CN113480000A - Temperature regulation reactor for biological disc - Google Patents

Abstract

The invention relates to a temperature regulation reactor, in particular to a temperature regulation reactor for a bio-disc. The technical problem is as follows: provided is a temperature control reactor for bio-disc, which can maintain the temperature of bio-disc uniformly and can control the temperature according to the temperature required by different bio-discs. A temperature regulated reactor for bio-discs comprising: stabilizer blade, framework, control box, rotary switch, temperature control module, drop feed mechanism and rotary mechanism, the equal symmetry in framework bottom both sides is equipped with the stabilizer blade, and one side that the framework is kept away from the stabilizer blade is equipped with the control box, installs switching power supply, power module and control module in the control box. The biological disk is pressed downwards, the biological disk extrudes the left material placing plate leftwards, so that the biological disk is positioned between the two material placing plates, the left material placing plate is driven to clamp the biological disk under the action of the first spring, and the biological disk is prevented from falling off when rotating.

Description

Temperature regulation reactor for biological disc

Technical Field

The invention relates to a temperature regulation reactor, in particular to a temperature regulation reactor for a bio-disc.

Background

A bio-disc is a bio-film method waste water treatment technology, a rotary disc is immersed or partially immersed in a contact reaction tank filled with sewage and alternately contacts with the sewage and air, after a period of rotation, a layer of bio-film is attached to the disc, and the bio-film can obtain a higher purification effect within a shorter contact time, so that the temperature of the bio-disc needs to be kept stable to ensure the survival of the bio-film, and further an optimal growth condition is provided.

Therefore, in view of the above problems, there is provided a temperature-regulating reactor for bio-discs, which can maintain the temperature of bio-discs to be uniform and can be regulated according to the temperature required for different bio-discs.

Disclosure of Invention

In order to overcome the defects that the temperature of the bio-disc is difficult to keep uniform and the temperature of the warm light cannot be adjusted due to the large specific surface area of the bio-disc, the technical problem is as follows: provided is a temperature control reactor for bio-disc, which can maintain the temperature of bio-disc uniformly and can control the temperature according to the temperature required by different bio-discs.

The technical scheme of the invention is as follows: a temperature regulation reactor for bio-disc comprises support legs, a frame body, a control box, a knob switch, a temperature control module, a material placing mechanism and a rotating mechanism, wherein the support legs are symmetrically arranged on two sides of the bottom of the frame body; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the top of the control box is provided with a rotary switch, the rotary switch is electrically connected with the control module, the inner side wall of the frame body is provided with a temperature control module for adjusting the temperature, the temperature control module is connected with the control module through a relay control module, the middle part of the frame body is provided with a material placing mechanism for clamping bio-discs, and the inner side of the frame body is provided with a rotating mechanism for enabling the temperature of the bio-discs to be uniform.

Further, the discharging mechanism comprises a hand-pulling block, a first support, a first hollow sleeve, a moving block, a second hollow sleeve, a discharging plate, a movable block and a first spring, the inner side wall of the frame body is provided with the first support, one side of the first support is provided with the first hollow sleeve, the first hollow sleeve is internally and laterally moved and provided with the moving block, one side of the moving block is provided with the hand-pulling block, one side of the moving block is provided with the second hollow sleeve in a rotating mode, the second hollow sleeve is located on one side of the hand-pulling block, the movable block is movably arranged on the inner side of the second hollow sleeve, one side of the movable block is provided with the discharging plate, the middle of the second hollow sleeve is also provided with the discharging plate, and the first spring is connected between the inner side of the second hollow sleeve and the movable block.

Further, rotary mechanism is including push switch, the second support, driving motor, the straight-tooth gear, the installation piece, one-way gear, first torsion spring and first distance sensor, control box top one side is equipped with push switch, push switch passes through electric connection with control module, the inside lateral wall of framework is equipped with the second support, second support front side is equipped with driving motor, driving motor passes through relay control module with control module and is connected, be equipped with the straight-tooth gear on the driving motor output shaft, hand-pulling piece one side is equipped with the installation piece, installation piece one side rotary type is equipped with one-way gear, one-way gear and straight-tooth gear cooperation, be connected with first torsion spring between the blowing board of one-way gear and one side, be equipped with first distance sensor in the middle of the control box bottom, first distance sensor passes through electric connection with control module.

