阅读说明：本技术 一种制药化工混合废水的处理设备 (Treatment facility of pharmaceutical chemical mixed wastewater ) 是由 詹惠珍 于 2021-02-06 设计创作，主要内容包括：本发明公开了一种制药化工混合废水的处理设备,其结构包括过滤装置、净化滤芯、传输管、控制箱,过滤装置的左侧外端面通过焊接安装着净化滤芯,净化滤芯下端内侧面嵌套连接着传输管,传输管通过焊接连接着过滤装置,控制箱位于净化滤芯的左侧上方,废水在排入流动的同时,漂浮在废水上端面的塑料会顺着潜入水中的渗水块而排入流动槽中直至流动至收集槽处,使水流顺着排水装置与排水口向下排出,而塑料则会在废水持续的冲击下被拦截板的空心橡胶块所收纳,使空心橡胶块在不断的收纳塑料的同时,也会逐渐向外扩展延伸其表面直径从而增加对塑料收集的体积。(The invention discloses a treatment device of pharmaceutical chemical mixed wastewater, which structurally comprises a filtering device, a purifying filter element, a transmission pipe and a control box, wherein the purifying filter element is arranged on the outer end face of the left side of the filtering device by welding, the transmission pipe is connected with the inner side face of the lower end of the purifying filter element in a nested manner, the transmission pipe is connected with the filtering device by welding, the control box is positioned above the left side of the purifying filter element, when wastewater is discharged into the filtering device to flow, the plastic floating on the upper end surface of the waste water is discharged into the flowing tank along the water seepage block submerged in the water until the plastic flows to the collecting tank, so that the water flow is discharged downwards along the drainage device and the water outlet, the plastic is stored by the hollow rubber block of the interception plate under the continuous impact of the waste water, so that the hollow rubber block can be gradually expanded outwards to extend the surface diameter of the hollow rubber block while continuously storing the plastic, thereby increasing the volume for collecting the plastic.)

1. The treatment equipment for the pharmaceutical chemical mixed wastewater structurally comprises a filtering device (1), a purification filter element (2), a transmission pipe (3) and a control box (4), wherein the purification filter element (2) is installed on the outer end face of the left side of the filtering device (1) in a welding mode, the transmission pipe (3) is connected to the inner side face of the lower end of the purification filter element (2) in an embedded mode, the transmission pipe (3) is connected with the filtering device (1) in a welding mode, and the control box (4) is located above the left side of the purification filter element (2); the method is characterized in that:

filter equipment (1) includes water inlet (11), separator (12), delivery port (13), filter screen (14), water inlet (11) are inlayed and are located the left side of separator (12), separator (12) are inlayed solid and are installed directly over filter screen (14), the right side at filter screen (14) is installed in delivery port (13) inlay the block, filter screen (14) are located the right side below of water inlet (11).

2. The pharmaceutical chemical industry mixed wastewater treatment equipment according to claim 1, characterized in that: the separating device (12) comprises a flow groove (121), a loading mechanism (122), a sliding groove (123), a water seepage opening (124), an inclined plane block (125) and a water seepage block (126), wherein the flow groove (121) is embedded in the inner side end face of the separating device (12), the loading mechanism (122) is embedded and clamped with the sliding groove (123), the sliding groove (123) is symmetrically installed on the right inner end face of the separating device (12), the water seepage opening (124) is embedded in the right lower side of the inclined plane block (125), the left side end face of the inclined plane block (125) is embedded and clamped with the water seepage block (126), and the water seepage block (126) is located on the left side of the loading mechanism (122).

3. The pharmaceutical chemical industry mixed wastewater treatment equipment according to claim 2, characterized in that: loading mechanism (122) is including intercepting board (221), collecting vat (222), drainage device (223), handle (224), outlet (225), mosaic plate (226), the block is inlayed in drainage device (223) right side up end to intercepting board (221), the left side of locating handle (224) is inlayed in collecting vat (222), drainage device (223) are inlayed and are installed directly over outlet (225), handle (224) are through the right side of welded mounting at intercepting board (221), outlet (225) are inlayed and are located intercepting board (221) under, both ends about the outside of loading mechanism (122) are installed to mosaic plate (226) symmetry.

