CN212245376U - Device for converting bagged cement into bulk cement - Google Patents

Abstract

The utility model provides a device for converting bagged cement into bulk cement, which comprises a collecting bin and a spiral lifting cylinder; the collecting bin is embedded on an operating platform of the storage warehouse, the bin opening is flush with the table top of the operating platform, and the bottom end of the collecting bin is provided with a discharge hole; the spiral lifting cylinder is arranged outside the storage warehouse, one end of the spiral lifting cylinder is used for extending into the storage warehouse, the extending end of the spiral lifting cylinder is connected with the discharge port, the other end of the spiral lifting cylinder extends obliquely upwards, the extending end of the spiral lifting cylinder is provided with an ash discharging cylinder, and the ash discharging cylinder is used for discharging bulk cement into the aggregate transport vehicle; the inner wall of the spiral lifting cylinder is provided with a plurality of supporting pieces at intervals along the axial direction, and the spiral shaft of the spiral lifting cylinder is respectively and rotatably connected with the supporting pieces. The utility model provides a pair of bagged water mud conversion bulk cement's device, operating personnel intensity of labour is little, bagged water mud conversion efficiency is high.

Description

Device for converting bagged cement into bulk cement

Technical Field

The utility model belongs to the technical field of building engineering, more specifically say, relate to a bagged water mud converts bulk cement's device.

Background

At present, most frontier roads and rural roads which are under construction and are to be constructed in remote mountainous areas are located at the positions of cliff walls of mountains, the positions are all soil roads, the roads are quite rugged and narrow, the number of sharp turns is large, heavy-duty transport vehicles cannot normally pass, and concrete tank trucks cannot be adopted to directly transport concrete for construction operation, so the solution adopted in the current construction is that bagged cement is transported to a construction site by small vehicles for storage, when concrete is mixed, workers break bags of the bagged cement to generate bulk cement and load the bulk cement onto a granule transport vehicle, the bulk cement is driven into a concrete mixing station by a high-pressure discharge device on the granule transport vehicle, in the actual operation, the process of loading the bulk cement onto the granule transport vehicle after manual bag breaking is carried out, the labor intensity of the workers is high, the operation is inconvenient, and the height difference between two points is large, if adopt conventional spiral hoisting device then because of promoting the not enough phenomenon that causes the crooked card shell of pivot of the rigidity of axostylus axostyle, the fault rate is high, can't satisfy the continuous materials demand of concrete mixing station to influence the concrete output, and then influence the construction progress.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bagged water mud converts device of bulk cement, big, the inefficiency problem of intensity of labour when aiming at solving among the prior art bagged water mud and turning into bulk cement and use.

In order to achieve the above object, the utility model adopts the following technical scheme: there is provided an apparatus for converting bulk cement from bagged cement, comprising:

the collecting bin is embedded on an operating platform of the storage warehouse, a bin opening is flush with the table top of the operating platform, and a discharge hole is formed in the bottom end of the collecting bin;

the spiral lifting cylinder is arranged outside the storage warehouse, one end of the spiral lifting cylinder is used for extending into the storage warehouse, the extending end of the spiral lifting cylinder is connected with the discharge port, the other end of the spiral lifting cylinder extends obliquely upwards, the extending end of the spiral lifting cylinder is provided with an ash discharge cylinder, and the ash discharge cylinder is used for discharging bulk cement into the aggregate transport vehicle;

the spiral lifting cylinder is internally provided with a spiral shaft and a plurality of supporting pieces used for supporting the spiral shaft respectively, and the spiral shaft is rotatably connected with the supporting pieces respectively.

As another embodiment of the present application, a screw shaft includes:

the connecting shafts are respectively and rotatably connected with the supporting pieces, two ends of each connecting shaft respectively extend to two sides of each supporting piece, and the two ends of each connecting shaft are in spline structures;

and the plurality of spiral columns are in butt joint with each other through the connecting shaft along the axial direction of the connecting shaft, and spline holes are respectively formed in two ends of each spiral column and are in fit connection with the spline structures.

As another embodiment of the present application, the support member includes:

the arc plate is attached and connected with the inner wall of the spiral lifting cylinder;

one end of the support rod is connected with the arc plate, and the other end of the support rod extends along the radial direction of the spiral lifting cylinder;

the side wall of the connecting sleeve is fixedly connected with the extending end of the supporting rod, the connecting sleeve is sleeved on the connecting shaft, and the butt joint ends of two adjacent spiral columns are respectively abutted against the two ends of the connecting sleeve.

