CN214604964U - Hydraulic forming briquetting device - Google Patents

Abstract

The utility model discloses a hydraulic forming briquetting device for solve among the prior art brick forming device and do not have supporting compounding feeding mechanism, and the brick can only be in factory equipment production, problem that the cost of transportation is high. The method comprises the following steps: two ends of the base of the frame are respectively provided with a forming chamber, a hydraulic system is arranged between the two forming chambers, and the upper end of each forming chamber is provided with a feeding mechanism; the forming chamber is used for extruding and forming the raw materials, the forming chamber is provided with an extrusion template, and the hydraulic system is used for controlling the extrusion template to compress the space of the forming chamber. The conveying and mixing device has the beneficial effects that a material mixing and feeding mechanism is added, the structure is simple, the conveying and mixing of three materials can be completed, the cost is low, and the efficiency is high; the feeding hopper is provided with the material cleaning impeller, so that the accumulation condition of materials at the feeding hopper opening is avoided, the briquetting and forming equipment adopts two symmetrical forming chambers, the briquetting efficiency is improved, the whole trolley body is provided with the travelling wheels and can be moved to a construction site, and after the hydraulic support legs are fixed, the soil bricks are manufactured on site, so that the transportation cost of the soil bricks is reduced.

Description

Hydraulic forming briquetting device

The technical field is as follows:

the utility model relates to a machine-building technical field, in particular to hydraulic forming briquetting device.

Background art:

the existing heat-storage heat-preservation soil wall is usually made of soil through direct compaction, the soil brick is good in wall building and heat-preservation effects, fast in speed and free of pollution, the volume and the weight of the soil brick are large, the transportation cost is high, the soil brick is easy to damage, the strength of the soil brick is considered, materials need to be mixed when various composite materials are used for manufacturing, the existing soil brick manufacturing equipment is not provided with a matched material mixing mechanism, the soil brick is difficult to transport, only can be manufactured and transported in a factory, the transportation cost is increased, and the manufacturing cost of the soil brick is also increased.

The invention content is as follows:

the utility model provides a hydraulic forming briquetting device for solve among the prior art brick forming device and do not have supporting compounding feeding mechanism, and the brick can only be in factory equipment production, problem that the cost of transportation is high.

The utility model provides a hydraulic forming briquetting device, include: the device comprises a forming chamber, a hydraulic system and a feeding mechanism; two ends of the base of the frame are respectively provided with a forming chamber, a hydraulic system is arranged between the two forming chambers, and the upper end of each forming chamber is provided with a feeding mechanism; the forming chamber is used for extruding and forming the raw materials, the forming chamber is provided with an extrusion template, and the hydraulic system is used for controlling the extrusion template to compress the space of the forming chamber.

Preferably, the forming chamber further comprises two side upright inner plates, a discharging chamber door and a feeding chamber door; the two-side upright inner plates, the discharge chamber door, the extrusion die plates, the rack base and the feeding chamber door form a cuboid forming chamber, the rack base is opposite to the feeding chamber door above the rack base, the two-side upright inner plates are arranged on two sides of the rack base, the extrusion die plates are opposite to the discharge chamber door, and the discharge chamber door is arranged at the end part of the rack base.

Preferably, the hydraulic system comprises an actuator; the vertical plate is arranged in the middle of the rack base and is perpendicular to the rack base and the extrusion template respectively, the executing mechanism comprises a forming hydraulic cylinder, the rear end of a cylinder barrel of the forming hydraulic cylinder is vertically fixed on the vertical plate, and a piston rod of the forming hydraulic cylinder is fixedly connected to the extrusion template.

Preferably, the actuating mechanism further comprises a feeding hydraulic cylinder; the front end of a cylinder barrel of the feeding hydraulic cylinder is vertically fixed on the vertical plate, a piston rod of the feeding hydraulic cylinder penetrates through the vertical plate to extend into the opposite side, a pull plate joint is arranged at the end part of a piston rod of the feeding hydraulic cylinder, and a feeding cabin door in the opposite side forming chamber is fixed at the end part of the piston rod of the feeding hydraulic cylinder through the pull plate joint.

Preferably, side wall vertical plates are arranged on two sides of the base of the rack, the side wall vertical plates are arranged on the outer sides of the side upright inner plates in parallel, and outer rib grids are arranged on the outer sides of the side wall vertical plates and the outer sides of the side upright inner plates; the hydraulic system further comprises an oil tank, the oil tank is arranged on the stand base in the hydraulic chamber, an access hole is formed in the side wall vertical plate in a matched mode with the oil tank, and the oil tank extends out of the access hole.

