CN216282622U

CN216282622U - Drying room with reciprocating type material stirring device

Info

Publication number: CN216282622U
Application number: CN202122483457.0U
Authority: CN
Inventors: 郑朝志
Original assignee: Amcon (fujian) Environment Protection Equipment Co ltd
Current assignee: Amcon (fujian) Environment Protection Equipment Co ltd
Priority date: 2021-10-15
Filing date: 2021-10-15
Publication date: 2022-04-12
Anticipated expiration: 2031-10-15

Abstract

A drying room with a reciprocating material poking device is characterized in that a feeding hole is formed in the top of the drying room, a discharging hole is formed in the bottom of the drying room, and one or more material conveying platforms with vent seams are arranged inside the drying room; the material conveying platform's that possesses the gas vent seam below of bottommost layer below is equipped with a reciprocating type and dials material device, includes: a grating platform which is arranged in parallel is arranged above the seamless bottom plate; the grating platform is connected with a driving mechanism; the driving mechanism drives the grating platform to do reciprocating synchronous circular motion, so that the grating platform and the seamless bottom plate are periodically closed, touch the material slag on the seamless bottom plate and push the material slag to the discharge end to be discharged from the discharge port. The seamless bottom plate can receive material slag, and when the grating platform does reciprocating circular motion, the material can be rolled and stirred to the tail end to be conveyed to the discharge hole. The bottom does not need to be cleaned manually at regular intervals, and the automation and the running stability of the drying equipment are improved.

Description

Drying room with reciprocating type material stirring device

Technical Field

The utility model belongs to the technical field of material drying equipment, and particularly relates to a drying room with a reciprocating material poking device.

Background

The material drying device is widely applied to drying processes in the industries of chemical industry, food, medicine, building materials and the like. In the sludge treatment field, mud cakes produced by a sludge dewatering machine freely fall to a mesh-shaped crawler belt after granulation or strip making, and water in the mud cakes on the mesh belt is gradually evaporated through the conveying of a plurality of layers of reciprocating mesh belts, so that materials with lower water content are finally formed and discharged.

The Chinese patent ZL201910748719.6 discloses a peristaltic propulsion type drying device, and the Chinese patent ZL202010175357.9 discloses a material rolling and conveying module and a drying chamber thereof. The conveying platforms of the drying equipment (also called as a drying room) in the prior art all have a problem, namely, material slag and dust falling in gaps of the material conveying platforms finally fall to the bottom of the drying room, and the material slag and the dust need to be cleaned regularly and specially, so that time and labor are wasted, and the working efficiency and the running stability of the drying room are also influenced. In addition, the bottom of the drying room is an area with the highest hot air temperature, the lowest humidity and the strongest wind power, and is not utilized more effectively at present.

Disclosure of Invention

The utility model aims to provide a drying room with a reciprocating material poking device, which can receive material slag and convey the material slag out of the drying room.

The utility model is realized by the following steps:

a drying room with a reciprocating material poking device is characterized in that a feeding hole is formed in the top of the drying room, a discharging hole is formed in the bottom of the drying room, and one or more material conveying platforms with vent seams are arranged inside the drying room;

a reciprocating material poking device is arranged below the material conveying platform with the vent seam at the bottommost layer, and materials are conveyed to a discharge end through the reciprocating material poking device and are discharged out of the drying room from the discharge port;

the reciprocating type kickoff includes: a grid platform arranged in parallel is arranged above the seamless bottom plate; the grating platform is connected with a driving mechanism;

the driving mechanism drives the grating platform to do reciprocating synchronous circular motion, so that the grating platform and the seamless bottom plate are periodically closed, touch the material slag on the seamless bottom plate and push the material slag to the discharge end to be discharged from the discharge hole.

Further, the drive mechanism includes: the transmission mechanism, the guide plate and the group of driving shafts; the group of driving shafts are arranged on the guide plate in a penetrating way through a group of eccentric devices sleeved on the driving shafts; the grid platform is fixedly connected to the guide plate; the group of driving shafts is connected to a power source through the transmission mechanism; the group of driving shafts are driven by the power source to rotate at the same speed and the same direction to drive the guide plate and the grating platform to do reciprocating synchronous circular motion, so that the grating platform and the seamless bottom plate are periodically closed.