As another embodiment of this application, the middle part of spiral lifting cylinder articulates there is flexible landing leg, and flexible landing leg is used for supporting in ground, and is used for driving the extension end luffing motion of spiral supporting cylinder.

As another embodiment of the application, one side of the bin opening of the collecting bin is provided with a fixed chute, the other side of the bin opening is provided with a movable chute, the extending directions of the movable chute and the fixed chute are the same, and the notches of the movable chute and the fixed chute are opposite; the fixed chute and the movable chute are internally provided with a screen together in an inserted manner.

As another embodiment of the application, the movable chute is a U-shaped groove formed by enclosing a fixed plate and an L-shaped plate, wherein the fixed plate is fixedly connected with a bin opening of the collecting bin; the L-shaped plate is hinged with the fixed plate along the axial direction of the fixed plate, and the L-shaped plate is turned to an open state forming an L shape with the fixed plate in the direction away from the fixed chute.

As another embodiment of this application, slide on the L template and wear to be equipped with first bolt, be equipped with first jack on the fixed plate, first bolt corresponds the grafting with first jack.

As another embodiment of this application, arrange an ash section of thick bamboo in the vertical downward or the downward extension of slant of the lateral wall of spiral promotion section of thick bamboo, the lower extreme of arranging an ash section of thick bamboo is equipped with the filter screen, and the border of filter screen and the inner wall laminating of arranging an ash section of thick bamboo.

As another embodiment of this application, be equipped with the pivot on the filter screen, the both ends of pivot are rotated along the radial and ash discharge tube of ash discharge tube respectively and are connected, and the outside of ash discharge tube is worn out to the one end of pivot, and wears to be equipped with along the locating plate of the radial extension of pivot in the end of wearing out, and the slip is worn to be equipped with the second bolt on the locating plate, and the lateral wall of ash discharge tube is equipped with the second jack, and the second bolt is pegged graft with the second jack.

As another embodiment of this application, the storehouse mouth of collecting the storehouse has been set up and has been broken the bag ware, is equipped with the upward angle type blade of a plurality of blade on the broken bag ware.

The utility model provides a pair of bagged water mud conversion bulk cement's device's beneficial effect lies in: compared with the prior art, the device for converting the bagged cement into the bulk cement has the advantages that the bagged cement is broken and poured into the collection bin on the operation platform of the storage bin by an operator, and the bin opening of the collection bin is parallel and level to the table top of the operation platform, so that the operator can cut the cement bag without lifting the bagged cement and pour the cement into the collection bin, and the device is simple, labor-saving and low in labor intensity; the cement in the collection bin falls into the spiral lifting cylinder through the discharge hole, is discharged into the aggregate transport vehicle through the discharge cylinder under the drive of the spiral shaft, and the spiral shaft is respectively and rotatably connected through the plurality of supporting pieces, so that the connection strength between the spiral shaft and the inner wall of the spiral lifting cylinder can be improved, the integral rigidity of the spiral shaft is improved, the shell clamping phenomenon caused by bending of the spiral shaft due to insufficient rigidity of the spiral shaft in the cement lifting process is avoided, the failure rate of the spiral lifting cylinder is reduced, and the feeding speed of bulk cement to a concrete mixing station can be improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an apparatus for converting bulk cement from bagged cement provided by an embodiment of the present invention;

FIG. 2 is a schematic view of a portion A of FIG. 1;

FIG. 3 is a schematic view of a portion of the enlarged structure at B in FIG. 1;

fig. 4 is an exploded view of a screw shaft and a support member used in an embodiment of the present invention;

fig. 5 is a schematic perspective view of a collecting bin according to an embodiment of the present invention.