The preferred, feed mechanism includes the feeder hopper, clears the material impeller and the hydraulic forming briquetting device constructs, and the discharge gate that the hydraulic forming briquetting device constructed is connected with the material entry of feeder hopper, and the feeder hopper setting is provided with clear material impeller directly over the shaping room on the internal face of feeder hopper.

Preferably, the hydroforming block mechanism includes: the device comprises a plurality of feeding bins, a mixing bin, a discharging port, a material collecting bin and a conveying belt; a plurality of feeding storehouse word transverse arrangement, feeding storehouse slant upper direction opening, inside and blending bunker intercommunication, the pivot of horizontal installation in the blending bunker, the pivot middle part sets up the compounding and turns over the board, the compounding turns over board both sides and sets up forward auger and reverse auger respectively, the defeated material direction of forward auger and reverse auger all is to the pivot middle part, blending bunker and discharge gate intercommunication, the discharge gate below sets up the storehouse that gathers materials, the storehouse export that gathers materials links to each other with the conveyer belt.

Preferably, the frame base is provided with four travelling wheels 302, and a telescopic leg 301 is fixed on a side wall vertical plate beside each travelling wheel 302.

Preferably, the two ends of the frame base are provided with the block outlet bottom plates 303, the block outlet bottom plates 303 are provided with slide rails, the slide rails are provided with the slide support plates 304, and the slide support plates 304 are used for receiving and transporting extruded pressing blocks.

Preferably, a hydraulic system control box is arranged at the top of the hydraulic chamber, a power element and a control element of the hydraulic system are further arranged in the hydraulic system control box, a cab is arranged above the hydraulic system control box, a cab seat and a control terminal are arranged in the cab, and a ceiling is arranged above the cab seat.

The utility model discloses beneficial effect includes: the material mixing and feeding mechanism is additionally arranged, a plurality of feeding hoppers are adopted, different materials are respectively fed, after the materials enter the material mixing bin, the materials on the two sides are conveyed to the middle part by the two reverse packing augers, when the materials are pushed to the middle part, the material mixing turning plate in the middle part is used for stirring and mixing various materials, the structure is simple, the conveying and mixing of three materials can be completed by one rotating shaft and one power source, the cost is low, and the efficiency is high; the material cleaning impeller is arranged at the feeding hopper, so that the accumulation condition of materials at the feeding hopper opening is avoided, the briquetting and forming equipment adopts two symmetrical forming chambers, the briquetting efficiency is improved, a hydraulic system is integrated in the middle, the space saving design is reasonable, the strength of two sides of each forming chamber is increased through two layers of structures, namely a side vertical inner plate and a side wall vertical plate, grid reinforcing ribs are arranged on the two layers, walking wheels are arranged on the whole vehicle body, the vehicle body can be moved to a construction site, soil bricks are manufactured on the site after being fixed through hydraulic supporting legs, and the transportation cost of the soil bricks is reduced; the design positions of the oil tank access hole and the hydraulic system control element are both outer sides, so that later maintenance is facilitated; the sliding support is arranged outside the movable cabin door, so that the soil bricks can be directly placed, the large soil bricks can be conveniently moved, and the soil bricks are not easily damaged when being taken out; a plurality of heat dissipation holes are formed in the side wall vertical plate at the position of the hydraulic chamber, and a heat dissipation fan is installed, so that heat dissipation of a large-scale hydraulic system is facilitated, and normal operation of a machine is guaranteed.

Description of the drawings:

FIG. 1 is a perspective view of a hydroforming block press according to an embodiment of the present invention;

FIG. 2 is a rear view of a hydroforming block apparatus according to an embodiment of the present invention;

fig. 3 is a first perspective view of a hydroforming block apparatus (feed mechanism and part of the components are not shown) according to an embodiment of the present invention;

FIG. 4 is a second perspective view of a hydroforming block apparatus (feed mechanism not shown) in an embodiment of the present invention;

fig. 5 is a perspective view of a feeding mechanism in an embodiment of the present invention;

fig. 6 is a perspective view of the auger shaft in the embodiment of the present invention.

The specific implementation mode is as follows:

in order to provide a simple structure, can accomplish the mixed transport of brick raw materials to and reduce the realization scheme of brick cost of transportation, the utility model provides a hydraulic forming briquetting device, it is right below to combine the description drawing the utility model discloses a preferred embodiment explains.

