A kind of reagent mixing formula kit
Technical field
The present invention relates to a kind of kits, are in particular a kind of reagent mixing formula kits.
Background technology
Such as a kind of kits of patent No. CN201620137560.6, belong to chemical luminescent detecting field.A kind of kit
Be equipped with successively including bracket, magnetic bead cup, calibration solution bottle, reagent bottle and spacer block, on the bracket magnetic bead cup aperture, calibration solution bottle hole and
Reagent bottle hole, for the magnetic bead cup aperture for placing magnetic bead cup, the calibration solution bottle hole is described for placing calibration solution bottle
Reagent bottle hole is for placing reagent bottle.The utility model is simple in structure, can utilize the confined space of reagent disc to greatest extent,
Reach more flux measurement requirements;The shortcomings that utility model is to be not applied for teaching aid, cannot be by the reagent in kit
Carry out mixing processing.
Invention content
The object of the present invention is to provide a kind of reagent mixing formula kits, can be adapted for teaching aid, can be by agent box
Interior reagent carries out mixing processing, can specify that reagent mixing time can also predetermined reagent mixing velocity of rotation, be applicable in
In the student of first contacts reagent and some dangerous reagent mixing.
The purpose of the present invention is achieved through the following technical solutions:
A kind of reagent mixing formula kit, including integral support, actuating unit, transmission mechanism I, timing mechanism, promotion machine
Structure I, pushing mechanism II, connecting rod I, connecting rod II, gear, control mechanism, transmission mechanism II, covert mechanism and mixing mechanism,
The actuating unit is fixedly connected on integral support, and transmission mechanism I is rotatably connected on integral support, actuating unit and transmission
Mechanism I is connected by V belt translation, and the upper end of timing mechanism is connected to by motion thread on transmission mechanism I, under timing mechanism
End is slidably connected on integral support, and pushing mechanism I is slidably connected on integral support, the lower end rotation connection of pushing mechanism I
On actuating unit, pushing mechanism II is slidably connected on integral support, and the lower end of pushing mechanism II is hinged on connecting rod I, even
The lower end of bar I is slidably connected on integral support, and the upper end of connecting rod II is hinged on pushing mechanism I, and the lower end of connecting rod II is hinged
On connecting rod I, gear is rotatably connected on integral support, and the rear end of control mechanism is connected on integral support, control machine
The front end of structure is slidably connected on integral support, and the middle-end of control mechanism is rotatably connected on gear, gear and biography
Motivation structure I is connected by V belt translation, and transmission mechanism II is rotatably connected on integral support, and gear and transmission mechanism II pass through
Gear engaged transmission, covert mechanism are rotatably connected on integral support, and transmission mechanism II is connected with covert mechanism by V belt translation,
Mixing mechanism is rotatably connected on integral support, and covert mechanism and mixing mechanism pass through gear engaged transmission.
As advanced optimizing for the technical program, a kind of reagent mixing formula kit of the present invention, the integral support packet
Bottom plate, side plate, linear axis bearing bore I, linear axis bearing bore II, the low plate of sliding, intermediate plate and top plate are included, vertical cunning is provided on bottom plate
Dynamic slot, slides to be provided on low plate and slides laterally slot, and intermediate plate includes intermediate board body, intermediate plate platelet, locking member and intermediate plate
Sliding groove, there are two the settings of intermediate plate platelet, and the lower end of two intermediate plate platelets is respectively welded at the front and rear sides of intermediate board body,
Locking member is welded on the intermediate plate platelet of rear side, and intermediate plate sliding groove is horizontally installed on the intermediate plate platelet of front side, side plate
There are two settings, and linear axis bearing bore I and linear axis bearing bore II are separately positioned on two side plates, and the both ends of bottom plate or so are solid respectively
Surely it is connected to the lower end of two side plates, the left and right ends for sliding low plate are respectively fixedly connected on two side plates, a left side for intermediate plate
Right both ends are respectively fixedly connected with the middle-end in two side plates, and the left and right ends of top plate are respectively fixedly connected in the upper of two side plates
End.
As advanced optimizing for the technical program, a kind of reagent mixing formula kit of the present invention, the actuating unit packet
Include motor, line shaft, power side tooth, power belt wheel, power sliding side tooth and be connected by power key, the left end rotation connection of line shaft
In the right end of motor output shaft, power side tooth is fixedly connected on the right end of motor output shaft, and power belt wheel is fixedly connected on power
The right end of axis, power sliding side tooth are circumferentially connected on line shaft by be connected by power key, and motor is fixedly connected on bottom plate.