4. The pharmaceutical chemical industry mixed wastewater treatment equipment according to claim 3, characterized in that: intercept board (221) include hollow block rubber (211), inlay solid board (212), inlay axle (213), collect mouth (214), hollow block rubber (211) are inlayed the block and are installed the right side terminal surface at collecting mouth (214), it is located the upper end left side of inlaying axle (213) to inlay solid board (212), inlay axle (213) symmetry and install both ends face about the outside of intercepting board (221), collect mouthful (214) and inlay and locate the medial surface of inlaying solid board (212).

5. The pharmaceutical chemical industry mixed wastewater treatment equipment according to claim 3, characterized in that: drainage device (223) is including covering piece (231), second inlay solid board (232), closing mechanism (233), run-through (234), cover piece (231) and inlay the upper end lateral surface of locating second inlay solid board (232), second inlay solid board (232) medial surface and inlay the block and connect closing mechanism (233), closing mechanism (233) are located run-through (234) under, run-through (234) are inlayed and are located the medial surface that covers piece (231).

6. The pharmaceutical chemical industry mixed wastewater treatment equipment according to claim 5, wherein the equipment comprises: closing mechanism (233) include loose axle (331), infiltration board (332), swing board (333), adsorb piece (334), magnetic path (335), the left side terminal surface at swing board (333) is installed to loose axle (331) activity block, it inlays and locates swing board (333) to seep water board (332), swing board (333) right side terminal surface laminating is being connected magnetic path (335), adsorb piece (334) and inlay and locate magnetic path (335) under, magnetic path (335) are embedded to be fixed and are installed at drainage device (223) inboard right-hand member face.

Technical Field

The invention belongs to the field of chemical pharmacy, and particularly relates to a treatment device for pharmaceutical and chemical mixed wastewater.

Background

The treatment equipment for chemical mixed wastewater is used for stripping solid matters and liquid in the discharged chemical wastewater in a precipitation filtering mode, and then purifying the filtered wastewater to enable the wastewater to reach the standard of use again.

Based on the findings of the inventor, the following defects mainly exist in the prior art, such as: because the plastic products discarded in the chemical manufacturing process can float in the chemical industry waste water, when the waste water is precipitated and peeled, the plastic products with smaller volume can pass through the filter screen and continue to float along with the waste water, so that the equipment can not filter the plastics with smaller volume, and the plastics can float and mix in water flow.

Therefore, a treatment device for pharmaceutical chemical mixed wastewater needs to be provided.

Disclosure of Invention

In order to solve the problem that in the technology, plastic products discarded in the chemical manufacturing process can float in chemical wastewater, so that when the wastewater is precipitated and stripped, the plastic products with small volume can pass through the filter screen and continue to float along with the wastewater, so that equipment cannot filter the plastic with small volume, and the plastic can float and mix in water flow.

The invention relates to a treatment device for pharmaceutical chemical mixed wastewater, which is realized by the following specific technical means: the structure of the device comprises a filtering device, a purifying filter element, a transmission pipe and a control box, wherein the purifying filter element is installed on the outer end face of the left side of the filtering device through welding, the transmission pipe is connected with the inner side face of the lower end of the purifying filter element in a nested manner, the transmission pipe is connected with the filtering device through welding, and the control box is positioned above the left side of the purifying filter element; filter equipment includes water inlet, separator, delivery port, filter screen, separator's left side is inlayed to the water inlet, separator inlays solid the installation directly over the filter screen, the right side at the filter screen is installed to the block is inlayed to the delivery port, the filter screen is located the right side below of water inlet.