In the figure: 100. a collection bin; 101. a discharge port; 103. hooping; 104. fixing the chute; 105. a movable chute; 1051. a fixing plate; 1052. an L-shaped plate; 1053. a hinge; 106. a first latch; 200. a spiral lifting cylinder; 201. an ash discharge cylinder; 202. a telescopic leg; 203. a flange plate; 204. filtering with a screen; 2041. a rotating shaft; 2042. positioning a plate; 2043. a second bolt; 205. a screw shaft; 2051. a connecting shaft; 2052. a helical column; 2053. a spline structure; 2054. a splined bore; 206. a support member; 2061. an arc plate; 2062. a support bar; 2063. connecting sleeves; 300. a bag breaking device; 301. an angle blade; 400. screening a screen; 500. a repository; 501. and (5) operating the platform.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 4, a device for converting bulk cement into bagged cement according to the present invention will now be described. The device for converting the bagged cement into the bulk cement comprises a collecting bin 100 and a spiral lifting cylinder 200; the collecting bin 100 is used for being embedded on an operating platform 501 of the repository 500, a bin opening is used for being flush with a table top of the operating platform 501, and a discharge hole 101 is formed in the bottom end of the collecting bin 100; the spiral lifting cylinder 200 is arranged outside the storage warehouse 500, one end of the spiral lifting cylinder is used for extending into the storage warehouse 500, the extending end of the spiral lifting cylinder is connected with the discharge port 101, the other end of the spiral lifting cylinder extends obliquely upwards, the extending end of the spiral lifting cylinder is provided with an ash discharging cylinder 201, and the ash discharging cylinder 201 is used for discharging bulk cement into the aggregate transport vehicle; the screw lifting cylinder 200 is provided therein with a screw shaft 205 and a plurality of supporting members 206 for supporting the screw shaft 205, respectively, and the screw shaft 205 and the plurality of supporting members 206 are rotatably connected, respectively.

It should be noted that, in order to avoid the bagged cement from being affected with damp and clod, the temporary storage position of the bagged cement needs to be ensured to be dry and damp-proof, the color steel structure storage 500 is usually set up after the ground is hardened in the construction site, and the internal ground of the storage 500 is required to be higher than the external ground, or an operation platform 501 is set up on the ground inside the storage 500, and the bagged cement is stacked on the operation platform 501 to avoid being affected with damp by direct contact with the ground.

In addition, the screw shaft 205 is a lifting structure member in which a screw blade is spirally arranged on the peripheral wall of the rotating shaft 2041, and is commonly used in a screw lifter, the screw shaft 205 is driven to rotate by a driving motor, and the screw blade which rotates and ascends lifts the material in the rotating process.

The utility model provides a pair of bagged water mud changes bulk cement's device's mounting means: the operation platform 501 is provided with a notch, the collection bin 100 is inserted into the notch downwards, and the bin opening is flush with the table top of the operation platform 501, of course, in order to ensure the collection bin 100 to be installed stably and reliably, the bin opening and the operation platform 501 may be fixedly connected by means of bolts or welding after being inserted, one end of the spiral lifting cylinder 200 disposed outside the storage bin 500 extends into the storage bin 500 through the sidewall of the storage bin 500, and is connected with the discharge opening 101 of the collection bin 100, by respectively arranging the flanges 203 at the discharge port 101 and the extending end of the lifting device, connecting the two flanges 203 by bolts, or the two flanges 203 are connected by the hoop 103 (see fig. 2), and after the connection is finished, the other end of the spiral lifting cylinder 200 extends obliquely upwards to the upper part of the aggregate transporter, so that the ash discharging cylinder 201 is aligned with the feeding hole of the aggregate transporter. Of course, to ensure that the spiral lifting cylinder 200 is securely fixed, the ground should have a support (such as a concrete poured column or a movable support) capable of supporting the side wall of the spiral lifting cylinder 200.

Compared with the prior art, the device for converting the bagged cement into the bulk cement has the advantages that the bagged cement is broken on the operation platform 501 of the repository 500 by an operator and then poured into the collection bin 100, and the bin opening of the collection bin 100 is flush with the table top of the operation platform 501, so that the operator can cut the cement bag without lifting the bagged cement, and the cement is poured into the collection bin 100, so that the device is simple, labor-saving and low in labor intensity; the cement in the collection bin 100 falls into the spiral lifting cylinder 200 through the discharge hole 101, is discharged into the aggregate transport vehicle through the discharge cylinder under the drive of the spiral shaft 205, the spiral shaft 205 is respectively and rotatably connected through the plurality of supporting pieces 206, the connection strength between the spiral shaft 205 and the inner wall of the spiral lifting cylinder 200 can be improved, the integral rigidity of the spiral shaft 205 is improved, the shell clamping phenomenon caused by bending of the spiral shaft 205 due to insufficient rigidity of the spiral shaft 205 in the cement lifting process is avoided, the failure rate of the spiral lifting cylinder 200 is reduced, and the feeding speed of bulk cement to a concrete mixing station can be improved.

