CN219525336U - Calcium silicate board production waste recovery device - Google Patents

Abstract

The utility model discloses a calcium silicate board production waste recycling device which comprises a metal main support frame and a transmission assembly, wherein a belt conveyor is arranged on the inner side of the metal main support frame, the transmission assembly is arranged on the right side of the belt conveyor, the transmission assembly comprises a connecting frame, a flow guiding frame, a conveying joint and a telescopic hose, the inner side of the connecting frame is fixedly connected with the flow guiding frame, the right side of the flow guiding frame is connected with the conveying joint, and the lower side of the conveying joint is connected with the telescopic hose through threads. This calcium silicate board production waste recovery device passes through the setting of belt conveyor for in the calcium silicate board leftover bits granule after the sanding machine handles can automatic conveying to the frame that gathers materials that is used for storing fertilizer granule, thereby can avoid transferring equipment to transport this step to the waste granule, not only can reduce operating personnel's work load, also can improve waste recovery device's work efficiency simultaneously, make leftover bits can be better carry out recovery processing.

Description

Calcium silicate board production waste recovery device

Technical Field

The utility model relates to the technical field of calcium silicate board waste recycling devices, in particular to a calcium silicate board production waste recycling device.

Background

In the processing process of the calcium silicate board, an operator needs to utilize trimming equipment to carry out trimming operation on the formed board, a large amount of leftover materials can be generated after the board trimming operation, the leftover materials generally need to be recycled by utilizing a recycling device, and the processed leftover materials can be reused.

The prior publication No. CN206597690U, named as a concrete waste recycling and separating device, is characterized in that the device does not have a structure for moving waste in the discharging process, so that the waste can be reused only by manually transferring the waste to a corresponding position by using transfer equipment, and the use process is troublesome, therefore, the device for recycling the waste in the production of the calcium silicate board is provided.

Disclosure of Invention

The utility model aims to provide a calcium silicate board production waste recycling device which solves the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a calcium silicate board production waste recycling device, includes metal main support frame and transmission subassembly, the inboard of metal main support frame is provided with belt conveyor, transmission subassembly sets up in belt conveyor's right side, transmission subassembly includes even frame, water conservancy diversion frame, delivery connection and flexible hose, and the inboard fixedly connected with water conservancy diversion frame that links the frame, the right side of water conservancy diversion frame is connected with the delivery connection, and the below threaded connection of delivery connection has flexible hose.

Further, a main discharge hole is formed in the left side of the upper part of the metal main support frame, a sand blasting machine is arranged above the main discharge hole, and a feed inlet is arranged above the sand blasting machine.

Further, the below of main bin outlet is provided with screening subassembly, and screening subassembly includes screening frame and screening net, the inside of screening frame is provided with the screening net.

Further, the screening subassembly still includes water conservancy diversion mouth and discharge gate, and the left side of screening frame is connected with the water conservancy diversion mouth, the below of screening frame is connected with the discharge gate.

Further, the inside of screening frame is cavity form, and screening frame and water conservancy diversion mouth intercommunication each other.

Further, the front of the connecting frame is L-shaped, and the connecting frame is symmetrically arranged at two positions relative to the central line of the belt conveyor.

Further, the flow guiding frame is integrally connected with the conveying joint, and the conveying joint is communicated with the telescopic hose.

The utility model provides a calcium silicate board production waste recycling device, which has the following beneficial effects: this calcium silicate board production waste recovery device adopts belt conveyor's setting for the calcium silicate board leftover bits granule after the sanding machine processing is accomplished can be automatic carry to the frame that gathers materials that is used for storing fertilizer granule in, thereby can avoid transferring this step of equipment to transport the waste granule, not only can reduce operating personnel's work load, also can improve waste recovery device's work efficiency simultaneously.

1. According to the utility model, the hollow arrangement in the screening frame enables the crushed plate scraps of the sanding machine to be discharged into the screening frame through the main discharge hole for filtering, after the scraps enter the screening frame, the screening net screens the crushed scraps, after screening, the scraps with larger volume are discharged through the flow guiding hole, and the scraps with qualified size are discharged onto the surface of the belt conveyor through the discharge hole, so that the belt conveyor can convey the treated scraps, thereby facilitating recycling of the plate scraps, and meanwhile, the design of the screening net in a wavy shape enables the scraps to be screened more completely.

2. The connecting frame is mainly used for fixing in a connecting manner, after the left side of the connecting frame is connected with the shielding plate at the outer side above the belt conveyor through the screws, an operator can operate a tool to connect the connecting frame with the guide frame through the screws, and then the guide frame is connected with the belt conveyor, so that waste particles conveyed above the belt conveyor can be conveyed to a proper position through the guide frame.

