CN109648702A - A kind of production equipment of fire-fighting foam ceramics - Google Patents

Abstract

The invention discloses a kind of production equipments of fire-fighting foam ceramics, that is the production procedure of fire-fighting foam ceramics, when fire-fighting foam ceramics become fire-fighting foam ceramics from slurry in the technical program, the mode cut in batches is used to guarantee that excessive destruction will not be generated to the entirety of fire-fighting foam ceramics during the entire process of cutting mechanism cuts fire-fighting foam ceramics, to improve the quality of production of fire-fighting foam ceramics.

Description

A kind of production equipment of fire-fighting foam ceramics

Technical field

Ceramic the present invention relates to fire-fighting foam ceramic doors industry production production technical field more particularly to a kind of fire-fighting foam Production equipment.

Background technique

Fire-fighting foam ceramic doors production line in the prior art is complex, and production process is excessive, in production process It is easy to produce a large amount of wasting of resources, simultaneously because when fire-fighting foam ceramics just become fire-fighting foam ceramics from slurry, entirely Fire-fighting foam ceramics quality is softer, and traditional cutting mechanism, cuts that mode is more rough, is steeped by plug-in strip to the fire prevention of monolith Foam ceramics carry out piecemeal cutting, and this cutting mode is easy to cause in cutting process the groove of fire-fighting foam ceramic surface to occur Deformation, and then influence the product quality of entire fire-fighting foam ceramics.

Summary of the invention

The technical problem to be solved by the invention is to provide one kind to cut in batches, and production process is succinct, lower production costs Fire-fighting foam ceramic doors production equipment.

The present invention solves the above problems used technical solution are as follows: a kind of production equipment of fire-fighting foam ceramics, including One can accommodate the accommodating cavity of slurry, and the feed inlet for entering accommodating cavity for slurry is equipped with above accommodating cavity, is equipped with below accommodating cavity Go out the first discharge port of accommodating cavity for slurry, be equipped in accommodating cavity can the rabbling mechanism that is stirred of slurry, under rabbling mechanism Side is equipped with a strainer, and the discharging mechanism that slurry can be made through the first discharge port outflow accommodating cavity is set below strainer, and the first discharge port is remote The shaping mechanism that slurry is tentatively formed, shaping mechanism can be set far from first discharge port one end by being equipped with one from accommodating cavity side There is one can be heated to slurry so that slurry heat expansion is the drying room of fire-fighting foam ceramics, drying room side wall is equipped with for drying Second discharge port of slurry outflow afterwards, drying room are equipped with to be equipped with outside the second discharge port side and make pottery to the fire-fighting foam after drying The first cutting mechanism that porcelain is cut is passed between shaping mechanism, drying room and the first cutting mechanism by the first transport mechanism Dynamic connection, the first cutting mechanism are equipped with the second transmission that can be driven to fire-fighting foam ceramics away from the first transport mechanism side Mechanism, the second transport mechanism is interior to be equipped with the second cutting mechanism that can fire-fighting foam ceramics be carried out with transverse cuts, the second cutting machine Structure is equipped with the 4th transport mechanism that the fire-fighting foam ceramics after cutting are transmitted out to production line away from the second transport mechanism side.

After using the above structure, the present invention has the advantage that with existing structure comparison

