CN204996217U - Automatic arrange sediment filter pressing device - Google Patents

Abstract

The utility model discloses an automatic slag discharge filter press device, which comprises a vertical plate, an extrusion groove, a first oil cylinder, a second oil cylinder and a slag collection box; A motor is provided on the outside of the plate to drive the rotation of the vertical plate, and a first oil cylinder is provided on the inside of the vertical plate, and a filter plate is driven and connected to the bottom of the first oil cylinder; the bottom of the two side walls of the extrusion groove is respectively provided with a cylinder communicating with the extrusion groove. Guide hole and slag outlet; the side below the extrusion tank is connected with a filtrate collection device, which includes a faucet, a plastic hose, a steel joint, a metal hose, a slag liquid pump and a filtrate collection pipe; the utility model It greatly saves the labor of workers and further improves the processing capacity of filter residues; the whole collection process is carried out automatically without manual intervention and will not cause the problem of filtrate evaporation, which not only eliminates potential safety hazards, but also improves workers' safety. The quality of the working environment.

Description

An automatic slag discharge filter press device

technical field

The utility model relates to chemical equipment, in particular to an automatic slag discharge filter press device.

Background technique

At present, in the production process of enterprises, a large amount of sewage will be produced. These sewage are mainly composed of production wastewater, canteen wastewater and domestic wastewater of employees. Since the sewage contains a large amount of granular metals, which are heavy metals, if they are discharged If it enters the ditch and river, it will seriously pollute the groundwater and severely damage farmers’ crops. Therefore, before discharging the sewage, it is necessary to separate the particulate metals in the sewage from the water, and the water can only be discharged separately after separation. At present, most enterprises mainly rely on the centrifugal dehydrator to separate the particulate metal and water in the sewage. However, the structure of this dehydrator is complex, and the separated particulate metal is difficult to collect, which leads to the need for enterprises to invest a large amount of manpower to collect the scattered particulate metal. , which greatly reduces the production cost of the enterprise. In addition, the sewage treatment capacity of the currently used centrifugal dehydrator is very low, and it is difficult to carry out continuous separation, and the sewage treatment capacity is very low.

Utility model content

The purpose of this utility model is to provide an automatic slag discharge filter press device to solve the problems raised in the above-mentioned background technology.

In order to achieve the above object, the utility model provides the following technical solutions:

An automatic slag discharge filter press device, comprising a vertical plate, an extrusion tank, a first oil cylinder, a second oil cylinder, and a slag collection box; the two sides above the extrusion tank are connected with a vertical plate through a rotating shaft, and a drive is provided on the outside of the vertical plate The motor that rotates the vertical plate, the first oil cylinder is arranged on the inside of the vertical plate, and the filter plate is driven and connected to the bottom of the first oil cylinder; the two side walls of the extrusion groove are respectively provided with a guide hole and a slag outlet that communicate with the extrusion groove. mouth, the second oil cylinder and the slag collection box are arranged outside the extrusion groove and located on both sides of the extrusion groove, the second oil cylinder is arranged on the side close to the guide hole, the slag collection box is arranged on the side near the slag outlet, and the second oil cylinder The piston rod passes through the guide hole and the piston rod is provided with a push plate perpendicular to the second oil cylinder; the side below the squeeze groove is connected with a filtrate collecting device, and the filtrate collecting device includes a faucet, a plastic hose, a steel joint, Metal hose, slag liquid pump and filtrate collection pipe. The water nozzle is installed on the discharge port of the extrusion tank. The filtrate collection pipe is provided with a group of liquid inlet holes connected with the inner cavity of the pipe. On the pipe surface, the liquid inlet holes are evenly distributed along the axial direction of the pipe, and the distance between the liquid inlet holes is the same as the distance between the liquid discharge ports. There is a connecting nozzle at the outer port of the liquid inlet hole, and the inner cavity of the connecting nozzle It communicates with the liquid inlet hole; one end of the plastic hose is connected to the faucet through a steel joint, and the other end is connected to the connection nozzle through a steel joint. One end of the filtrate collection pipe is connected to the slag liquid pump through a steel joint and a metal hose. A ball valve is installed at the joint between the slag liquid pump and the metal hose, and the output end of the slag liquid pump is connected to the liquid storage tank through a pipeline.