Further, the device comprises a clamping mechanism, the clamping mechanism comprises a first sliding sleeve, a straight rack, a second sliding sleeve, a second spring, a pressure sensor, a third spring, a third support, a first electric push rod, a third sliding sleeve, a clamping block, a ratchet wheel and a fourth spring, a first sliding sleeve is arranged on the inner side wall of the frame body and is positioned on one side of the second support, the first sliding sleeve is slidably provided with the straight rack which is meshed with the straight gear, the second spring is connected between the straight rack and the first sliding sleeve, the second sliding sleeve is arranged on one side of the top of the first sliding sleeve, the pressure sensor is slidably arranged on one side of the second sliding sleeve and is electrically connected with the control module, the third spring is connected between the pressure sensor and the second sliding sleeve, the third support is arranged on the inner side wall of the frame body, the first electric push rod is arranged on one side of the third support and is connected with the control module through a relay control module, a third sliding sleeve is arranged on one side of the bottom of the moving block, a clamping block is arranged on one side of the third sliding sleeve in a sliding mode, the first electric push rod is in contact with the clamping block, a ratchet wheel is arranged on one side of the second hollow sleeve, and a fourth spring is connected between the clamping block and the bottom of the third sliding sleeve.

Further comprises a ventilation mechanism, the ventilation mechanism comprises a mounting frame, a rotating shaft, a winding wheel and a pull rope, first baffle, the fourth support, the double-shaft motor, light screen and photoelectric sensor, the symmetry is equipped with the installing frame in the framework, symmetry rotary type is equipped with the pivot in the framework, all be equipped with the reel in the pivot, even interval rotary type is equipped with a plurality of first baffles on the installing frame, the reel all is connected with the stay cord between a plurality of first baffles of homonymy, the control box bottom is equipped with the fourth support, the fourth support is located first distance sensor one side, be equipped with the double-shaft motor on the fourth support, the double-shaft motor passes through direct current motor positive and negative rotation module with control module and is connected, the output shaft of double-shaft motor both sides all passes through the coupling joint with the pivot of homonymy, third support one side is equipped with the light screen, be equipped with photoelectric sensor on the electric putter, photoelectric sensor passes through electric connection with control module.

Further, still including pushing mechanism, pushing mechanism is including the fifth support, second electric putter, second baffle and second distance sensor, the framework inside wall is equipped with the fifth support, fifth support one side is equipped with second electric putter, second electric putter passes through relay control module with control module and is connected, second electric putter telescopic link is connected with the installation piece, be equipped with the second baffle in the pivot of one side, the control box bottom is equipped with second distance sensor, second distance sensor is located fourth support one side, second distance sensor passes through electric connection with control module.

Further, still including swing mechanism, swing mechanism is including the sixth support, the swing board, the arc rack, third electric putter and second torsion spring, be equipped with the sixth support in the middle of the bottom in the framework, sixth support middle part rotary type is equipped with two swing boards, the swing inboard all is equipped with the arc rack, two arc rack intermeshing, the bottom is equipped with third electric putter in the framework, third electric putter is located sixth support one side, third electric putter passes through relay control module with control module and is connected, be connected with second torsion spring between the swing board of one side and the sixth support front side.

Furthermore, a handle is arranged in the middle of one side of the hand pulling block.

The beneficial effects are that: 1. the biological disk is pressed downwards, the biological disk extrudes the left material placing plate leftwards, so that the biological disk is positioned between the two material placing plates, and the left material placing plate is driven to clamp the biological disk under the action of the first spring, so that the biological disk is prevented from falling off when rotating;

2. the straight gear drives the one-way gear to rotate, and further drives the material feeding plate on the right side, the biological disk, the material feeding plate on the left side, the movable block and the second hollow sleeve to rotate, so that the biological disk can be uniformly heated, and the temperature of the biological disk is kept stable;

3. the output shaft of the double-shaft motor drives the rotating shaft and the reel to rotate, and then the first baffle is driven to rotate through the pull rope to open for ventilation, so that the temperature in the frame is balanced, and the temperature of the next bio-disc is conveniently adjusted;

4. the mounting block is driven by the telescopic rod of the second electric push rod so as to drive the hand-pulling block, the moving block, the second hollow sleeve, the material discharging plate, the moving block and the one-way gear to move back and forth, so that people do not need to manually move the hand-pulling block, and the trouble of manual operation is reduced;

5. the third electric push rod telescopic link drives the swing board to rotate forward and backward, so that the flow of air in the frame body can be accelerated, and the temperature in the frame body can be quickly balanced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a perspective view of a third embodiment of the present invention.

