CN206678169U - A kind of equipment for producing gypsum lightweight hollow partition board - Google Patents

Abstract

The utility model discloses a kind of equipment for producing gypsum lightweight hollow partition board, including agitating device, gas fractionation unit and the molding main-machine being sequentially communicated.In the utility model; raw material and water are mixed in agitating device; because agitating device can be cleared up the inwall of agitating device while the mixture of raw material and water is stirred; so as to avoid due to long-play; the phenomenon for causing to produce the inwall that magma is attached to agitating device occurs; the attachment that cleaning is attached to agitating device inwall is so just shut down afterwards for a period of time without continuous production, so as to improve the production efficiency of product.Further, injection magma need to also carry out gas separation in gas fractionation unit, the gas being mixed into injection magma is separated, ultimately form the production magma for not containing gas, thus, bubble is not contained in product eventually through molding main-machine shaping, ensure that the finish and bulk strength on shaped article surface.

Description

A kind of equipment for producing gypsum lightweight hollow partition board

Technical field

Gypsum hollow Light trabses production technical field is the utility model is related to, more particularly to it is a kind of light for producing gypsum The equipment of matter hollow partition board.

Background technology

In the production of existing gypsum lightweight hollow partition board, due to there is the spy quickly solidified after raw material and water mixing Property, therefore the phenomenon of blocking often occurs in stir chamber, it is necessary to shut down after so having led to continuous production for a period of time Cleaning blocks material, and this is serious to have impact on production efficiency.Meanwhile in the production process of existing light hollow gypsum partition board In, it is impossible to the gas being mixed into raw material is separated, so that the gas residue being mixed into raw material is in final product. Gas is mixed with product, the finish of product surface can be influenceed, while bubble can be also formed in the inside of product, so will shadow Ring the structural strength of product.

Utility model content

The purpose of this utility model is to provide a kind of equipment for producing gypsum lightweight hollow partition board, for preventing Agitator blocks gypsum lightweight hollow partition board in process of production, can further be divided the gas being mixed with raw material From ensureing the continuity of production, the quality of product can also be lifted while improving production efficiency.

The utility model protects a kind of equipment for producing gypsum lightweight hollow partition board, including agitating device, gas Separator and molding main-machine；

The first feeding-passage, the first tapping channel and the first intake tunnel, raw materials for production are offered on the agitating device Enter respectively from first feeding-passage and the first intake tunnel in the agitating device with water, and in the agitating device Mixed, generation injection magma, it is described injection magma by it is described go out the first tapping channel enter the gas separation Device, the agitating device can carry out automatically cleaning to the inwall of the agitating device simultaneously during stirring；

The second feeding-passage, the second tapping channel, the second intake tunnel and water outlet are offered on the gas fractionation unit Passage, second feeding-passage connect with first tapping channel, and the injection magma is entered from second feeding-passage Enter the gas fractionation unit, the exhalant canal connects with first intake tunnel, and water enters from second intake tunnel Enter the gas fractionation unit and the agitating device, the note are entered by the exhalant canal and first intake tunnel Modeling magma carries out gas separation in the gas fractionation unit, produces production magma, the magma that produces is from described second Tapping channel enters in the molding main-machine；

Material feeding passage is offered on the molding main-machine, the material feeding passage connects with second tapping channel, described Produce magma by the material feeding passage to enter in the molding main-machine, and be molded in the molding main-machine.

The equipment as described above for being used to produce gypsum lightweight hollow partition board, these, it is preferred to, the agitating device Including agitator and the high-speed rotating shaft, feed mechanism and the agitating paddle that are arranged inside the agitator；

The first mounting hole, the first feeding-passage, the first tapping channel and the first intake tunnel are offered on the agitator；

High-speed rotating shaft, through first mounting hole and to extending inside the agitator；

The feed mechanism includes differential mechanism and feeding spiral rod, and the feeding spiral rod is by the differential mechanism with described High-speed rotating shaft rotates, and the rotary speed of the feeding spiral rod is less than the rotary speed of the high-speed rotating shaft；

The agitating paddle is vertical with the lower end of the high-speed rotating shaft to be fixedly connected, and the agitating paddle revolves away from the high speed The bottom intracavity diameter of the rotating diameter of one end of rotating shaft and the agitator is adapted.

The equipment as described above for being used to produce gypsum lightweight hollow partition board, these, it is preferred to, in the agitator Portion is disposed with coaxial differential chamber, feeding chamber and stir chamber under upper, and the differential mechanism is located at the differential chamber, described Feeding spiral rod is located at the feeding chamber, and the agitating paddle is located at the stir chamber, and the agitating paddle rotates away from the high speed The diameter of stir chamber is adapted described in the rotating diameter of one end of axle；

The lateral wall of first feeding-passage from the feeding chamber is extended in the feeding chamber, and first discharging is logical The madial wall of road from the bottom of the stir chamber extends to the lateral wall of the stir chamber bottom, and first intake tunnel is from institute The lateral wall for stating the upper end of stir chamber is extended in the stir chamber.

The equipment as described above for being used to produce gypsum lightweight hollow partition board, these, it is preferred to, the agitating paddle bag Including connector and fix the multiple blades connected with connector, the connector fixed cover is located at the lower end of the high-speed rotating shaft, Circumference of multiple blades along the connector is uniformly distributed, and the blade is hook solid, the direction of rotation of the agitating paddle It is consistent with the bending direction of the blade.

The equipment as described above for being used to produce gypsum lightweight hollow partition board, these, it is preferred to, the gas separation Device includes shell and be arranged at enclosure be dispersed with stirring device；

The second mounting hole, the second feeding-passage, the second tapping channel, the second intake tunnel are offered on the shell and is gone out Aquaporin, second feeding-passage are connected with first tapping channel, and the exhalant canal and the described first water inlet are logical Road is connected, and second intake tunnel is connected with water filling device；

The device that is dispersed with stirring includes rotary shaft and is sequentially coaxially fixedly connected in the rotary shaft from top to bottom Oar, disperser and pressure oar are vented, the rotary shaft can drive the exhaust oar, the disperser and pressure oar rotation, The air-flow of flow direction exhaust oar, institute are formed when the exhaust oar and the pressure oar rotate between the exhaust oar and the pressure oar Rotary shaft is stated through the mounting hole and is extended to the bottom of the shell.