3. According to the utility model, after the waste particles enter the guide frame, the waste particles can enter the telescopic hose through the conveying joint, an operator connects the lower port of the telescopic hose with the feeding port of the collecting frame for collecting the waste, after the lower port of the telescopic hose and the feeding port are connected together, the treated waste particles can be continuously and directly conveyed into the collecting frame by the belt conveyor, a certain amount of water is added into the collecting frame by the operator for stirring, the waste particles can be changed into calcium carbonate slurry, so that the aim of recycling the leftover materials of the plates is fulfilled, the step of conveying the waste by the transferring equipment can be omitted by directly conveying the treated waste into the collecting frame by the belt conveyor, the workload of the operator can be reduced, and the working efficiency of the waste recycling device can be improved.

Drawings

FIG. 1 is a schematic view showing the overall structure of a waste recycling apparatus for calcium silicate board production according to the present utility model;

FIG. 2 is an enlarged schematic view of the construction of the waste recycling apparatus for calcium silicate board production of the present utility model at A in FIG. 1;

FIG. 3 is a schematic diagram of a cross-sectional front view of a screening frame of a calcium silicate board production waste recycling device of the present utility model;

FIG. 4 is an enlarged schematic view of the construction of the waste recycling apparatus for calcium silicate board production of the present utility model at B in FIG. 1;

fig. 5 is a schematic perspective view of a connecting frame and a guide frame of a waste recycling device for calcium silicate board production.

In the figure: 1. a metal main support; 2. a screen assembly; 201. a screening frame; 202. screening net; 203. a diversion port; 204. a discharge port; 3. a belt conveyor; 4. a transmission assembly; 401. a connecting frame; 402. a flow guiding frame; 403. a delivery joint; 404. a flexible hose; 5. a main discharge port; 6. a sanding machine; 7. and a feed inlet.

Detailed Description

As shown in fig. 1-3, a calcium silicate board production waste recycling device, including metal main support frame 1 and transmission subassembly 4, the top left side inside of metal main support frame 1 is provided with main bin outlet 5, and install sanding machine 6 in the top of main bin outlet 5, feed inlet 7 is installed to sanding machine 6's top, the below of main bin outlet 5 is provided with screening subassembly 2, and screening subassembly 2 includes screening frame 201 and screening net 202, screening frame 201's inside is provided with screening net 202, screening subassembly 2 still includes water conservancy diversion mouth 203 and discharge gate 204, and screening frame 201's left side is connected with water conservancy diversion mouth 203, screening frame 201's below is connected with discharge gate 204, screening frame 201's inside is the cavity form, and screening frame 201 and water conservancy diversion mouth 203 intercommunication each other, screening frame 201's inside cavity form setting, make the leftover bits waste material after sanding machine 6 broken can be arranged into screening frame 201 through main bin outlet 5 and filter, after the leftover bits waste material gets into screening frame 201, screening net 202 can be to the broken size behind the net 202, can carry out the granule size of particle size after the screening frame 201, can be to the big granule size through the big granule size of the sieve, can be carried out the granule size through the band-shaped waste material is more convenient, can be carried out to the granule and the granule is discharged through the carrier band-shaped waste material is more discharged to the material is more convenient to the material is discharged to the carrier 3.

As shown in fig. 1, fig. 4 and fig. 5, the inner side of the metal main support frame 1 is provided with the belt conveyor 3, the transmission assembly 4 is arranged on the right side of the belt conveyor 3, the transmission assembly 4 comprises a connecting frame 401, a guide frame 402, a conveying joint 403 and a telescopic hose 404, the inner side of the connecting frame 401 is fixedly connected with the guide frame 402, the right side of the guide frame 402 is connected with the conveying joint 403, the telescopic hose 404 is connected with the lower thread of the conveying joint 403, the front side of the connecting frame 401 is in an L shape, two symmetrical connecting frames are arranged on the central line of the belt conveyor 3, the connecting frame 401 mainly serves as a fixed connection, after the left side of the connecting frame 401 and a shielding plate on the outer side of the belt conveyor 3 are connected together through screws, an operator can connect the guide frame 402 and the belt conveyor 3 through screws, waste particles conveyed above the belt conveyor 3 can be conveyed to a proper position by the guide frame 402, the guide frame 402 and the conveying joint 403 are integrally connected, the conveying joint 403 is arranged on the front side, the front side of the connecting frame 401 and the conveying joint is in a plane, the waste particles can be directly conveyed into the inner side of the belt conveyor 404 through the telescopic hose 404 after the connecting frame and the two waste particles are connected with the telescopic hose 404, the waste particles can be collected by the operator, the waste particles can be directly connected into the inner side of the flexible hose 404 through the connecting frame after the connecting frame and the waste particles are connected with the telescopic hose 404 through the connecting frame, the waste particles can be directly connected into the inner side of the flexible hose after the waste particles through the connecting frame and the flexible carrier 404, the mode that the belt conveyor 3 can directly carry the waste material after handling into the frame that gathers materials can avoid transporting equipment to carry this step to the waste material, not only can reduce operating personnel's work load, also can improve waste recovery unit's work efficiency simultaneously.