Furthermore, a spiral conveyor is arranged at the discharge end and used for conveying the materials out of the drying room; the spiral conveyor is used for receiving materials which are transferred from the seamless bottom plate in a shifting mode, or receiving the materials which are transferred from the seamless bottom plate in a shifting mode and the materials which fall from the tail end of the material conveying platform at the bottommost layer.

Furthermore, an air inlet is formed in the bottom of the drying room, and an air outlet is formed in the top of the drying room; the seamless bottom plate and the grating platform incline upwards from the direction of the air inlet.

Further, the screw conveyor is disposed to be inclined upward.

Further, the screw conveyer is a shaftless screw conveyer.

Further, the material conveying platform with the vent seams is a belt conveying platform or a strip stacking push type conveying platform.

Furthermore, the material conveying platform with the vent seams is a flat plate with the seams, and a grating platform which does reciprocating circular motion is arranged above the flat plate to carry out material stirring and conveying.

The utility model has the advantages that:

1. the seamless bottom plate can receive a part of small-particle slag which is sieved out of the gap and falls off by the conveying platform above the seamless bottom plate in the conveying process, and transfer the slag falling off from the tail end of the conveying platform. When the grating platform above the seamless bottom plate does reciprocating circular motion, the materials can be rolled and stirred to the tail end to be conveyed to the discharge hole. Can in time discharge most material sediment on the seamless bottom plate, do not need the manual work to carry out periodic cleaning to the bottom, improve drying equipment's automation and the stability of operation.

2. The seamless bottom plate can be fully utilized as a layer of effective drying platform, and the evaporation area and the evaporation efficiency of the drying platform are improved.

3. The in-process is stirred to reciprocating type to the grid platform, can further roll the material, further pulverizes before letting the material ejection of compact, is favorable to the further evaporation of moisture.

4. The seamless bottom plate which inclines upwards from the direction of the air inlet has the function of air guiding, and hot air is effectively and uniformly conveyed upwards. And the air inlet is completely opened, so that larger air inlet quantity and wind speed can be ensured.

5. The spiral conveyer inclines upward to discharge, and the material has a certain height during discharging, so that subsequent collection or transportation is facilitated, and the overall height of the equipment is reduced.

Drawings

The utility model will be further described with reference to the following examples with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention.

Fig. 2 is a schematic structural view of a grating platform in the first embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a second embodiment of the present invention.

Fig. 4 is a schematic structural view of a grating platform in a second embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a third embodiment of the present invention.

Fig. 6 is a schematic structural view of a flat plate with slits in a third embodiment of the present invention.

Detailed Description

The first embodiment:

as shown in fig. 1 and fig. 2, a drying room 100 with a reciprocating material poking device, a material inlet 1 is arranged at the top of the drying room 100, a material outlet 2 is arranged at the bottom of the drying room 100, and a plurality of material conveying platforms 3 with vent seams are arranged inside the drying room 100; a reciprocating material stirring device 4 is arranged below the material conveying platform 3 with the vent seam at the bottommost layer, and the materials are conveyed to the discharge end through the reciprocating material stirring device 4 and are discharged out of the drying room 100 from the discharge port 2.

Reciprocating type kickoff 4 includes: a seamless bottom plate 41, wherein a grid platform 42 arranged in parallel is arranged above the seamless bottom plate 41; the grill platform 42 is connected to a drive mechanism 5. The driving mechanism 5 drives the grating platform 42 to do reciprocating synchronous circular motion, so that the grating platform 42 and the seamless bottom plate 41 are periodically closed, touch the slag on the seamless bottom plate 41 and push the slag to the discharge end to be discharged from the discharge port 2.