Further, a sealing ring is provided between the piston rod of the second oil cylinder and the guide hole.

Further, the filtrate collection pipe adopts a stainless steel circular pipe.

Further, the plastic hose is a transparent plastic tube.

Further, the other end of the filtrate collection pipeline is a discharge port, and a ball valve is arranged at the discharge port.

Compared with the prior art, after the driving filter plate of the utility model squeezes the waste water downward, the piston rod of the second oil cylinder is controlled to stretch out to discharge all the filter residues from the extrusion tank at one time, which greatly saves workers The amount of labor has further increased the processing capacity of filter residues; the entire collection process is automated, without manual intervention, and will not cause the problem of filtrate evaporation, which not only eliminates potential safety hazards, but also improves the quality of the working environment for workers, and the structure Simple and easy to install.

Description of drawings

Figure 1 is a schematic structural view of an automatic slag discharge filter press device.

Figure 2 is a side view of the automatic slag discharge filter press device.

detailed description

The technical solution of this patent will be further described in detail below in conjunction with specific embodiments.

Please refer to Figure 1-2, an automatic slag discharge filter press device, including a vertical plate 2, an extrusion groove 1, a first oil cylinder 22, a second oil cylinder 13 and a slag collection box 3; The vertical plate 2 is connected with the vertical plate 2 through the rotating shaft, the motor 21 that drives the vertical plate 2 to rotate is provided on the outside of the vertical plate 2, the first oil cylinder 22 is provided on the inner side of the vertical plate 2, and the filter plate 23 is connected to the drive below the first oil cylinder 22; When there is enough waste water in 1, the motor 21 drives the vertical plate 2 to make the vertical plate 2 vertical, and the first oil cylinder 22 works to drive the filter plate 23 to squeeze the waste water downward; There is a guide hole 11 and a slag outlet 12 communicating with the extrusion groove 1, the second oil cylinder 13 and the slag collection box 3 are arranged outside the extrusion groove 1 and on both sides of the extrusion groove 1, and the second oil cylinder 13 is set On the side close to the guide hole 11, the slag collection box 3 is arranged on the side close to the slag outlet 12, the piston rod of the second oil cylinder 13 passes through the guide hole 11 and the piston rod is provided with a push plate 14 perpendicular to the second oil cylinder 13, the second oil cylinder 13 A sealing ring is arranged between the piston rod of the second oil cylinder 13 and the guide hole 11; after the filter plate 23 is driven to squeeze the waste water downward, the piston rod of the second oil cylinder 13 is controlled to stretch out to remove all the filter residues from the extrusion groove at one time. 1, which greatly saves the labor of the workers and further improves the processing capacity of the filter residue; the side below the squeeze tank 1 is connected with a filtrate collection device 4, and the filtrate collection device 4 includes a water nozzle 41 and a plastic hose 42 , steel joint 43, metal hose 44, slag liquid pump 45 and filtrate collection pipe 46, faucet 41 is installed on the discharge port of extrusion tank 1, filtrate collection pipe 46 adopts stainless steel circular pipe, filtrate collection pipe 46 There is a group of liquid inlet holes connected with the inner cavity of the pipeline. The liquid inlet holes are located on the surface of the pipeline opposite to the liquid outlet. The liquid inlet holes are evenly distributed along the axial direction of the pipeline. The distance between them is the same, the outer port of the liquid inlet hole is provided with a connecting nozzle, and the inner cavity of the connecting nozzle communicates with the liquid inlet hole; the plastic hose 42 is a transparent plastic tube, and one end of the plastic hose 42 is connected to the On the faucet 41, the other end is connected on the connection nozzle by a steel joint 43, and is used for the filtrate collecting pipe 46 that the filtrate in the extrusion tank 1 is transported, and one end of the filtrate collecting pipe 46 is connected through a steel joint 43 and a metal flexible pipe. The pipe 44 is connected with the slag liquid pump 45, and a ball valve is arranged at the junction of the slag liquid pump 45 and the metal hose 44. The output end of the slag liquid pump 45 is connected with the liquid storage tank 47 through a pipe, and the other end of the filtrate collection pipe 46 is a drain. Outlet and discharge port are used to transport the filtrate to other processes, the discharge port is provided with a ball valve, and the slag liquid pump 45 is used to transport the filtrate in the filtrate collection pipeline 46 to the liquid storage tank 47; first install the water nozzle 41 on On all the liquid outlets of the extrusion tank 1, weld a connecting nozzle communicated with the liquid inlet at the outer end face of each liquid inlet of the filtrate collection pipe 46, and connect one end of the plastic hose 42 to the faucet through the steel joint 43. 41 connection, the other end is connected to the corresponding connection nozzle through the steel joint 43, so that the liquid discharge port of the extrusion tank 1 is connected with the liquid inlet hole of the filtrate collection pipeline, and the filtrate discharged from the extrusion tank 1 is passed through the plastic soft The pipe 42 is delivered to the filtrate collection pipeline 46; the filtrate collected in the filtrate collection pipeline 46 is transported to the liquid storage tank 47 for storage by the slag liquid pump 45 connected at one end, or is directly delivered to other processes by the outlet of the filtrate collection pipeline 46 For reprocessing or direct application, during the transportation process, adjust the ball valve to control the flow according to production needs; the entire collection process is automated, without manual intervention, and will not cause the problem of filtrate evaporation, which not only eliminates safety hazards, but also The working environment quality of the workers is improved, and the structure is simple and the installation is convenient.