Fig. 5 is a schematic perspective view of a first discharging mechanism of the present invention.

Fig. 6 is a schematic perspective view of a second discharging mechanism of the present invention.

Fig. 7 is a schematic view of a first partially separated body structure of the discharge mechanism of the present invention.

Fig. 8 is a schematic view of a second partially separated body structure of the discharge mechanism of the present invention.

Fig. 9 is a schematic perspective view of a first rotating mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a second rotary mechanism according to the present invention.

Fig. 11 is a schematic view of a first partial body structure of the rotating mechanism of the present invention.

Fig. 12 is a schematic view of a second partial body structure of the rotating mechanism of the present invention.

Fig. 13 is a schematic perspective view of a first embodiment of the clamping mechanism of the present invention.

Fig. 14 is a schematic view of a first partial body structure of the chucking mechanism of the present invention.

Fig. 15 is a schematic perspective view of a second embodiment of the clamping mechanism of the present invention.

Fig. 16 is a schematic view of a second partial body structure of the chucking mechanism of the present invention.

Fig. 17 is a schematic perspective view of a first ventilation mechanism of the present invention.

Fig. 18 is a schematic view of a first partial body structure of the ventilation mechanism of the present invention.

Fig. 19 is a schematic perspective view of a second ventilation mechanism of the present invention.

Fig. 20 is a schematic view of a second partial body structure of the vent mechanism of the present invention.

Fig. 21 is a schematic perspective view of a first pushing mechanism according to the present invention.

Fig. 22 is a schematic perspective view of a second pushing mechanism of the present invention.

Fig. 23 is a schematic perspective view of a first swing mechanism according to the present invention.

Fig. 24 is a schematic perspective view of a second swing mechanism according to the present invention.

FIG. 25 is a circuit block diagram of the present invention.

Fig. 26 is a circuit schematic of the present invention.

In the reference symbols: 1-support foot, 2-frame body, 3-control box, 4-knob switch, 5-temperature control module, 6-discharging mechanism, 61-hand block, 62-first support, 63-first hollow sleeve, 64-moving block, 65-second hollow sleeve, 66-discharging plate, 67-moving block, 68-first spring, 7-rotating mechanism, 71-pushing switch, 72-second support, 73-driving motor, 74-straight gear, 75-mounting block, 76-one-way gear, 77-first torsion spring, 78-first distance sensor, 8-clamping mechanism, 81-first sliding sleeve, 82-straight rack, 83-second sliding sleeve, 84-second spring, 85-pressure sensor, 86-third spring, 87-third bracket, 88-first electric push rod, 89-third sliding sleeve, 810-clamping block, 811-ratchet wheel, 812-fourth spring, 9-ventilation mechanism, 91-mounting frame, 92-rotating shaft, 93-reel, 94-pull rope, 95-first baffle, 96-fourth bracket, 97-double-shaft motor, 98-light baffle, 99-photoelectric sensor, 10-pushing mechanism, 101-fifth bracket, 102-second electric push rod, 103-second baffle, 104-second distance sensor, 11-swinging mechanism, 111-sixth bracket, 112-swinging plate, 113-arc rack, 114-third electric push rod, 115-second torsion spring.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

A temperature regulation reactor for a bio-disc is disclosed, as shown in figures 1-26, and comprises support legs 1, a frame body 2, a control box 3, a knob switch 4, a temperature control module 5, a material placing mechanism 6 and a rotating mechanism 7, wherein the support legs 1 are symmetrically arranged at the front and back of the left side and the right side of the bottom of the frame body 2, the control box 3 is arranged at the top of the frame body 2, a switch power supply, a power supply module and a control module are arranged in the control box 3, the switch power supply supplies power for the whole temperature regulation reactor for the bio-disc, the output end of the switch power supply is electrically connected with the power supply module, the power supply module is connected with a power supply main switch through a circuit, and the power supply module is electrically connected with the control module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the right front side in 3 tops of control box is equipped with rotary switch 4, and rotary switch 4 passes through electric connection with control module, and 2 inner walls rear sides of framework are equipped with temperature control module 5, and temperature control module 5 passes through relay control module with control module to be connected, and 2 middle parts of framework are equipped with drop feed mechanism 6, and the right side is equipped with rotary mechanism 7 in the framework 2.

