CN207859131U - A kind of composite insulating brick lower hopper - Google Patents

Abstract

The utility model discloses a kind of composite insulating brick lower hoppers, its key points of the technical solution are that：It is arranged above die box, the die box includes babinet and head cover, the head cover includes rectangle rack and the connecting plate equidistantly affixed with the rectangle rack, gap is equipped between the connecting plate, lower hopper includes hopper ontology, hopper ontology lower end is equipped with multiple control devices for pouring portion, being equipped with for controlling the portion's of pouring opening and closing in the hopper ontology being connected to the hopper body interior.The utility model has the advantages that can be poured from multiple spot to cystosepiment, to improve the uniformity of concreting.

Description

A kind of composite insulating brick lower hopper

Technical field

The utility model is related to a kind of lower hopper, more particularly to a kind of composite insulating brick lower hopper.

Background technology

Composite insulating brick is a kind of self-insulation wall material, is typically formed by cystosepiment and concreting, heat preservation Performance is good, is widely used in building construction.

Generally during processing composite insulating brick, as shown in Figure 1, needing to consolidate cystosepiment 2 using die box 1 Fixed, usual die box 1 includes babinet 11 and head cover 12, and head cover 12 includes rectangle rack 121, the company equidistantly affixed with rectangle rack 121 Fishplate bar 122 and more fixing glues 123 for being fixed in 122 lower surface of connecting plate.When being poured to cystosepiment 2, work people Cystosepiment 2 is equidistantly placed in die box 1 by member, and is pressed on babinet 11 by head cover 12, and fixing glue 123 is inserted into foam at this time In plate 2, to be limited to cystosepiment 2, the sky between plate 122 is correspondingly connected with finally by the agitator tank 7 of 1 top of die box Gap 1221 is poured into babinet 11.

When directly being poured into die box 1 by agitator tank 7, since agitator tank 7 is poured from a bit, pouring During building, agitator tank 7 is corresponded in babinet 12 pour that concrete and be continuously increased always, be constantly in more shape State, and the concrete at 2 both ends of cystosepiment is less, concrete can be flowed after entering babinet 11 from more one end to both sides, most Eventually be full of babinet 11, when the amount of concrete between cystosepiment 2 is not much different, flowing it is more slow, to make cystosepiment 2 it Between concreting it is uneven, the final quality for influencing composite insulating brick after molding.

Utility model content

The purpose of this utility model is to provide a kind of composite insulating brick lower hopper, its advantage is that can be from multiple spot to foam Plate is poured, to improve the uniformity of concreting.

The above-mentioned technical purpose of the utility model technical scheme is that：A kind of composite insulating brick use Lower hopper is arranged above die box, and the die box includes babinet and head cover, the head cover include rectangle rack and with institute The equidistant affixed connecting plate of rectangle rack is stated, is equipped with gap between the connecting plate, lower hopper includes hopper ontology, the hopper sheet Body lower end be equipped with it is multiple be connected to the hopper body interior pour portion, equipped with for pouring described in controlling in the hopper ontology Build the control device of portion's opening and closing.

Through the above technical solutions, when being poured to cystosepiment, cystosepiment is equidistantly placed in mold by staff In case, and it is pressed on babinet by head cover, fixing glue is inserted into cystosepiment at this time, to be limited to cystosepiment, this time shift Moving mold case makes each portion of pouring correspond to be moved to the gap between two connecting plates, start control device, makes multiple to pour portion It is opened simultaneously, at this time between the cystosepiment inside interstitial flow to die box of the concrete between connecting plate, pours and finish After be again started up control device, so that the portion of pouring is closed, multiple settings for pouring portion improve the uniformity of concreting.

The utility model is further arranged to：The bottom of the hopper ontology is provided with make bottom form slope surface two tiltedly Plate is connected with fixed plate between the inclined plate, and the portion of pouring equidistantly is fixed in the lower end of the fixed plate；The control device Including being connected to resistive portion between the inclined plate, for blocking the portion of pouring and being fixed in the hopper ontology The corresponding resistive portion both ends, for driving the resistive portion to lift the driving group to open and close the portion of pouring Part.