The separating device comprises a flow groove, a loading mechanism, a sliding groove, a water seepage port, an inclined plane block and a water seepage block, wherein the flow groove is embedded in the inner side end face of the separating device, the loading mechanism is embedded and clamped and connected with the sliding groove, the sliding groove is symmetrically installed on the inner end face of the right side of the separating device, the water seepage port is embedded in the lower portion of the right side of the inclined plane block, the left side end face of the inclined plane block is embedded and clamped and connected with the water seepage block, the water seepage block is located on the left side of the loading mechanism, and the outer contour of the water seepage block is gradually lifted.

Wherein, loading mechanism includes interception board, collecting vat, drainage device, handle, outlet, mosaic plate, the block is inlayed at drainage device's right side up end to the interception board, the collecting vat is inlayed and is located the left side of handle, drainage device inlays solid and installs directly over the outlet, the handle passes through welded mounting in the right side of interception board, the outlet is inlayed and is located interception board under, mosaic plate symmetry is installed at the upper and lower both ends in loading mechanism's the outside, the lower extreme outline department in outlet round rubber around.

The intercepting plate comprises a hollow rubber block, an embedding and fixing plate, an embedding shaft and a collecting port, the hollow rubber block is embedded and clamped on the end face of the right side of the collecting port, the embedding and fixing plate is located on the left side of the upper end of the embedding shaft, the embedding shaft is symmetrically arranged on the upper end face and the lower end face of the outer side of the intercepting plate, the collecting port is embedded on the end face of the inner side of the embedding and fixing plate, and the hollow rubber block is embedded and connected in a sectional mode.

The drainage device comprises a covering block, a second embedded and fixed plate, a closing mechanism and a through hole, wherein the covering block is embedded in the outer side face of the upper end of the second embedded and fixed plate, the inner side end face of the second embedded and fixed plate is embedded and clamped and connected with the closing mechanism, the closing mechanism is located right below the through hole, the through hole is embedded in the inner side end face of the covering block, the outer contour of the through hole covers the closing mechanism, and the distance between the plastic and the end face of the closing mechanism can be effectively increased.

Wherein, closing mechanism includes loose axle, infiltration board, swing board, adsorption block, magnetic path, loose axle activity block is installed at the left side terminal surface of swing board, the infiltration board is inlayed and is located swing board directly over, the magnetic path is being connected in swing board right side terminal surface laminating, the adsorption block is inlayed and is located the magnetic path under, the magnetic path is inlayed and is installed at the inboard right-hand member face of drainage device, the adsorption block is being formed by the iron plate combination to rubber parcel.

Compared with the prior art, the invention has the following beneficial effects:

1. when the waste water is discharged into the flowing water, the plastic floating on the upper end surface of the waste water can be discharged into the flowing groove along the water seepage block submerged into the water until the plastic flows to the collecting groove, so that the water flow is discharged downwards along the drainage device and the water outlet, the plastic can be stored by the hollow rubber block of the interception plate under the continuous impact of the waste water, and the hollow rubber block can be continuously stored with the plastic and can be gradually expanded outwards to extend the surface diameter of the hollow rubber block, so that the volume for collecting the plastic is increased.

2. Because the outer contour stacking and closing mechanism of the covering block forms overlapping covering, when plastic is discharged along sewage, the plastic can only be stacked on the upper end surface of the covering block and cannot form covering and blocking on the left end surface of the covering block, so that the space between the plastic and the end surface of the through hole can be effectively ensured, and the blocking on the closing mechanism when too much plastic is rushed is avoided.

Drawings

FIG. 1 is a schematic structural diagram of a pharmaceutical chemical mixed wastewater treatment device of the present invention.

FIG. 2 is a schematic structural diagram of a filtration device of a pharmaceutical chemical mixed wastewater treatment device of the invention.

FIG. 3 is a schematic structural diagram of a separation device of a pharmaceutical chemical mixed wastewater treatment device of the invention.