The discharging mechanism 6 comprises a hand-pulling block 61, a first support 62, a first hollow sleeve 63, a moving block 64, a second hollow sleeve 65, a discharging plate 66, a movable block 67 and a first spring 68, the left side of the inner rear wall of the frame body 2 is provided with the first support 62, the left front side of the first support 62 is provided with the first hollow sleeve 63, the inner side of the first hollow sleeve 63 is slidably provided with the moving block 64, the front side of the moving block 64 is provided with the hand-pulling block 61, a handle is arranged in the middle of the front side of the hand-pulling block 61, the front side of the moving block 64 is movably provided with the second hollow sleeve 65, the second hollow sleeve 65 is positioned on the left rear side of the hand-pulling block 61, the inner side of the second hollow sleeve 65 is slidably provided with the movable block 67, the right side of the movable block 67 is provided with the discharging plate 66, the middle of the second hollow sleeve 65 is also provided with the discharging plate 66, and the first spring 68 is connected between the inner side of the second hollow sleeve 65 and the left side of the movable block 67.

The rotating mechanism 7 comprises a push switch 71, a second bracket 72, a driving motor 73, a straight gear 74, a mounting block 75, a one-way gear 76, a first torsion spring 77 and a first distance sensor 78, the left front side of the top of the control box 3 is provided with the push switch 71, the push switch 71 is electrically connected with the control module, the front side of the right wall inside the frame body 2 is provided with the second bracket 72, the front side of the second bracket 72 is provided with the driving motor 73, the driving motor 73 is connected with the control module through a relay control module, the output shaft of the driving motor 73 is provided with the straight gear 74, the right rear side of the hand pulling block 61 is provided with the mounting block 75, the rear side of the mounting block 75 is rotatably provided with the one-way gear 76, the one-way gear 76 is matched with the straight gear 74, the first torsion spring 77 is connected between the left side of the one-way gear 76 and the right side of the material discharging plate 66, the middle of the bottom of the control box 3 is provided with the first distance sensor 78, the first distance sensor 78 is electrically connected to the control module.

When the temperature of the biological disc needs to be adjusted by a worker, the worker presses the power master switch to electrify the device, grabs the handle to move the hand-pulling block 61 forwards, the hand-pulling block 61 drives the moving block 64, the second hollow sleeve 65, the material placing plate 66, the moving block 67, the mounting block 75 and the one-way gear 76 forwards to pull out, so that the one-way gear 76 is separated from the straight gear 74, then the biological disc is placed between the two material placing plates 66, the biological disc is pressed downwards, the biological disc extrudes the left material placing plate 66 leftwards, the moving block 67 is driven to move leftwards, the first spring 68 is compressed, the moving block 67 drives the left material placing plate 66 to clamp the biological disc under the action of the first spring 68, the biological disc is prevented from falling off when rotating, then the hand-pulling block 61 is moved backwards, the hand-pulling block 61 drives the moving block 64, the second hollow sleeve 65 and the material placing plate 66, The movable block 67, the mounting block 75 and the one-way gear 76 move backwards to reset, so that the straight gear 74 is meshed with the one-way gear 76, the knob switch 4 is rotated, the control module controls the temperature control module 5 to be started, the temperature of the temperature control module 5 can be adjusted by rotating the knob switch 4, meanwhile, the first distance sensor 78 detects that the distance between the bio-disc and the first distance sensor 78 reaches a preset value, the control module controls the driving motor 73 to be started, the output shaft of the driving motor 73 drives the straight gear 74 to rotate, further, the one-way gear 76 is driven to rotate, the one-way gear 76 drives the right material discharging plate 66, the bio-disc, the left material discharging plate 66, the movable block 67 and the second hollow sleeve 65 to rotate, so that the bio-disc can be uniformly heated, the temperature of the bio-disc is kept stable, when a worker needs to take out the bio-disc, the knob switch 4 is reversely reset, the control module controls the temperature control module 5 to be closed, meanwhile, the push switch 71 is rotated forwards, the control module controls the driving motor 73 to be closed, the straight gear 74 and the one-way gear 76 stop rotating, the discharge plate 66, the movable block 67 and the second hollow sleeve 65 stop rotating along with the stop, then, the hand-pulling block 61 is moved forwards, the hand-pulling block 61 drives the movable block 64, the second hollow sleeve 65, the discharge plate 66, the movable block 67, the mounting block 75, the one-way gear 76 and the bio-disc to move forwards and be pulled out, the bio-disc is taken out, the bio-disc is separated from the discharge plate 66, further, the movable block 67 and the left discharge plate 66 are driven to move rightwards and reset under the reset action of the first spring 68, then, the reset hand-pulling block 61 is moved backwards, the hand-pulling block 61 drives the movable block 64, the second hollow sleeve 65, the discharge plate 66, the movable block 67, the mounting block 75 and the one-way gear 76 to reset, when the device is not needed, the power supply main switch is pressed down to cut off the power supply.