The equipment as described above for being used to produce gypsum lightweight hollow partition board, these, it is preferred to, the enclosure Sequentially coaxially be provided with discharge chamber, scattered chamber and pressure chamber from top to bottom, the diameter of the scattered chamber be less than the discharge chamber and The diameter of the pressure chamber, the exhaust oar are located in the discharge chamber, and the dispersion pulp is located in the scattered chamber, the pressure Power oar is located in the pressure chamber；

The lateral wall of second feeding-passage from the scattered chamber is extended in the scattered chamber, and second discharging is logical The madial wall of road from the bottom of the pressure chamber extends to the lateral wall of the bottom of the pressure chamber, second intake tunnel from The lateral wall of the scattered chamber is extended in the discharge chamber, and the madial wall of the exhalant canal from the discharge chamber extends to institute State the lateral wall of discharge chamber.

The as described above equipment for being used to produce gypsum lightweight hollow partition board, these, it is preferred to, the exhaust oar and The pressure oar includes connector and multiple blades, and the connector fixed cover in the rotary shaft, consolidate by the blade Surely it is connected on the connector, circumference of multiple blades along the connector is uniformly distributed；

The blade is bending, the direction of rotation of the exhaust oar and the pressure oar and the bending direction of the blade Unanimously；

The number of blade of the exhaust oar is more than the number of blade of the pressure oar.

The equipment as described above for being used to produce gypsum lightweight hollow partition board, these, it is preferred to, institute's molding main-machine bag Include injection mold, mold, lower mould, first mould and multigroup core pulling axle in mould and second；

Material feeding passage is offered on the injection mould, the material feeding passage connects with second tapping channel, the note The both sides of modeling passage are further opened with multigroup connecting hole；

The mold, the lower mould, described first while mould and it is described second while mould be located at the injection mold Side away from second tapping channel, and form with the injection mold injection die cavities of the molding main-machine；

For the core pulling axle through the connecting hole and to extending inside the injection die cavities, the core pulling axle can be in the company Connect in hole and rotate, the mandrel can clean in rotary course to its own face.

The equipment as described above for being used to produce gypsum lightweight hollow partition board, these, it is preferred to, the mold, The lower mould, described first while mould and it is described second while mould be soft conveyer belt.

The equipment as described above for being used to produce gypsum lightweight hollow partition board, these, it is preferred to, the molding main-machine Also include clear flitch, the clear flitch passes through against the injection mold close to the side of the injection die cavities, the clear flitch The core pulling axle, and the clear flitch can move reciprocatingly with the rotation of the core pulling axle along the upper and lower of core pulling axle.

In the utility model, raw material and water are mixed in agitating device, because agitating device is in stirring raw material The inwall of agitating device can be cleared up while with the mixture of water, so as to avoid due to long-play, cause to give birth to The phenomenon that production magma is attached to the inwall of agitating device occurs, and so just shuts down cleaning attachment afterwards for a period of time without continuous production In the attachment of agitating device inwall, so as to improve the production efficiency of product.It is raw after agitating device in the utility model The injection magma of production also needs further to carry out gas separation in gas fractionation unit, will be mixed into the gas in injection magma Separate, ultimately form the production magma for not containing gas, thus eventually through molding main-machine shaping product in just Bubble is will be free from, ensure that the finish and the bulk strength of itself on the surface of shaped article gypsum lightweight hollow partition board.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art The required accompanying drawing used is briefly described in description, it should be apparent that, drawings in the following description are only that this practicality is new Some embodiments of type, for those of ordinary skill in the art, on the premise of not paying creative work, can be with root Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 is the overall structure for being used to produce the equipment of gypsum lightweight hollow partition board that the utility model embodiment provides Schematic diagram；

Fig. 2 is the overall structure for being used to produce the equipment of gypsum lightweight hollow partition board that the utility model embodiment provides Another visual angle schematic diagram；

Fig. 3 is the overall structure for being used to produce the equipment of gypsum lightweight hollow partition board that the utility model embodiment provides Cut-away diagram；

Fig. 4 is the core pulling axle portion for being used to produce the equipment of gypsum lightweight hollow partition board that the utility model embodiment provides Separation structure schematic diagram；

Fig. 5 is the agitating device for being used to produce the equipment of gypsum lightweight hollow partition board that the utility model embodiment provides Cut-away diagram；

Fig. 6 is the agitating device for being used to produce the equipment of gypsum lightweight hollow partition board that the utility model embodiment provides Agitating paddle assembling schematic diagram；

Fig. 7 is the gas separation for being used to produce the equipment of gypsum lightweight hollow partition board that the utility model embodiment provides Device splits intention；

Fig. 8 is the gas separation for being used to produce the equipment of gypsum lightweight hollow partition board that the utility model embodiment provides The structural representation of the pressure dissipaters of device.

Description of reference numerals：

10- agitating device 11- agitators the first feeding-passages of 111-

112- the first tapping channel 113- the first intake tunnel 114- differential chambers

115- feeding chamber 116- stir chamber 12- high-speed rotating shafts

13- feed mechanism 131- differential mechanism 132- feeding spiral rods

14- agitating paddle 20- gas fractionation unit 21- shells

211- the second feeding-passage 212- the second tapping channel the second intake tunnels of 213-

214- exhalant canal 215- discharge chambers 216- disperses chamber

217- pressure chambers 22- is dispersed with stirring device 221- rotary shafts

222- is vented oar 223- disperser 224- pressure oars

30- molding main-machine 31- injection mold 311- injection channels

The first sides of mould 34- mould under 32- molds 33-

The second sides of 35- mould 36- core pulling axles 361- expects clearly block

The clear flitch 41-U type grooves of 37- injection die cavities 40-

42- waist-shaped hole 43- oval groove 44- cams

50- bases

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describe, it is clear that described embodiment is the utility model part of the embodiment, rather than whole implementation Example.Based on the embodiment in the utility model, those of ordinary skill in the art are obtained under the premise of creative work is not made The every other embodiment obtained, belong to the scope of the utility model protection.