A kind of production equipment of fire-fighting foam ceramics of the invention, elaboration be a fire-fighting foam ceramics production stream Journey；When fire-fighting foam ceramics become fire-fighting foam ceramics from slurry in the technical program, use the mode cut in batches to guarantee Cutting mechanism will not generate the entirety of fire-fighting foam ceramics excessive during the entire process of cutting to fire-fighting foam ceramics It destroys, to improve the quality of production of fire-fighting foam ceramics；In the technical scheme, when slurry enters accommodating from first charging aperture After intracavitary, rabbling mechanism can be stirred to prevent slurry to be frozen into accommodating cavity slurry under the driving of first motor Block, slurry can enter in discharging chamber while being stirred through strainer, and after filled therewith expires discharging chamber, the second motor can be driven Second rotation axis of dynamic discharging mechanism is circumferentially rotated, and then drives the helical blade of the second rotation axis lateral wall, and spiral The rotation of blade will drive slurry in discharging chamber and spread out of from the first discharge port to shaping mechanism, and the first of shaping mechanism bottom surface Transport mechanism will drive the slurry in shaping mechanism to drying indoor transmissions, since the load of the first discharge port is greater than forming machine The transmission speed of the first transport mechanism of structure bottom surface, therefore can be in shaping mechanism and the first discharge port from the slurry that the first discharge port is spread out of Between flock together so that the slurry in shaping mechanism is during being transmitted in drying room, slurry is in shaping mechanism Preliminary type-approval process is completed, since the shaping mechanism is rectangular parallelepiped structure in the technical program, therefore from the first conveyer When structure sends out shaping mechanism, slurry is just fixed to cuboid；After slurry enters drying room, the temperature of drying room can be It is constantly increased under the action of heating wire, the slurry on the first transmission mechanism also can be with the rising of temperature and slowly heat expansion is at fire prevention Foamed ceramics, slurry also can slowly solidify；The first transport mechanism can make pottery fire-fighting foam after slurry becomes fire-fighting foam ceramics Porcelain is sent at the first cutting mechanism, and the first cutter group of the first cutting mechanism can be to the vertical direction of fire-fighting foam ceramics And the left and right sides of fire-fighting foam ceramics is cut, and after the left and right sides of fire-fighting foam ceramics has been cut, fire-fighting foam pottery Porcelain can be sent at the second cutter group under the transmission of the first transport mechanism, and the second cutter group can be to fire-fighting foam ceramics Horizontal cross cutting, and the upper surface and lower end surface of cutting fire-fighting foam ceramics are carried out, in the second cutter group to fire-fighting foam Third transport mechanism when ceramics are cut at left and right sides of the second cutter group can drive fire-fighting foam ceramics to think the second transmission The sliding of mechanism direction；When fire-fighting foam ceramics enter the second transport mechanism when, i.e., when the left side of fire-fighting foam ceramics, right side, on After the completion of end face, lower end surface are cut, the second transport mechanism can be entered, the second transport mechanism can transmit fire-fighting foam ceramics To guide plate, guide plate can carry out positioning and guiding to fire-fighting foam ceramics, prevent fire-fighting foam ceramics from driving to the second cutting There are certain deviation phenomenons when mechanism；When fire-fighting foam ceramics can enter the second cutting mechanism, the second cutting after guide plate Mechanism is perpendicular to fire-fighting foam ceramics lateral wall, therefore the cutting of the second cutting mechanism is the front end face of fire-fighting foam ceramics with after End face；When fire-fighting foam ceramics arrive at the second cutting mechanism, the 5th cutterhead can be under the driving of the 5th motor to fire-fighting foam Ceramic direction sliding, and fire-fighting foam ceramics are carried out with the cutting of vertical direction, and the fire-fighting foam ceramics meeting after the completion of cutting It is passed out production line under the transmission of four transport mechanism of ground, to complete the production procedure of entire fire-fighting foam ceramics.

The technical program is relatively fewer in the production process process compared to traditional fire-fighting foam ceramics, in the technical program Production process cost is relatively low, while the mode that cuts of the technical program is cut using multisection type, and first cuts fire-fighting foam pottery The left and right sides of porcelain, then cut the upper surface and lower end surface of fire-fighting foam ceramics, when the left side of fire-fighting foam ceramics, right side, on After being cut, the second cutting mechanism can carry out secondary cut to fire-fighting foam ceramics, and then fire prevention is steeped for end face, lower end surface The cutting of foam ceramic section.

As a kind of preferred: rabbling mechanism includes first turn that vertical direction is rotationally connected with accommodating cavity upper surface inner sidewall Moving axis, the first rotation axis lateral wall are circumferentially with the stirring rod for stirring slurry, and the first rotation axis upper end is stretched out accommodating cavity and turned The dynamic first motor for being connected with driving rabbling mechanism rotation, the first rotation axis lower end are rotationally connected with strainer center, strainer week Outside side wall is fixedly connected with accommodating chamber inner sidewall, and discharging mechanism can be accommodated by being equipped between strainer lower end surface and accommodating cavity bottom surface Discharging chamber, discharging structure include second rotation axis being laterally arranged, the second rotation axis lateral wall be circumferentially with can to slurry into The helical blade of row transmission, the second rotation axis, which stretches out accommodating cavity lateral wall rotation connection one away from first discharge port one end, to be driven The second motor that second rotation axis is circumferentially rotated；After slurry enters in accommodating cavity from first charging aperture, rabbling mechanism meeting Slurry is stirred under the driving of first motor blocking to prevent slurry from solidifying in accommodating cavity, slurry is same what is be stirred When can enter in discharging chamber through strainer, after filled therewith expire discharging chamber, second turn of the second electricity opportunity driven discharging mechanism Moving axis is circumferentially rotated, and then drives the helical blade of the second rotation axis lateral wall, and the rotation of helical blade will drive out Expect that intracavitary slurry spreads out of accommodating cavity from the first discharge port.

As a kind of preferred: shaping mechanism is cube structure, and shaping mechanism bottom surface is can be to the slurry after preliminary sizing The first transport mechanism for being transmitted to drying room is carried out, shaping mechanism lateral wall one end is connected to the first discharge port, outside shaping mechanism Side wall is connected to far from first discharge port one end with drying room；First transport mechanism of shaping mechanism bottom surface will drive in shaping mechanism Slurry to drying indoor transmissions, due to the first discharge port load be greater than the first transport mechanism of shaping mechanism bottom surface transmission Speed, therefore can flock together between shaping mechanism and the first discharge port from the slurry that the first discharge port is spread out of, so that being formed For slurry within the organization during being transmitted in drying room, preliminary type-approval process has been completed in slurry in shaping mechanism.