As advanced optimizing for the technical program, a kind of reagent mixing formula kit of the present invention, the transmission mechanism I wraps
Lead screw and drive pulley I are included, there are two the settings of drive pulley I, and two drive pulleys I are respectively fixedly connected at the both ends of lead screw,
The both ends of lead screw are rotatably connected on respectively on two bottom plates, and the drive pulley I on right side is connected with power belt wheel by V belt translation.
As advanced optimizing for the technical program, a kind of reagent mixing formula kit of the present invention, the timing mechanism packet
Timing holder and timing handle are included, timing holder includes timing stake body, timing slide body, timing locking member, timing drive spiral shell
Pit, rectangular channel and circular through hole, the upper end of timing slide body are fixedly connected on the lower end of timing stake body, and timing locking member is solid
Surely it is connected to the rear end of timing stake body, timing drive threaded hole is arranged in the upper end of timing stake body, and rectangular channel and circle are logical
Hole is arranged in the lower end of timing stake body, and rectangular channel is connected to circular through hole, and timing handle includes timing handle body, triangle body I
With compressed spring I, triangle body I is slidably connected at the rear end of handle body, and compressed spring I, compressed spring I are set on triangle body I
Between handle body and triangle body I, the rear and front end of handle body is slidably connected in rectangular channel, and the left and right ends of handle body are slided
Dynamic to be connected in circular through hole, timing slide body, which is slidably connected at, to be slid laterally in slot, and timing stake body passes through timing drive spiral shell
Pit is connected on lead screw;
The pushing mechanism I includes pushing body I, rotary screw rod I and compressed spring II, and the upper end of body I is pushed to be provided with biography
Dynamic threaded hole I, rotary screw rod I are connected to by motion thread and are pushed on body I, and compressed spring II is sleeved on the upper end for pushing body I,
It pushes the lower end of body I to be rotatably connected on power sliding side tooth, pushes the middle-end of body I to be slidably connected at and slide laterally in slot, push away
Kinetoplast I is slidably connected in linear axis bearing bore II, and compressed spring II is located between the side plate on right side and promotion body I;Rotary screw rod I
It is in the same horizontal position with handle body;
The pushing mechanism II includes pushing body II, rotary screw rod II and compressed spring III, pushes the upper end setting of body II
There are motion thread hole II, rotary screw rod II to be connected to and pushed on body II by motion thread, compressed spring III is sleeved on promotion body
On II, body II is pushed to be slidably connected in linear axis bearing bore I, between compressed spring III is located at the side plate in left side and pushes body II,
It pushes the middle-end of body II to be slidably connected to slide laterally in slot, rotary screw rod II and handle body are in the same horizontal position.
As advanced optimizing for the technical program, a kind of reagent mixing formula kit of the present invention, the upper end of the connecting rod I
It is hinged on the lower end for pushing body II, the lower end of connecting rod I is slidably connected in vertical sliding slot, and the lower end of connecting rod I is tilted to the right, even
The upper end of bar II is hinged on the lower end for pushing body I, and the lower end of connecting rod II is hinged on the lower end of connecting rod I, and the lower end of connecting rod II is to the left
It tilts.
As advanced optimizing for the technical program, a kind of reagent mixing formula kit of the present invention, the gear packet
Include variable-speed shaft, speed change belt wheel, speed change gear wheel, change speed pinion, speed change side tooth and speed change connecting key, the number of teeth of speed change gear wheel
More than the number of teeth of change speed pinion, speed change belt wheel is fixedly connected on the left end of variable-speed shaft, and speed change gear wheel is fixedly connected on speed change
The middle-end of axis, change speed pinion are fixedly connected on the middle-end of variable-speed shaft, and speed change side tooth is circumferentially connected to change by speed change connecting key
On fast axis, for speed change side tooth position between speed change gear wheel and change speed pinion, the both ends of variable-speed shaft are rotatably connected on two respectively
On side plate, speed change belt wheel is connected with the drive pulley I in left side by V belt translation.