Embodiment one

The utility model embodiment provides a kind of equipment for producing gypsum lightweight hollow partition board, such as Fig. 1 to Fig. 8 Shown, the equipment for being used to produce gypsum lightweight hollow partition board includes agitating device 10, gas fractionation unit 20 and shaping master Machine 30.

Wherein, the first feeding-passage 111, the first tapping channel 112 and the first intake tunnel are offered on agitating device 10 113, raw materials for production and water enter in agitating device 10 from the first feeding-passage 111 and the first intake tunnel 113 respectively, and are stirring Mix and mixed in device 10, generation injection magma, injection magma enters gas separation dress by the first tapping channel 112 20 are put, agitating device 10 can carry out automatically cleaning to the inwall of agitating device 10 simultaneously during stirring；Gas fractionation unit Offer the second feeding-passage 211, the second tapping channel 212, the second intake tunnel 213 and exhalant canal 214 on 20, second Feeding-passage 211 connects with the first tapping channel 112, and injection magma enters gas fractionation unit from the second feeding-passage 211 20, exhalant canal 214 connects with the first intake tunnel 113, and water enters gas fractionation unit 20 from the second intake tunnel 213 and led to Cross the intake tunnel 113 of exhalant canal 214 and first and enter agitating device 10, injection magma enters promoting the circulation of qi in gas fractionation unit 20 Body separates, and produces production magma, and production magma enters in molding main-machine 30 from the second tapping channel 212；On molding main-machine 30 Material feeding passage is offered, material feeding passage connects with the second tapping channel 212, and production magma enters molding main-machine by material feeding passage In 30, and it is molded in molding main-machine 30.It will be appreciated by persons skilled in the art that in originally implementing, bottom is additionally provided with Seat 50, and agitating device 10, gas fractionation unit 20 and molding main-machine 30 are each attached on base 50, set base 50 Purpose is to ensure the uniformity of agitating device 10, gas fractionation unit 20 and the installation of molding main-machine 30.

The present embodiment, raw material and water enter agitating device from the first feeding-passage 111 and the first intake tunnel 113 respectively In 10, and chemical reaction, which occurs, in agitating device 10 makes raw material be converted into injection magma, former by the stirring of agitating device 10 Material and water can be mixed sufficiently.Simultaneously in the whipping process of agitating device 10, the inwall of agitating device 10 can be cleaned automatically, Prevent long-play from causing injection magma to be adhered on the inwall of agitating device 10, and then solidify, cause agitating device 10 phenomenons blocked occur, and so avoid in the prior art, just need to shut down cleaning attachment per continuous operation a period of time The situation of injection magma on the inwall of agitating device 10 occurs, so as to improve production efficiency.In the present embodiment, by stirring To mix after device 10 stirs, the injection magma of generation flows out agitating device 10 by the first tapping channel 112, and by with first The second feeding-passage 211 that tapping channel 112 connects enters in gas fractionation unit 20.When injection magma enters gas separation After device 20, in the presence of gas fractionation unit 20, the gas contained in injection magma is separated, forms final production The production magma needed.Magma is produced in the material feeding passage by connecting with the second tapping channel 212 to enter in molding main-machine 30, The gypsum lightweight hollow partition board of needs is finally produced in molding main-machine 30.Because production magma is entering molding main-machine 30 Before, the gas produced in magma has been separated, therefore does not contain bubble in the gypsum lightweight hollow partition board of final production, from And it ensure that the finish of the gypsum lightweight hollow batardeau plate surface of final molding and overall intensity.

Further, agitating device 10 includes agitator 11 and the high-speed rotating shaft 12 being arranged inside agitator 11, sent Expect mechanism 13 and agitating paddle 14.Wherein, agitator 11 on offer the first mounting hole, the first feeding-passage 111, first discharging The intake tunnel 113 of passage 112 and first；High-speed rotating shaft 12, through the first mounting hole and to extending inside agitator 11；Feeding Mechanism 13 includes differential mechanism 131 and feeding spiral rod 132, and feeding spiral rod 132 is revolved by differential mechanism 131 with high-speed rotating shaft 12 Turn, the rotary speed of feeding spiral rod 132 is less than the rotary speed of high-speed rotating shaft 12；Agitating paddle 14 and high-speed rotating shaft 12 Lower end be vertically fixedly connected, in the rotating diameter of the one end of agitating paddle 14 away from high-speed rotating shaft 12 and the bottom of agitator 11 Chamber diameter is adapted.It will be appreciated by persons skilled in the art that feeding spiral rod 132 is rotated by differential mechanism 131 with high speed The rotation of axle 12 can be that rotating Vortex can also be reversely rotated, and be preferably rotating Vortex in the present embodiment, rotating Vortex structure Simply, speed change can be realized using smaller size smaller, so that the volume of the present embodiment is optimal.Those skilled in the art are also It is understood that the first tapping channel 112 can be one or more, specific quantity can be according to the need of subsequent handling Set, be preferably a tapping channel in the present embodiment.

