CN217164834U - Transfer bin arch breaking device - Google Patents

Abstract

The utility model relates to a broken device that encircles in transfer storehouse relates to concrete mixing equipment's technical field, and it includes transfer storehouse and breaker, feed inlet and discharge gate have been seted up to the transfer storehouse, breaker includes actuating assembly, well core rod and a plurality of dwang, well core rod is located the transfer storehouse, well core rod rotates with the transfer storehouse to be connected, and is a plurality of dwang evenly distributed is on well core rod, the dwang rigid coupling has broken fragment, actuating assembly is arranged in the drive to center the core rod and rotates. This application has the effect of the emergence of jam phenomenon in improving the feed bin.

Description

Transfer bin arch breaking device

Technical Field

The application relates to the technical field of concrete mixing equipment, in particular to an arch breaking device of a transfer bin.

Background

At the in-process of stirring concrete, put in the grit through the staff to the feed bin, it is less sometimes to have the feed bin export, and the staff once only puts in the grit too much, leads to the feed bin export to plug up and leads to the jam to carry out work, consequently need to break the emergence that encircles the device and reduce jam in the feed bin, improves the efficiency of production.

The application document with the application number of 201520926140.1 discloses a concrete batching machine, which comprises a rack and a storage bin arranged at the upper part of the rack, wherein the storage bin comprises a feeding hole and a discharging hole, a weighing hopper arranged on the rack and positioned below the discharging hole of the storage bin, and a batching conveying belt arranged below the weighing hopper, and a material containing mechanism which can seal or open the discharging hole when a discharging door is arranged at the outer side of the storage bin; the grit that the staff will need to weigh drops into the feed bin in, and the grit gets into the batching fill and weighs in the feed bin, drops to the batching conveyer belt after weighing the completion and transports away.

Aiming at the related technologies, the inventor thinks that when workers throw sand and stone into the storage bin once too much, the outlet of the storage bin is blocked, and normal work is affected.

SUMMERY OF THE UTILITY MODEL

In order to improve the emergence of jam phenomenon in the feed bin, this application provides a transfer bin arch breaking device.

The application provides a pair of transfer chamber arch breaking device adopts following technical scheme:

the utility model provides a broken device that encircles in transfer storehouse, includes transfer storehouse and breaker, feed inlet and discharge gate have been seted up in the transfer storehouse, breaker includes drive assembly, well core rod and a plurality of dwang, well core rod is located the transfer storehouse, well core rod rotates with the transfer storehouse to be connected, and is a plurality of dwang evenly distributed is on well core rod, the dwang rigid coupling has broken fragment, drive assembly is arranged in the drive to rotate well core rod.

Through adopting above-mentioned technical scheme, drive well core rod through drive assembly and rotate, well core rod drives the dwang and rotates, and broken fragment on the dwang strikes the grit in the transit bin to can be broken the grit that blocks in the transit bin, the export of mediation transit bin reduces the phenomenon that the grit blockked up in the storehouse.

Optionally, the driving assembly includes a first motor, and the first motor is configured to drive the central rod to rotate.

Through adopting above-mentioned technical scheme, drive well core rod through first motor and rotate, can improve pivoted efficiency for block up the breakage of grit in the storehouse.

Optionally, the drive assembly still includes action wheel, belt and follows the driving wheel, the action wheel is located outside the transfer storehouse, follow driving wheel and well core rod fixed connection, the belt is around connecing in the action wheel and from between the driving wheel, first motor drives the action wheel and rotates.

Through adopting above-mentioned technical scheme, when carrying out broken grit, first motor drives the action wheel and rotates, and the action wheel passes through the belt and drives from the driving wheel rotation, drives the center pin rotation from the driving wheel, when meetting the grit harder, can block the dwang, blocks the back when the dwang through this structure, and first motor still drives the action wheel rotatory, and the action wheel passes through the belt and drives from the driving wheel rotation time, and the belt can skid to the protection motor probably receives the harm because transshipping.

Optionally, the humidifying device further comprises a humidifying component, wherein the humidifying component comprises a water tank, a water supply pipe and a spray head, the water supply pipe is used for communicating the water tank with the transfer bin, the spray head is positioned in the transfer bin, and the spray head is detachably connected with the water supply pipe.

