Disclosure of Invention
In order to overcome the defects in the prior art and solve the technical problems, the invention provides cleaning equipment for a vitamin D3 crystallization device.
The technical scheme adopted for solving the technical problems is as follows: the invention relates to cleaning equipment for a VD crystallization device, which comprises a cleaning box body and a circulating impact assembly arranged in the cleaning box body, wherein the circulating impact assembly is connected with a jacket and is used for performing water flow impact on the jacket;
The circulating impact assembly comprises a water inlet pipe and a water outlet pipe, the water inlet pipe and the water outlet pipe are respectively and fixedly arranged on the cleaning box body, and one sides of the water inlet pipe and the water outlet pipe, which are far away from the cleaning box body, are detachably and fixedly arranged on the jacket water inlet and the jacket water outlet;
the circulating pump is arranged in the cleaning box body, and two ends of the circulating pump are respectively connected with the water inlet pipe and the water outlet pipe in a conducting way;
the transfer box is arranged in the cleaning box body and is positioned between the circulating pump and the water inlet pipe;
The friction piece is arranged in the transfer box, the maximum diameter of the friction piece is smaller than the minimum diameter of the jacket, the friction piece is provided with a plurality of edges and corners, and the friction piece is a hollow structure;
The friction piece comprises an elastic shell and a supporting body, wherein the elastic shell is wrapped outside the supporting body, and the supporting body is made of a thermal expansion material.
Specifically, the support body includes heat-sensitive spring, fixed mounting has the capillary tube on the elastic housing, the capillary tube is used for switching on the inside and outside both sides of elastic housing.
Specifically, still include heating element, heating element is used for adjusting the interior temperature of transfer case, heating element includes the heating plate, the heating plate is installed in the transfer case for heat the interior water temperature of transfer case.
Specifically, transfer case middle part fixed mounting has the filter screen, the conical tank has been seted up to the transfer case bottom, the slag ladle is installed to transfer case external screw thread, slag ladle and conical tank switch on and be connected.
The device comprises a jacket, a friction piece, a jet flushing assembly and a water inlet pipe, wherein the friction piece is used for flushing the inner wall of the jacket;
the jet flushing assembly comprises a jet pipe, one end of the water inlet pipe, which is close to the jacket, is fixedly provided with the jet pipe, and the surface of the jet pipe is fixedly provided with the evenly distributed jet pipes;
The high-pressure water pump is arranged in the cleaning box body, is connected with the jet pipe in a conducting way, is designed in a conducting way with the water outlet pipe, and pumps water flow in the water outlet pipe and conveys the water flow into the jet pipe;
The interception net is fixedly arranged at the conduction position of the high-pressure water pump and the water outlet pipe, and the aperture of the interception net is smaller than the diameter of the friction piece.
Specifically, the outside of the jet pipe is sleeved with a flexible arm, and the flexible arm is used for guiding the extension path of the jet pipe.
Specifically, the jet pipe is flexible pipe, jet pipe plural design, high pressure water pump output fixed mounting has the distribution valve, set up the distribution chamber in the distribution valve, the jet pipe all extends to in the distribution chamber, and in the distribution chamber open design, reciprocating screw is installed in the rotation of distribution chamber, slidable mounting has the valve piece in the distribution chamber, valve piece and reciprocating screw drive, the outer fixed mounting of distribution valve has driving motor, driving motor output and reciprocating screw fixed connection, the butt joint hole has been seted up on the valve piece.
Specifically, the jet pipes on the jet pipes are all arranged at intervals, and the lengths of the jet pipes on the jet pipes are all different.
Specifically, the injection pipe all includes elastic hose and injection head, offered the through-hole on the flexible arm, elastic hose is located flexible arm inside, injection head and through-hole cooperation under the initial state.
The beneficial effects of the invention are as follows:
1. According to the cleaning equipment for the vitamin D3 crystallization device, the circulating impact assembly is arranged, the physical impact effect on scale on the inner wall of the jacket is enhanced by utilizing the circulating flow of water flow and the friction piece, and then the chemical reagent is matched, so that the cleaning speed of the scale is increased, meanwhile, in the circulating process, the friction piece can be enhanced in the uniformity of distribution of the friction piece in the inner cavity of the jacket and the impact effect on the inner wall of the jacket in the expanding and contracting processes, and meanwhile, the volume of the friction piece is gradually contracted along with the increase of the time of the friction piece entering the jacket, so that the probability of blocking the inner cavity of the jacket by the friction piece is reduced, and the circulating movement of the friction piece is facilitated.