In the present embodiment, raw material and water enter agitator 11 from the first feeding-passage 111 and the first intake tunnel 113 respectively In, and be stirred to form injection magma in agitator 11, then from the first tapping channel 112 in the presence of agitating paddle 14 It is middle to enter in gas fractionation unit 20.Because the rotary speed of feeding spiral rod 132 is less than the rotary speed of agitating paddle 14, so as to Coaxial asynchronous differential shearing motion is formed between agitating paddle 14 and feeding spiral rod 132, can be by the end of feeding spiral rod 132 Raw material between agitating paddle 14 is rapidly taken away, and prevents due to the raw material accumulation between feeding spiral rod 132 and agitating paddle 14 Caused by clogging, ultimately result in rotary shaft 221 and damage.Meanwhile in the present embodiment, agitating paddle 14 is in agitator 11 The inside diameter of the rotating diameter of one end of wall and agitator 11 is adapted, and the purpose being arranged such is to allow agitating paddle 14 to exist The injection magma that the inwall of agitator 11 is will be close to during rotation is taken away, and prevents that be molded magma consolidates in the inwall of agitator 11 Change phenomenon, reach the purpose of the cleaning inwall of agitator 11, compared with prior art, cleaning is shut down without continuous operation a period of time Agitator 11, so as to save manpower and materials, improve production efficiency.

Further, coaxial differential chamber 114, feeding chamber 115 and stirring are disposed with upper in agitator 11 Chamber 116, differential mechanism 131 are located at differential chamber 114, and feeding spiral rod 132 is located at feeding chamber 115, and agitating paddle 14 is located at stir chamber 116, the rotating diameter and the diameter of stir chamber 116 of the one end of agitating paddle 14 away from high-speed rotating shaft 12 are adapted；First charging The lateral wall of passage 111 from feeding chamber 115 is extended in feeding chamber 115, and the first tapping channel 112 is from the bottom of stir chamber 116 Madial wall extend to the lateral wall of the bottom of stir chamber 116, lateral wall of first intake tunnel 113 from the upper end of stir chamber 116 Extend in stir chamber 116.In the present embodiment, raw material and water are mixed in stir chamber 116, in the high speed of agitating paddle 14 Under rotation so that the injection magma in stir chamber 116 forms high pressure, finally by being arranged on stir chamber in the shorter time In the inflow gas separator 20 of the first tapping channel 112 of 116 bottoms.It will be appreciated by persons skilled in the art that first The arrival end of feeding-passage 111 can set a variety of and outside mode of communicating, such as flange connection or hose clamp can be used to connect The mode such as connect to be connected, can specifically be determined according to preceding process or feed way.

In the present embodiment, in order to be further ensured that raw material will not be formed between feeding spiral rod 132 and agitating paddle 14 Block, set the diameter of feeding chamber 115 to be less than the diameter of stir chamber 116, so, agitating paddle 14 and feeding spiral rod 132 Between the differential shearing motion that can be stirred between oar 14 and feeding spiral rod 132 of raw material take away rapidly.Meanwhile in embodiment In, because the diameter of feeding chamber 115 is less than the diameter of stir chamber 116, therefore when setting the outlet of the first intake tunnel 113, It should make it that the purpose so set is to enter one close to the center position of stir chamber 116 for the outlet of the first intake tunnel 113 The raw material washed away between agitating paddle 14 and feeding spiral rod 132 of step so that will not between agitating paddle 14 and feeding spiral rod 132 The residual of raw material be present, be arranged such simultaneously, moreover it is possible to extend the time of raw material and water hybrid reaction, the change between raw material can be caused It is more abundant to learn reaction.

In the present embodiment, also set up the height of stir chamber 116 and the thickness of agitating paddle 14 is adapted.Those skilled in the art can With understanding, if the height of stir chamber 116 is much larger than the thickness of agitating paddle 14, height of the agitating paddle 14 in stir chamber 116 Speed rotation is difficult injection magma is formed high pressure, so as to rapidly flow into injection magma from the first tapping channel 112 In gas fractionation unit 20, and the injection magma that raw material is formed after being mixed with water, it can solidify in the shorter time, ultimately result in Stir chamber 116 blocks.Therefore the height that stir chamber 116 is set should be adapted with the thickness of agitating paddle 14, therebetween specifically Matching relationship, it can be determined according to the proportioning of raw material, when raw material proportioning so that raw material chance water is reacted when accelerating, stir chamber 116 Gap between agitating paddle 14 should suitably take it is smaller, conversely, what then gap therebetween can be suitably is bigger.

Further, agitating paddle 14 is made up of connector and multiple blades, and connector fixed cover is located at high-speed rotating shaft 12 Lower end, multiple blades are uniformly distributed along the circumference of connector, and blade is hook solid, the rotation of agitating paddle 14 and blade it is curved Qu Fangxiang is consistent.It will be appreciated by persons skilled in the art that can be to be welded and fixed connection between multiple blades and connector Can also be integrally formed, be preferably formed in one in the present embodiment, be integrally formed the intensity that can increase agitating paddle 14.Ability Field technique personnel will also be appreciated that the quantity of blade can be three, four or five, be preferably two in the present embodiment Number that is individual, specifically setting, it can set as needed, for example, when the quantity increase of the first tapping channel 112, stirring The pressure that oar 14 provides will increase, now the appropriate quantity for increasing blade in agitating paddle 14 of can, to ensure each to go out Expect the pressure in passage.In the present embodiment, when the injection magma in stir chamber 116 rotates with agitating paddle 14 in stir chamber 116, Under the influence of centrifugal force, being molded magma can assemble to the inwall of stir chamber 116, with the rotation of agitating paddle 14, stir chamber 116 Inwall attachment raw material can more and more, and ultimately result in the injection magma on the inwall of stir chamber 116 not easy-clear occur consolidate Change.To prevent the generation of this phenomenon, therefore rotating diameter and stirring of the agitating paddle 14 close to the inwall one end of stir chamber 116 are set The diameter of chamber 116 is adapted, at the same set blade for hook solid and the purpose that makes bending direction consistent with direction of rotation be in order to In agitating paddle 14 during rotation, the blade of hook solid can will be close to the injection magma of the inwall of stir chamber 116 to rotational circle Its central band is moved, and avoiding problems under the influence of centrifugal force, the injection magma of the inwall of stir chamber 116 can be more poly- more, ultimately result in There is the phenomenon being broken due to resistance increase in the one end of blade away from connector.Simultaneously also avoid the inwall of stir chamber 116 due to Solidify phenomenon caused by injection magma accumulation is excessive, further strengthen stir chamber 116 and wash ability certainly.

