CN111733437A

CN111733437A - Closed air exhaust environment-friendly industrial component electrochemical treatment system

Info

Publication number: CN111733437A
Application number: CN202010632684.2A
Authority: CN
Inventors: 陈群; 吴发根
Original assignee: Fujian Xuchen Information Technology Co ltd
Current assignee: Fujian Xuchen Information Technology Co ltd
Priority date: 2020-07-01
Filing date: 2020-07-01
Publication date: 2020-10-02

Abstract

An enclosed air-extracting environment-friendly type industrial component electrochemical treatment system comprises a tank body, wherein a base is fixedly arranged on the lower side end face of the tank body, the base is provided with transmission cavities which are bilaterally symmetrical, the two transmission cavities are respectively provided with a driving bevel gear, the driving bevel gear is connected with a driving motor fixedly arranged in the base through a transmission shaft, the upper end of the driving bevel gear is engaged with a driven gear which can rotate in the transmission cavity, the upper end of the driven gear is fixedly connected with a threaded shaft, a treatment cavity with an upward opening is arranged in the tank body, the inner walls of the left side and the right side of the treatment cavity are respectively fixed with a lifting column, the embodiment aims to design a device which can seal a reaction tank when the mechanical parts are chemically treated, and the generated waste gas is pumped out for uniform treatment, so that the harm caused by direct emission of the waste gas is reduced.

Description

Closed air exhaust environment-friendly industrial component electrochemical treatment system

Technical Field

The invention relates to the technical field of industrial electrochemical treatment, in particular to a closed air exhaust environment-friendly industrial component electrochemical treatment system.

Background

In the process of machining the part, in order to prolong the service life and the service strength of the part, the surface of the part needs to be subjected to electrochemical treatment, such as electroplating and other processes, in the traditional process, when the mechanical part is subjected to electrochemical treatment, mechanical parts need to be placed in electric treatment liquid and electrified, however, because the upper end of a traditional electric treatment pool is arranged in an open manner, gas generated in the electric treatment process can be directly discharged into the air, and the waste gas can not only cause damage to workers who perform hoisting work, but also cause pollution to the outside air;

the direct discharge of the waste gas after electric treatment is extremely disadvantageous in terms of human health and environmental protection, so that the present embodiment aims to design a device which can seal the reaction tank and extract the generated waste gas for uniform treatment when the mechanical parts are subjected to chemical treatment, thereby reducing the harm brought by the direct discharge of the waste gas.

Disclosure of Invention

In order to solve the problems, the embodiment designs a closed air-extracting environment-friendly type electrochemical treatment system for industrial parts, which comprises a tank body, wherein a base is fixedly arranged on the lower side end surface of the tank body, transmission cavities are symmetrically arranged in the base in the left and right direction, a driving bevel gear is respectively arranged in the two transmission cavities, the driving bevel gear is connected to a driving motor fixedly arranged in the base through a transmission shaft, the upper end of the driving bevel gear is in meshed connection with a driven gear capable of rotating in the transmission cavities, the upper end of the driven gear is fixedly connected with a threaded shaft, a treatment cavity with an upward opening is arranged in the tank body, lifting columns are respectively fixed on the inner walls of the left side and the right side of the treatment cavity, the lifting columns are cylindrical, the upper ends of the lifting columns extend out of the opening of the upper end of the treatment cavity, and lifting cavities which are arranged in a left, a lifting sliding conversion limiting groove is arranged on the rear side wall of the lifting cavity extending out of the opening at the upper end of the treatment cavity and is communicated with the lifting sliding conversion limiting groove (the structure of the lifting sliding conversion limiting groove is shown in the attached drawings), the upper end of the threaded shaft extends into the lifting cavity and is rotatably connected to the inner wall of the upper side of the lifting cavity, a lifting block in threaded connection with the threaded shaft is arranged in the lifting cavity in a sliding manner, a left cover plate is fixedly arranged on the right end face of the lifting block at the left side, a right cover plate is fixedly arranged on the left end face of the lifting block at the right side, the left end face of the right cover plate is matched with the right end face of the left cover plate, an air exhaust main body is fixedly arranged in the middle position of the left end face of the right cover plate, a gap for the air exhaust main body to slide is arranged on the, the upper end of air extractor is connected with the collection pipe of giving vent to anger that is used for waste gas to collect, through give vent to anger collect the pipe and the air extractor can collect the tail gas that produces in order to avoid direct emission to cause the pollution of air, right side apron with be provided with the opening respectively in the left side apron downwards and can with the exhaust tube of air extractor intercommunication right side apron with during the butt of left side apron, the exhaust tube with the air extractor intercommunication, and right side apron with when left side apron staggers, be located in the left side apron the exhaust tube with the air extractor staggers, the fixed stand that is provided with on the intermediate position of treatment chamber downside inner wall, the stand facial make-up is equipped with part placer subassembly, when carrying out electrochemical treatment part placer subassembly is used for placing the part of treating.