Through adopting above-mentioned technical scheme, through setting up the humidification subassembly, the water tank passes through the flow pipe and sprays water through the shower nozzle to the transfer bin, when carrying out the breakage, the grit viscosity is reduced through the humidification to the grit of jam to reduce broken fragment to the broken degree of difficulty of grit.

Optionally, the screening device further comprises a screening assembly, wherein the screening assembly comprises a screen, and the screen is connected with the inner wall of the discharge hole.

Through adopting above-mentioned technical scheme, through setting up the screen cloth, will block up the grit breakage back at the transit storehouse export in the transit storehouse, will accord with the granule screening of concrete raw materials through the screen cloth and come out, improve the quality of concrete.

Optionally, the screening subassembly is still including vibrating motor and elastic component, the screen cloth passes through elastic component and transfer storehouse fixed connection, vibrating motor is used for driving the screen cloth and vibrates.

Through adopting above-mentioned technical scheme, vibrating motor drives the screen cloth and vibrates, drives the screen cloth vibration through vibrating motor and has further strengthened the efficiency of screen cloth screening raw materials.

Optionally, the screen is connected with a connecting ring, one end of the connecting ring is fixedly connected with the elastic member, and the other end of the connecting ring is fixedly connected with the screen.

Through adopting above-mentioned technical scheme, grit in the transfer bin can store the grit through setting up the go-between on the discharge gate ejection of compact screen cloth, reduces vibrating motor and drives the phenomenon that the screen cloth vibration leads to leaking the material.

Optionally, the screen cloth pushing device further comprises a pushing assembly, the pushing assembly comprises a driving cylinder and a pushing plate, the bottom wall of the pushing plate is in contact with the top wall of the screen cloth, the driving cylinder connected with the pushing plate is arranged outside the connecting ring, the connecting ring is provided with a pushing port, and the pushing port is opposite to the pushing plate.

By adopting the technical scheme, when the screen is used for screening materials, sand blocks which are not screened may be accumulated on the screen, the driving cylinder drives the material pushing plate to move on the screen, and the sand blocks which are not screened are pushed out from the material pushing opening from the screen, so that the screen can work normally.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the sand blocking in the transit bin can be crushed, the outlet of the transit bin is dredged, and the phenomenon that the sand blocks in the bin is reduced;

2. through the arrangement of the driving assembly, when the rotating rod meets hard sand, the rotating rod can be clamped, and the belt and the driven wheel slide relatively, so that the motor is protected from being damaged due to overload;

3. the particles which accord with the concrete raw materials are screened out through the screen, and the quality of the concrete is improved.

Drawings

FIG. 1 is a partial cross-sectional view of an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a crushing device according to an embodiment of the present application;

figure 3 is a schematic diagram of the structure of a humidifying assembly, a screening assembly and a pusher assembly according to an embodiment of the present application.

Description of reference numerals: 1. a transfer bin; 11. a feed inlet; 12. a discharge port; 13. a drive aperture; 2. a crushing device; 21. a drive assembly; 211. a mounting seat; 212. a first motor; 213. a driving wheel; 214. a belt; 215. a driven wheel; 22. a center pole; 23. rotating the rod; 231. breaking into pieces; 2311. crushing the blade; 3. a humidifying assembly; 31. a water tank; 311. a water feeding port; 32. a water supply pipe; 321. an extension water pipe; 33. a water pump; 34. a spray head; 4. a screen assembly; 41. screening a screen; 411. a connecting ring; 4111. a push hole; 4112. pushing a material port; 42. a vibration motor; 43. an elastic member; 5. a material pushing assembly; 51. a driving cylinder; 52. a material pushing plate; 6. and (4) a bracket.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a transfer bin arch breaking device.

Referring to fig. 1, a broken device that encircles of transfer storehouse, including transfer storehouse 1, breaker 2, humidification subassembly 3 and screening subassembly 4, feed inlet 11 and discharge gate 12 have been seted up respectively to transfer storehouse 1, after transfer storehouse 1 was plugged up by the grit piece, breaker 2 broken to the grit piece, the grit piece in 3 centering transfer storehouses of humidification subassembly simultaneously humidifies, so that breaker 2 carries out the breakage to the grit piece, the grit that will accord with concrete raw materials after the breakage is accomplished through screening subassembly 4 sieves out.