Further, gas fractionation unit 20 includes shell 21 and is arranged inside shell 21 to be dispersed with stirring device 22.Its In, the second mounting hole, the second feeding-passage 211, the second tapping channel 212, the second intake tunnel 213 are offered on shell 21 With exhalant canal 214, the second feeding-passage 211 is connected with the first tapping channel 112, and the water inlet of exhalant canal 214 and first is logical Road 113 is connected, and the second intake tunnel 213 is connected with water filling device；Being dispersed with stirring device includes rotary shaft 221 and from up to Under be sequentially coaxially fixedly connected on exhaust oar 222, disperser 223 and pressure oar 224 in rotary shaft 221, rotary shaft 221 can band Dynamic exhaust oar 222, disperser 223 and pressure oar 224 are rotated, and the He of oar 222 is vented when being vented oar 222 and the rotation of pressure oar 224 The air-flow of flow direction exhaust oar 222 is formed between pressure oar 224, rotary shaft 221 extends through mounting hole and to the bottom of shell 21. In the present embodiment, carry out connecting (not shown) by flexible pipe between exhalant canal 214 and the first intake tunnel 113；Note Water installations are cistern (not shown), are connected by water pump with the second intake tunnel 213.

In the present embodiment, injection magma enters in disperser 223 from the second feeding-passage 211, and disperser 223 is rotating Rotated at a high speed under the drive of axle 221, the injection magma entered in disperser 223 is broken up, makes the gas contained in injection magma Separated from injection magma.Meanwhile exhaust oar 222 and pressure oar 224 are provided with the both sides up and down of disperser 223, and Both form the air-flow of flow direction exhaust oar 222 when rotated, the gas separated from injection magma, with exhaust oar 222 with Air flow direction exhaust oar 222 side between pressure oar 224, is discharged eventually through exhalant canal 214, and is free of gas under residue Production magma enter in agitating paddle 14 in the presence of the self gravitation, finally rotate the high pressure of formation at a high speed in pressure oar 224 Entered by the second tapping channel 212 in molding main-machine 30 down.Therefore, the injection after being handled by gas fractionation unit 20 is former Slurry, the gas being molded in magma are able to exclude to form the production magma without gas of final molding, so as to ensure that finally into Any surface finish of the product of type, and even density.

Further, discharge chamber 215, scattered chamber 216 and pressure chamber are sequentially coaxially provided with inside shell 21 from top to bottom 217, the diameter for disperseing chamber 216 is less than the diameter of discharge chamber 215 and pressure chamber 217, and exhaust oar 222 is located in discharge chamber 215, Dispersion pulp is located in scattered chamber 216, and pressure oar 224 is located in pressure chamber 217；Second feeding-passage 211 is from scattered chamber 216 Lateral wall is extended in scattered chamber 216, and the second tapping channel 212 extends to pressure chamber from the madial wall of the bottom of pressure chamber 217 The lateral wall of 217 bottom, the lateral wall of the second intake tunnel 213 from scattered chamber 216 are extended in discharge chamber 215, and water outlet is led to The madial wall of road 214 from discharge chamber 215 extends to the lateral wall of discharge chamber 215.In the present embodiment, the diameter for disperseing chamber 216 is small In discharge chamber 215 and the diameter of pressure chamber 217, the purpose being arranged such is to prevent from breaing up injection magma in disperser 223 The gas escape discharged afterwards.It will be appreciated by persons skilled in the art that if the diameter of scattered chamber 216 is more than the He of discharge chamber 215 Pressure chamber 217, then be more than the position of discharge chamber 215 and pressure chamber 217 in scattered chamber 216, due to beyond discharge chamber 215 with The airflow range formed between pressure chamber 217, it can cause the gas for breaing up injection magma discharge may be with injection magma one Rise and enter in pressure chamber 217, finally enter in the presence of agitating paddle 14 in molding main-machine 30, so that finally giving Gypsum lightweight hollow partition board due to being reduced containing alveolate surface smoothness, Density inhomogeneity, therefore in the present embodiment, It is in order that must be vented more thoroughly, guarantee is most to set the diameter for disperseing chamber 216 to be less than pressure chamber 217 and the diameter of discharge chamber 215 The gypsum lightweight hollow partition board better quality obtained eventually.

Further, being vented oar 222 and pressure oar 224 includes connector and multiple blades, and connector fixed cover is located at In rotary shaft 221, blade is fixedly connected on connector, and blade is uniformly distributed along the circumference of connector, is vented the leaf of oar 222 Quantity of the quantity of piece more than the blade of pressure oar 224.It will be appreciated by persons skilled in the art that between blade and connector Can be welded and fixed integral shaping, be preferably formed in one in the present embodiment.In the present embodiment, pressure oar 224 and exhaust The coaxial rotating of oar 222, therefore pressure oar 224 and exhaust oar 222 can extract gas between the two simultaneously, and be vented in oar 222 The quantity of blade is more than the quantity of blade in pressure oar 224, and therefore, the ability that exhaust oar 222 extracts gas is more than pressure oar 224 The ability of gas is extracted, exhaust oar 222 is flowed to as a result, being formed between exhaust oar 222 and agitating paddle 14 from pressure oar 224 Air-flow, final be molded in magma broken up the gas separated and can be formed between exhaust oar 222 and pressure oar 224 Air flow direction exhaust oar 222 side of exhaust oar 222 is flowed to by pressure oar 224.It will be appreciated by persons skilled in the art that row The quantity difference of gas oar 222 and blade in pressure oar 224 can be needed to set, when in the second feeding-passage 211 according to specific When injection magma flow is larger, it can suitably increase pressure oar 224 and the leaf delta being vented in oar 222, otherwise can fit When reducing, quantity between the two is poor.Those skilled in the art will also be appreciated that the quantity of blade in pressure oar 224 also may be used To be set according to production requirement, second is needed when the quantity of the second tapping channel 212 setting is more or small product size is larger When magma increased flow capacity is produced in tapping channel 212, the quantity of blade in increase pressure oar 224 that can be suitably.In this implementation, pressure The blade quantity of power oar 224 is preferably two, and the quantity for being vented blade in oar 222 is preferably three.