2. According to the cleaning equipment for the vitamin D3 crystallization device, water flow is pumped into the jet pipe through the high-pressure water pump and is sprayed into the jacket through the jet pipe, the high-pressure water flow is impacted in the inner cavity of the jacket to impact the water flow, the inner wall of the jacket and the friction piece existing in the inner cavity of the jacket, so that impact force formed by the water flow, the friction piece and the inner wall of the jacket is increased, and the efficiency of scale falling off of the inner wall of the jacket is further improved.
Detailed Description
The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.
Embodiment one: the invention relates to a cleaning device for a vitamin D3 crystallization device, which comprises a cleaning box body 2 and a circulating impact assembly arranged in the cleaning box body 2, wherein the circulating impact assembly is connected with a jacket 1 and is used for performing water flow impact on the jacket 1;
the circulating impact assembly comprises a water inlet pipe 21 and a water outlet pipe 22, wherein the water inlet pipe 21 and the water outlet pipe 22 are respectively and fixedly arranged on the cleaning box body 2, and one sides of the water inlet pipe 21 and the water outlet pipe 22, which are far away from the cleaning box body 2, are detachably and fixedly arranged on a water inlet of the jacket 1 and a water outlet of the jacket 1;
The circulating pump 23 is arranged in the cleaning box body 2, and two ends of the circulating pump 23 are respectively connected with the water inlet pipe 21 and the water outlet pipe 22 in a conducting way;
A transfer box 24, the transfer box 24 is installed in the cleaning box body 2, and the transfer box 24 is positioned between the circulating pump 23 and the water inlet pipe 21;
A plurality of friction pieces 3 are arranged in the transfer box 24, the maximum diameter of each friction piece 3 is smaller than the minimum diameter of the jacket 1, each friction piece 3 is provided with a plurality of edges, and each friction piece 3 is a hollow structure;
The friction member 3 includes an elastic housing 31 and a support body 32, the elastic housing 31 is wrapped outside the support body 32, and the support body 32 is made of a heat expansion material.
The supporting body 32 comprises a thermosensitive spring, a capillary tube 33 is fixedly arranged on the elastic shell 31, and the capillary tube 33 is used for conducting the inner side and the outer side of the elastic shell 31;
The heating assembly is used for adjusting the temperature in the transfer box 24, and comprises a heating plate 25, wherein the heating plate 25 is arranged in the transfer box 24 and is used for heating the water temperature in the transfer box 24;
A filter screen 26 is fixedly arranged in the middle of the transfer box 24, a conical groove 27 is formed in the bottom of the transfer box 24, a slag discharge tank 28 is arranged on the outer side of the transfer box 24 in a threaded manner, and the slag discharge tank 28 is connected with the conical groove 27 in a conducting manner;
When the scale on the inner wall of the crystallization kettle jacket 1 is cleaned, the effects of layer-by-layer permeation, layer-by-layer stripping and layer-by-layer dissolution of the scale on the inner wall of the jacket 1 are realized by adopting the combination of circulating water scouring and chemical reagents, the scale and sediment thereof are stripped, loosened and dissolved, so that the scale and sediment thereof are mixed in water flow and discharged;
Specifically, in the cleaning process, firstly, the water outlet pipe 22 is connected with the water outlet at the bottom of the jacket 1, then water and liquid medicine are injected into the inner cavity of the jacket 1 through the water inlet of the jacket 1, the liquid medicine is diffused into the inner cavity of the jacket 1 by utilizing water flow, scale on the inner wall of the jacket 1 is loosened and dissolved, after soaking for a period of time, the water inlet pipe 21 is connected with the water inlet of the jacket 1, then the circulating pump 23 is started, the circulating pump 23 adopted in the embodiment is a diaphragm pump, after the circulating pump 23 is started, the water flow in the water outlet pipe 22 is extracted and pumped to the water inlet pipe 21, finally, the water flows into the inner cavity of the jacket 1 again through the water inlet of the jacket 1, in the water circulation process, the water flow enters the transfer box 24 and is heated by the heating component in the transfer box 24, so that the water temperature flowing out of the transfer box 24 is higher, and meanwhile, the friction piece 3 placed in the transfer box 24 in the initial state, when the water temperature rises, the temperature of the water rises, the supporting body 32 composed of the thermosensitive springs is caused to stretch, the elastic shell 31 is pushed to deform when the supporting body 32 