Through the above technical solutions, the setting of inclined plate, the slope surface for keeping the bottom of hopper ontology inclined, when concrete is from stirring When mixing the discharge port of tank and being expelled in hopper ontology, concrete along two inclined plates slope surface to converging at the fixed plate of hopper body bottom portion Poly-, staff makes drive component that resistive portion be driven to move up by control device for opening at this time, makes to open the portion of pouring Concrete is along the die box that the portion of pouring flows into below.

The utility model is further arranged to：The resistive portion (51) is column.

The utility model is further arranged to：The portion of pouring includes being flowed downward for concrete to pour cystosepiment The drainage conduit built and it is multiple be staggeredly fixed in it is inside the drainage conduit, it is hindered when concrete flows downward Spoiler.

Through the above technical solutions, when concrete flows downward along drainage conduit, the setting of spoiler, for concrete Certain obstruction is carried out, prevents impact force of the concrete when being flowed out by drainage conduit larger and the cystosepiment to being placed in die box It damages.

The utility model is further arranged to：The upper end of the drainage conduit is connected with macrovoid filter screen.

Through the above technical solutions, the setting of macrovoid filter screen, for filtering some big not be stirred Grain, prevents it from pouring into die box, the final quality for influencing composite insulating brick.

The utility model is further arranged to：The driving component includes motor, is connected on the output shaft of the motor First helical gear, first helical gear side are equipped with the second helical gear being engaged with, are connected on second helical gear Threaded rod straight down, the lower end of the threaded rod are rotatablely connected with the hopper ontology, are threadedly coupled on the threaded rod There is a movable block, the adjusting that the both sides of the movable block are hinged under the driving of the motor, the resistive portion is made to move up and down Bar, the other end of the adjusting rod and the both sides of the resistive portion are hinged.

Through the above technical solutions, when starting motor, motor drives intermeshing first helical gear and the second helical teeth Wheel rotation, to make threaded rod rotate, at this point, movable block can threadingly bar move up, to drive resistive portion to move up, Drainage conduit unlatching is poured.It is again started up motor after pouring, so that drive component driving resistive portion is moved down, will arrange Expects pipe is closed.

The utility model is further arranged to：The inside of the hopper ontology is connected with multiple deflectors, the deflector Lower end offer for the resistive portion move up and down groove.

Through the above technical solutions, when concrete flows on deflector, concrete is along the surface of deflector to hopper sheet The bottom surface of body is flowed, the setting of deflector, the mobility for enhancing concrete, reduce mixed mud poor fluidity and cause its It accumulates and causes to pour uneven possibility in one end of hopper ontology.

The utility model is further arranged to：The surface of the deflector is concave up arcwall face.

Through the above technical solutions, the setting of arcwall face, can further make to flow to the concrete on deflector along its arc Bottom surface flowing of the shape towards hopper ontology.

The utility model is further arranged to：The both sides of the hopper ontology are equipped with polylith support plate, the hopper ontology The position of the upper correspondence support plate, which is connected with, to be passed through by bolt the support plate is fixed on consolidating in the support plate Determine block.

Through the above technical solutions, hopper ontology passes through fixed block and support plate to fix on the supporting plate by bolt, When processing composite insulating brick, die box is moved to the lower section of hopper ontology 31, the portion of pouring is made to be connected respectively between plate Gap, to by control device unlatching pour portion to be poured to cystosepiment.

In conclusion the utility model has the advantages that：

1, when concrete injects in hopper ontology, the setting of inclined plate and deflector allows concrete more quickly The bottom for being gathered in hopper ontology, by start control device, make multiple portions of pouring simultaneously opened, while to cystosepiment into Row pours, and multiple settings for pouring portion are so that it can pour cystosepiment from multiple spot, to improve the equal of concreting Even property；

2, the setting of macrovoid filter screen, for filtering some bulky grains not being stirred, prevent its pour to In die box, the final quality for influencing composite insulating brick；

3, the setting of spoiler prevents concrete when being flowed out by drainage conduit for carrying out certain obstruction to concrete Impact force it is larger and the cystosepiment placed in die box is damaged.