Preferably, the component placement frame assembly comprises a hydraulic chamber with an upward opening and arranged in the stand column, the lower end of the hydraulic chamber is connected to a hydraulic machine, a hydraulic push column is slidably arranged in the hydraulic chamber, a sleeve column is sleeved outside the stand column, a sleeve groove with a downward opening is arranged in the sleeve column, the stand column is sleeved in the sleeve groove, the upper end of the hydraulic push column is fixedly connected to the inner wall of the upper side of the sleeve groove, a frame is sleeved outside the sleeve column, a sleeve groove penetrating up and down is arranged in the frame, a buffer piece is arranged between the inner wall of the sleeve groove and the outer wall of the sleeve column from the outside, the sleeve column is sleeved in the sleeve groove, the sleeve column and the inner wall of the sleeve groove can slide relatively, a limiting opening with an upward opening is arranged at the lowest layer of the frame, and a grid plate of the frame positioned right above the limiting opening is provided with a storage opening penetrating up and down, placed the part rack in putting the thing mouth, the fixed handle that is used for carrying and drawing that is provided with on the upside terminal surface of part rack, stand week side fixed being provided with on the lower lateral wall of treatment chamber is located the electricity piece that connects of cover post downside, the cover post descend and with external power supply accessible when connecing the electricity piece butt connect the electricity piece to placing part on the part rack carries out circular telegram electric treatment.

Preferably, in order to conveniently place the parts, the part placing frames are arranged in a layered mode.

Preferably, the fixed annular lower blotter that is provided with on the downside inner wall of spacing mouthful, be provided with on the downside terminal surface of part rack and be annular last blotter equally, down the blotter with it should not make with the buffering plastic part of electricity processing liquid reaction to go up the blotter, through down the blotter with it can slow down placing to go up the blotter during the part rack with direct impact between the lateral wall under the spacing mouthful.

Preferably, the bolster include bilateral symmetry set up in buffering spout in the cover post, fixed being provided with on the inside wall in cover overcoat groove extends into in the buffering spout and can the gliding slider in the buffering spout, the downside of slider with fixedly connected with plays the top of pushing away the top of effort spring between the lower lateral wall of buffering spout.

Preferably, the part of the lifting column, which is located in the treatment cavity, is connected with the inner wall of the treatment cavity, and a ribbed plate is fixedly arranged between the lifting column and the inner wall of the treatment cavity and used for enhancing the connection strength between the lifting column and the inner wall of the treatment cavity.

Preferably, be located the elevator downside just is located slidable is provided with in the lift intracavity and blocks the piece, block the downside of piece with fixedly connected with blocks the expansion plate between the downside inner wall in lift chamber, the elevator downside with sliding connection between the side of blocking the piece, through block the piece with block the expansion plate and can restrict the electrical treatment liquid entering in the processing chamber in the lift intracavity.

Preferably, a fixed block is fixedly arranged on the inner wall of the front side of the treatment cavity, an electric treatment liquid adding port is arranged in the fixed block, the right side face of the left cover plate, the left side face of the right cover plate and the arc-shaped wall of the outer side of the fixed block are matched with each other, the upper part of the contact position of the left cover plate and the right cover plate is a straight line, the lower part of the contact position of the left cover plate and the right cover plate is an arc with the threaded shaft on the right side as the center of a circle, and the contact part of the left cover plate, the right.