In the present embodiment, the blade for also setting up pressure oar 224 and exhaust oar 222 is hook solid, and is vented oar 222 and pressure The direction of rotation of power agitating paddle 14 is consistent with the bending direction of blade.Because the high speed of disperser 223 rotates, in pressure chamber 217 and discharge chamber 215 in can contain production magma, and the production magma in pressure chamber 217 and discharge chamber 215 is with pressure oar 224 rotate with exhaust oar 222 in pressure chamber 217 and discharge chamber 215, and under the influence of centrifugal force, production magma can be to pressure The inwall of chamber 217 and discharge chamber 215 is assembled, with the rotation of pressure oar 224 and exhaust oar 222 so that pressure chamber 217 and exhaust The production magma adhered on the inwall of chamber 215 is more and more, causes raw material on the inwall of pressure chamber 217 and discharge chamber 215 not Easy-clear and solidify.Therefore set the blade of pressure oar 224 and exhaust oar 222 to be hook solid and make bending direction and rotation Turn the consistent purpose in direction and be that the blade of hook solid will can lean on during rotation in order to allow pressure oar 224 and exhaust oar 222 Production magma on the inwall of nearly pressure chamber 217 and discharge chamber 215 drives to rotation center, and avoiding problems the work in centrifugal force Under, the production magma on the inwall of pressure chamber 217 and discharge chamber 215 can be more poly- more, ultimately result in blade away from connector One end there is the phenomenon that is broken due to resistance increase.Also avoid simultaneously on the inwall of pressure chamber 217 and discharge chamber 215 due to Solidify phenomenon caused by raw material accumulation is excessive, also so that pressure chamber 217 and discharge chamber 215 have washes ability certainly.

In the present embodiment, in order to improve the automatic cleansing power of gas fractionation unit 20, the leaf of exhaust oar 222 is also set up Piece is adapted close to the rotating diameter of one end of the side wall of discharge chamber 215 and the diameter of discharge chamber 215, the blade of pressure oar 224 The rotating diameter of one end and the diameter of pressure chamber 217 close to pressure chamber 217 are adapted.The purpose being arranged such, it is to allow During rotation, blade can be further by pressure chamber 217 and the inwall of discharge chamber 215 for pressure oar 224 and exhaust oar 222 On raw material take away so that pressure chamber 217 and discharge chamber 215 to wash ability certainly stronger.

Disperser 223 in the present embodiment includes connecting shaft and a component discrete piece of the axially symmetric distribution along connecting shaft, Connecting shaft fixed cover is in rotary shaft 221.It will be appreciated by persons skilled in the art that the quantity of dispersible tablet can also be three It is individual or four etc. multiple can note along connecting shaft circumference uniform parts, the specific quantity of dispersible tablet according to entering in scattered chamber 216 The flow for moulding magma determines, when flow is larger, can suitably increase the quantity of dispersible tablet, conversely, the quantity of dispersible tablet can Suitably to reduce；It can be to be welded and fixed or be integrally formed between dispersible tablet and connecting shaft, be preferably integrated into the present embodiment Type.Dispersible tablet is adapted close to the rotating diameter of one end and the diameter of scattered chamber 216 of the side wall of scattered chamber 216.It is arranged such Purpose be in order that the raw material that must enter scattered chamber 216 sufficiently be broken up by disperser 223 so that the gas contained in raw material Sufficiently separated, so as to ensure that the quality of gypsum lightweight hollow partition board.

Further, molding main-machine 30 includes injection mold 31, mold 32, lower mould 33, the first side mould 34, second Side mould 35 and multigroup core pulling axle 36, wherein, material feeding passage, material feeding passage and the second tapping channel 212 are offered on injection mould Connection, the both sides of injection channel 311 are further opened with multigroup connecting hole；Mold 32, lower mould 33, the first side mould 34 and second Side mould 35 is located at side of the injection mold 31 away from the second tapping channel 212, and forms molding main-machine 30 with injection mold 31 Injection die cavities 37；Through connecting hole and to extending inside injection die cavities 37, core pulling axle 36 can revolve core pulling axle 36 in connecting hole Turn.In the present embodiment, mold 32, lower mould 33, first mould 35 at mould 34 and second are soft conveyer belt, specifically Ground, in the upside of material feeding passage, downside, left side and right side (reference is in direction in using Fig. 4) a pair of travelling gears of individual fixed setting, Transmission chain is equipped with travelling gear, soft conveyer belt is equipped with the outside of transmission chain.It is made up of soft conveyer belt Mold 32, the mould 35 at mould 34 and second of lower mould 33, first form the closed cell type injection die cavities 37 of surrounding, together When, soft conveyer belt can rotate under the drive of gear, and the direction of soft conveyer belt rotation is close to injection die cavities 37 Side, run to the side away from molding main-machine 30.Production magma due to generating gypsum lightweight hollow partition board has quick The characteristic of solidification, therefore after production magma enters in injection die cavities 37, energy quick solidification, under the drive of soft conveyer belt, The gypsum lightweight hollow partition board of coagulation forming can be run to the side away from molding main-machine 30, finally carry out cutting storage, such as This one, improve the continuity of production, one set of die can be used to carry out successional production, so as to improve production efficiency.