FIG. 4 is a schematic structural diagram of a loading mechanism of a pharmaceutical chemical mixed wastewater treatment device of the invention.

FIG. 5 is a schematic structural view of a interception plate of a mixed wastewater treatment equipment for pharmaceutical and chemical industries.

FIG. 6 is a schematic structural diagram of a drainage device of a pharmaceutical chemical mixed wastewater treatment device of the invention.

FIG. 7 is a schematic structural diagram of a closing mechanism of a pharmaceutical chemical mixed wastewater treatment device.

In the figure: a filtering device-1, a purifying filter element-2, a conveying pipe-3, a control box-4, a water inlet-11, a separating device-12, a water outlet-13, a filter screen-14, a flowing groove-121, a loading mechanism-122, a sliding groove-123, a water seepage opening-124, a bevel block-125, a water seepage block-126, a interception plate-221, a collecting groove-222, a water draining device-223, a handle-224, a water draining opening-225, an embedding plate-226, a hollow rubber block-211, an embedding plate-212, an embedding shaft-213, a collecting opening-214, a covering block-231, a second embedding plate-232, a closing mechanism-233, a penetrating opening-234, a movable shaft-331, a water seepage plate-332, a swinging plate-333, an adsorption block-334, a water seepage block-11, And a magnetic block-335.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides a treatment device for pharmaceutical chemical mixed wastewater, which structurally comprises a filtering device 1, a purification filter element 2, a transmission pipe 3 and a control box 4, wherein the purification filter element 2 is installed on the outer end face of the left side of the filtering device 1 through welding, the transmission pipe 3 is connected with the inner side face of the lower end of the purification filter element 2 in a nested manner, the transmission pipe 3 is connected with the filtering device 1 through welding, and the control box 4 is positioned above the left side of the purification filter element 2; filter equipment 1 includes water inlet 11, separator 12, delivery port 13, filter screen 14, water inlet 11 inlays the left side of locating separator 12, separator 12 inlays the solid fixed mounting directly over filter screen 14, delivery port 13 inlays the block and installs the right side at filter screen 14, filter screen 14 is located the right side below of water inlet 11.

The separation device 12 comprises a flow groove 121, a loading mechanism 122, a chute 123, a water seepage port 124, a slope block 125 and a water seepage block 126, wherein the flow groove 121 is embedded in the inner side end surface of the separation device 12, the loading mechanism 122 is embedded and clamped with the chute 123, the chutes 123 are symmetrically arranged on the inner end surface of the right side of the separation device 12, the water seepage port 124 is embedded in the lower part of the right side of the slope block 125, the left side end surface of the slope block 125 is embedded and clamped with the water seepage block 126, the water seepage block 126 is positioned on the left side of the loading mechanism 122, the outer contour of the water seepage block 126 is gradually lifted, the water seepage block 126 can be sunk into the water surface when in use, and plastic floating on sewage flows into the flow groove 121 along the guide of the water seepage block 126.

The loading mechanism 122 comprises a blocking plate 221, a collecting groove 222, a drainage device 223, a handle 224, a drainage port 225 and an embedding plate 226, wherein the blocking plate 221 is embedded and clamped on the right upper end face of the drainage device 223, the collecting groove 222 is embedded and arranged on the left side of the handle 224, the drainage device 223 is embedded and arranged right above the drainage port 225, the handle 224 is arranged on the right side of the blocking plate 221 through welding, the drainage port 225 is embedded and arranged right below the blocking plate 221, the embedding plates 226 are symmetrically arranged on the upper end and the lower end of the outer side of the loading mechanism 122, and the outer contour of the lower end of the drainage port 225 surrounds a circle of rubber, so that the tightness of the connecting end face can be guaranteed when the drainage port and the infiltration port 124 are embedded and sleeved.