As a specific embodiment of the device for converting bulk cement from bagged cement provided by the present invention, please refer to fig. 4, the screw shaft 205 includes a plurality of connecting shafts 2051 and a plurality of screw columns 2052; the connecting shafts 2051 are respectively rotatably connected with the supporting pieces 206, two ends of each connecting shaft 2051 extend to two sides of each supporting piece 206, and the two ends are both in a spline structure 2053; a plurality of spiral columns 2052 are in pairwise butt joint along the axial direction of the connecting shaft 2051 through the connecting shaft 2051, spline holes 2054 are respectively formed in two ends of each spiral column 2052, and the spline holes 2054 are connected with the spline structures 2053 in a matched mode.

The screw columns 2052 are butted through the connecting shaft 2051, the spline connection mode is adopted, the transmission is reliable and stable, the shorter the length of the screw columns 2052 is, the higher the rigidity is, the more the rigidity is correspondingly, the screw shaft 205 is set into a multi-section structure, the support piece 206 fixedly connected to the inner wall of the spiral lifting cylinder 200 is rotatably connected with the connecting shaft 2051, and each screw column 2052 is supported, so that the integral rigidity of the screw shaft 205 is improved, the phenomenon that the screw shaft 205 is clamped due to insufficient bending resistance caused by overlong length of the screw shaft 205 and easy bending deformation is avoided, the failure rate of the spiral lifting cylinder 200 is reduced, and the conveying efficiency is improved.

As a specific implementation manner of the embodiment of the present invention, please refer to fig. 4, the supporting member 206 includes an arc plate 2061, a supporting rod 2062 and a connecting sleeve 2063; wherein, the arc plate 2061 is attached to the inner wall of the spiral lifting cylinder 200; one end of the support rod 2062 is connected to the arc plate 2061, and the other end extends in the radial direction of the spiral lifting cylinder 200; the side wall of the connecting sleeve 2063 is fixedly connected with the extending end of the supporting rod 2062, the connecting sleeve 2063 is sleeved on the connecting shaft 2051, and the butt ends of two adjacent spiral columns 2052 are respectively abutted against the two ends of the connecting sleeve 2063.

The arc plate 2061 can closely laminate with the inner wall of a spiral lifting cylinder 200, thereby improve the stability after the arc plate 2061 is connected, can be for wearing to establish two at least bolts and being connected with the section of thick bamboo wall of a spiral lifting cylinder 200 on the arc plate 2061 during the connection, the stable connection of bracing piece 2062 and adapter sleeve 2063 is then stabilized in connection of arc plate 2061, thereby guarantee that the connection of connecting axle 2051 is reliable and stable, and then improve the bulk rigidity of screw axis 205, reduce the fault rate, the butt joint end of adjacent spiral post 2052 respectively with the both ends butt joint of adapter sleeve 2063, can the at utmost reduce the connection gap between the helical blade on the adjacent spiral post 2052, ensure spiral lifting efficiency.

As a specific implementation manner of the embodiment of the present invention, please refer to fig. 1, the middle part of the spiral lifting cylinder 200 is hinged with a telescopic leg 202, the telescopic leg 202 is used for supporting on the ground, the telescopic leg 202 is used for driving the extension end of the spiral supporting cylinder to swing up and down, thereby adjusting the discharging height of the ash discharging cylinder 201.

Specifically, flexible landing leg 202 can be hydraulic stretching oil cylinder or electric putter, and when flexible landing leg 202 extended, spiral lift cylinder 200's extension end upwards swung to improve the height of ash discharge cylinder 201, otherwise can reduce the height of ash discharge cylinder 201, can be applicable to the aggregate transport vechicle of feed inlet height difference, perhaps be applicable to the aggregate transport vechicle and park in the condition of different ground height (because mountain area topography is complicated, the condition diverse of every job site), convenient to use, flexibility.

As a specific implementation manner of the embodiment of the present invention, please refer to fig. 5, one side of the bin opening of the collecting bin 100 is provided with a fixed chute 104, the other side is provided with a movable chute 105, the extending directions of the movable chute 105 and the fixed chute 104 are the same, and the two chutes are opposite; the fixed chute 104 and the movable chute 105 are commonly inserted with a screen 400.

When the materials are discharged into the collection bin 100, the bagged cement is placed on the screen 400, then the cement bag is directly cut open (lower position), the cement can automatically fall into the collection bin 100, and the cement is not required to be manually lifted and poured, so that the labor intensity is reduced, and the efficiency of converting the bagged cement into bulk cement in the collection bin 100 is improved. In addition, because the silk thread that produces easily after the cement bag is damaged hangs on screen cloth 400, easily blocks up screen cloth 400 after long-time operation, influences the hourglass material speed of screen cloth 400, can take out screen cloth 400 by the one end of fixed spout 104 and activity spout 105 this moment, then clears up it, and the silk thread falls into in collecting bin 100 and blocks up discharge gate 101 or spiral lifting cylinder 200 when avoiding clearing up, convenient and practical.