As a kind of preferred: drying room inner sidewall, which is equipped with, can heat the slurry after preliminary sizing and make slurry heat expansion To react the heating wire structure for being fire-fighting foam ceramics, drying room side wall, which is equipped with, places the excessively high heat dissipation knot of drying room temperature Structure, drying room bottom surface are the first transport mechanism that fire-fighting foam ceramics can be sent out to drying room and enter the first cutting mechanism； After slurry enters drying room, the temperature of drying room can constantly increase under the action of heating wire, the slurry on the first transmission mechanism Material also can be with the rising of temperature and slowly heat expansion also can slowly be solidified at fire-fighting foam ceramics, slurry；When slurry becomes preventing fires Fire-fighting foam ceramics can be sent at the first cutting mechanism by the first transport mechanism after foamed ceramics.

As it is a kind of preferably: the first cutting mechanism include can vertical direction cut to fire-fighting foam ceramics are cut first Cutter group and can transverse direction the second cutter group that fire-fighting foam ceramics are cut, at left and right sides of the second cutter group The third transport mechanism that fire-fighting foam ceramics can be driven to be driven to the second transport mechanism direction equipped with one, the first cutter group include The first cutterhead and the second cutterhead that are vertically arranged is equipped between the first cutterhead and the second cutterhead and passes through for fire-fighting foam ceramics First cavity, the first cutterhead and the second cutterhead pass through third motor driven, and the second cutter group includes dividing into transverse direction The third cutterhead and the 4th cutterhead set are equipped with the second sky passed through for fire-fighting foam ceramics between third cutterhead and the 4th cutterhead Chamber, third cutterhead and the 4th cutterhead pass through the 4th motor driven；When fire-fighting foam ceramics enter the first of the first cutting mechanism When cutter group, the first cutterhead and the second cutterhead of the first cutter group of the first cutting mechanism can erect fire-fighting foam ceramics Histogram to and the left and right sides of fire-fighting foam ceramics cut, after the left and right sides of fire-fighting foam ceramics has been cut, fire prevention Foamed ceramics can be sent at the second cutter group under the transmission of the first transport mechanism, and the third knife of the second cutter group meeting Disk and the 4th cutterhead can carry out horizontal cross cutting, and the upper surface and lower end of cutting fire-fighting foam ceramics to fire-fighting foam ceramics Face, the third transport mechanism meeting when the second cutter group cuts fire-fighting foam ceramics at left and right sides of the second cutter group Driving fire-fighting foam ceramics think that the second transport mechanism direction is slided.

As a kind of preferred: the first transport mechanism includes the third rotation axis being set to below the first discharge port, is set to first The 4th rotation axis and one below cutter plate are used for transmission the first transmission belt of slurry and fire-fighting foam ceramics, and third rotates Axis and the 4th rotation axis are sequentially connected by the first transmission belt.

As a kind of preferred: the second cutting mechanism includes the 5th cutterhead that can fire-fighting foam ceramics be carried out with transverse cuts With the 5th motor of driving a 5th cutterhead rotation, the 5th cutter head center is slidably connected the 5th motor by first connecting rod, and the 5th Motor lower end surface is equipped with the sliding slot slid laterally for first connecting rod.

As a kind of preferred: the second transport mechanism includes the 5th rotation axis and the 6th rotation axis, the 5th rotation axis and the 6th Rotation axis by the second conveyer belt be sequentially connected, between the 5th rotation axis and the 6th rotation axis be also embedded with one can to second pass The dynamic table top that pushing tow is carried out with upper surface, table top are fixedly connected with the ground, and the table top upper surface also sets one can be to fire-fighting foam The guide plate that ceramics are positioned, guide plate are to rotate the axial 6th continuous contraction structure of rotation axis from the 5th.

As a kind of preferred: third transport mechanism includes a fixed frame, and fixed frame is close to third cutterhead or the 4th cutterhead one Side is equipped with the transmission shaft that can be driven fire-fighting foam ceramics, and transmission shaft is electrically connected with the 4th motor.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of the production equipment of fire-fighting foam ceramics of the present invention.

Fig. 2 is the structural schematic diagram at a kind of production equipment cutting mechanism of fire-fighting foam ceramics of the present invention.

Fig. 3 is the structural schematic diagram at a kind of the second cutting mechanism of production equipment of fire-fighting foam ceramics of the present invention.

In figure, 1, accommodating cavity, 2, rabbling mechanism, 3, shaping mechanism, 4, drying room, the 5, first cutting mechanism, 6, first is passed Send mechanism, the 7, second transport mechanism, the 8, second cutting mechanism, the 9, the 4th transport mechanism, 101, feed inlet, the 102, first discharging Mouthful, 103, strainer, 104, discharging mechanism, 105, discharging chamber, the 201, first rotation axis, 202, stirring rod, 203, first motor, 401, the second discharge port, 402, heating wire structure, 403, radiator structure, the 501, first cutter group, the 502, second cutter group, 503, third transport mechanism, 601, third rotation axis, the 602, the 4th rotation axis, the 603, first transmission belt, the 701, the 5th rotation axis, 702, the 6th rotation axis, the 703, second transmission belt, 704, table top, 705, guide plate, the 801, the 5th cutterhead, the 802, the 5th motor, 803, first connecting rod, 804, sliding slot, the 1041, second rotation axis, 1042, helical blade, the 1043, second motor, the 5011, first knife Disk, the 5012, second cutterhead, the 5013, first cavity, 5014, third motor, 5021, third cutterhead, the 5022, the 4th cutterhead, 5023, the second cavity, the 5024, the 4th motor, 5031, fixed frame, 5032, transmission shaft.

