricks of the coal-fired furnace slag provided by the utility model comprises a supporting mechanism 100 and a laminating mechanism 200, wherein the laminating mechanism 200 is arranged on the supporting mechanism 100.

The supporting mechanism 100 includes a base 110, a stay 120, a beam 130, a storage tray 140, a material guiding tube 150, and a demolding base 160, the laminating mechanism 200 includes a motor 210, a traction frame 220, an auxiliary eccentric 230, a positioning member 240, a rectangular fastener 250, a discharging assembly 260, a pull rod 270, and a molding outer frame 280, and the discharging assembly 260 further includes a cross bar 261, a first cross plate 262, a second cross plate 263, a third cross plate 264, and a blade 265.

Specifically, two stay bars 120 are installed at the top of the base 110, the beam frame 130 is installed in the two stay bars 120, the storage tray 140 is connected at the top of the beam frame 130, a plurality of guide pipes 150 are installed at the bottom of the storage tray 140, a plurality of demolding bases 160 are movably placed in grooves at the top of the base 110, a motor 210 is installed in an upright post at one end of the base 110, an auxiliary eccentric 230 is movably installed at one end of the beam frame 130, a traction frame 220 is connected between the motor 210 and the auxiliary eccentric 230, a positioning piece 240 is movably connected on the traction frame 220, a rectangular fastener 250 is connected at the bottom end of the positioning piece 240, a discharging assembly 260 is installed at the bottom of the rectangular fastener 250, two pull rods 270 are movably installed in a sliding groove of the inner wall of the rectangular fastener 250, a molding outer frame 280 is installed at the bottom ends of the two pull rods 270, a first transverse plate 262, a second transverse plate 263 and a third transverse plate 264 are installed between the two transverse plates 261 by nuts, and two leaf plates 265 are movably connected on the second transverse plate 263 and the third transverse plate 264.

The plurality of demolding bases 160 distributed in an array are arranged in the groove at the top of the base 110, the molding outer frame 280 is matched with the ring buckle of the demolding bases 160, at the moment, materials transferred by the discharging assembly 260 in a stretched state can be extruded towards the top of the demolding bases 160 layer by layer, the positioning piece 240 is movably connected to the supporting rod at the bottom of the traction frame 220, meanwhile, the rectangular fastener 250 capable of gathering the transferred materials is arranged at the bottom of the positioning piece 240, the discharging assembly 260 arranged at the bottom of the rectangular fastener 250 is matched with the free extension of the inner wall of the molding outer frame 280, at the moment, the materials at the inner side of the rectangular fastener 250 can be quantitatively transferred by the two blades 265 which are positioned and restrained by the two pull rods 270, and meanwhile, the whole descending discharging assembly 260 can be extruded and molded layer by layer against the quantitatively transferred materials, so that the compactness of the internal structure of the molded brick can be ensured.

Embodiment two:

referring to fig. 2 to 5, on the basis of the first embodiment, guide rods extending downward are provided at both ends of the beam frame 130, a circular washer is provided at the bottom of the guide rods, a hollow through hole is provided in the guide tube 150, the guide tube 150 is distributed on the bottom surface of the Chu Liaotuo disc 140 in an inclined state, an eccentric turntable is provided at the inner end of the motor 210, and the eccentric turntable has the same structure as the auxiliary eccentric wheel 230.

The guide rods arranged at the two ends of the beam frame 130 and the annular gaskets on the guide rods are utilized to restrain the cross bars at the two sides of the traction frame 220, when the motor 210 operates, the eccentric turntable at the inner end of the motor 210 can cooperate with the auxiliary eccentric wheel 230 to drive the traction frame 220 to carry out reciprocating traction, and at the moment, the rectangular fastener 250 and the discharging component 260 positioned at the bottom of the traction frame 220 can squeeze and press the materials of the coal-fired slag layer by layer towards the inner side of the shaping outer frame 280.

Embodiment III:

referring to fig. 5 and 6, on the basis of the first embodiment, a plurality of groups of triangular struts are provided at the bottom of the traction frame 220, a ring buckle is provided at the bottom of the struts, a concave hole is provided at the top of the blade 265, and the end head of the pull rod 270 is adapted to penetrate into the concave hole at the top of the blade 265.

By utilizing the connection of a plurality of groups of triangular structure struts arranged at the bottom of the traction frame 220 to a plurality of groups of positioning elements 240, after the traction frame 220 is reciprocally stretched, the rectangular fastener 250 connected at the bottom end of the positioning elements 240 and the discharging assembly 260 arranged at the bottom end of the rectangular fastener 250 can integrally transfer materials downwards, and the positioning constraint of two pull rods 270 to two blades 265 is matched, so that the quantitative transfer of the materials can be realized, and the two blades 265 positioned at the bottom of the rectangular fastener 250 can squeeze and shape the materials of coal-fired furnace slag towards the shaping outer frame 280 and the demoulding base 160 by combining the guidance and constraint of the sliding plates in the two pull rods 270 to the sliding grooves in the inner wall of the rectangular fastener 250.