Specifically, referring to fig. 5, the movable chute 105 is a U-shaped groove surrounded by a fixing plate 1051 and an L-shaped plate 1052; wherein, the fixed plate 1051 is fixedly connected with the bin mouth of the collecting bin 100; the L-shaped plate 1052 is hinged to the fixing plate 1051 in the axial direction of the fixing plate 1051, and the L-shaped plate 1052 is turned in a direction away from the fixing chute 104 to an open state in which it is L-shaped with the fixing plate 1051.

L template 1052 and fixed plate can articulate through a plurality of hinges 1053 (or hinge), because cement is broken a bag and is expected the in-process dust more, fill up easily in fixed spout 104 and/or the activity spout 105, thereby cause the difficulty of taking out of screen cloth 400, overturn L template 1052 to open mode this moment, then lift screen cloth 400 upwards in one side of activity spout 105 in the cartridge, then take out the opposite side of being connected with fixed spout 104 by the notch of fixed spout 104, after taking out to screen cloth 400, fixed spout 104, activity spout 105 clear up respectively, reinstall screen cloth 400 can, of course, should reset L template 1052 after screen cloth 400 reinstalls, it is fixed to form the cartridge with fixed spout 104 to guarantee to form the both sides formation cartridge of screen cloth 400 jointly for U type structure and fixed spout 104.

In this embodiment, referring to fig. 5, the L-shaped plate 1052 is slidably inserted with the first plug 106, the fixing plate 1051 is provided with a first insertion hole (the first plug 106 blocks the non-labeled drawing), and the first plug 106 is inserted into the first insertion hole correspondingly. The phenomenon that the screen 400 is separated from the fixed chute 104 due to the fact that the L-shaped plate 1052 is overturned due to mistaken touch (treading or friction of bagged cement) of an operator is avoided, the fixed state of the L-shaped plate 1052 is stable and reliable, and the inserting and fixing of the screen 400 are reliable.

As a specific implementation manner of the embodiment of the present invention, please refer to fig. 1 and fig. 3, the ash discharging cylinder 201 extends downward or obliquely downward from the side wall of the spiral lifting cylinder 200, the lower end of the ash discharging cylinder 201 is provided with the filter screen 204, and the edge of the filter screen 204 is attached to the inner wall of the ash discharging cylinder 201.

The bulk cement can enter the aggregate transport vehicle after passing through the filter screen 204, so that sundries or block-shaped cement are prevented from entering the aggregate transport vehicle and further entering a concrete mixing station, and the quality of concrete is ensured to be reliable.

In this embodiment, please refer to fig. 3, a rotating shaft 2041 is disposed on the filter screen 204, two ends of the rotating shaft 2041 are rotatably connected to the ash discharging cylinder 201 along a radial direction of the ash discharging cylinder 201, one end of the rotating shaft 2041 penetrates through the outer portion of the ash discharging cylinder 201, a positioning plate 2042 extending along the radial direction of the rotating shaft 2041 is disposed at the penetrating end, a second plug 2043 is slidably disposed on the positioning plate 2042, a second insertion hole (not labeled in the figure and matching with the second plug 2043) is disposed on a side wall of the ash discharging cylinder 201, and the second plug 2043 is inserted into the second insertion hole.

When the ash discharging cylinder 201 is blocked, the second bolt 2043 is pulled down, the filter screen 204 is rotated, and the screen surface of the filter screen 204 is turned to a position parallel to the axial direction of the ash discharging cylinder 201, so that the lower end of the ash discharging cylinder 201 is opened, the blocking objects fall down, or manual picking and cleaning are carried out, and in addition, part of the screen surface of the filter screen 204 is exposed below the ash discharging cylinder 201, so that the filter screen 204 can be conveniently cleaned.

As a specific implementation manner of the embodiment of the present invention, please refer to fig. 1, a bag breaking device 300 is set up at the mouth of the collecting bin 100, and a plurality of angle-shaped blades 301 with upward cutting edges are disposed on the bag breaking device 300.