The intercepting plate 221 comprises a hollow rubber block 211, an embedding plate 212, an embedding shaft 213 and a collecting port 214, the hollow rubber block 211 is embedded, clamped and installed on the end face of the right side of the collecting port 214, the embedding plate 212 is located on the left side of the upper end of the embedding shaft 213, the embedding shaft 213 is symmetrically installed on the upper end face and the lower end face of the outer side of the intercepting plate 221, the collecting port 214 is embedded and installed on the end face of the inner side of the embedding plate 212, the hollow rubber block 211 is designed in a sectional embedding connection mode, and when plastic is discharged into the hollow rubber block 211 along the collecting port 214, the hollow rubber block 211 deforms to wrap and contain the plastic along with the extruded plastic.

The specific use mode and function of the embodiment are as follows:

in use, the invention connects the pipeline for discharging the waste water at the water inlet 11, then discharges the waste water into the filtering device 1 along the pipeline, filters the discharged waste water by utilizing the equipment and the purifying filter element 2 in the filtering device 1, in order to avoid the influence of the plastic with small volume in the discharged wastewater on the filtration and purification of the wastewater, and a loading mechanism 122 is provided within the separator apparatus 12, so that whilst waste water is being discharged into flow, the plastic floating on the upper end of the waste water will drain into the flow tank 121 along the submerged infiltration block 126 until it flows to the collection tank 222, so that the water flow will drain down along the drainage device 223 and the drainage port 225, the plastic is received by the hollow rubber block 211 of the interception plate 221 under the continuous impact of the waste water, so that the hollow rubber block 211 gradually expands outwards to extend the surface diameter of the plastic while continuously receiving the plastic, thereby increasing the volume for collecting the plastic.

Example 2:

as shown in fig. 6 to 7:

the drainage device 223 comprises a covering block 231, a second embedded and fixed plate 232, a closing mechanism 233 and a through opening 234, the covering block 231 is embedded in the outer side face of the upper end of the second embedded and fixed plate 232, the inner side end face of the second embedded and fixed plate 232 is embedded, clamped and connected with the closing mechanism 233, the closing mechanism 233 is located right below the through opening 234, the through opening 234 is embedded in the inner side end face of the covering block 231, the outer contour of the through opening 234 covers the closing mechanism 233, the distance between the plastic and the end face of the closing mechanism 233 can be effectively increased, and the plastic and the end face of the closing mechanism 233 are prevented from being attached to the upper end face of the closing mechanism 233 to block water flow.

Wherein, closing mechanism 233 includes loose axle 331, infiltration board 332, swing board 333, adsorbs piece 334, magnetic path 335, the left side terminal surface at swing board 333 is installed to loose axle 331 activity block, infiltration board 332 inlays and locates swing board 333 directly over, swing board 333 right side terminal surface laminating is being connected magnetic path 335, adsorb piece 334 inlays and locates magnetic path 335 directly under, magnetic path 335 inlays the solid and installs at drainage device 223 inboard right-hand member face, adsorb piece 334 is wrapped up the iron plate by rubber and is formed, can make it form the adsorption effect with magnetic path 335, forms to closing mechanism 233's terminal surface and seal.

The specific use mode and function of the embodiment are as follows:

when sewage impacts the collecting tank 222 with plastics, the sewage flows into the closing mechanism 233 along the through hole 234 penetrating the end face of the shielding block 231 in the drainage device 223, impact force formed by fast flowing water flow pushes the swinging plate 333 through the water seepage plate 332, so that the swinging plate 333 swings away from the magnetic adsorption state between the adsorption block 334 and the magnetic block 335 with the movable shaft 331 as the center point to discharge the water flow outwards, and because the outer contour of the shielding block 231 is stacked and covered by the closing mechanism 233, when the plastics are discharged along the sewage, the plastics can only be stacked on the upper end surface of the shielding block 231 and cannot form shielding blockage on the left end face of the shielding block 231, so that the space between the plastics and the end face of the through hole 234 can be effectively ensured, and blockage of the closing mechanism 233 when too much plastics are rushed can be avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.