Referring to fig. 2, the crushing device 2 includes a driving assembly 21, a central rod 22 and a plurality of rotating rods 23, the driving assembly 21 includes a mounting seat 211, a first motor 212, a driving wheel 213, a belt 214 and a driven wheel 215, the mounting seat 211 is welded to the outer wall of the transfer bin 1, and a housing of the first motor 212 is fixedly connected to the mounting seat 211 through screws; an output shaft of the first motor 212 is coaxially and fixedly connected with the driving wheel 213 through a coupler, the driven wheel 215 is positioned above the driving wheel, the transfer bin 1 is provided with a driving hole 13, the center rod 22 penetrates through the driving hole 13 to be coaxially and fixedly connected with the driven wheel 215, and the belt 214 is wound between the driving wheel 213 and the driven wheel 215.

Referring to fig. 2, a central rod 22 is positioned in the transfer bin 1, and the central rod 22 is horizontally arranged; a plurality of dwang 23 is along well core rod 22 axis of rotation evenly distributed, dwang 23 one end and well core rod 22 welding, the other end welding has broken fragment 231, broken piece 231 outer surface peripheral wall welding has broken blade 2311, thereby when producing the putty phenomenon in the storehouse, first motor 212 drive action wheel 213 rotates, action wheel 213 drives through belt 214 and rotates from driving wheel 215, from driving wheel 215 drives well core rod 22 and rotates, well core rod 22 drives dwang 23 and rotates, dwang 23 drives broken fragment 231 and strikes the breakage to the jam grit in the centering rotary bin 1.

Referring to fig. 3, the humidifying assembly 3 includes a water tank 31, a water supply pipe 32, a water pump 33 and two nozzles 34, the water tank 31 is fixedly connected with the outer wall of the transfer bin 1 through screws, the water supply pipe 32 communicates the water tank 31 with the transfer bin 1, and a water inlet and a water outlet of the water pump 33 communicate the water supply pipe 32; the water tank 31 is provided with a water feeding port 311, one end of a water feeding pipe 32 is in threaded connection with the inner wall of the water feeding port 311, the other end of the water feeding pipe is positioned in the transfer bin 1, the water feeding pipe 32 is communicated with an extension water pipe 321, one end of the extension water pipe 321 is communicated with the water feeding pipe 32, and the other end of the extension water pipe 321 is positioned in the transfer bin 1; the two spray heads 34 are respectively in threaded connection with the extension water pipe 321 and the water supply pipe 32 which are positioned in the transfer bin 1; therefore, the water in the water tank 31 is conveyed to the transfer bin 1 through the water pump 33, the sand blocks are humidified through the water mist sprayed by the spray head 34, and the crushing device 2 is accelerated to crush sand.

Referring to fig. 3, the screen assembly 4 includes a screen 41, a vibration motor 42 and 4 elastic members 43, the screen 41 is located below the discharge port 12 of the transit bin 1, and a connection ring 411 is welded to the top wall of the screen 41; the elastic piece 43 is a spring, one end of the elastic piece 43 is welded with the inner wall of the discharge hole 12, and the other end of the elastic piece 43 is welded with the top wall of the connecting ring 411; the vibration motor 42 is located on the bottom wall of the screen 41, and the casing of the vibration motor 42 is fixedly connected with the bottom wall of the screen 41 through screws.

Referring to fig. 3, the arch breaking device further comprises a pushing assembly 5, the pushing assembly 5 comprises a driving cylinder 51 and a pushing plate 52, the driving cylinder 51 is located outside the connecting ring 411, a cylinder body of the driving cylinder 51 is fixedly connected with the outer wall of the connecting ring 411 through screws, the bottom wall of the pushing plate 52 is abutted to the top wall of the screen 41, a pushing hole 4111 is formed in one side of the connecting ring 411, a piston rod of the driving cylinder 51 penetrates through the pushing hole 4111 to be welded with the pushing plate 52, the connecting ring 411 is opposite to the pushing hole 4111 and is provided with a pushing port 4112, and therefore the pushing plate 52 pushes out unscreened sand blocks from the pushing port 4112.