The invention has the beneficial effects that: when the device is used, the tank opening is sealed firstly, the device can be powered on after the tank opening is sealed, the leakage of waste gas caused by the operation of the device due to the error touch of a control system is prevented in a mechanical control mode, and meanwhile, the waste gas is collected and treated uniformly, so that the establishment of an electrochemical treatment factory building cannot be limited by regional environmental protection, and the device is convenient and effective, and is recommended to use.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic diagram of an integrated configuration of a closed pumping environment-friendly industrial component electrochemical processing system according to the present invention;

FIG. 2 is a schematic view of the left and right cover plates in a top view;

FIG. 3 is a schematic view of the structure of the frame and the sleeve;

FIG. 4 is a schematic view of the structure in the direction "A-A" in FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a closed air-extracting environment-friendly type industrial component electrochemical processing system, which is further explained by combining the attached drawings of the invention:

referring to fig. 1 and 2, the electrochemical treatment system for closed pumping environment-friendly industrial components according to the present invention comprises a tank 101, a base 103 is fixedly disposed on a lower end surface of the tank 101, transmission cavities 105 are symmetrically disposed in the base 103, a driving bevel gear 106 is disposed in each of the two transmission cavities 105, the driving bevel gear 106 is dynamically connected to a driving motor 109 fixedly disposed in the base 103 through a transmission shaft 107, an upper end of the driving bevel gear 106 is engaged with a driven gear 104 capable of rotating in the transmission cavity 105, an upper end of the driven gear 104 is fixedly connected with a threaded shaft 112, a treatment cavity 102 having an upward opening is disposed in the tank 101, lifting columns 126 are respectively fixed on inner walls of left and right sides of the treatment cavity 102, the lifting columns 126 are cylindrical, and upper ends of the lifting columns 126 extend out of an opening of an upper end of the treatment cavity 102, a left-right through lifting cavity 111 is arranged in the lifting column 126, a lifting sliding conversion limiting groove 148 is arranged on the rear side wall of the lifting cavity 111 extending out of the opening at the upper end of the treatment cavity 102 and communicated with the lifting sliding conversion limiting groove 148 (the structure of the lifting sliding conversion limiting groove 148 is shown in figure 4), the upper end of the threaded shaft 112 extends into the lifting cavity 111 and is rotatably connected to the upper inner wall of the lifting cavity 111, a lifting block 115 connected with the threaded shaft 112 is slidably arranged in the lifting cavity 111, a left cover plate 123 is fixedly arranged on the right end face of the lifting block 115 at the left side, a right cover plate 117 is fixedly arranged on the left end face of the lifting block 115 at the right side, the left end face of the right cover plate 117 is engaged with the right side face of the left cover plate 123, and an air exhaust main body 119 is fixedly arranged in the middle position of the left end face of the right cover plate, a notch 124 for the air extractor body 119 to slide is formed on the left side surface of the left cover plate 123, an air extractor 122 is fixedly disposed in the air extractor body 119, an outlet collecting duct 121 for collecting exhaust gas is connected to the upper end of the air extractor 122, the generated exhaust gas can be collected through the outlet collecting duct 121 and the air extractor 122 so as not to be directly discharged to cause air pollution, an air extracting pipe 118 having a downward opening and being capable of being communicated with the air extractor 122 is disposed in each of the right cover plate 117 and the left cover plate 123, the air extracting pipe 118 is communicated with the air extractor 122 when the right cover plate 117 abuts against the left cover plate 123, the air extracting pipe 118 in the left cover plate 123 is staggered with the air extractor 122 when the right cover plate 117 is staggered with the left cover plate 123, and a column 116 is fixedly disposed at the middle position of the lower inner wall of the processing chamber 102, the upright post 116 is provided with a part placing frame assembly, and the part placing frame assembly is used for placing parts to be processed during electrochemical processing.