The clamping mechanism 8 is further included, the clamping mechanism 8 includes a first sliding sleeve 81, a spur rack 82, a second sliding sleeve 83, a second spring 84, a pressure sensor 85, a third spring 86, a third bracket 87, a first electric push rod 88, a third sliding sleeve 89, a clamping block 810, a ratchet wheel 811 and a fourth spring 812, the first sliding sleeve 81 is arranged on the front side of the right wall of the lower portion in the frame body 2, the first sliding sleeve 81 is positioned on the lower side of the second bracket 72, the spur rack 82 is slidably arranged on the left side of the upper portion of the first sliding sleeve 81, the spur rack 82 is meshed with the spur gear 74, the second spring 84 is connected between the rear side of the spur rack 82 and the first sliding sleeve 81, the second sliding sleeve 83 is arranged on the left side of the top of the first sliding sleeve 81, the pressure sensor 85 is slidably arranged on the rear side of the second sliding sleeve 83, the pressure sensor 85 is electrically connected with the control module, the third spring 86 is connected between the pressure sensor 85 and the second sliding sleeve 83, the third bracket 87 is arranged on the front side of the left wall in the frame body 2, the front side of the third bracket 87 is provided with a first electric push rod 88, the first electric push rod 88 is connected with the control module through a relay control module, the front side of the bottom of the moving block 64 is provided with a third sliding sleeve 89, the lower part of the third sliding sleeve 89 is slidably provided with a fixture block 810, the first electric push rod 88 is contacted with the fixture block 810, the left side of the second hollow sleeve 65 is provided with a ratchet wheel 811, the fixture block 810 is contacted with the ratchet wheel 811, and a fourth spring 812 is connected between the lower side of the fixture block 810 and the bottom of the third sliding sleeve 89.

When the spur gear 74 rotates, the spur rack 82 is driven to move backwards, the second spring 84 is stretched, the rear side of the spur rack 82 is in contact with the pressure sensor 85, the pressure sensor 85 is extruded, the third spring 86 is stretched at the moment, the pressure sensor 85 detects that the pressure reaches a preset value, the stretching rod of the first electric push rod 88 is stretched for 1 second and then stops, the stretching rod of the first electric push rod 88 is separated from the clamping block 810, the initial state of the fourth spring 812 is a stretching state, the clamping block 810 is driven to move upwards to clamp the ratchet 811 under the reset action of the fourth spring 812, when the output shaft of the driving motor 73 drives the spur gear 74 to rotate, the one-way gear 76 is driven to rotate, the first torsion spring 77 is deformed to the extreme, the discharging plate 66, the movable block 67 and the second hollow sleeve 65 are driven to rotate, and when the spur gear 74 stops rotating, the discharging plate 66, the biological disc are driven to rotate, The movable block 67 and the second hollow sleeve 65 may incline, so when the spur gear 74 stops rotating, the second spring 84 resets to drive the spur rack 82 to move forward, and further drive the spur gear 74 and the one-way gear 76 to rotate reversely, so that the spur rack 82 is separated from the pressure sensor 85, at this time, the third spring 86 resets to drive the pressure sensor 85 to reset, the pressure sensor 85 detects that the pressure returns to an initial value, the control module controls the telescopic rod of the first electric push rod 88 to contract for 1 second and then stops, the telescopic rod of the first electric push rod 88 drives the clamping block 810 to move downward, the fourth spring 812 is stretched, so that the clamping block 810 is separated from the ratchet wheel 811, and further the material discharge plate 66, the movable block 67 and the second hollow sleeve 65 are driven to rotate reversely to be in a horizontal position under the reset effect of the first torsion spring 77.