The implementation principle of the gravel transfer bin arch breaking device in the embodiment of the application is as follows: the sand and stone are fed and discharged through the feeding hole 11 and the discharging hole 12 of the transfer bin 1, when the discharging hole 12 of the transfer bin 1 is blocked, the first motor 212 drives the driving wheel 213 to rotate, the driving wheel 213 drives the driven wheel 215 to rotate through the belt 214, the driven wheel 215 drives the central rod 22 to rotate, the central rod 22 is connected with a plurality of rotating rods 23 to rotate, and the rotating rods 23 drive the broken pieces 231 to impact and break sand blocks; meanwhile, water mist is sprayed into the transit bin 1 through the humidifying component 3, the water tank 31 is communicated with the transit bin 1 through the water supply pipe 32, the spray heads 34 are communicated with the water supply pipe 32, and the two spray heads 34 are arranged to enhance the humidifying effect so as to be beneficial to crushing the gravel by the crushing device 2; after the crushing is finished, the sand and stone are screened by the screening component 4, the sand and stone fall on the screen 41 from the discharge port 12, the screen 41 is driven by the vibrating motor 42 to carry out vibrating screening, when unscreened sand blocks exist on the screen 41, the material is pushed by the material pushing component 5, the driving cylinder 51 drives the material pushing plate 52 to move, and the unscreened material on the screen 41 is pushed out from the material pushing port 4112 by the material pushing plate 52.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a device is encircleed to transfer storehouse, includes transfer storehouse (1), feed inlet (11) and discharge gate (12), its characterized in that have been seted up in transfer storehouse (1): still include breaker (2), breaker (2) are including drive assembly (21), well core rod (22) and a plurality of dwang (23), well core rod (22) are located transit storehouse (1), well core rod (22) rotate with transit storehouse (1) and are connected, and are a plurality of dwang (23) evenly distributed is on well core rod (22), dwang (23) rigid coupling has broken piece (231), drive assembly (21) are used for driving well core rod (22) and rotate.

2. The transfer bin arch breaking device according to claim 1, wherein: the driving assembly (21) comprises a first motor (212), and the first motor (212) is used for driving the central rod (22) to rotate.

3. The transfer bin arch breaking device according to claim 2, wherein: drive assembly (21) still include action wheel (213), belt (214) and follow driving wheel (215), action wheel (213) are located outside transfer bin (1), follow driving wheel (215) and well core rod (22) fixed connection, belt (214) around connecing in between action wheel (213) and follow driving wheel (215), first motor (212) drive action wheel (213) rotate.

4. The transfer bin arch breaking device according to claim 3, wherein: still including humidification subassembly (3), humidification subassembly (3) include water tank (31), water delivery pipe (32) and shower nozzle (34), water delivery pipe (32) are with water tank (31) and transit storehouse (1) intercommunication, shower nozzle (34) are located transit storehouse (1), shower nozzle (34) and water delivery pipe (32) can be dismantled and be connected.

5. The transfer bin arch breaking device according to claim 4, wherein: still including screening subassembly (4), screening subassembly (4) are including screen cloth (41), screen cloth (41) and discharge gate (12) inner wall connection.

6. The transfer bin arch breaking device according to claim 5, wherein: screening subassembly (4) are still including vibrating motor (42) and elastic component (43), screen cloth (41) are through elastic component (43) and transit bin (1) fixed connection, vibrating motor (42) are used for driving screen cloth (41) and vibrate.

7. The transfer bin arch breaking device of claim 6, wherein: the screen (41) is connected with a connecting ring (411), one end of the connecting ring (411) is fixedly connected with the elastic piece (43), and the other end of the connecting ring (411) is fixedly connected with the screen (41).

8. The transfer bin arch breaking device of claim 7, wherein: still including pushing away material subassembly (5), push away material subassembly (5) including driving cylinder (51) and scraping wings (52), the diapire and the contact of screen cloth (41) roof of scraping wings (52), driving cylinder (51) of being connected with scraping wings (52) are provided with outward in go-between (411), material pushing opening (4112) has been seted up in go-between (411), material pushing opening (4112) are just right scraping wings (52).

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