Advantageously, with reference to fig. 2 and 3: the part placing frame assembly comprises a hydraulic chamber 137 with an upward opening, the hydraulic chamber 137 is arranged in the upright post 116, the lower end of the hydraulic chamber 137 is connected to a hydraulic machine, a hydraulic push post 131 is slidably arranged in the hydraulic chamber 137, a sleeve post 129 is sleeved outside the upright post 116, a sleeve groove 132 with a downward opening is arranged in the sleeve post 129, the upright post 116 is sleeved in the sleeve groove 132, the upper end of the hydraulic push post 131 is fixedly connected to the inner wall of the upper side of the sleeve groove 132, a frame 139 is sleeved outside the sleeve post 129, a sleeve groove 138 penetrating up and down is arranged in the frame 139, a buffer member is arranged between the inner wall of the sleeve groove 138 and the outer side of the sleeve post 129, the sleeve post 129 is sleeved in the sleeve groove 138 and can slide relatively between the sleeve post 129 and the inner wall of the sleeve groove 138, a limiting port 142 with an upward opening is arranged at the lowest layer of the frame 139, be located just upside of spacing mouthful 142 the grid tray of frame 139 is run through from top to bottom and is provided with and puts thing mouth 144, put and place part rack 146 in the thing mouth 144, the fixed handle 145 that is used for carrying the drawing that is provided with on the upside terminal surface of part rack 146, stand 116 week side fixed being provided with on the lower lateral wall of processing chamber 102 is located the electricity piece 108 that connects of sleeve post 129 downside, sleeve post 129 descend and with external power supply accessible when electricity piece 108 butt connect electricity piece 108 to placing part on the part rack 146 carries out circular telegram electric treatment.

Advantageously, referring to fig. 3, the parts rack 146 is layered for ease of placement of parts.

Advantageously, referring to fig. 3, a circular lower buffer pad 141 is fixedly disposed on the inner wall of the lower side of the limiting opening 142, an upper buffer pad 143 that is also circular is disposed on the end surface of the lower side of the part placement frame 146, the lower buffer pad 141 and the upper buffer pad 143 should be made of buffer plastic parts that do not react with the electrical treatment solution, and the direct impact between the part placement frame 146 and the lower side wall of the limiting opening 142 when the part placement frame 146 is placed can be alleviated by the lower buffer pad 141 and the upper buffer pad 143.

Advantageously, with reference to FIG. 3: the bolster include bilateral symmetry set up in buffering spout 133 in the cover post 129, fixed being provided with on the inside wall of cover overcoat groove 138 extends into in the buffering spout 133 and can the gliding slider 135 of buffering spout 133, the downside of slider 135 with fixedly connected with plays the top of pushing away spring 136 of pushing away the effort between the lower lateral wall of buffering spout 133.

Advantageously, with reference to FIG. 2: the part of the lifting column 126 located in the processing chamber 102 is connected to the inner wall of the processing chamber 102, and a rib plate 125 is fixedly arranged between the lifting column 126 and the inner wall of the processing chamber 102, wherein the rib plate 125 is used for enhancing the connection strength between the lifting column 126 and the inner wall of the processing chamber 102.

Advantageously, with reference to fig. 1 and 3: be located the lifter 115 downside just is located slidable is provided with in the lift chamber 111 and blocks block 114, block 114 the downside with fixedly connected with blocks expansion plate 113 between the downside inner wall in lift chamber 111, lifter 115 downside with sliding connection between the side of blocking 114, through block 114 with block expansion plate 113 and can restrict the electrical treatment liquid entering in the process chamber 102 in the lift chamber 111.

Advantageously, referring to fig. 2, a fixed block 127 is fixedly disposed on the inner wall of the front side of the processing chamber 102, an electrical treatment liquid adding port 128 is disposed in the fixed block 127, the right side surface of the left cover plate 123, the left side surface of the right cover plate 117 and the outer arc-shaped wall of the fixed block 127 are fitted with each other, the upper portion of the contact position of the left cover plate 123 and the right cover plate 117 is a straight line, the lower portion of the contact position of the left cover plate 123 and the right cover plate 117 is an arc shape with the threaded shaft 112 on the right side as the center of a circle, and the contact portion of the left cover plate 123, the.