Specific embodiment

It explains with reference to the accompanying drawing to a kind of specific embodiment of the invention.

Embodiment 1: referring to Fig. 1, Fig. 2, Fig. 3, in the technical program: when slurry enters in accommodating cavity from first charging aperture Afterwards, rabbling mechanism can be stirred slurry under the driving of first motor blocking to prevent slurry from solidifying in accommodating cavity, slurry Material can enter in discharging chamber while being stirred through strainer, and after filled therewith expires discharging chamber, the second electric opportunity driven goes out Second rotation axis of material mechanism is circumferentially rotated, and then drives the helical blade of the second rotation axis lateral wall, and helical blade Rotation will drive slurry in discharging chamber and spread out of from the first discharge port to shaping mechanism, and the first of shaping mechanism bottom surface the transmission Mechanism will drive the slurry in shaping mechanism to drying indoor transmissions, since the load of the first discharge port is greater than shaping mechanism bottom The transmission speed of the first transport mechanism of face, therefore can be between shaping mechanism and the first discharge port from the slurry that the first discharge port is spread out of It flocks together, so that the slurry in shaping mechanism is during being transmitted in drying room, slurry is complete in shaping mechanism At preliminary type-approval process, since the shaping mechanism is rectangular parallelepiped structure in the technical program, therefore passed from the first transport mechanism When sending out shaping mechanism, slurry is just fixed to cuboid；After slurry enters drying room, the temperature of drying room can be in electric heating It is constantly increased under the action of silk, the slurry on the first transmission mechanism also can be with the rising of temperature and slowly heat expansion is at fire-fighting foam Ceramics, slurry also can slowly solidify；The first transport mechanism can pass fire-fighting foam ceramics after slurry becomes fire-fighting foam ceramics It send to the first cutting mechanism, and the first cutter group of the first cutting mechanism can vertical direction to fire-fighting foam ceramics and anti- It is cut at left and right sides of fiery foamed ceramics, after the left and right sides of fire-fighting foam ceramics has been cut, fire-fighting foam ceramics meeting It is sent under the transmission of the first transport mechanism at the second cutter group, and the second cutter group can carry out fire-fighting foam ceramics Horizontal cross cutting, and the upper surface and lower end surface of cutting fire-fighting foam ceramics, in the second cutter group to fire-fighting foam ceramics Third transport mechanism when being cut at left and right sides of the second cutter group can drive fire-fighting foam ceramics to think the second transport mechanism Direction sliding；When fire-fighting foam ceramics enter the second transport mechanism when, i.e., when the left side of fire-fighting foam ceramics, right side, upper surface, After the completion of lower end surface is cut, the second transport mechanism can be entered, fire-fighting foam ceramics can be sent to and lead by the second transport mechanism To at plate, guide plate can carry out positioning and guiding to fire-fighting foam ceramics, prevent fire-fighting foam ceramics from driving to the second cutting mechanism When there are certain deviation phenomenons；When fire-fighting foam ceramics can enter the second cutting mechanism, the second cutting mechanism after guide plate For perpendicular to fire-fighting foam ceramics lateral wall, thus the cutting of the second cutting mechanism be fire-fighting foam ceramics front end face and rear end Face；When fire-fighting foam ceramics arrive at the second cutting mechanism, the 5th cutterhead can make pottery under the driving of the 5th motor to fire-fighting foam The sliding of porcelain direction, and fire-fighting foam ceramics are carried out with the cutting of vertical direction, and the fire-fighting foam ceramics after the completion of cutting can be It is passed out production line under the transmission of four transport mechanism of ground, to complete the production procedure of entire fire-fighting foam ceramics.

Referring to Fig. 1, the present invention solves the above problems used technical solution are as follows: a kind of production of fire-fighting foam ceramics is set Accommodating cavity 1 that is standby, can accommodating slurry including one is equipped with the feed inlet 101 for entering accommodating cavity 1 for slurry above accommodating cavity 1, holds It sets to be equipped with below chamber 1 and goes out the first discharge port 102 of accommodating cavity 1 for slurry, being equipped in accommodating cavity 1 can stirring of being stirred of slurry Mechanism 2 is mixed, a strainer 103 is equipped with below rabbling mechanism 2, setting below strainer 103, which can be such that slurry spreads out of through the first discharge port 102, holds Set the discharging mechanism 104 of chamber 1, the first discharge port 102 far from 1 side of accommodating cavity be equipped with one can be tentatively formed to slurry determine Type mechanism 3, shaping mechanism 3 are equipped with one far from 102 one end of the first discharge port and can be heated to slurry so that slurry heat expansion is anti- The drying room 4 of fiery foamed ceramics, the second discharge port 401 that 4 side wall of drying room is equipped with for the slurry outflow after drying, drying room 4 are equipped with the first cutting mechanism 5 for being equipped with outside 401 side of the second discharge port and being cut to the fire-fighting foam ceramics after drying, It is sequentially connected between shaping mechanism 3, drying room 4 and the first cutting mechanism 5 by the first transport mechanism 6, first cutting machine Structure 5 is equipped with the second transport mechanism 7 that can be driven to fire-fighting foam ceramics, the second transmission away from 6 side of the first transport mechanism The second cutting mechanism 8 that can fire-fighting foam ceramics be carried out with transverse cuts is equipped in mechanism 7, the second cutting mechanism 8 deviates from second 7 side of transport mechanism is equipped with the 4th transport mechanism 9 that the fire-fighting foam ceramics after cutting are transmitted out to production line.