Description of the drawings

Fig. 1 is the structural schematic diagram of background technology；

Fig. 2 is the structural schematic diagram of the present embodiment；

Fig. 3 is the decomposition diagram of die box；

Fig. 4 is to embody the position relationship schematic diagram for pouring portion and gap；

Fig. 5 is the structural schematic diagram for embodying hopper body interior；

Fig. 6 is the structural schematic diagram in the portion that pours；

Fig. 7 is to embody the structural schematic diagram poured inside portion；

Fig. 8 is the structural schematic diagram for embodying control device.

In figure, 1, die box；11, babinet；12, head cover；121, rectangle rack；122, connecting plate；1221, gap；123, solid Fixed nail；2, cystosepiment；3, lower hopper；31, hopper ontology；311, fixed block；312, two inclined plate；313, fixed plate；314, water conservancy diversion Plate；3141, groove；32, portion is poured；321, drainage conduit；322, macrovoid filter screen；323, spoiler；4, support plate；5, it controls Device；51, resistive portion；52, drive component；521, motor；522, the first helical gear；523, the second helical gear；524, threaded rod； 525, movable block；526, adjusting rod；6, holder；7, agitator tank.

Specific implementation mode

The utility model is described in further detail below in conjunction with attached drawing.The identical attached drawing of wherein identical parts Label indicates.It should be noted that word "front", "rear" used in the following description, "left", "right", "upper", "lower", " bottom Face " and " top surface " refer to that the direction in attached drawing, word "inner" and "outside" are referred respectively to towards or away from particular elements geometry The direction at center.

Embodiment：A kind of composite insulating brick lower hopper, as shown in Fig. 2, it is arranged above die box 1, for holding The concrete stirred evenly by agitator tank, and concrete is uniformly injected into die box 1 below.

As shown in figure 3, lower hopper 3 is discussed in detail（See Fig. 2）Before, it needs first to introduce existing die box 1, mould It includes babinet 11 and head cover 12 to have case 1, head cover 12 include rectangle rack 121, with the equidistant affixed connecting plate 122 of rectangle rack 121 with And it is fixed in more fixing glues 123 of 122 lower surface of connecting plate.When being poured to cystosepiment 2, staff is by cystosepiment 2 are equidistantly placed in die box 1, and are pressed on babinet 11 by head cover 12, and fixing glue 123 is inserted into cystosepiment 2 at this time, to Cystosepiment 2 is limited.

As shown in Fig. 2, lower hopper 3 includes hopper ontology 31, the both sides of hopper ontology 31 are equipped with four pieces of support plates 4, hopper The position that support plate 4 is corresponded on ontology 31 is connected with fixed block 311, and hopper ontology 31 passes through fixed block 311 and branch by bolt Fagging 4 is to be fixed in support plate 4, and when processing composite insulating brick, die box 1 is moved to the lower section of hopper ontology 31 with right Cystosepiment 2 is poured.

As shown in figure 4, the bottom end of hopper ontology 31 pours portion 32 equipped with multiple with what 31 inside of hopper ontology was connected to, each Pour portion 32 and correspond to gap 1221 on head cover 12 between adjacent connection plates 122, multiple settings for pouring portion 32 so that it can from Multiple spot pours cystosepiment 2, to improve the uniformity of concreting.Lower hopper 3 is internally provided with control device 5, Opening and closing for controlling the portion that pours 32.When concrete is discharged from the discharge port of agitator tank, the lower hopper 3 of lower section is injected In, staff's control device for opening 5, makes concrete edge pour portion 32 and flows downward, and by the sky between connecting plate 122 at this time Gap 1221 is poured between the cystosepiment 2 inside die box 1.