As advanced optimizing for the technical program, a kind of reagent mixing formula kit of the present invention, the control mechanism packet
Control volume, triangle body II and compressed spring IV are included, triangle body II is slidably connected at the rear end of control volume, and compressed spring IV is sleeved on
On triangle body II, for compressed spring IV between control volume and triangle body II, the middle-end of control volume is rotatably connected on speed change side tooth
On, the front end of control volume is slidably connected in intermediate plate sliding groove, and triangle body II is connected on locking member.
As advanced optimizing for the technical program, a kind of reagent mixing formula kit of the present invention, the transmission mechanism II
Including transmission shaft II, drive pulley II, transmission gear wheel and drive pinion, the number of teeth for being driven gear wheel is more than drive pinion
The number of teeth, drive pinion is identical with the number of teeth of speed change gear wheel, and drive pulley II is fixedly connected on the right end of transmission shaft II, transmission
Pinion gear is fixedly connected on the middle-end of transmission shaft II, and transmission gear wheel is fixedly connected on transmission shaft II, drive pinion and change
Fast gear wheel engagement, is driven gear wheel and change speed pinion engagement, the both ends of transmission shaft II are rotatably connected on two side plates respectively
On.
As advanced optimizing for the technical program, a kind of reagent mixing formula kit of the present invention, the covert mechanism packet
It includes covert axis, covert belt wheel and in a disguised form bores tooth, covert belt wheel is fixedly connected on the right end of covert axis, and covert tooth of boring is fixedly connected on
The middle-end of covert axis, the both ends of covert axis are rotatably connected on respectively on two side plates, and covert belt wheel and drive pulley II pass through band
It is sequentially connected;
The mixing mechanism includes mixing axis, mixing supporting plate, mixing cone tooth and mixing box, mixing box be provided with it is multiple, it is more
A mixing box is rounded to be uniformly fixedly connected on mixing supporting plate, and mixing supporting plate and mixing cone tooth are respectively fixedly connected in mixing axis
Upper and lower ends, mixing axis is rotatably connected on top plate, and mixing bores tooth and covert cone tooth engagement.
A kind of reagent mixing formula kit of the invention has the beneficial effect that:
A kind of reagent mixing formula kit of the present invention, can be adapted for teaching aid, can carry out the reagent in agent box
Mixing processing, can specify that reagent mixing time can also predetermined reagent mixing velocity of rotation, be suitable for first contacts try
The student of agent and some dangerous reagent mixing.
Description of the drawings
The present invention will be further described in detail with specific implementation method below in conjunction with the accompanying drawings.
Fig. 1 is the reagent mixing formula kit overall structure diagram of the present invention;
Fig. 2 is the reagent mixing formula kit drive mechanism schematic diagram of the present invention;
Fig. 3 is the integral support structural schematic diagram of the present invention;
Fig. 4 is the floor structure schematic diagram of the present invention;
Fig. 5 is the low plate structure schematic diagram of sliding of the present invention;
Fig. 6 is the intermediate plate structure schematic diagram of the present invention;
Fig. 7 is the actuating unit structural schematic diagram of the present invention;
Fig. 8 is I structural schematic diagram of transmission mechanism of the present invention;
Fig. 9 is the timing mechanism structural schematic diagram of the present invention;
Figure 10 is the timing supporting structure schematic diagram of the present invention;
Figure 11 is the timing handle arrangement schematic diagram of the present invention;
Figure 12 is the timing handle section view figure structure schematic representation of the present invention;
Figure 13 is I structural schematic diagram of pushing mechanism of the present invention;
Figure 14 is II structural schematic diagram of pushing mechanism of the present invention;
Figure 15 is the gear structural schematic diagram of the present invention;
Figure 16 is the control mechanism structural schematic diagram of the present invention;
Figure 17 is the control mechanism section view figure structure schematic representation of the present invention;
Figure 18 is II structural schematic diagram of transmission mechanism of the present invention;
Figure 19 is the covert mechanism structural schematic diagram of the present invention;
Figure 20 is the mixing mechanism structural schematic diagram of the present invention.