After using the above structure, the present invention has the advantage that with existing structure comparison

A kind of production equipment of fire-fighting foam ceramics of the invention, elaboration be a fire-fighting foam ceramics production stream Journey；When fire-fighting foam ceramics become fire-fighting foam ceramics from slurry in the technical program, use the mode cut in batches to guarantee Cutting mechanism will not generate the entirety of fire-fighting foam ceramics excessive during the entire process of cutting to fire-fighting foam ceramics It destroys, to improve the quality of production of fire-fighting foam ceramics；In the technical scheme, when slurry enters accommodating from first charging aperture After intracavitary, rabbling mechanism can be stirred to prevent slurry to be frozen into accommodating cavity slurry under the driving of first motor Block, slurry can enter in discharging chamber while being stirred through strainer, and after filled therewith expires discharging chamber, the second motor can be driven Second rotation axis of dynamic discharging mechanism is circumferentially rotated, and then drives the helical blade of the second rotation axis lateral wall, and spiral The rotation of blade will drive slurry in discharging chamber and spread out of from the first discharge port to shaping mechanism, and the first of shaping mechanism bottom surface Transport mechanism will drive the slurry in shaping mechanism to drying indoor transmissions, since the load of the first discharge port is greater than forming machine The transmission speed of the first transport mechanism of structure bottom surface, therefore can be in shaping mechanism and the first discharge port from the slurry that the first discharge port is spread out of Between flock together so that the slurry in shaping mechanism is during being transmitted in drying room, slurry is in shaping mechanism Preliminary type-approval process is completed, since the shaping mechanism is rectangular parallelepiped structure in the technical program, therefore from the first conveyer When structure sends out shaping mechanism, slurry is just fixed to cuboid；After slurry enters drying room, the temperature of drying room can be It is constantly increased under the action of heating wire, the slurry on the first transmission mechanism also can be with the rising of temperature and slowly heat expansion is at fire prevention Foamed ceramics, slurry also can slowly solidify；The first transport mechanism can make pottery fire-fighting foam after slurry becomes fire-fighting foam ceramics Porcelain is sent at the first cutting mechanism, and the first cutter group of the first cutting mechanism can be to the vertical direction of fire-fighting foam ceramics And the left and right sides of fire-fighting foam ceramics is cut, and after the left and right sides of fire-fighting foam ceramics has been cut, fire-fighting foam pottery Porcelain can be sent at the second cutter group under the transmission of the first transport mechanism, and the second cutter group can be to fire-fighting foam ceramics Horizontal cross cutting, and the upper surface and lower end surface of cutting fire-fighting foam ceramics are carried out, in the second cutter group to fire-fighting foam Third transport mechanism when ceramics are cut at left and right sides of the second cutter group can drive fire-fighting foam ceramics to think the second transmission The sliding of mechanism direction；When fire-fighting foam ceramics enter the second transport mechanism when, i.e., when the left side of fire-fighting foam ceramics, right side, on After the completion of end face, lower end surface are cut, the second transport mechanism can be entered, the second transport mechanism can transmit fire-fighting foam ceramics To guide plate, guide plate can carry out positioning and guiding to fire-fighting foam ceramics, prevent fire-fighting foam ceramics from driving to the second cutting There are certain deviation phenomenons when mechanism；When fire-fighting foam ceramics can enter the second cutting mechanism, the second cutting after guide plate Mechanism is perpendicular to fire-fighting foam ceramics lateral wall, therefore the cutting of the second cutting mechanism is the front end face of fire-fighting foam ceramics with after End face；When fire-fighting foam ceramics arrive at the second cutting mechanism, the 5th cutterhead can be under the driving of the 5th motor to fire-fighting foam Ceramic direction sliding, and fire-fighting foam ceramics are carried out with the cutting of vertical direction, and the fire-fighting foam ceramics meeting after the completion of cutting It is passed out production line under the transmission of four transport mechanism of ground, to complete the production procedure of entire fire-fighting foam ceramics.