With a pair it is one group of setting for the core pulling axle 36 to gypsum lightweight hollow partition board core pulling in the present embodiment, The purpose being arranged such is in order that the surface for obtaining core pulling axle 36 can be realized during core pulling washes function certainly.Specifically, Core pulling axle 36 is the boss structure that big footpath section is fixedly connected with path section, wherein, path section passes through connecting hole and and driving element Connection so that core pulling axle 36 can rotate in connecting hole, and the direction of rotation of two in each group core pulling axle 36 is consistent.Big footpath Section is used to carry out gypsum lightweight hollow partition board core pulling, and the outer circumference surface of the big footpath section of two core pulling axles 36 in each group Between be smaller than 1mm.Due to being smaller than between the outer circumference surface of the big footpath section of two core pulling axles 36 in every group 1mm, therefore, when the outer circumference surface of the big footpath section of core pulling axle 36 is attached with production magma, by being revolved between every group of core pulling axle 36 Caused frictional force during turning, by the production magma of respective surface attachment with so as to ensure that the cleannes of core pulling axle 36. Would not so occur due to the long-play of core pulling axle 36, surface solidification has production magma, cause gypsum lightweight hollow every The core bore of wallboard is more and more big, and the situation for ultimately resulting in gypsum lightweight hollow partition board intensity decreases occurs.Meanwhile the present embodiment In, in order to further reduce the outer circumference surface of core pulling axle 36 attachment production magma, the material of core pulling axle 36 is nonpolar metal material Matter, i.e. material used in core pulling axle 36 have non-adhesiveness energy, such as modified polyetheretherketonefiber, ST or modified Teflon etc.. It will be appreciated by persons skilled in the art that the quantity of mandrel is set in molding main-machine 30, can be according to specific production requirement To determine, when the gypsum lightweight hollow partition board of production is wider, several groups of core pulling axles 36 can be set more, otherwise can set less To several groups of core pulling axles 36.Personnel will also be appreciated that multiple core pulling axles 36 can be each core pulling axle in art technology 36 are respectively provided with a driving element or the shared driving element of multiple core pulling axles 36, then are carried out by gear train Power transmission, in the present embodiment, a preferably driving element.

Further, molding main-machine 30 also includes clear flitch 40, and clear flitch 40 is against injection mold 31 close to injection die cavities 37 side, clear flitch 40 passes through core pulling axle 36, and clear flitch 40 can be done with the rotation of core pulling axle 36 along the upper and lower of core pulling axle 36 Move back and forth.Specifically, the middle part of the clear upside of flitch 40 offers the U-type groove 41 corresponding with injection channel 311, clear flitch 40 On be further opened with multigroup waist-shaped hole 42 corresponding with mandrel, and the length direction of waist-shaped hole 42 and clear 40 longitudinally asymmetric axle of flitch Direction is consistent, and mandrel passes through this waist-shaped hole 42.Wherein, a waist-shaped hole 42 at least in two groups of waist-shaped holes 42 open be respectively provided at it is ellipse In circular groove 43, the short-axis direction of oval groove 43 is consistent with the length direction of waist-shaped hole 42, and several oval grooves 43 are with clear flitch 40 longitudinally asymmetric axial symmetry distribution.In the present embodiment, cam 44 is additionally provided with, cam 44 is fixedly connected with mandrel, positioned at ellipse In circular groove 43, and the radius of turn of the one end of cam 44 away from pivot and the major axis radius of oval groove 43 are adapted, in this way, Cam 44 rotates with mandrel in oval groove 43, just drives cleaning plate to be pumped on mandrel, due to clearing up plate The exit of the injection channel 311 against injection mold 31 is arranged at, therefore when clear flitch 40 pumps, just Injection mold 31 can be cleaned out close to the injection magma that the side of injection die cavities 37 is adhered to, avoid injection magma from solidifying here, The unimpeded of injection channel 311 is influenceed, while also avoid injection mold 31 from solidifying close to the side of injection die cavities 37 to have injection magma Soft belt is influenceed to transport the gypsum lightweight hollow partition board of shaping.It will be appreciated by persons skilled in the art that oval groove 43 with the longitudinally asymmetric axial symmetry of clear flitch 40, is while the number of oval groove 43 in order to ensure that clear flitch is run steady up and down Amount can be two or four, be preferably four in the present embodiment.In the present embodiment, clear material block is further fixedly arranged on mandrel 361, it is clear to expect that block 361 is fixedly connected with the path section of mandrel close to the side of excessive footpath section, it is clear to expect block 361 with the rotation of mandrel The attachment of clear side of the flitch 40 away from injection mold 31 can be cleaned out, so further ensure that soft belt transport into The smooth degree of gypsum lightweight hollow partition board after type, ensure that the continuity of production, improves production efficiency.In the application In, in order to reduce attachment of the clear flitch 40 to injection magma, the material of clear flitch 40 is preferably non-sticky material.

It is described above, only specific embodiment of the present utility model, but the scope of protection of the utility model is not limited to In this, any one skilled in the art can readily occur in change in the technical scope that the utility model discloses Or replace, it should all cover within the scope of protection of the utility model.Therefore, the scope of protection of the utility model should be with the power The protection domain that profit requires is defined.

Claims (10)

1. a kind of equipment for producing gypsum lightweight hollow partition board, it is characterised in that including agitating device, gas separation dress Put and molding main-machine；

The first feeding-passage, the first tapping channel and the first intake tunnel, raw materials for production and water are offered on the agitating device Enter respectively from first feeding-passage and the first intake tunnel in the agitating device, and carried out in the agitating device Mix, generation injection magma, the injection magma enters the gas fractionation unit, institute by first tapping channel Agitating device is stated during stirring while automatically cleaning can be carried out to the inwall of the agitating device；

The second feeding-passage, the second tapping channel, the second intake tunnel and exhalant canal are offered on the gas fractionation unit, Second feeding-passage connects with first tapping channel, described in the injection magma from second feeding-passage entrance Gas fractionation unit, the exhalant canal connect with first intake tunnel, described in water from second intake tunnel entrance Gas fractionation unit simultaneously enters the agitating device, the injection magma by the exhalant canal and first intake tunnel Gas separation is carried out in the gas fractionation unit, produces production magma, the production magma is logical from the described second discharging Road enters in the molding main-machine；

Material feeding passage is offered on the molding main-machine, the material feeding passage connects with second tapping channel, the production Magma is entered in the molding main-machine by the material feeding passage, and is molded in the molding main-machine.