The preferred implementation of this patent has been described in detail above, but this patent is not limited to the above-mentioned implementation. Within the scope of knowledge of those of ordinary skill in the art, various implementations can be made without departing from the purpose of this patent. kind of change.

Claims (5)

1. An automatic slag discharge filter press device, comprising a vertical plate, an extrusion tank, the first oil cylinder, the second oil cylinder and a slag collection box, characterized in that both sides above the extrusion groove are connected with a vertical plate by a rotating shaft, A motor is provided on the outside of the vertical plate to drive the rotation of the vertical plate, and a first oil cylinder is provided on the inside of the vertical plate, and a filter plate is driven and connected to the bottom of the first oil cylinder; the bottom of the two side walls of the extrusion groove is respectively provided with The guide hole and the slag outlet, the second oil cylinder and the slag collection box are arranged outside the extrusion groove and on both sides of the extrusion groove, the second oil cylinder is arranged on the side close to the guide hole, and the slag collection box is arranged on the side near the slag outlet On the mouth side, the piston rod of the second oil cylinder passes through the guide hole and the piston rod is provided with a push plate perpendicular to the second oil cylinder; the side below the squeeze groove is connected with a filtrate collection device, which includes a water nozzle, a plastic soft Pipes, steel joints, metal hoses, slag liquid pumps and filtrate collection pipes. The water nozzle is installed on the discharge port of the extrusion tank. The filtrate collection pipe is provided with a group of liquid inlet holes connected Located on the pipe surface opposite to the liquid discharge port, the liquid inlet holes are evenly distributed along the axial direction of the pipe, the distance between the liquid inlet holes is the same as the distance between the liquid discharge ports, and the outer port of the liquid inlet hole is provided with a connecting nozzle , the inner cavity of the connecting nozzle communicates with the liquid inlet hole; one end of the plastic hose is connected to the faucet through a steel joint, the other end is connected to the connecting nozzle through a steel joint, and one end of the filtrate collection pipe is connected through a steel joint and a metal The hose is connected to the slag liquid pump, and a ball valve is arranged at the joint between the slag liquid pump and the metal hose, and the output end of the slag liquid pump is connected to the liquid storage tank through a pipeline. 2. The automatic slag discharge filter press device according to claim 1, characterized in that a sealing ring is provided between the piston rod of the second oil cylinder and the guide hole. 3. The automatic slag discharge filter press device according to claim 1, characterized in that, the filtrate collecting pipe adopts a stainless steel circular pipe. 4. The automatic slag discharge filter press device according to claim 1, wherein the plastic hose is a transparent plastic tube. 5. The automatic slag discharge filter press device according to claim 1, characterized in that, the other end of the filtrate collecting pipe is a discharge port, and a ball valve is arranged at the discharge port.