The technical program is relatively fewer in the production process process compared to traditional fire-fighting foam ceramics, in the technical program Production process cost is relatively low, while the mode that cuts of the technical program is cut using multisection type, and first cuts fire-fighting foam pottery The left and right sides of porcelain, then cut the upper surface and lower end surface of fire-fighting foam ceramics, when the left side of fire-fighting foam ceramics, right side, on After being cut, the second cutting mechanism can carry out secondary cut to fire-fighting foam ceramics, and then fire prevention is steeped for end face, lower end surface The cutting of foam ceramic section.

As a kind of preferred: rabbling mechanism 2 includes that vertical direction is rotationally connected with the first of 1 upper surface inner sidewall of accommodating cavity Rotation axis 201,201 lateral wall of the first rotation axis are circumferentially with the stirring rod 202 for stirring slurry, in the first rotation axis 201 The first motor 203 that accommodating cavity 1 is rotatably connected to a driving rabbling mechanism 2 rotation, the rotation of 201 lower end of the first rotation axis are stretched out in end It is connected to 103 center of strainer, 103 outer circumferential wall of strainer is fixedly connected with 1 inner sidewall of accommodating cavity, 103 lower end surface of strainer and appearance Set to be equipped between 1 bottom surface of chamber and can accommodate the discharging chamber 105 of discharging mechanism 104, discharging structure 104 include one be laterally arranged second Rotation axis 1041,1041 lateral wall of the second rotation axis is circumferentially with can be to the helical blade 1042 that slurry is transmitted, and second turn Moving axis 1041, which stretches out 1 lateral wall of accommodating cavity rotation connection one away from 102 one end of the first discharge port, can drive the second rotation axis 1041 The second motor 1043 circumferentially rotated；After slurry enters in accommodating cavity from first charging aperture, rabbling mechanism can be first Slurry is stirred under the driving of motor blocking to prevent slurry from solidifying in accommodating cavity, slurry can be saturating while being stirred Filter screen enters in discharging chamber, after filled therewith expires discharging chamber, the second rotation axis of the second electric opportunity driven discharging mechanism into Row circumferentially rotates, and then drives the helical blade of the second rotation axis lateral wall, and the rotation of helical blade will drive in discharging chamber Slurry spreads out of accommodating cavity from the first discharge port.

As a kind of preferred: shaping mechanism 3 is cube structure, and 3 bottom surface of shaping mechanism is can be to the slurry after preliminary sizing Material carries out the first transport mechanism 6 for being transmitted to drying room 4, and 3 lateral wall one end of shaping mechanism is connected to the first discharge port 102, fixed 3 lateral wall of type mechanism is connected to far from 102 one end of the first discharge port with drying room 4；First transport mechanism meeting of shaping mechanism bottom surface Drive the slurry in shaping mechanism to drying indoor transmissions, since the load of the first discharge port is greater than shaping mechanism bottom surface first The transmission speed of transport mechanism, therefore can flock together between shaping mechanism and the first discharge port from the slurry that the first discharge port is spread out of, So that the slurry in shaping mechanism, during being transmitted in drying room, slurry has been completed just in shaping mechanism The type-approval process of step.

As a kind of preferred: 4 inner sidewall of drying room, which is equipped with, can heat the slurry after preliminary sizing and keep slurry hot Swollen is the heating wire structure 402 that reaction is fire-fighting foam ceramics, and it is excessively high that 4 side wall of drying room is equipped with temperature in placement drying room 4 Radiator structure 403,4 bottom surface of drying room are that fire-fighting foam ceramics can be sent out to drying room 4 and enter the of the first cutting mechanism 5 One transport mechanism 6；After slurry enters drying room, the temperature of drying room can constantly increase under the action of heating wire, and first passes Slurry on motivation structure also can be with the rising of temperature and slowly heat expansion also can slowly be solidified at fire-fighting foam ceramics, slurry；When Fire-fighting foam ceramics can be sent at the first cutting mechanism by the first transport mechanism after slurry becomes fire-fighting foam ceramics.

As it is a kind of preferably: the first cutting mechanism 5 include can vertical direction fire-fighting foam ceramics are cut first Cutter group 501 and can transverse direction the second cutter group 502 that fire-fighting foam ceramics are cut, the second cutter group 502 left and right sides are equipped with a third transport mechanism that fire-fighting foam ceramics can be driven to be driven to 8 direction of the second transport mechanism 503, the first cutter group 501 includes the first cutterhead 5011 and the second cutterhead 5012 that are vertically arranged, the first cutterhead 5011 and the The first cavity 5013 passed through for fire-fighting foam ceramics, the first cutterhead 5011 and the second cutterhead are equipped between two cutterheads 5012 5012 are driven by third motor 5014, and the second cutter group 502 includes transverse direction third cutterhead 5021 setting up and down With the 4th cutterhead 5022, the second sky passed through for fire-fighting foam ceramics is equipped between third cutterhead 5021 and the 4th cutterhead 5022 Chamber 5023, third cutterhead 5021 and the 4th cutterhead 5022 are driven by the 4th motor 5024；When fire-fighting foam ceramics enter the When the first cutter group of one cutting mechanism, the first cutterhead and the second cutterhead of the first cutter group of the first cutting mechanism can be right The vertical direction of fire-fighting foam ceramics and the left and right sides of fire-fighting foam ceramics are cut, when the left and right two of fire-fighting foam ceramics After lateral incision has been cut, fire-fighting foam ceramics can be sent at the second cutter group under the transmission of the first transport mechanism, and second cuts The third cutterhead and the 4th cutterhead of cutter group meeting can carry out horizontal cross cutting, and cutting fire-fighting foam pottery to fire-fighting foam ceramics The upper surface and lower end surface of porcelain, when the second cutter group cuts fire-fighting foam ceramics at left and right sides of the second cutter group Third transport mechanism can drive fire-fighting foam ceramics think the second transport mechanism direction slide.