In figure:Integral support 1;Bottom plate 1-1;Vertical sliding slot 1-1-1;Side plate 1-2;I 1-3 of linear axis bearing bore;Linear axis
II 1-4 of bearing bore;Slide low plate 1-5;Slide laterally slot 1-5-1;Intermediate plate 1-6;Intermediate board body 1-6-1;Intermediate plate platelet 1-6-
2;Locking member 1-6-3;Intermediate plate sliding groove 1-6-4;Top plate 1-7;Actuating unit 2;Motor 2-1;Line shaft 2-2;Power side tooth
2-3;Power belt wheel 2-4;Power slides side tooth 2-5;Be connected by power key 2-6;Transmission mechanism I 3;Lead screw 3-1;I 3- of drive pulley
2;Timing mechanism 4;Timing holder 4-1;Timing stake body 4-1-1;Timing slide body 4-1-2;Timing locking member 4-1-3;Periodically
Motion thread hole 4-1-4;Rectangular channel 4-1-5;Circular through hole 4-1-6;Timing handle 4-2;Timing handle body 4-2-1;Triangle body I
4-2-2;I 4-2-3 of compressed spring;Pushing mechanism I 5;Push I 5-1 of body;I 5-2 of rotary screw rod;II 5-3 of compressed spring;Promotion machine
Structure II 6;Push II 6-1 of body;II 6-2 of rotary screw rod;III 6-3 of compressed spring;Connecting rod I 7;Connecting rod II 8;Gear 9;Variable-speed shaft
9-1;Speed change belt wheel 9-2;Speed change gear wheel 9-3;Change speed pinion 9-4;Speed change side tooth 9-5;Speed change connecting key 9-6;Control machine
Structure 10;Control volume 10-1;II 10-2 of triangle body;IV 10-3 of compressed spring;Transmission mechanism II 11;II 11-1 of transmission shaft;Transmission belt
Take turns II 11-2;It is driven gear wheel 11-3;Drive pinion 11-4;Covert mechanism 12;Covert axis 12-1;Covert belt wheel 12-2;Become
Mutually cone tooth 12-3;Mixing mechanism 13;Mixing axis 13-1;Mixing supporting plate 13-2;Mixing bores tooth 13-3;Mixing box 13-4.
Specific implementation mode
Invention is further described in detail below in conjunction with the accompanying drawings.
Specific implementation mode one:
Illustrate present embodiment, a kind of reagent mixing formula kit, including integral support 1, power with reference to Fig. 1-2 0
Mechanism 2, transmission mechanism I 3, timing mechanism 4, pushing mechanism I 5, pushing mechanism II 6, connecting rod I 7, connecting rod II 8, gear 9, control
Mechanism 10, transmission mechanism II 11, covert mechanism 12 and mixing mechanism 13 processed, the actuating unit 2 are fixedly connected on integral support 1
On, transmission mechanism I 3 is rotatably connected on integral support 1, and actuating unit 2 is connected with transmission mechanism I 3 by V belt translation, timing machine
The upper end of structure 4 is connected to by motion thread on transmission mechanism I 3, and the lower end of timing mechanism 4 is slidably connected on integral support 1,
Pushing mechanism I 5 is slidably connected on integral support 1, and the lower end of pushing mechanism I 5 is rotatably connected on actuating unit 2, pushes machine
Structure II 6 is slidably connected on integral support 1, and the lower end of pushing mechanism II 6 is hinged on connecting rod I 7, and the lower end sliding of connecting rod I 7 connects
It being connected on integral support 1, the upper end of connecting rod II 8 is hinged on pushing mechanism I 5, and the lower end of connecting rod II 8 is hinged on connecting rod I 7,
Gear 9 is rotatably connected on integral support 1, and the rear end of control mechanism 10 is connected on integral support 1, control mechanism 10
Front end is slidably connected on integral support 1, and the middle-end of control mechanism 10 is rotatably connected on gear 9, gear 9 and biography
Motivation structure I 3 is connected by V belt translation, and transmission mechanism II 11 is rotatably connected on integral support 1, gear 9 and transmission mechanism
II 11 are rotatably connected on by gear engaged transmission, covert mechanism 12 on integral support 1, transmission mechanism II 11 and covert mechanism 12
It is connected by V belt translation, mixing mechanism 13 is rotatably connected on integral support 1, and covert mechanism 12 and mixing mechanism 13 pass through gear
Engaged transmission;Start actuating unit 2 when use, actuating unit 2 drives transmission mechanism I 3 to be rotated, and transmission mechanism I 3 passes through biography
Dynamic screw thread pushes timing mechanism 4 to be moved in transmission mechanism I 3, when timing mechanism 4 moves to the extreme position of the left and right sides
Pushing mechanism II 6 and pushing mechanism I 5 can be pushed to be moved respectively, when pushing pushing mechanism I 5 to move right, pushing mechanism
I 5 by the power cut in actuating unit 2, when timing mechanism 4 pushes pushing mechanism II 6 to move to the left, pushing mechanism II 6
Connecting rod I 7 and II 8 movement progress pushing mechanism I 5 of connecting rod can be driven to move right the power cut in actuating unit 2, driver
Structure I 3 drives gear 9 to be rotated, the rotating speed for the covert mechanism 12 that gear 9 is driven by the adjustment of control mechanism 10,
Covert mechanism 12 drives mixing mechanism 13 that reagent is carried out mixing processing, and timing mechanism 4 can be timed mixing time, becomes
Fast mechanism 9 can change velocity of rotation when mixing, be suitable for student and some dangerous reagent mixing of first contacts reagent.