As shown in figure 5, the bottom sides of hopper ontology 31 are set as two inclined plates 312, level is connected between two inclined plates 312 Fixed plate 313, pour the lower end that portion 32 is fixed in fixed plate 313, the setting of inclined plate 312 makes the bottom of hopper ontology 31 be in Inclined slope surface, when concrete is expelled to from the discharge port of agitator tank in hopper ontology 31, concrete is along the slope of two inclined plates 312 It is converged at fixed plate 313 towards 31 bottom of hopper ontology, staff makes concrete edge pour by control device for opening 5 at this time It builds in the die box 1 that portion 32 flows into below.

The inside of hopper ontology 31 is connected with multiple deflectors 314, and lower end opens up fluted 3141, for for concrete It is flowed in the bottom level of hopper ontology 31, the surface of deflector 314 is for concave up arcwall face and by hopper ontology 31 Center is symmetrical arranged opposite to each other to both sides, when concrete flows on deflector 314, concrete along deflector 314 arc towards The bottom surface of hopper ontology 31 is flowed, the setting of deflector 314, the mobility for enhancing concrete, reduces mixed mud mobility Difference and cause it to cause to pour uneven possibility in the accumulation of one end of hopper ontology 31.

As shown in Figure 5 and Figure 6, it includes that multiple 31 bottom end fixed plates 313 are affixed with hopper ontology and are connected to pour portion 32 The upper end of drainage conduit 321, drainage conduit 321 is connected with macrovoid filter screen 322, for filter some be not stirred it is big Particle prevents it from pouring into die box 1, the final quality for influencing composite insulating brick.As shown in fig. 7, the inside of drainage conduit 321 Staggeredly be equipped with multiple spoilers 323,323 rectangular triangle of spoiler, one end and drainage conduit 321 are affixed, and upper end for Under inclined slope surface prevent impact force of the concrete when being flowed out by drainage conduit 321 for carrying out certain obstruction to concrete It is larger and to die box 1（See Fig. 4）The cystosepiment 2 of middle placement damages.

As shown in figure 8, control device 5 include resistive portion 51 and be symmetricly set on 51 both ends of resistive portion, for driving The drive component 52 that resistive portion 51 is lifted, resistive portion 51 are set as cylinder and are horizontally arranged, pass through under deflector 314 The groove 3141 at end is simultaneously connected between inclined plate 312, and lower end and two inclined plates 312 are tangent, and the size of groove 3141 just makes resistance Stream portion 51 can move up certain distance, when resistive portion 51 moves up under the driving of lifting assembly, drainage conduit 321 （See Fig. 6）It is opened；When resistive portion 51 moves down under the driving of lifting assembly, abutted with two inclined plates 312, at this time discharge Pipe 321 is closed.

As shown in figure 8, the both ends for corresponding to resistive portion 51 on hopper ontology 31 are connected with holder 6, drive component 52 is solid respectively It connects on the frame 6, drive component 52 includes the motor 521 affixed with holder 6, and first is connected on the output shaft of motor 521 tiltedly Gear 522,522 side of the first helical gear are equipped with the second helical gear 523 being engaged with, are connected on the second helical gear 523 perpendicular Straight downward threaded rod 524, the lower end of threaded rod 524 are rotatablely connected with the inner wall of funnel body 31, and screw thread connects on threaded rod 524 It is connected to movable block 525, the both sides of movable block 525 are hinged with adjusting rod 526, the other end of adjusting rod 526 and the two of resistive portion 51 Side is hinged.

When starting motor 521, motor 521 drives 523 turns of 522 and second helical gear of intermeshing first helical gear It is dynamic, to make threaded rod 524 rotate, at this point, movable block 525 can threadingly bar 524 move up, to drive resistive portion 51 to Upper movement, by drainage conduit 321（See Fig. 6）Unlatching is poured.It is again started up motor 521 after pouring, makes drive component 52 Driving resistive portion 51 moves down, and drainage conduit 321 is closed.