As a kind of preferred: the first transport mechanism 6 includes the third rotation axis 601 for being set to 102 lower section of the first discharge port, sets The first transmission of slurry and fire-fighting foam ceramics is used for transmission in the 4th rotation axis 602 of the lower section of the first cutter plate 501 and one Band 603, and third rotation axis 601 and the 4th rotation axis 602 are sequentially connected by the first transmission belt 603.

As a kind of preferred: the second cutting mechanism 8 includes the 5th knife that can fire-fighting foam ceramics be carried out with transverse cuts 5th motor 802 of disk 801 and driving the 5th cutterhead 801 rotation, 801 center of the 5th cutterhead is slided by first connecting rod 803 The 5th motor 802 is connected, 802 lower end surface of the 5th motor is equipped with the sliding slot 804 slid laterally for first connecting rod 803.

As a kind of preferred: the second transport mechanism 7 includes the 5th rotation axis 701 and the 6th rotation axis 702, the 5th rotation axis 701 and the 6th rotation axis 702 by the second conveyer belt 703 be sequentially connected, between the 5th rotation axis 701 and the 6th rotation axis 702 Be also embedded with and one can carry out the table top 704 of pushing tow to 703 upper surface of the second transmission belt, table top 704 be fixedly connected with the ground, institute Stating 704 upper surface of table top and also setting one can be from the 5th turn to the guide plate 705 that fire-fighting foam ceramics are positioned, guide plate 705 Moving axis 701 is to the continuous contraction structure of the 6th rotation axis 702.

As a kind of preferred: third transport mechanism 503 includes a fixed frame 5031, and fixed frame 5031 is close to third cutterhead 5021 or 5022 side of the 4th cutterhead be equipped with and can be driven the transmission shafts 5032 of fire-fighting foam ceramics, transmission shaft 5023 and the 4th motor 5024 electrical connections；In the technical program transmission shaft be more shafts, the shaft rotation come and in fixed frame, the shaft with 4th motor electrical connection, therefore the 4th motor can drive shaft circumferentially rotated, and then drive fire-fighting foam ceramics sliding.

Claims (9)

1. a kind of production equipment of fire-fighting foam ceramics, the accommodating cavity (1) that slurry can be accommodated including one, on the accommodating cavity (1) Side is equipped with the feed inlet (101) for entering accommodating cavity (1) for slurry, is equipped with below the accommodating cavity (1) and goes out to accommodate for slurry The first discharge port (102) of chamber (1), it is characterised in that: being equipped in the accommodating cavity (1) can the rabbling mechanism that is stirred of slurry (2), a strainer (103) are equipped with below the rabbling mechanism (2), setting below the strainer (103) can make slurry through the first discharging The discharging mechanism (104) of mouth (102) outflow accommodating cavity (1), first discharge port (102) are equipped with far from accommodating cavity (1) side One can set the shaping mechanism (3) that slurry is tentatively formed, the shaping mechanism (3) far from the first discharge port (102) one end There is one can be heated to slurry so that slurry heat expansion is the drying room (4) of fire-fighting foam ceramics, drying room (4) side wall is set There is the second discharge port (401) for the slurry outflow after drying, the drying room (4) is equipped with the second discharge port (401) side Outside is equipped with the first cutting mechanism (5) cut to the fire-fighting foam ceramics after drying, the shaping mechanism (3), drying It is sequentially connected between room (4) and the first cutting mechanism (5) by the first transport mechanism (6), first cutting mechanism (5) is deviated from First transport mechanism (6) side is equipped with the second transport mechanism (7) that can be driven to fire-fighting foam ceramics, second transmission The second cutting mechanism (8) that can fire-fighting foam ceramics be carried out with transverse cuts, second cutting mechanism are equipped in mechanism (7) (8) the 4th conveyer that the fire-fighting foam ceramics after cutting are transmitted out to production line is equipped with away from the second transport mechanism (7) side Structure (9).