2. the equipment according to claim 1 for producing gypsum lightweight hollow partition board, it is characterised in that the stirring Device includes agitator and the high-speed rotating shaft, feed mechanism and the agitating paddle that are arranged inside the agitator；

The first mounting hole, the first feeding-passage, the first tapping channel and the first intake tunnel are offered on the agitator；

High-speed rotating shaft, through first mounting hole and to extending inside the agitator；

The feed mechanism includes differential mechanism and feeding spiral rod, and the feeding spiral rod is by the differential mechanism with the high speed Rotary shaft rotates, and the rotary speed of the feeding spiral rod is less than the rotary speed of the high-speed rotating shaft；

The agitating paddle is vertical with the lower end of the high-speed rotating shaft to be fixedly connected, and the agitating paddle is away from the high-speed rotating shaft The rotating diameter of one end be adapted with the bottom intracavity diameter of the agitator.

3. the equipment according to claim 2 for producing gypsum lightweight hollow partition board, it is characterised in that the stirring Bucket is internal to be disposed with coaxial differential chamber, feeding chamber and stir chamber under upper, and the differential mechanism is located at the differential chamber, The feeding spiral rod is located at the feeding chamber, and the agitating paddle is located at the stir chamber, and the agitating paddle is away from the high speed The rotating diameter of one end of rotary shaft and the diameter of the stir chamber are adapted；

The lateral wall of first feeding-passage from the feeding chamber is extended in the feeding chamber, first tapping channel from The madial wall of the bottom of the stir chamber extends to the lateral wall of the stir chamber bottom, and first intake tunnel stirs from described The lateral wall for mixing the upper end of chamber is extended in the stir chamber.

4. the equipment according to claim 2 for producing gypsum lightweight hollow partition board, it is characterised in that the stirring Oar includes connector and fixes the multiple blades connected with connector, and the connector fixed cover is located under the high-speed rotating shaft End, circumference of multiple blades along the connector be uniformly distributed, and the blade is hook solid, the rotation side of the agitating paddle To consistent with the bending direction of the blade.

5. the equipment according to claim 1 for producing gypsum lightweight hollow partition board, it is characterised in that the gas Separator includes shell and be arranged at enclosure be dispersed with stirring device；

The second mounting hole, the second feeding-passage, the second tapping channel, the second intake tunnel and water outlet is offered on the shell to lead to Road, second feeding-passage are connected with first tapping channel, the exhalant canal and the first intake tunnel phase Connection, second intake tunnel are connected with water filling device；

The exhaust for being dispersed with stirring device and including rotary shaft and being sequentially coaxially fixedly connected on from top to bottom in the rotary shaft Oar, disperser and pressure oar, the rotary shaft can drive the exhaust oar, the disperser and pressure oar rotation, described The air-flow of flow direction exhaust oar, the rotation are formed when being vented oar and pressure oar rotation between the exhaust oar and the pressure oar Rotating shaft extends through the mounting hole and to the bottom of the shell.

6. the equipment according to claim 5 for producing gypsum lightweight hollow partition board, it is characterised in that the shell Inside is sequentially coaxially provided with discharge chamber, scattered chamber and pressure chamber, the diameter of the scattered chamber and is less than the exhaust from top to bottom The diameter of chamber and the pressure chamber, the exhaust oar are located in the discharge chamber, and the dispersion pulp is located in the scattered chamber, institute Pressure oar is stated to be located in the pressure chamber；

The lateral wall of second feeding-passage from the scattered chamber is extended in the scattered chamber, second tapping channel from The madial wall of the bottom of the pressure chamber extends to the lateral wall of the bottom of the pressure chamber, and second intake tunnel is from described The lateral wall of scattered chamber is extended in the discharge chamber, and the madial wall of the exhalant canal from the discharge chamber extends to the row The lateral wall of air cavity.

7. the equipment according to claim 5 for producing gypsum lightweight hollow partition board, it is characterised in that the exhaust Oar and the pressure oar include connector and multiple blades, and the connector fixed cover is in the rotary shaft, the leaf Piece is fixedly connected on the connector, and circumference of multiple blades along the connector is uniformly distributed；

The blade is bending, the direction of rotation of the exhaust oar and the pressure oar and the bending direction one of the blade Cause；

The number of blade of the exhaust oar is more than the number of blade of the pressure oar.

8. the equipment according to claim 1 for producing gypsum lightweight hollow partition board, it is characterised in that be molded master Machine includes injection mold, mold, lower mould, first mould and multigroup core pulling axle in mould and second；

Material feeding passage is offered on the injection mould, the material feeding passage connects with second tapping channel, and the injection is logical The both sides in road are further opened with multigroup connecting hole；

The mold, the lower mould, described first while mould and it is described second while mould to be located at the injection mold remote The side of second tapping channel, and form with the injection mold injection die cavities of the molding main-machine；

For the core pulling axle through the connecting hole and to extending inside the injection die cavities, the core pulling axle can be in the connecting hole Middle rotation, the mandrel can clean in rotary course to its own face.

9. the equipment according to claim 8 for producing gypsum lightweight hollow partition board, it is characterised in that the upper mould Tool, the lower mould, described first while mould and it is described second while mould be soft conveyer belt.

10. the equipment according to claim 9 for producing gypsum lightweight hollow partition board, it is characterised in that it is described into Type main frame also includes clear flitch, and the clear flitch is against the injection mold close to the side of the injection die cavities, the clear material Plate passes through the core pulling axle, and the clear flitch can move reciprocatingly with the rotation of the core pulling axle along the upper and lower of core pulling axle.