The course of work：When being processed to composite insulating brick, die box 1 is moved to the lower section of hopper ontology 31, and Make each gap 1221 for pouring portion 32 and being correspondingly connected between plate 122, starts motor 521, so that motor 521 is driven intermeshing First helical gear 522 and the rotation of the second helical gear 523, to make threaded rod 524 rotate, at this point, movable block 525 understands threadingly bar 524 move up, to drive resistive portion 51 to move up, while by multiple drainage conduits 321 open with to cystosepiment 2 simultaneously into Row pours.It is again started up motor 521 after pouring, makes drive component 52 that resistive portion 51 be driven to move down, makes resistive portion 51 It is connected between two inclined plates 312 and closes drainage conduit 321.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can as needed make the present embodiment the modification of not creative contribution after reading this specification, but As long as all being protected by Patent Law in the right of the utility model.

Claims (9)

1. a kind of composite insulating brick lower hopper, above setting die box (1), the die box (1) include babinet (11) and Head cover (12), the head cover (12) include rectangle rack (121) and the connecting plate equidistantly affixed with the rectangle rack (121) (122), gap (1221) are equipped between the connecting plate (122), it is characterized in that：Lower hopper (3) includes hopper ontology (31), institute It states hopper ontology (31) lower end and corresponds to the position in the gap (1221) and be equipped with multiple inside with the hopper ontology (31) and be connected to Pour portion (32), be equipped in the hopper ontology (31) for controlling the control device for pouring portion (32) opening and closing (5)。

2. a kind of composite insulating brick lower hopper according to claim 1, it is characterized in that：The bottom of the hopper ontology (31) Portion is provided with two inclined plates (312) for making bottom form slope surface, and fixed plate (313) is connected between the inclined plate (312), described to pour Build the lower end that portion (32) is equidistantly fixed in the fixed plate (313)；

The control device (5) include be connected to it is between the inclined plate (312), for by the resistance for pouring portion (32) and blocking Stream portion (51) and being fixed in corresponded on the hopper ontology (31) resistive portion (51) both ends, for driving the choked flow Portion (51) lifting with by it is described pour portion (32) opening and closing drive component (52).

3. a kind of composite insulating brick lower hopper according to claim 2, it is characterized in that：The resistive portion (51) is column Body.

4. a kind of composite insulating brick lower hopper according to claim 2, it is characterized in that：The portion (32) that pours includes supplying Concrete, which flows downward, drainage conduit (321) to be poured to cystosepiment (2) and multiple is staggeredly fixed in the drainage conduit (321) spoiler (323) internal, that it is hindered when concrete flows downward.

5. a kind of composite insulating brick lower hopper according to claim 4, it is characterized in that：The drainage conduit (321) it is upper End is connected with macrovoid filter screen (322).

6. a kind of composite insulating brick lower hopper according to claim 2, it is characterized in that：The driving component (52) includes Motor (521) is connected with the first helical gear (522), first helical gear (522) one on the output shaft of the motor (521) Side is equipped with the second helical gear (523) being engaged with, and threaded rod straight down is connected on second helical gear (523) (524), the lower end of the threaded rod (524) is rotatablely connected with the hopper ontology (31), and screw thread connects on the threaded rod (524) It is connected to movable block (525), the both sides of the movable block (525) are hinged under the driving of the motor (521), make the choked flow The adjusting rod (526) that portion (51) moves up and down, the other end of the adjusting rod (526) are cut with scissors with the both sides of the resistive portion (51) It connects.

7. a kind of composite insulating brick lower hopper according to claim 2, it is characterized in that：The hopper ontology (31) it is interior Portion is connected with multiple deflectors (314), and the lower end of the deflector (314) is offered for the resistive portion (51) up and down motion Groove (3141).

8. a kind of composite insulating brick lower hopper according to claim 7, it is characterized in that：The table of the deflector (314) Face is concave up arcwall face.

9. a kind of composite insulating brick lower hopper according to claim 1, it is characterized in that：The two of the hopper ontology (31) Side is equipped with polylith support plate (4), and the position that the support plate (4) is corresponded on the hopper ontology (31) is connected with and is worn by bolt It crosses so that the support plate (4) to be fixed on to the fixed block (311) in the support plate (4).