2. a kind of production equipment of fire-fighting foam ceramics according to claim 1, it is characterised in that: the rabbling mechanism It (2) include the first rotation axis (201) that vertical direction is rotationally connected with accommodating cavity (1) upper surface inner sidewall, first rotation Axis (201) lateral wall is circumferentially with the stirring rod (202) for stirring slurry, and the first rotation axis (201) upper end, which is stretched out, to hold Set the first motor (203) that chamber (1) is rotatably connected to a driving rabbling mechanism (2) rotation, the first rotation axis (201) lower end It is rotationally connected with strainer (103) center, strainer (103) the outer circumferential wall is fixedly connected with accommodating cavity (1) inner sidewall, described The discharging chambers (105) of discharging mechanism (104) can be accommodated by being equipped between strainer (103) lower end surface and accommodating cavity (1) bottom surface, it is described go out Expect that structure (104) include second rotation axis (1041) being laterally arranged, the second rotation axis (1041) lateral wall is circumferentially set The first discharge port (102) one can be deviated to the helical blade (1042) that slurry is transmitted, second rotation axis (1041) by having The second motor that accommodating cavity (1) lateral wall rotation connection one can drive the second rotation axis (1041) to be circumferentially rotated is stretched out at end (1043)。

3. a kind of production equipment of fire-fighting foam ceramics according to claim 1, it is characterised in that: the shaping mechanism It (3) is cube structure, shaping mechanism (3) bottom surface is that can carry out being transmitted to drying room (4) to the slurry after preliminary sizing The first transport mechanism (6), described shaping mechanism (3) lateral wall one end is connected to the first discharge port (102), the shaping mechanism (3) lateral wall is connected to far from the first discharge port (102) one end with drying room (4).

4. a kind of production equipment of fire-fighting foam ceramics according to claim 1, it is characterised in that: the drying room (4) Inner sidewall, which is equipped with, can heat the slurry after preliminary sizing and the reaction of slurry heat expansion is made to be the electric heating of fire-fighting foam ceramics Silk structure (402), drying room (4) side wall, which is equipped with, places the excessively high radiator structure (403) of drying room (4) interior temperature, described Drying room (4) bottom surface is the first transmission that fire-fighting foam ceramics can be sent out to drying room (4) and enter the first cutting mechanism (5) Mechanism (6).

5. a kind of production equipment of fire-fighting foam ceramics according to claim 4, it is characterised in that: first cutting machine Structure (5) include can vertical direction the first cutter group (501) that fire-fighting foam ceramics are cut and can transverse direction to anti- The second cutter group (502) that fiery foamed ceramics is cut, the second cutter group (502) left and right sides is equipped with one can The third transport mechanism (503) that driving fire-fighting foam ceramics are driven to the second transport mechanism (8) direction, the first cutter group It (501) include the first cutterhead (5011) and the second cutterhead (5012) being vertically arranged, first cutterhead (5011) and the second knife The first cavity (5013) passed through for fire-fighting foam ceramics, first cutterhead (5011) and second are equipped between disk (5012) Cutterhead (5012) is driven by third motor (5014), and the second cutter group (502) includes that transverse direction is setting up and down Third cutterhead (5021) and the 4th cutterhead (5022), between the third cutterhead (5021) and the 4th cutterhead (5022) be equipped with can For the second cavity (5023) that fire-fighting foam ceramics pass through, the third cutterhead (5021) and the 4th cutterhead (5022) are by the Four motors (5024) driving.

6. a kind of production equipment of fire-fighting foam ceramics according to claim 5, it is characterised in that: first conveyer Structure (6) includes being set to the third rotation axis (601) below the first discharge port (102), being set to below the first cutter plate (501) 4th rotation axis (602) and one be used for transmission slurry and fire-fighting foam ceramics the first transmission belt (603), and the third rotates Axis (601) and the 4th rotation axis (602) are sequentially connected by the first transmission belt (603).

7. a kind of production equipment of fire-fighting foam ceramics according to claim 1, it is characterised in that: second cutting machine Structure (8) includes that the 5th cutterhead (801) that can fire-fighting foam ceramics be carried out with transverse cuts and the 5th cutterhead (801) of driving turn The 5th dynamic motor (802), the 5th cutterhead (801) center are slidably connected the 5th motor by first connecting rod (803) (802), the 5th motor (802) lower end surface is equipped with the sliding slot (804) slid laterally for first connecting rod (803).

8. a kind of production equipment of fire-fighting foam ceramics according to claim 1, it is characterised in that: second conveyer Structure (7) includes the 5th rotation axis (701) and the 6th rotation axis (702), the 5th rotation axis (701) and the 6th rotation axis (702) it is sequentially connected by the second conveyer belt (703), going back between the 5th rotation axis (701) and the 6th rotation axis (702) The table top (704) of pushing tow can be carried out to the second transmission belt (703) upper surface by being embedded with one, and the table top (704) is fixed with ground Connection, table top (704) upper surface also sets one can be to the guide plate (705) that fire-fighting foam ceramics are positioned, the guiding Plate (705) is from the 5th rotation axis (701) to the 6th rotation axis (702) continuous contraction structure.

9. a kind of production equipment of fire-fighting foam ceramics according to claim 5, it is characterised in that: the third conveyer Structure (503) includes a fixed frame (5031), and the fixed frame (5031) is close to third cutterhead (5021) or the 4th cutterhead (5022) Side is equipped with the transmission shaft (5032) that can be driven fire-fighting foam ceramics, and the transmission shaft (5023) is electrically connected with the 4th motor (5024) It connects.