Referring to fig. 1-6, the utility model discloses a hydraulic forming briquetting device, include: the device comprises a forming chamber 1, a hydraulic system and a feeding mechanism; two ends of a frame base 3 are respectively provided with a forming chamber 1, a hydraulic system is arranged between the two forming chambers 1, and the upper end of each forming chamber 1 is provided with a feeding mechanism; the forming chamber 1 is used for extrusion forming of raw materials, the forming chamber 1 is provided with an extrusion template 101, and the hydraulic system is used for controlling the extrusion template 101 to compress the space of the forming chamber 1.

Specifically, the vertical plate 4 arranged in the middle of the rack base 3 divides the whole equipment into two parts, and two independent briquetting mechanisms are respectively arranged on two sides of the equipment, wherein each briquetting mechanism comprises a forming chamber 1 and a hydraulic chamber 2, and the forming chamber 1 further comprises two side upright inner plates 102, a discharging chamber door 103 and a feeding chamber door 104; the two-side upright inner plates 102, the discharging chamber door 103, the extrusion die plate 101, the rack base 3 and the feeding chamber door 104 form a cuboid forming chamber 1, the rack base 3 is opposite to the feeding chamber door 104 above the rack base, the two-side upright inner plates 102 are arranged on two sides of the rack base 3, the extrusion die plate 101 is opposite to the discharging chamber door 103, and the discharging chamber door 103 is arranged at the end part of the rack base 3.

The hydraulic chamber 2 is a space formed by the vertical plate 4, the frame base 3, the vertical plates 5 on the two side walls and the extrusion template 101; side wall vertical plates 5 are arranged on two sides of the rack base 3, the side wall vertical plates 5 are arranged on the outer sides of the side upright inner plates 102 in parallel, and outer rib grids are arranged on the outer sides of the side wall vertical plates 5 and the side upright inner plates 102; be provided with louvre 501 on the side wall riser 5 of hydraulic pressure room 2, hydraulic system still includes oil tank 601, and oil tank 601 sets up on the frame base 3 in hydraulic pressure room 2, and the maintenance mouth is seted up to cooperation oil tank 601 on the side wall riser 5, and oil tank 601 stretches out from the maintenance mouth. The side wall vertical plate 5 is also provided with a heat exchange fan 502 for accelerating ventilation and heat dissipation in the hydraulic chamber 2. The top of the hydraulic chamber 2 is provided with a hydraulic system control box 602, a power element and a control element of a hydraulic system are further arranged in the hydraulic system control box 602, a cab 7 is arranged above the hydraulic system control box 602, a cab seat and a control terminal are arranged in the cab 7, and a ceiling is arranged above the cab seat.

The hydraulic system specifically includes: the device comprises an actuating mechanism, a power element and a control element; the executing mechanism mainly comprises a hydraulic cylinder for controlling the extrusion molding chamber 1 to extrude and compress the extrusion molding plate 101, a hydraulic cylinder for extruding and molding raw materials and a hydraulic cylinder for controlling the opening and closing of the feeding port door 104.

Molding a hydraulic cylinder: the middle of the rack base 3 is provided with a vertical plate 4, the vertical plate 4 is respectively perpendicular to the rack base 3 and the extrusion die plate 101, the executing mechanism comprises a forming hydraulic cylinder 201, the rear end of a cylinder barrel of the forming hydraulic cylinder 201 is vertically fixed on the vertical plate 4, and a piston rod of the forming hydraulic cylinder 201 is fixedly connected to the extrusion die plate 101.

Feed hydraulic cylinder 202: the front end of the cylinder barrel of the feeding hydraulic cylinder 202 is vertically fixed on the vertical plate 4, the piston rod of the feeding hydraulic cylinder 202 penetrates through the vertical plate 4 and extends into the opposite side, the end part of the piston rod of the feeding hydraulic cylinder 202 is provided with a pulling plate joint, and the feeding cabin door 104 in the opposite side forming chamber 1 is fixed on the end part of the piston rod of the feeding hydraulic cylinder 202 through the pulling plate joint.

The feed mechanism includes: the feeding hopper 801, the material cleaning impeller 802 and the material mixing and conveying mechanism, wherein a discharge port of the material mixing and conveying mechanism is connected with a material inlet of the feeding hopper 801, the feeding hopper 801 is arranged right above the forming chamber 1, and the material cleaning impeller 802 is arranged on the inner wall surface of the feeding hopper 801.