Specific implementation mode two:
Illustrate present embodiment with reference to Fig. 1-2 0, present embodiment is described further embodiment one, described
Integral support 1 includes bottom plate 1-1, side plate 1-2, I 1-3 of linear axis bearing bore, II 1-4 of linear axis bearing bore, the low plate 1-5 of sliding, centre
It is provided with vertical sliding slot 1-1-1 on plate 1-6 and top plate 1-7, bottom plate 1-1, slides to be provided on low plate 1-5 and slides laterally slot 1-
5-1, intermediate plate 1-6 include intermediate board body 1-6-1, intermediate plate platelet 1-6-2, locking member 1-6-3 and intermediate plate sliding groove 1-6-
4, there are two the 1-6-2 settings of intermediate plate platelet, and the lower end of two intermediate plate platelet 1-6-2 is respectively welded at intermediate board body 1-6-1
Front and rear sides, locking member 1-6-3 is welded on the intermediate plate platelet 1-6-2 of rear side, and intermediate plate sliding groove 1-6-4 is laterally arranged
On the intermediate plate platelet 1-6-2 of front side, there are two side plate 1-2 settings, II 1-4 points of I 1-3 of linear axis bearing bore and linear axis bearing bore
It is not arranged on two side plate 1-2, the both ends of bottom plate 1-1 or so are respectively fixedly connected in the lower end of two side plate 1-2, and sliding is low
The left and right ends of plate 1-5 are respectively fixedly connected on side plate 1-2, and the left and right ends of intermediate plate 1-6 are respectively fixedly connected in side plate
The left and right ends of the middle-end of 1-2, top plate 1-7 are respectively fixedly connected in the upper end of side plate 1-2.
Specific implementation mode three:
Illustrate present embodiment with reference to Fig. 1-2 0, present embodiment is described further embodiment two, described
Actuating unit 2 includes motor 2-1, line shaft 2-2, power side tooth 2-3, power belt wheel 2-4, power sliding side tooth 2-5 and power
Connecting key 2-6, the left end of line shaft 2-2 are rotatably connected on the right end of motor 2-1 output shafts, and power side tooth 2-3 is fixedly connected on
The right end of motor 2-1 output shafts, power belt wheel 2-4 are fixedly connected on the right end of line shaft 2-2, and power sliding side tooth 2-5 passes through
Be connected by power key 2-6 is circumferentially connected on line shaft 2-2, and motor 2-1 is fixedly connected on bottom plate 1-1;When motor 2-1 starts to turn
When dynamic, the output shaft of motor 2-1 drives power side tooth 2-3 to be rotated, and the output shaft of motor 2-1 will not drive line shaft 2-2
It is rotated, passes through II 5-3 of compressed spring on pushing mechanism I 5 and pushing mechanism II 6 and compression when power slides side tooth 2-5
When the promotion of III 6-3 of spring is engaged with power side tooth 2-3, the output shaft of motor 2-1 drives line shaft 2-2 to be rotated.