The working principle and the using flow of the utility model are as follows: first diaphragm 262, second diaphragm 263 and third diaphragm 264 are installed in the inboard of two adjacent horizontal poles 261 with the nut, two blades 265 can be carried out swing joint by second diaphragm 263 and third diaphragm 264 respectively this moment, and the main line end that the outer end of pull rod 270 set up can movable mounting in the recess at blade 265 top, the slide that the pull rod 270 top set up can run through to the spout of rectangular fastener 250 inner wall this moment, and rectangular fastener 250 can install at the top of back row material subassembly 260 after the equipment, simultaneously the bottom of pull rod 270 can be connected in one side at shaping frame 280 top, row material subassembly 260 and rectangular fastener 250 wholly alright carry out free lift activity along shaping frame 280's inner wall this moment, and four setting elements 240 of installing on rectangular fastener 250 can be carried out swing joint by auxiliary eccentric wheel 230, when motor 210 starts and moves, the eccentric carousel of motor 210 inner can drive traction frame 220 wholly and carry out reciprocal traction motion this moment, and then can drive row material subassembly 260 and rectangular fastener 250 wholly along shaping frame inner wall carries out the spout of inner wall, and rectangular fastener 250 is by the reciprocal nature of blade plate's locating constraint blade 260 can carry out reciprocal motion under the realization of square fastener layer upon layer by layer, can carry out reciprocal motion along with the shaping frame 250 and can carry out the reciprocal motion of brick die-shaped fastener 250 and carry out the reciprocal motion of full material conveying structure of layer-shaped fastener 250, can carry out the vibration, and realize the vibration, and further realize the inside of full material conveying of material 150 is filled by the structure.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.

Claims (6)

1. The shaping equipment for the solid waste baked bricks of the coal-fired furnace slag is characterized by comprising a supporting mechanism (100) and a laminating mechanism (200);

the supporting mechanism (100) comprises a base (110), two supporting rods (120) arranged at the top of the base (110), a beam frame (130) arranged in the two supporting rods (120), a storage tray (140) connected to the top of the beam frame (130), a plurality of material guide pipes (150) arranged at the bottom of the storage tray (140) and a plurality of demoulding bases (160) movably arranged in grooves at the top of the base (110);

the lamination mechanism (200) is arranged on the supporting mechanism (100) and comprises a motor (210) arranged in an upright post at one end of the base (110), an auxiliary eccentric wheel (230) movably arranged at one end of the beam frame (130), a traction frame (220) connected between the motor (210) and the auxiliary eccentric wheel (230), a positioning piece (240) movably connected to the traction frame (220), a rectangular fastener (250) connected to the bottom end of the positioning piece (240), a discharging assembly (260) arranged at the bottom of the rectangular fastener (250), two pull rods (270) movably arranged in sliding grooves on the inner wall of the rectangular fastener (250) and a shaping outer frame (280) arranged at the bottom ends of the two pull rods (270);

the discharging assembly (260) comprises two cross bars (261), a first cross plate (262), a second cross plate (263) and a third cross plate (264) which are arranged between the two cross bars (261) by nuts, and two blades (265) which are movably connected to the second cross plate (263) and the third cross plate (264).

2. The shaping equipment for the solid waste baked bricks of the coal-fired furnace slag according to claim 1, wherein guide rods stretching downwards are arranged at two ends of the beam frame (130), and annular gaskets are arranged at the bottoms of the guide rods.

3. The shaping equipment for the solid waste baked bricks of the coal-fired furnace slag according to claim 1, wherein hollow through holes are formed in the material guide pipe (150), and the material guide pipe (150) is distributed on the bottom surface of the Chu Liaotuo tray (140) in an inclined state as a whole.

4. The shaping equipment for the solid waste baked bricks of the coal-fired furnace slag according to claim 1 is characterized in that an eccentric rotary disc is arranged at the inner end of the motor (210), and the eccentric rotary disc has the same structure as an auxiliary eccentric wheel (230).

5. The shaping equipment for the solid waste baked bricks of the coal-fired furnace slag according to claim 1, wherein a plurality of groups of supporting rods with triangular structures are arranged at the bottom of the traction frame (220), and a ring buckle is arranged at the bottom end of each supporting rod.

6. The coal-fired furnace slag solid waste baked brick shaping equipment according to claim 1, wherein the top of the blade plate (265) is provided with a concave hole, and the end head of the pull rod (270) is adapted to penetrate into the concave hole at the top of the blade plate (265).