stretches, the whole volume of the friction piece 3 is increased, in the process, the capillary tube 33 arranged on the friction piece 3 leads to the conduction of the inner side and the outer side of the elastic shell 31, the water flow in the transfer box 24 enters the elastic shell 31, the water flow is caused to be contacted with the supporting body 32, therefore, when the water is heated, the heating rate of the friction piece 3 and the water flow tube body can be accelerated, the water content in the expanded friction piece 3 is gradually increased, the whole density of the friction piece 3 is gradually approximate to that of the water, the buoyancy effect born by the friction piece 3 is gradually increased, in the process that the water flow flows from the transfer box 24 and the water inlet tube 21 to the water inlet of the jacket 1 in a directional way, the effect that friction piece 3 moved along with rivers can be strengthened, after friction piece 3 gets into inside of clamp sleeve 1, under the action of gravity, rivers action, friction piece 3 is whole down to move in clamp sleeve 1, simultaneously because the temperature of water in clamp sleeve 1 is less than the interior water temperature of transfer case 24, consequently support 32 contracts gradually, along with the shrink of support 32, elastic shell 31, until friction piece 3 contracts completely, in this process, rivers in friction piece 3 inner chamber are outwards sprayed through capillary tube 33, on the one hand, the rate of friction piece 3 shrink is delayed in the effect of capillary tube 33, on the other hand under the reaction force effect of water spray, promote a plurality of friction pieces 3 after getting into the inside of clamp sleeve 1 accelerate the separation, the rate of diffusion, and then under the unchangeable circumstances of overall motion trend, the contact homogeneity with clamp sleeve 1 inner wall is strengthened, and then the scouring effect to clamp sleeve 1 inner wall is strengthened, simultaneously under the continuous cyclic action of rivers, friction piece 3, rivers and the incrustation scale outlet pipe 22 of drop get into transfer case 24 again, under the filter screen 26 effect of transfer case 24, the incrustation scale subsides to conical tank 27, the rate of slag pot 28 orientation, the effect of friction piece 3, on the other hand, the rate of friction piece 3 is accelerated in the expansion piece 3 can be in the process because of capillary tube 3 is lower than in the capillary tube 3 is used to the expansion piece 3 in the course, and the expansion piece 3 is then can be more accelerated in the process.
According to the invention, by arranging the circulating impact assembly, the physical impact effect on the scale on the inner wall of the jacket 1 is enhanced by utilizing the circulating flow of the water flow and the friction piece 3, and then the chemical reagent is matched, so that the cleaning speed of the scale is increased, meanwhile, in the circulating process, the friction piece 3 can be enhanced in the uniformity of distribution of the inner cavity of the jacket 1 and the impact effect on the inner wall of the jacket 1 in the expanding and contracting process, and meanwhile, the volume of the friction piece 3 is gradually contracted along with the increase of the time of the friction piece 3 entering the jacket 1, so that the probability of blocking the inner cavity of the jacket 1 by the friction piece 3 is reduced, and the circulating movement of the friction piece 3 is facilitated.
Embodiment two: the embodiment is improved on the basis of the first embodiment, the scouring effect on scale on the inner wall of the jacket 1 is further enhanced, and referring to the accompanying drawings 1-5 of the specification, the cleaning equipment for the vitamin D3 crystallization device in the embodiment further comprises a jet scouring component, wherein the jet scouring component is used for scouring the inner wall of the jacket 1 by matching with the friction piece 3;
the jet flushing assembly comprises a jet pipe 4, the jet pipe 4 is fixedly arranged at one end of the water inlet pipe 21, which is close to the jacket 1, and the evenly distributed jet pipes 41 are fixedly arranged on the surface of the jet pipe 4;
The high-pressure water pump 42 is arranged in the cleaning box body 2, the high-pressure water pump 42 is connected with the jet pipe 4 in a conducting way, the high-pressure water pump 42 is designed in a conducting way with the water outlet pipe 22, and the high-pressure water pump 42 extracts water flow in the water outlet pipe 22 and conveys the water flow into the jet pipe 4;
An interception net 43 is fixedly arranged at the conduction position of the high-pressure water pump 42 and the water outlet pipe 22, and the aperture of the interception net 43 is smaller than the diameter of the friction piece 3;
The jet pipe 4 is externally sleeved with a flexible arm 44, and the flexible arm 44 is used for guiding the extension path of the jet pipe 4.