The device also comprises a ventilation mechanism 9, the ventilation mechanism 9 comprises a mounting frame 91, a rotating shaft 92, reels 93, a pull rope 94, a first baffle 95, a fourth support 96, a double-shaft motor 97, a light screen 98 and a photoelectric sensor 99, the mounting frame 91 is symmetrically arranged on the frame body 2 left and right, the rotating shaft 92 is rotatably arranged on the upper portion of the frame body 2 left and right, the reels 93 are arranged on the rotating shaft 92, the first baffles 95 are rotatably arranged on the mounting frame 91 at uniform intervals, the pull rope 94 is connected between each reel 93 and each first baffle 95 at the same side, the fourth support 96 is arranged at the bottom of the control box 3, the fourth support 96 is positioned at the rear side of the first distance sensor 78, the double-shaft motor 97 is arranged on the fourth support 96, the double-shaft motor 97 is connected with the control module through a direct-current motor forward and reverse rotation module, output shafts at two sides of the double-shaft motor 97 are connected with the rotating shaft 92 at the same side through a coupler, the light screen 98 is arranged at the front side of the third support 87, the upper front side of the telescopic rod of the first electric push rod 88 is provided with a photoelectric sensor 99, and the photoelectric sensor 99 is electrically connected with the control module.

When the telescopic rod of the first electric push rod 88 moves downwards, the photoelectric sensor 99 is driven to move downwards, when the photoelectric sensor 99 is close to the light shielding plate 98, the photoelectric sensor 99 detects that light becomes dark and reaches a preset value, the control module controls the output shaft of the double-shaft motor 97 to rotate for 1 second and then stops, the output shaft of the double-shaft motor 97 drives the rotating shaft 92 and the reel 93 to rotate, so that the reel 93 winds the pull rope 94, the pull rope 94 drives the first baffle 95 to rotate and open for ventilation, the temperature in the frame body 2 reaches balance, the temperature of the next bio-disc is convenient to adjust, when the telescopic rod of the first electric push rod 88 moves upwards, the photoelectric sensor 99 is driven to move upwards, so that the photoelectric sensor 99 is far away from the light shielding plate 98, the photoelectric sensor 99 detects that the light becomes bright and returns to the preset value, and the control module controls the output shaft of the double-shaft motor 97 to rotate backwards for 1 second and then to be closed, the output shaft of the double-shaft motor 97 drives the rotating shaft 92 and the reel 93 to rotate reversely, so that the reel 93 loosens the pull rope 94, and the first baffle 95 automatically rotates reversely to reset due to self gravity.

Still including pushing mechanism 10, pushing mechanism 10 is including fifth support 101, second electric putter 102, second baffle 103 and second distance sensor 104, 2 inside back wall right sides of framework are equipped with fifth support 101, fifth support 101 right sides are equipped with second electric putter 102, second electric putter 102 passes through relay control module with control module and is connected, second electric putter 102 telescopic link front side is connected with installation piece 75, left pivot 92 right sides are equipped with second baffle 103, control box 3 bottom is equipped with second distance sensor 104, second distance sensor 104 is located fourth support 96 left side, second distance sensor 104 passes through electric connection with control module.

When the rotating shaft 92 rotates, the second baffle 103 is driven to rotate, the second baffle 103 is separated from the second distance sensor 104, the second distance sensor 104 detects that the distance between the second baffle 103 and the second distance sensor 104 reaches a preset value, the control module controls the telescopic rod of the second electric push rod 102 to extend for 3 seconds and then stop, the telescopic rod of the second electric push rod 102 drives the mounting block 75 to move forward, the mounting block 75 further drives the hand-pulling block 61, the moving block 64, the second hollow sleeve 65, the material placing plate 66, the moving block 67 and the one-way gear 76 to move forward, when the rotating shaft 92 rotates reversely and resets, the second baffle 103 is driven to reset, the second baffle 103 is close to the second distance sensor 104, the second distance sensor 104 detects that the distance between the second baffle 103 and the second distance sensor 104 returns to an initial value, the control module controls the telescopic rod of the second electric push rod 102 to contract for 3 seconds and then close, the telescopic rod of the second electric push rod 102 drives the mounting block 75 to move backwards for resetting, and the mounting block 75 further drives the hand-pulling block 61, the moving block 64, the second hollow sleeve 65, the discharging plate 66, the moving block 67 and the one-way gear 76 to move backwards for resetting, so that the hand-pulling block 61 does not need to be moved manually by people, and the trouble of manual operation is reduced.