Compounding conveying mechanism includes: a plurality of feeding bins 804, a mixing bin 803, a discharging port, a material collecting bin and a conveying belt; a plurality of feeding bins 804 a word transverse arrangement, feeder hopper 801 upper direction opening to one side, inside and blending bunker 803 intercommunication, horizontal installation pivot in the blending bunker 803, the pivot middle part sets up the compounding and turns over the board, the compounding turns over the board both sides and sets up forward auger and reverse auger respectively, the defeated material direction of forward auger and reverse auger all is to the pivot middle part, blending bunker 803 and discharge gate intercommunication, the discharge gate below sets up the aggregate bin, the aggregate bin export links to each other with the conveyer belt.

The frame base 3 is provided with four travelling wheels 302, and a telescopic supporting leg 301 is fixed on the side wall vertical plate 5 beside each travelling wheel 302. Make hydraulic forming briquetting device can remove appointed on-the-spot position to lift whole automobile body through hydraulic telescoping mechanism, make walking wheel 302 leave ground, steady compaction ground carries out work.

A block outlet base plate 303 is arranged at two ends of the rack base 3, a sliding rail is arranged on the block outlet base plate 303, a sliding support plate 304 is arranged on the sliding rail, and the sliding support plate 304 is used for receiving and transporting extruded pressing blocks.

The use of the hydroforming block device according to the present invention will be described in detail with reference to the following embodiments.

Firstly, the soil brick adopts three raw materials of soil, sand and turfgrass, the three raw materials are mixed and stirred by a mixing and conveying mechanism and are conveyed to a feeding bin 804; one end of the feeding bin 804 is opened obliquely upwards, the lower part of the feeding hopper 801 is communicated with the mixing bin 803, a channel with radian is arranged between the mixing bin 803 and the feeding bin 804, so that materials can smoothly fall down to the mixing bin 803, the mixing bin 803 is cuboid, shaft seats are arranged on two sides of the mixing bin, a rotating shaft 805 is arranged between the shaft seats, a mixing turning plate 806 is arranged in the middle of the rotating shaft 805, and the mixing turning plate 806 is positioned on the surface where the central axis of the rotating shaft 805 is positioned. On the both sides pivot 805 of compounding board 806, set up the auger, forward auger 807 and reverse auger 808 respectively, two auger direction of delivery are opposite, all can turn over board 806 propelling movement of compounding with the material to the compounding at middle part, the rear end middle part of blending bunker 803 sets up one section discharging channel, discharging channel end sets up the discharge gate, discharge gate below sets up the aggregate storehouse 809, aggregate storehouse 809 top is the feed inlet, the discharge gate is opened to aggregate storehouse 809 trailing flank, conveyer belt 8010 stretches into aggregate storehouse 809 bottom to one side, the conveyer belt 8010 both sides set up the striker plate.

Three raw materials for manufacturing the earthenware bricks are poured into the three feeding bins 804 respectively, the raw materials fall into the lower portions of the feeding bins 804 and enter the mixing bin 803 through a channel with radian, the rotating directions of the forward packing auger 807 and the reverse packing auger 808 are different, therefore, when the motor drives the rotating shaft 805 to rotate, the forward packing auger 807 and the reverse packing auger 808 both convey the materials to the middle portion, the mixing turning plate 806 stirs and mixes the three materials concentrated to the middle portion in the middle portion, the materials are pushed to the discharging direction through continuous pouring of the materials, the three mixed raw materials fall from the discharging port and fall into the collecting bin 809 with an upward opening, the conveying belt 8010 obliquely extends into the bottom of the collecting bin 809, and the raw materials on the conveying belt are conveyed into the forming chamber 1 of the briquetting machine.

Before the raw materials enter the forming chamber 1, the feeding cabin door 104 is opened through a hydraulic cylinder, so that the raw materials enter the forming chamber 1 to form a plurality of parts of the forming chamber 1, namely a template of the soil brick, two parallel slide rails are further arranged on the side upright inner plate 102, the two slide rails also form a groove on the outer surface of the soil brick, the groove is used for a pipeline to be penetrated in the later period, two parallel slide rails are also arranged on a bottom plate of the rack, the same groove is formed on the lower surface of the soil brick, and the slide rails also form a track of the extrusion template 101 to play a role in positioning; extrusion die plate 101 impels through two pneumatic cylinders, treats soil brick extrusion back, and ejection of compact chamber door 103 can be opened through hydraulic telescoping rod, before the extrusion, is to pass through buckling piece lock with ejection of compact chamber door 103 and side wall riser 5, and the buckling piece is through pneumatic cylinder notice open and the lock, does not draw in the figure, for prior art, no longer gives unnecessary details one by one here. After discharging, the soil bricks can be directly transported through the sliding support. The upper part is mainly other elements of the hydraulic system, the arranged position is also a position which is easy to overhaul, and an operating platform of a worker is arranged above the hydraulic control box and is provided with a ceiling; the whole equipment is reasonable in design, saves space and better completes the briquetting of the soil bricks.