In an initial state, the left end face of the right cover plate 117 and the right end face of the left cover plate 123 are in an abutting state, the suction pipe 118 is communicated with the air extractor 122, the lifting block 115 is located in the lifting chamber 111 where the lifting column 126 extends out of the outer end face of the upper side of the processing chamber 102, the right cover plate 117 and the left cover plate 123 are located above the processing chamber 102, the component placement frame 146 is placed in the placement opening 144, the sleeve column 129 slides up in the processing chamber 102 relative to the upright column 116 under the pushing of the hydraulic pushing column 131, and at this time, the sliding block 135 slides down in the buffer chute 133 to the maximum extent under the gravity action of the frame 139 and the component placement frame 146.

When the device provided by the invention is used for electrochemically treating a mechanical workpiece, the driving motor 109 rotates, and then the driving bevel gear 106 is driven by the transmission shaft 107, and further the driven gear 104 is driven to rotate, and further the threaded shaft 112 is driven to rotate, at the moment, the lifting block 115 is driven to rotate backwards by the limiting effect of the inner wall of the upper side of the lifting cavity 111 on the lifting of the lifting block 115, and the lifting block 115 is driven to slide into the lifting sliding conversion limiting groove 148, so that the right cover plate 117 and the left cover plate 123 are driven to rotate backwards and are staggered with the upper end opening of the treatment cavity 102;

after the left cover plate 123 and the right cover plate 117 are staggered, the hydraulic push column 131 is pushed by a hydraulic machine to slide upwards in the hydraulic chamber 137, the sleeve column 129 and the frame 139 are pushed to slide upwards, when the frame 139 rises to the maximum, a user can take out the part placing frame 146 by pulling the handle 145, place a workpiece to be processed on the part placing frame 146, and then place the part placing frame 146 back into the placing opening 144;

after the workpiece is placed, the hydraulic push column 131 retracts to drive the sleeve column 129 to descend, when the lower end face of the frame 139 abuts against the lower end face of the processing cavity 102, the hydraulic press loses power, the hydraulic chamber 137 is in an idle load state, at this time, the lower end face of the sleeve column 129 is close to the power receiving block 108, but the power receiving block 108 does not abut against the lower end face of the sleeve column 129, at this time, the driving motor 109 turns over, at this time, under the constraint of the lower end face of the lifting sliding conversion limiting groove 148, the lifting block 115 cannot descend, further, when the threaded shaft 112 rotates, the lifting block 115 is driven to rotate reversely, when the lifting block 115 is rotated back into the lifting cavity 111 to the maximum extent, the lifting block 115 abuts against the front end face of the lifting cavity 111, at this time, the inner wall of the lifting cavity 111 restrains the lifting block 115, at this time, the lifting block 115 can be driven to descend by the driving of the threaded shaft 112, and further the right cover plate 117 and the left cover plate 123 are driven to descend;