In summary, when the calcium silicate board production waste recycling device is used, firstly, according to the illustration in fig. 1, when the calcium silicate board is needed to recycle the leftover waste in the process of trimming, an operator places the device at a proper position, then places the feeding port 7 at the waste discharging port of the trimming device, when the leftover waste enters the feeding port 7 through the waste discharging port, the leftover waste can enter the sanding machine 6, the crushing knife in the sanding machine 6 can crush the leftover waste, after crushing, according to the illustration in fig. 2 and 3, the waste particles can enter the screening frame 201 through the main discharging port 5, after the leftover waste enters the screening frame 201, the screening net 202 screens the crushed waste particles, and the operator places the frame for collecting the waste below the discharge port of the diversion port 203, the waste particles with larger volume after screening are discharged into the frame body through the flow guide opening 203, the waste particles with qualified size are discharged onto the surface of the belt conveyor 3 through the discharge opening 204, then according to the figures 3 and 4, an operator restarts the belt conveyor 3, the belt conveyor 3 can convey the waste particles into the flow guide frame 402, after the waste particles enter the flow guide frame 402, the waste particles can enter the flexible hose 404 through the conveying joint 403, the operator connects the lower port of the flexible hose 404 with the feed inlet of the aggregate frame for collecting the waste, after the two are connected together, the belt conveyor 3 can continuously convey the waste particles after the treatment into the aggregate frame directly, the operator can add a certain amount of water into the aggregate frame for stirring, the waste particles can become calcium carbonate slurry, and the calcium carbonate slurry can be reused for manufacturing the calcium silicate plates, thereby reach the purpose of recycling to panel leftover bits, collect in the framework simultaneously and full unqualified waste material granule after, empty the waste material in the framework into feed inlet 7 in, sanding machine 6 just can carry out secondary crushing to unqualified waste material.

Claims (7)

1. The utility model provides a calcium silicate board production waste recycling device, includes metal main support frame (1) and transmission subassembly (4), its characterized in that, the inboard of metal main support frame (1) is provided with belt conveyor (3), transmission subassembly (4) set up in the right side of belt conveyor (3), transmission subassembly (4) are including linking frame (401), water conservancy diversion frame (402), transportation joint (403) and flexible hose (404), and the inboard fixedly connected with water conservancy diversion frame (402) of linking frame (401), the right side of water conservancy diversion frame (402) is connected with transportation joint (403), and the below threaded connection of transportation joint (403) has flexible hose (404).

2. The calcium silicate board production waste recycling device according to claim 1, wherein a main discharge port (5) is arranged in the left side of the upper part of the metal main support frame (1), a sand blasting machine (6) is arranged above the main discharge port (5), and a feed port (7) is arranged above the sand blasting machine (6).

3. A calcium silicate board production waste recycling device according to claim 2, characterized in that a screening assembly (2) is arranged below the main discharge opening (5), and the screening assembly (2) comprises a screening frame (201) and a screening net (202), the screening net (202) being arranged inside the screening frame (201).

4. A calcium silicate board production waste recycling device according to claim 3, characterized in that the screening assembly (2) further comprises a diversion opening (203) and a discharge opening (204), the left side of the screening frame (201) is connected with the diversion opening (203), and the lower side of the screening frame (201) is connected with the discharge opening (204).

5. The calcium silicate board production waste recycling apparatus according to claim 4, wherein the inside of the screening frame (201) is hollow, and the screening frame (201) is communicated with the diversion port (203).

6. The calcium silicate board production waste recycling device according to claim 1, characterized in that the front of the connecting frame (401) is L-shaped, and the connecting frame (401) is symmetrically provided with two connecting frames about the center line of the belt conveyor (3).

7. A calcium silicate board production waste recycling device according to claim 1, characterized in that the guide frame (402) is integrally connected with the delivery joint (403), and the delivery joint (403) is in communication with the telescopic hose (404).