Claims (10)

1. The utility model provides a hydraulic forming briquetting device which characterized in that includes: the device comprises a forming chamber, a hydraulic system and a feeding mechanism; two ends of the base of the frame are respectively provided with a forming chamber, a hydraulic system is arranged between the two forming chambers, and the upper end of each forming chamber is provided with a feeding mechanism; the forming chamber is used for extruding and forming the raw materials, the forming chamber is provided with an extrusion template, and the hydraulic system is used for controlling the extrusion template to compress the space of the forming chamber.

2. The hydroforming press apparatus according to claim 1, wherein the forming chamber further comprises two side inner stiles, a discharge chamber door, and a feed chamber door; the two-side upright inner plates, the discharge chamber door, the extrusion die plates, the rack base and the feeding chamber door form a cuboid forming chamber, the rack base is opposite to the feeding chamber door above the rack base, the two-side upright inner plates are arranged on two sides of the rack base, the extrusion die plates are opposite to the discharge chamber door, and the discharge chamber door is arranged at the end part of the rack base.

3. The hydroforming press apparatus according to claim 1, wherein the hydraulic system includes an actuator; the vertical plate is arranged in the middle of the rack base and is perpendicular to the rack base and the extrusion template respectively, the executing mechanism comprises a forming hydraulic cylinder, the rear end of a cylinder barrel of the forming hydraulic cylinder is vertically fixed on the vertical plate, and a piston rod of the forming hydraulic cylinder is fixedly connected to the extrusion template.

4. The hydroforming press apparatus according to claim 3, wherein the actuator further comprises a feed cylinder; the front end of a cylinder barrel of the feeding hydraulic cylinder is vertically fixed on the vertical plate, a piston rod of the feeding hydraulic cylinder penetrates through the vertical plate to extend into the opposite side, a pull plate joint is arranged at the end part of a piston rod of the feeding hydraulic cylinder, and a feeding cabin door in the opposite side forming chamber is fixed at the end part of the piston rod of the feeding hydraulic cylinder through the pull plate joint.

5. The hydroforming briquetting device according to claim 2, wherein side wall risers are provided on both sides of the frame base, the side wall risers are provided in parallel on the outer sides of the side inner upright plates, and outer rib grids are provided on both the side wall risers and the outer sides of the side inner upright plates; the hydraulic system further comprises an oil tank, the oil tank is arranged on the stand base in the hydraulic chamber, an access hole is formed in the side wall vertical plate in a matched mode with the oil tank, and the oil tank extends out of the access hole.

6. The hydroforming briquetting apparatus according to claim 1, wherein the feed mechanism includes a feed hopper, a material cleaning impeller, and a material mixing and conveying mechanism, a discharge port of the material mixing and conveying mechanism is connected to a material inlet of the feed hopper, the feed hopper is disposed directly above the forming chamber, and the material cleaning impeller is disposed on an inner wall surface of the feed hopper.

7. The hydroforming briquetting apparatus according to claim 1, wherein the compounding conveyor mechanism comprises: the device comprises a plurality of feeding bins, a mixing bin, a discharging port, a material collecting bin and a conveying belt; a plurality of feeding storehouse word transverse arrangement, feeding storehouse slant upper direction opening, inside and blending bunker intercommunication, the pivot of horizontal installation in the blending bunker, the pivot middle part sets up the compounding and turns over the board, the compounding turns over board both sides and sets up forward auger and reverse auger respectively, the defeated material direction of forward auger and reverse auger all is to the pivot middle part, blending bunker and discharge gate intercommunication, the discharge gate below sets up the storehouse that gathers materials, the storehouse export that gathers materials links to each other with the conveyer belt.

8. The hydroforming press apparatus according to claim 5, wherein the base of the frame has four road wheels, and a telescopic leg is fixed to the side wall vertical plate beside each road wheel.

9. The hydroforming press block apparatus according to claim 1, wherein the frame base has a block outlet base at each end, the block outlet base having a slide rail, the slide rail having a slide plate for receiving and transporting the extruded press block.

10. The hydroforming briquetting device according to claim 5, wherein a hydraulic system control box is provided at the top of the hydraulic chamber, power elements and control elements of the hydraulic system are also provided in the hydraulic system control box, a cab is provided above the hydraulic system control box, a cab seat and a control terminal are provided in the cab, and a ceiling is provided above the cab seat.

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