In order to further enhance the impact effect on a scale layer in the cleaning process, by arranging a jet flushing assembly and utilizing the jet flushing assembly, the impact effect on water flow is enhanced, specifically, before installing a water inlet pipe 21, a worker firstly inclines one end of a flexible arm 44 into a water inlet of a jacket 1, then pushes the flexible arm 44 into the jacket 1, so that the flexible arm 44 is bent circumferentially along an inner cavity of the jacket 1.
Embodiment III: the embodiment is improved on the basis of the second embodiment, the uniformity of flushing the inner wall of the jacket 1 is enhanced by changing the water flow impact form, referring to fig. 1-7 of the specification, the jet pipes 4 are flexible pipes, the jet pipes 4 are in a complex design, the output end of the high-pressure water pump 42 is fixedly provided with a distribution valve 5, a distribution cavity 51 is arranged in the distribution valve 5, the jet pipes 4 extend into the distribution cavity 51, an opening design is arranged in the distribution cavity 51, a reciprocating screw 52 is rotatably arranged in the distribution cavity 51, a valve block 53 is slidably arranged in the distribution cavity 51, the valve block 53 is in spiral transmission with the reciprocating screw 52, a driving motor 54 is fixedly arranged outside the distribution valve 5, the output end of the driving motor 54 is fixedly connected with the reciprocating screw 52, and a butt joint hole 55 is arranged on the valve block 53;
The jet pipes 41 on the jet pipes 4 are arranged at intervals, and the lengths of the jet pipes 41 on the jet pipes 4 are different;
the spraying pipes 41 comprise elastic hoses 45 and spraying heads 46, through holes 56 are formed in the flexible arms 44, the elastic hoses 45 are located in the flexible arms 44 in an initial state, and the spraying heads 46 are matched with the through holes 56;
When the high-pressure water pump 42 pumps water, the water flows into the distribution valve 5, the synchronous driving motor 54 is started, the driving motor 54 drives the reciprocating screw rod 52 to rotate at a constant speed, the reciprocating screw rod 52 and the valve block 53 are in spiral transmission, so that the valve block 53 makes linear reciprocating motion in the distribution cavity 51, during the motion of the valve block 53, the butt joint holes 55 on the valve block 53 are sequentially communicated with the plurality of jet pipes 4, the jet pipes 4 are flexible pipes, when the high-pressure water flow is not pumped, the jet pipes 4 are in a compressible state, when the jet pipes 4 are aligned with the butt joint holes 55, the jet pipes 4 are rapidly expanded under the action of water pressure, then under the restriction of the inner cavity of the flexible arm 44, the high-pressure water is ejected outwards along the jet pipes 41, and the jet pipes 41 on the plurality of jet pipes 4 are arranged at intervals, so that after different jet pipes 4 are aligned with the butt joint holes 55, the water flow spraying positions are different, meanwhile, the lengths of the spraying pipes 41 on different spraying pipes 4 are different, when the water flows are sprayed by different spraying pipes 4, the difference of water flow spraying paths is further increased, meanwhile, the spraying pipes 41 are composed of an elastic hose 45 and a spraying head 46, and the elastic hose 45 is enabled to be temporarily contained in the inner cavity of the flexible arm 44 through the through hole 56 when no water pressure exists in the spraying pipes 41 in an initial state, so that the flexible arm 44 can conveniently extend to the water inlet of the jacket 1 and the inner cavity of the jacket 1, after the high-pressure water flow is communicated, the high-pressure water flow pushes the flexible pipe to move out of the through hole 56, finally, the elastic hose 45 is straightened, and at the moment, the high-pressure water flow is sprayed into the inner cavity of the jacket 1 under the guiding action of the spraying head 46 and is matched with the friction piece 3 to impact scale on the inner wall of the jacket 1.
The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.