Still including swing mechanism 11, swing mechanism 11 is including sixth support 111, swing plate 112, arc rack 113, third electric putter 114 and second torsion spring 115, be equipped with sixth support 111 in the middle of the bottom in framework 2, sixth support 111 middle part rotary type is equipped with two swing plates 112, swing plate 112 inboard all is equipped with arc rack 113, two arc rack 113 intermeshing, the bottom is equipped with third electric putter 114 in framework 2, third electric putter 114 is located sixth support 111 right side, third electric putter 114 passes through relay control module with control module and is connected, be connected with second torsion spring 115 between the swing plate 112 left front side on right side and the sixth support 111 front side.

When photoelectric sensor 99 detects that light becomes dark and reaches the default, control module still can control third electric putter 114 telescopic link and carry out reciprocating operation, third electric putter 114 telescopic link drives swinging plate 112 on right side and the arc rack 113 on right side and rotates, the repeated deformation of second torsion spring 115 resets, arc rack 113 on right side and the meshing of left arc rack 113 simultaneously, and then drive left arc rack 113 and the rotation of left swinging plate 112, and then accelerate the flow of air in the framework 2, make the temperature in the framework 2 reach balanced fast, photoelectric sensor 99 detects that light becomes bright and gets back to the value of setting just, control module control third electric putter 114 stops the function.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. A temperature regulation reactor for bio-disc is characterized by comprising support legs (1), a frame body (2), a control box (3), a knob switch (4), a temperature control module (5), a material discharging mechanism (6) and a rotating mechanism (7), wherein the support legs (1) are symmetrically arranged on two sides of the bottom of the frame body (2), the control box (3) is arranged on one side, away from the support legs (1), of the frame body (2), a switching power supply, a power supply module and a control module are installed in the control box (3), the switching power supply supplies power to the whole temperature regulation reactor for bio-disc, the output end of the switching power supply is electrically connected with the power supply module, a power main switch is connected to the power supply module through a circuit, and the power supply module is electrically connected with the control module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; control box (3) top is equipped with rotary switch (4), rotary switch (4) pass through electric connection with control module, framework (2) inside wall is equipped with temperature control module (5) that are used for temperature regulation, temperature control module (5) pass through relay control module with control module and are connected, framework (2) middle part is equipped with drop feed mechanism (6) that are used for pressing from both sides tight bio-disc, framework (2) inboard is equipped with and is used for making even rotary mechanism (7) of bio-disc temperature.

2. The temperature-regulated reactor for bio-discs as claimed in claim 1, wherein the discharging mechanism (6) comprises a handle block (61), a first bracket (62), a first hollow sleeve (63), a moving block (64), a second hollow sleeve (65), a discharging plate (66), a moving block (67) and a first spring (68), the first bracket (62) is disposed on the inner side wall of the frame body (2), the first hollow sleeve (63) is disposed on one side of the first bracket (62), the moving block (64) is slidably disposed on the inner side of the first hollow sleeve (63), the handle block (61) is disposed on one side of the moving block (64), the second hollow sleeve (65) is rotatably disposed on one side of the handle block (61), the moving block (67) is movably disposed on the inner side of the second hollow sleeve (65), the discharging plate (66) is disposed on one side of the moving block (67), a material discharging plate (66) is also arranged in the middle of the second hollow sleeve (65), and a first spring (68) is connected between the inner side of the second hollow sleeve (65) and the movable block (67).

3. The temperature-adjusting reactor for bio-discs as set forth in claim 2, wherein the rotating mechanism (7) comprises a push switch (71), a second bracket (72), a driving motor (73), a spur gear (74), a mounting block (75), a one-way gear (76), a first torsion spring (77) and a first distance sensor (78), the push switch (71) is disposed on one side of the top of the control box (3), the push switch (71) is electrically connected with the control module, the second bracket (72) is disposed on the inner side wall of the frame (2), the driving motor (73) is disposed on the front side of the second bracket (72), the driving motor (73) is connected with the control module through the relay control module, the spur gear (74) is disposed on the output shaft of the driving motor (73), the mounting block (75) is disposed on one side of the hand-pulling block (61), the one-way gear (76) is rotatably disposed on one side of the mounting block (75), one-way gear (76) and spur gear (74) cooperation are connected with first torsion spring (77) between one-way gear (76) and blowing board (66) of one side, are equipped with first distance sensor (78) in the middle of control box (3) bottom, and first distance sensor (78) passes through electric connection with control module.