A drive mechanism 5 comprising: a transmission mechanism 51, a guide plate 52, and a set of drive shafts 53; a set of driving shafts 53 are arranged on the guide plate 52 in a penetrating way through a set of eccentric devices 54 sleeved on the driving shafts; the grill platform 42 is fixedly attached to the guide plate 52; a set of driving shafts 53 are connected to a power source (not shown) fixed outside the side wall of the drying room through a transmission mechanism 51; the driving shafts 53 are driven by the power source to rotate in the same speed and direction to drive the guide plate 52 and the grating platform 42 to do reciprocating synchronous circular motion, so that the grating platform 42 and the seamless bottom plate 41 are periodically closed.

The air inlet 6 of the drying room 100 of the present embodiment is disposed at the bottom end side, and the air outlet 7 is disposed at the top of the drying room 100. The seamless bottom plate 41 and the grating platform 42 are positioned at the air inlet 6 and are inclined upwards from the direction of the air inlet 6, so that the hot air at the bottom is fully utilized, the evaporation area and the evaporation efficiency of the seamless bottom plate 41 are improved, and the hot air can be more effectively and uniformly conveyed upwards.

Seamless bottom plate 41 and grid platform 42 tilt up's higher department is the discharge end, and discharge end department sets up a screw conveyer 8, possesses certain height when letting the material ejection of compact, is convenient for follow-up ground collection or transportation. The screw conveyor 8 is used for receiving materials which are transferred from the seamless bottom plate 41, or receiving the materials which are transferred from the seamless bottom plate 41 and the materials which fall from the end of the bottommost material conveying platform 3.

The material conveying platform 3 with the vent seam in the embodiment is a strip stacking pushing type material conveying platform in a peristaltic pushing type drying device disclosed in Chinese invention patent ZL201910748719.6, and the reciprocating material shifting device in the embodiment and the lowest strip stacking pushing type material conveying platform above the reciprocating material shifting device share a power source and a part of transmission mechanism in a driving mechanism. In particular practice, the material conveying platform 3 with the vent seam may also be a belt conveying platform of the prior art.

The working process is as follows: the material gets into from feed inlet 1 of baking house 100, passes through refining mechanism, system strip mechanism in proper order, presses the material into slice or thin short strip, drops to the material conveying platform 3 (fold strip impulse type material conveying platform) that possesses the air vent, through the back and forth transport of multilayer grid platform, lets the dwell time extension of material in baking house 100. The material is at the transportation process of grid platform, and the less material sediment of some granule falls downwards on seamless bottom plate 41 from the grid gap in, dials the screw conveyer 8 that is located the discharge end through reciprocating type synchronous circular motion's grid platform 42 on, and most material sediment, through the grid platform, finally from the end of bottom grid platform directly fall screw conveyer 8 on, discharge behind the discharge gate is carried to the material to rethread screw conveyer 8.

Meanwhile, hot air enters from the air inlet 6 at the end of the bottom, a large amount of hot air is blown to the obliquely arranged seamless bottom plate 41 and the grating platform 42, then is conveyed upwards, evaporates moisture of the materials on the material conveying platform, and finally is discharged from the air return opening 7.

Second embodiment:

as shown in fig. 3 and 4, the present embodiment is different from the first embodiment in that the air inlet 6 disposed at the bottom of the drying room 100 is used for introducing air from the front, the seamless bottom plate 41 and the grate platform 42 located at the air inlet 6 are inclined upward from the direction of the air inlet 6, and the screw conveyor 8 located at the discharging end is also inclined upward, so that the material can be discharged at a certain height for subsequent collection or transportation.

The working process is as follows: the material gets into from feed inlet 1 of baking house 100, through refining mechanism, system strip mechanism in proper order, presses the material into slice or thin short strip, drops to the material conveying platform 3 that possesses the air vent seam (fold the strip and push away formula material conveying platform), through the back and forth transport of multilayer grid platform, lets the dwell time extension of material in baking house 100. The material is at the transportation process of grid platform, and the less material sediment of some granule falls downwards on seamless bottom plate 41 from the grid gap in, and most material sediment, through the grid platform, the one end of seamless bottom plate 41 is finally dropped from the end of bottom grid platform, and the two is dialled to the screw conveyer 8 that is located the discharge end through reciprocating type synchronous circular motion's grid platform 42 on, discharge after the discharge gate is carried to the material to rethread screw conveyer 8.