Specific implementation mode four:
Illustrate present embodiment with reference to Fig. 1-2 0, present embodiment is described further embodiment three, described
Transmission mechanism I 3 includes I 3-2 of lead screw 3-1 and drive pulley, and there are two drive pulley I 3-2 settings, two I 3-2 points of drive pulleys
It is not fixedly connected on the both ends of lead screw 3-1, the both ends of lead screw 3-1 are rotatably connected on respectively on two bottom plate 1-1, the transmission on right side
I 3-2 of belt wheel is connected with power belt wheel 2-4 by V belt translation;Power belt wheel 2-4 drives I 3-2 of drive pulley on right side to be turned
Dynamic, I 3-2 of drive pulley on right side drives lead screw 3-1 to be rotated.
Specific implementation mode five:
Illustrate present embodiment with reference to Fig. 1-2 0, present embodiment is described further embodiment four, described
Timing mechanism 4 includes timing holder 4-1 and timing handle 4-2, and timing holder 4-1 includes timing stake body 4-1-1, timing slide
Body 4-1-2, timing locking member 4-1-3, timing drive threaded hole 4-1-4, rectangular channel 4-1-5 and circular through hole 4-1-6, timing are sliding
The upper end of kinetoplast 4-1-2 is fixedly connected on the lower end of timing stake body 4-1-1, and timing locking member 4-1-3 is fixedly connected on timing
The rear end of stake body 4-1-1, timing drive threaded hole 4-1-4 are arranged in the upper end of timing stake body 4-1-1, rectangular channel 4-1-5
It is arranged in the lower end of timing stake body 4-1-1 with circular through hole 4-1-6, rectangular channel 4-1-5 is connected to circular through hole 4-1-6, fixed
When handle 4-2 include I 4-2-3 of timing handle body 4-2-1, I 4-2-2 of triangle body and compressed spring, triangle body I 4-2-2 slidings connect
It is connected on the rear end of handle body 4-2-1, I 4-2-3 of compressed spring is set on I 4-2-2 of triangle body, I 4-2-3 of compressed spring is located at hand
Between I 4-2-2 of shank body 4-2-1 and triangle body, the rear and front end of handle body 4-2-1 is slidably connected in rectangular channel 4-1-5, handle
The left and right ends of body 4-2-1 are slidably connected in circular through hole 4-1-6, and timing slide body 4-1-2, which is slidably connected at, to be slid laterally
In slot 1-5-1, timing stake body 4-1-1 is connected to by timing drive threaded hole 4-1-4 on lead screw 3-1;Lead screw 3-1 passes through biography
Dynamic screw thread pushes timing stake body 4-1-1 to be slided sliding laterally in slot 1-5-1, when timing stake body 4-1-1 is moved to
When the extreme position of left and right, timing handle 4-2 can push pushing mechanism I 5 and pushing mechanism II 6 to be moved actuating unit 2
Interior power cut, when will it is secondary start actuating unit 2 power when, driving handle 4-2 is slided in timing holder 4-1
It is dynamic, change the clamping position of I 4-2-2 of triangle body, timing handle 4-2 is not squeezing pushing mechanism I 5 or pushing mechanism II 6, power
Power ON in mechanism 2;
The pushing mechanism I 5 includes pushing I 5-1 of body, II 5-3 of I 5-2 of rotary screw rod and compressed spring, pushes I 5-1's of body
Upper end is provided with motion thread hole I, and I 5-2 of rotary screw rod is connected to by motion thread and is pushed on I 5-1 of body, II 5- of compressed spring
3 are sleeved on the upper end for pushing I 5-1 of body, push the lower end of I 5-1 of body to be rotatably connected on power sliding side tooth 2-5, push I 5- of body
1 middle-end, which is slidably connected at, to be slid laterally in slot 1-5-1, and I 5-1 of body is pushed to be slidably connected in II 1-4 of linear axis bearing bore, is compressed
II 5-3 of spring is located between I 5-1 of side plate 1-2 and promotion body on right side;Rotary screw rod I 5-2 and handle body 4-2-1 are in same
Horizontal position;II 5-3 of compressed spring can be squeezed when driving handle 4-2 moves to right limit position makes I 5-1 of promotion body to the right
Power cut in actuating unit 2 is played the role of timing by movement;
The pushing mechanism II 6 includes pushing II 6-1 of body, III 6-3 of II 6-2 of rotary screw rod and compressed spring, pushes body II
The upper end of 6-1 is provided with motion thread hole II, and II 6-2 of rotary screw rod is connected to by motion thread and is pushed on II 6-1 of body, compression
III 6-3 of spring, which is sleeved on, to be pushed on II 6-1 of body, pushes II 6-1 of body to be slidably connected in I 1-3 of linear axis bearing bore, compressed spring III
Between so that 6-3 is located at the side plate 1-2 in left side and is pushed II 6-1 of body, pushes the middle-end of II 6-1 of body to be slidably connected at and slide laterally slot
In 1-5-1, rotary screw rod II 6-2 and handle body 4-2-1 are in the same horizontal position;When driving handle 4-2 moves to left side pole
III 6-3 of compressed spring can be squeezed when extreme position pushes II 6-1 of body to move downward drive connecting rod I 7 and the promotion of II 8 movement progress of connecting rod
Mechanism I 5 is moved right plays time action by the power cut in actuating unit 2, the rotation turn when the time of timing to be changed
Dynamic II 6-2 of lead screw or I 5-2 of rotary screw rod makes the extreme position of timing holder 4-1 side-to-side movements change.