4. The temperature-regulating reactor for bio-discs as claimed in claim 3, further comprising a chucking mechanism (8), wherein the chucking mechanism (8) comprises a first sliding sleeve (81), a spur rack (82), a second sliding sleeve (83), a second spring (84), a pressure sensor (85), a third spring (86), a third bracket (87), a first electric push rod (88), a third sliding sleeve (89), a block (810), a ratchet wheel (811) and a fourth spring (812), the first sliding sleeve (81) is disposed on the inner side wall of the frame (2), the first sliding sleeve (81) is disposed on one side of the second bracket (72), the first sliding sleeve (81) is slidably disposed with the spur rack (82), the spur rack (82) is engaged with the spur gear (74), the second spring (84) is connected between the spur rack (82) and the first sliding sleeve (81), the second sliding sleeve (83) is disposed on one side of the top of the first sliding sleeve (81), second sliding sleeve (83) one side slidingtype is equipped with pressure sensor (85), pressure sensor (85) and control module pass through electric connection, be connected with third spring (86) between pressure sensor (85) and second sliding sleeve (83), framework (2) inside wall is equipped with third support (87), third support (87) one side is equipped with first electric putter (88), first electric putter (88) and control module pass through relay control module and are connected, movable block (64) bottom one side is equipped with third sliding sleeve (89), third sliding sleeve (89) one side slidingtype is equipped with fixture block (810), first electric putter (88) and fixture block (810) contact, second hollow cover (65) one side is equipped with ratchet (811), be connected with fourth spring (812) between fixture block (810) and third sliding sleeve (89) bottom.

5. The temperature-regulating reactor for bio-discs as claimed in claim 4, further comprising a ventilation mechanism (9), wherein the ventilation mechanism (9) comprises a mounting frame (91), a rotating shaft (92), a winding wheel (93), a pull rope (94), a first baffle (95), a fourth bracket (96), a dual-shaft motor (97), a light shielding plate (98) and a photoelectric sensor (99), the mounting frame (91) is symmetrically arranged on the frame (2), the rotating shaft (92) is symmetrically and rotatably arranged on the frame (2), the winding wheel (93) is arranged on the rotating shaft (92), the plurality of first baffles (95) are rotatably arranged on the mounting frame (91) at uniform intervals, the pull rope (94) is connected between the winding wheel (93) and the plurality of first baffles (95) at the same side, the fourth bracket (96) is arranged at the bottom of the control box (3), the fourth bracket (96) is located at one side of the first distance sensor (78), be equipped with double-shaft motor (97) on fourth support (96), double-shaft motor (97) pass through direct current motor with control module and just reverse the module and be connected, the output shaft of double-shaft motor (97) both sides all passes through the coupling joint with pivot (92) of homonymy, third support (87) one side is equipped with light screen (98), is equipped with photoelectric sensor (99) on first electric putter (88) telescopic link, and photoelectric sensor (99) pass through electric connection with control module.

6. The temperature-regulated reactor for bio-discs as set forth in claim 5, further comprising a pushing mechanism (10), the pushing mechanism (10) comprising a fifth frame (101), a second electric push rod (102), second baffle (103) and second distance sensor (104), framework (2) inside wall is equipped with fifth support (101), fifth support (101) one side is equipped with second electric putter (102), second electric putter (102) pass through relay control module with control module and are connected, second electric putter (102) telescopic link is connected with installation piece (75), be equipped with second baffle (103) on pivot (92) of one side, control box (3) bottom is equipped with second distance sensor (104), second distance sensor (104) are located fourth support (96) one side, second distance sensor (104) pass through electric connection with control module.

7. A temperature-regulating reactor for bio-discs as set forth in claim 6, further comprising a swing mechanism (11), the swing mechanism (11) comprising a sixth support (111), a swing plate (112), arc rack (113), third electric putter (114) and second torsion spring (115), be equipped with sixth support (111) in the middle of the bottom in framework (2), sixth support (111) middle part rotary type is equipped with two swing board (112), swing board (112) inboard all is equipped with arc rack (113), two arc rack (113) intermeshing, the bottom is equipped with third electric putter (114) in framework (2), third electric putter (114) are located sixth support (111) one side, third electric putter (114) pass through relay control module with control module and are connected, be connected with second torsion spring (115) between swing board (112) and sixth support (111) front side of one side.

8. The temperature-adjusting reactor for bio-discs as set forth in claim 2, wherein a handle is provided in the middle of one side of the hand-pulling block (61) to facilitate the movement of the hand-pulling block (61).

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