when the lower end surfaces of the right cover plate 117 and the left cover plate 123 abut against the upper end surface of the sleeve column 129, the right cover plate 117 and the left cover plate 123 continue to descend, the sleeve column 129 is pushed to descend, and finally the lower end surface of the sleeve column 129 abuts against the upper end of the power-on block 108 to be powered on and electrically processed.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. A closed pumping environment-friendly industrial component electrochemical treatment system is characterized in that: comprises a tank body, a base is fixedly arranged on the lower side end surface of the tank body, transmission cavities are symmetrically arranged in the base in the left-right direction, a drive bevel gear is respectively arranged in the two transmission cavities, the drive bevel gear is connected to a drive motor fixedly arranged in the base through a transmission shaft, the upper end of the drive bevel gear is connected with a driven gear which can rotate in the transmission cavities in a meshing manner, the upper end of the driven gear is fixedly connected with a threaded shaft, a treatment cavity with an upward opening is arranged in the tank body, lifting columns are respectively fixed on the inner walls on the left side and the right side of the treatment cavity, lifting cavities which are arranged in a left-right penetrating manner are arranged in the lifting columns, lifting sliding conversion limiting grooves are communicated on the rear side wall of the lifting cavity extending out of the opening on the upper end of the treatment cavity, and the upper end of the threaded shaft extends into the lifting cavity and is rotatably connected, a lifting block in threaded connection with the threaded shaft is slidably arranged in the lifting cavity, a left cover plate is fixedly arranged on the right end face of the lifting block on the left side, a right cover plate is fixedly arranged on the left end face of the lifting block on the right side, the middle position of the left side end surface of the right cover plate is fixedly provided with an air exhaust main body, the left side surface of the left cover plate is provided with a notch for the air exhaust main body to slide, an air extractor is fixedly arranged in the air extraction main body, the upper end of the air extractor is connected with an air outlet collecting guide pipe for collecting waste gas, the right cover plate and the left cover plate are respectively provided with an air exhaust pipe with a downward opening and communicated with the air pump, the electrochemical treatment device is characterized in that a stand column is fixedly arranged in the middle of the inner wall of the lower side of the treatment cavity, a part placing frame assembly is arranged on the stand column, and the part placing frame assembly is used for placing parts to be treated when electrochemical treatment is carried out.

2. The closed pumping environment-friendly industrial component electrochemical processing system of claim 1, wherein: the part placing frame assembly comprises a hydraulic chamber with an upward opening and arranged in the stand column, the lower end of the hydraulic chamber is connected to a hydraulic machine, a hydraulic push column is slidably arranged in the hydraulic chamber, a sleeve column is sleeved outside the stand column, a sleeve groove with a downward opening is arranged in the sleeve column, a frame is sleeved outside the sleeve column, a sleeve groove which penetrates up and down is arranged in the frame, a buffer member is arranged between the inner wall of the sleeve groove and the outer side of the sleeve column from the wall, a limiting port with an upward opening is arranged at the lowest layer of the frame, a placing port is arranged on the grid plate of the frame which is positioned right above the limiting port and penetrates up and down, a part placing frame is placed in the placing port, a handle is fixedly arranged on the upper side end face of the part placing frame, and a power-on block positioned on the lower side of the lower side wall of the, the sleeve column descends and an external power supply can conduct electrifying electric treatment on the parts placed on the part placing frame through the electricity connection block when the sleeve column is abutted to the electricity connection block.

3. The closed pumping environment-friendly industrial component electrochemical processing system according to claim 2, wherein: in order to place parts, the part placing rack is arranged in a layered mode.

4. The closed pumping environment-friendly industrial component electrochemical processing system according to claim 2, wherein: the bolster include bilateral symmetry set up in buffering spout in the cover post, the fixed extension that is provided with on the inside wall in cover overcoat groove just can in the buffering spout gliding slider in the buffering spout, the downside of slider with fixedly connected with top pushes away the spring between the lower lateral wall of buffering spout.

5. The closed pumping environment-friendly industrial component electrochemical processing system according to claim 2, wherein: the part of the lifting column, which is positioned in the treatment cavity, is connected with the inner wall of the treatment cavity, and a ribbed plate is fixedly arranged between the lifting column and the inner wall of the treatment cavity.

6. The closed pumping environment-friendly industrial component electrochemical processing system of claim 1, wherein: be located the lifter block downside just is located slidable is provided with and blocks the piece in the lift intracavity, block the downside of piece with fixedly connected with blocks the expansion plate between the downside inner wall in lift chamber, the lifter block downside with sliding connection between the side of going up of blocking the piece.

7. The closed pumping environment-friendly industrial component electrochemical processing system of claim 1, wherein: the inner wall of the front side of the treatment cavity is fixedly provided with a fixed block, an electric treatment liquid adding port is arranged in the fixed block, the right side face of the left cover plate, the left side face of the right cover plate and the arc-shaped wall of the outer side of the fixed block are matched with each other, the upper part of the contact position of the left cover plate and the right cover plate is a straight line, the lower part of the contact position of the left cover plate and the right cover plate is an arc with the threaded shaft on the right side as the center of a circle, and the contact parts of the left cover plate.