Specific implementation mode six:
Illustrate present embodiment with reference to Fig. 1-2 0, present embodiment is described further embodiment five, described
The upper end of connecting rod I 7 is hinged on the lower end for pushing II 6-1 of body, and the lower end of connecting rod I 7 is slidably connected in vertical sliding slot 1-1-1,
The lower end of connecting rod I 7 is tilted to the right, and the upper end of connecting rod II 8 is hinged on the lower end for pushing I 5-1 of body, and the lower end of connecting rod II 8 is hinged on
The lower end of the lower end of connecting rod I 7, connecting rod II 8 is tilted to the left.
Specific implementation mode seven:
Illustrate present embodiment with reference to Fig. 1-2 0, present embodiment is described further embodiment six, described
Gear 9 include variable-speed shaft 9-1, speed change belt wheel 9-2, speed change gear wheel 9-3, change speed pinion 9-4, speed change side tooth 9-5 and
The number of teeth of speed change connecting key 9-6, speed change gear wheel 9-3 are more than the number of teeth of change speed pinion 9-4, and speed change belt wheel 9-2 is fixedly connected
In the left end of variable-speed shaft 9-1, speed change gear wheel 9-3 is fixedly connected on the middle-end of variable-speed shaft 9-1, and change speed pinion 9-4, which is fixed, to be connected
It is connected on the middle-end of variable-speed shaft 9-1, speed change side tooth 9-5 is circumferentially connected to by speed change connecting key 9-6 on variable-speed shaft 9-1, speed change side
For tooth 9-5 between speed change gear wheel 9-3 and change speed pinion 9-4, the both ends of variable-speed shaft 9-1 are rotatably connected on two sides respectively
On plate 1-2, speed change belt wheel 9-2 is connected with I 3-2 of drive pulley in left side by V belt translation, and I 3-2 of drive pulley drives variable velocity zone
Wheel 9-2 is rotated, and speed change belt wheel 9-2 drives variable-speed shaft 9-1 to be rotated.
Specific implementation mode eight:
Illustrate present embodiment with reference to Fig. 1-2 0, present embodiment is described further embodiment seven, described
Control mechanism 10 is slidably connected at including IV 10-3 of control volume 10-1, II 10-2 of triangle body and compressed spring, II 10-2 of triangle body
The rear end of control volume 10-1, IV 10-3 of compressed spring are sleeved on II 10-2 of triangle body, and IV 10-3 of compressed spring is located at control volume
Between II 10-2 of 10-1 and triangle body, the middle-end of control volume 10-1 is rotatably connected on the tooth 9-5 of speed change side, before control volume 10-1
End is slidably connected in intermediate plate sliding groove 1-6-4, and II 10-2 of triangle body is connected on locking member 1-6-3;As control volume 10-1
When in leftward position, speed change gear wheel 9-3 and drive pinion 11-4 engagements are passed when control volume 10-1 is in right positions
Dynamic gear wheel 11-3 and change speed pinion 9-4 engagements, the number of teeth of transmission gear wheel 11-3 are more than the drive pinion 11-4 numbers of teeth, pass
Dynamic pinion gear 11-4 is identical with the number of teeth of speed change gear wheel 9-3, and the number of teeth of speed change gear wheel 9-3 is more than change speed pinion 9-4's
The number of teeth.