Meanwhile, hot air enters from the air inlet 6 at the bottom, a large amount of hot air is blown to the obliquely arranged seamless bottom plate 41 and the grating platform 42, then is conveyed upwards, evaporates moisture of the materials on the material conveying platform, and finally is discharged from the air return opening 7.

The third embodiment:

as shown in fig. 5 and 6, the present embodiment is different from the first embodiment in that the material conveying platform 3 having the vent slits is a slotted plate on which a reciprocating synchronous circular grid platform is provided for material shifting and conveying. Wherein, there is dull and stereotyped three side of seam to be equipped with the bounding wall, prevents the material spill, and the one end of ejection of compact is opened.

The working process is as follows: the material gets into from feed inlet 1 of baking house 100, passes through refining mechanism, system strip mechanism in proper order, presses the material into slice or thin short strip, drops to the material conveying platform 3 that possesses the vent joint (the head and both sides are equipped with the flat board that has the seam for the bounding wall), and the stirring of reciprocating type grid platform lets the material carry back and forth on the flat board that has the seam of multilayer, makes the dwell time extension of material in baking house 100. The material is at the dull and stereotyped transportation process that has the seam, the less material sediment of a part granule drops to seamless bottom plate 41 from having the dull and stereotyped gap of seam downwards, dial to the screw conveyer 8 that is located the discharge end through reciprocating type synchronous circular motion's grid platform 42 on, and most material sediment, through having the stirring of the dull and stereotyped grid platform of doing reciprocating type synchronous circular motion of seam top, finally from the terminal direct dropping of the platform 8 of having the seam in bottom, discharge after the discharge gate is carried to the rethread screw conveyer 8 with the material sediment.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims

1. A drying room with a reciprocating material poking device is characterized in that a feeding hole is formed in the top of the drying room, a discharging hole is formed in the bottom of the drying room, and one or more material conveying platforms with vent seams are arranged inside the drying room; the method is characterized in that:

2. A drying room with a reciprocating kick-out mechanism as claimed in claim 1, wherein: the drive mechanism includes: the transmission mechanism, the guide plate and the group of driving shafts; the group of driving shafts are arranged on the guide plate in a penetrating way through a group of eccentric devices sleeved on the driving shafts; the grid platform is fixedly connected to the guide plate; the group of driving shafts is connected to a power source through the transmission mechanism; the group of driving shafts are driven by the power source to rotate at the same speed and the same direction to drive the guide plate and the grating platform to do reciprocating synchronous circular motion, so that the grating platform and the seamless bottom plate are periodically closed.

3. A drying room with a reciprocating kick-out mechanism as claimed in claim 1, wherein: the discharging end is provided with a spiral conveyor which conveys the materials out of the drying room; the spiral conveyor is used for receiving materials which are transferred from the seamless bottom plate in a shifting mode, or receiving the materials which are transferred from the seamless bottom plate in a shifting mode and the materials which fall from the tail end of the material conveying platform at the bottommost layer.

4. A drying room with a reciprocating kick-out mechanism as claimed in claim 3, wherein: the bottom of the drying room is provided with an air inlet, and the top of the drying room is provided with an air outlet; the seamless bottom plate and the grating platform incline upwards from the direction of the air inlet.

5. A drying room with a reciprocating kick-out mechanism as claimed in claim 4, wherein: the spiral conveyor is arranged in an upward inclined mode.

6. A drying room with a reciprocating kick-out mechanism as claimed in claim 3, wherein: the spiral conveyor is a shaftless spiral conveyor.

7. A drying room with a reciprocating kick-out mechanism as claimed in claim 1, wherein: the material conveying platform with the vent seams is a belt conveying platform or a strip stacking push type conveying platform.

8. A drying room with a reciprocating kick-out mechanism as claimed in claim 1, wherein: the material conveying platform with the vent seams is a seamed flat plate, and a grating platform which does reciprocating circular motion is arranged above the seamed flat plate to carry out material stirring and conveying.