On operating personnel only need shift to broken bag ware 300 with bagged cement, need not to carry out the slip-cutting, the cement bag is automatic to be scratched by angle type blade 301, and in cement scatters and gets into collection storehouse 100, convenient operation is high-efficient, can reduce operating personnel's intensity of labour, improves work efficiency.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An apparatus for converting bulk cement from bagged cement, comprising:

the collecting bin is embedded on an operating platform of the storage warehouse, a bin opening is flush with the table top of the operating platform, and a discharge opening is formed in the bottom end of the collecting bin;

the spiral lifting cylinder is arranged outside the storage warehouse, one end of the spiral lifting cylinder is used for extending into the storage warehouse, the extending end of the spiral lifting cylinder is connected with the discharge port, the other end of the spiral lifting cylinder extends obliquely upwards, the extending end of the spiral lifting cylinder is provided with an ash discharge cylinder, and the ash discharge cylinder is used for discharging bulk cement into the aggregate transport vehicle;

the spiral lifting cylinder is internally provided with a spiral shaft and a plurality of supporting pieces which are respectively used for supporting the spiral shaft, and the spiral shaft is respectively and rotatably connected with the plurality of supporting pieces.

2. The apparatus for converting bulk cement from bagged cement of claim 1, wherein said screw shaft comprises:

the connecting shafts are respectively and rotatably connected with the supporting pieces, two ends of each connecting shaft respectively extend to two sides of each supporting piece, and the two ends of each connecting shaft are of spline structures;

the connecting shafts are in butt joint with each other in the axial direction of the connecting shafts, spline holes are formed in two ends of each spiral column respectively, and the spline holes are connected with the spline structures in a matched mode.

3. The apparatus for converting bulk cement from bagged cement of claim 2, wherein said support member comprises:

the arc plate is attached to and connected with the inner wall of the spiral lifting cylinder;

one end of the support rod is connected with the arc plate, and the other end of the support rod extends along the radial direction of the spiral lifting cylinder;

the side wall of the connecting sleeve is fixedly connected with the extending end of the supporting rod, the connecting sleeve is sleeved on the connecting shaft, and the butt joint ends of two adjacent spiral columns are respectively abutted against the two ends of the connecting sleeve.

4. The apparatus for converting bulk cement from bagged cement of claim 1, wherein: the middle part of the spiral lifting cylinder is hinged with a telescopic supporting leg, and the telescopic supporting leg is used for supporting on the ground and driving the extending end of the spiral lifting cylinder to swing up and down.

5. The apparatus for converting bulk cement from bagged cement of claim 1, wherein: a fixed sliding chute is arranged on one side of the bin opening of the collecting bin, a movable sliding chute is arranged on the other side of the bin opening of the collecting bin, the extending direction of the movable sliding chute is the same as that of the fixed sliding chute, and the notches of the movable sliding chute and the fixed sliding chute are opposite; and a screen is inserted into the fixed chute and the movable chute together.

6. The apparatus for converting bulk cement from bagged cement of claim 5, wherein: the movable sliding chute is a U-shaped groove formed by enclosing a fixed plate and an L-shaped plate, wherein the fixed plate is fixedly connected with a bin opening of the collecting bin; the L-shaped plate is hinged to the fixing plate along the axial direction of the fixing plate, and the L-shaped plate is turned to an open state forming an L shape with the fixing plate in the direction away from the fixing chute.

7. The apparatus for converting bulk cement from bagged cement of claim 6, wherein: a first bolt penetrates through the L-shaped plate in a sliding mode, a first jack is arranged on the fixing plate, and the first bolt is correspondingly inserted into the first jack.

8. The apparatus for converting bulk cement from bagged cement of claim 1, wherein: the ash discharge cylinder is in the vertical downward or slant downwardly extending of lateral wall of spiral lifting cylinder, the lower extreme of ash discharge cylinder is equipped with the filter screen, just the border of filter screen with the inner wall laminating of ash discharge cylinder.

9. The apparatus for converting bulk cement from bagged cement of claim 8, wherein: be equipped with the pivot on the filter screen, the both ends of pivot are followed respectively arrange the ash section of thick bamboo radially with arrange the ash section of thick bamboo and rotate and connect, the one end of pivot is worn out arrange the outside of ash section of thick bamboo, and wear out the end and be equipped with the edge the locating plate of the radial extension of pivot, the second bolt is worn to be equipped with in the locating plate upper sliding, the lateral wall of an ash section of thick bamboo is equipped with the second jack, the second bolt with the second jack is pegged graft.

10. The apparatus for converting bulk cement from bagged cement according to any one of claims 1 to 9, wherein: the bag breaking device is erected at the bin opening of the collecting bin, and a plurality of angle-shaped blades with upward cutting edges are arranged on the bag breaking device.

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