Specific implementation mode nine:
Illustrate present embodiment with reference to Fig. 1-2 0, present embodiment is described further embodiment eight, described
Transmission mechanism II 11 includes II 11-1 of transmission shaft, II 11-2 of drive pulley, transmission gear wheel 11-3 and drive pinion 11-4, is passed
The number of teeth of dynamic gear wheel 11-3 is more than the drive pinion 11-4 numbers of teeth, the number of teeth of drive pinion 11-4 and speed change gear wheel 9-3
Identical, II 11-2 of drive pulley is fixedly connected on the right end of II 11-1 of transmission shaft, and drive pinion 11-4 is fixedly connected on transmission
The middle-end of II 11-1 of axis, transmission gear wheel 11-3 are fixedly connected on II 11-1 of transmission shaft, and drive pinion 11-4 and speed change are big
Gear 9-3 engagements are driven gear wheel 11-3 and change speed pinion 9-4 engagements, and the both ends of II 11-1 of transmission shaft are rotatablely connected respectively
On two side plate 1-2, the speed of II 11-1 of transmission shaft is more than transmission when drive pinion 11-4 and speed change gear wheel 9-3 are engaged
Velocity of rotation when gear wheel 11-3 and change speed pinion 9-4 are engaged.
Specific implementation mode ten:
Illustrate present embodiment with reference to Fig. 1-2 0, present embodiment is described further embodiment nine, described
Covert mechanism 12 includes that covert axis 12-1, covert belt wheel 12-2 and covert cone tooth 12-3, covert belt wheel 12-2 are fixedly connected on change
The right end of phase axis 12-1, the covert middle-end bored tooth 12-3 and be fixedly connected on covert axis 12-1, the both ends of covert axis 12-1 turn respectively
Dynamic to be connected on two side plate 1-2, covert belt wheel 12-2 is connected with II 11-2 of drive pulley by V belt translation;Drive pulley II
11-2 drives covert belt wheel 12-2 to be rotated, and covert belt wheel 12-2 drives covert axis 12-1 to be rotated, covert axis 12-1 bands
Dynamic covert cone tooth 12-3 is rotated.
The mixing mechanism 13 includes mixing axis 13-1, mixing supporting plate 13-2, mixing cone tooth 13-3 and mixing box 13-4, is mixed
Even box 13-4 is provided with multiple, and multiple mixing box 13-4 are rounded to be uniformly fixedly connected on mixing supporting plate 13-2, mixing supporting plate
13-2 and mixing cone tooth 13-3 are respectively fixedly connected with the upper and lower ends in mixing axis 13-1, and mixing axis 13-1 is rotatably connected on top plate
On 1-7, mixing bores tooth 13-3 and covert cone tooth 12-3 engagements, and the covert tooth 12-3 that bores drives mixing cone tooth 13-3 to be rotated, mixes
Even cone tooth 13-3 drives mixing supporting plate 13-2 to be rotated, and mixing supporting plate 13-2 drives the 13-4 rotations of mixing box, mixing box 13-4
It rotates reagent mixing.
A kind of reagent mixing formula kit of the present invention, its working principle is that:
When use when motor 2-1 starts rotation, the output shaft of motor 2-1 drives power side tooth 2-3 to be rotated, motor
The output shaft of 2-1 will not drive line shaft 2-2 to be rotated, when power slides side tooth 2-5 by pushing mechanism I 5 and pushes machine
When the promotion of III 6-3 of II 5-3 of compressed spring and compressed spring on structure II 6 is engaged with power side tooth 2-3, the output of motor 2-1
Axis drives line shaft 2-2 to be rotated;Power belt wheel 2-4 drives I 3-2 of drive pulley on right side to be rotated, the transmission on right side
I 3-2 of belt wheel drives lead screw 3-1 to be rotated;Lead screw 3-1 pushes timing stake body 4-1-1 sliding laterally by motion thread
It is slided in slot 1-5-1, when timing stake body 4-1-1 moves to the extreme position of left and right, timing handle 4-2 can be pushed
Motivation structure I 5 and pushing mechanism II 6 are moved the power cut in actuating unit 2, when will be in the secondary actuating unit 2 that starts
When power, driving handle 4-2 is slided in timing holder 4-1, changes the clamping position of I 4-2-2 of triangle body, timing handle
4-2 is not squeezing pushing mechanism I 5 or pushing mechanism II 6, the power ON in actuating unit 2;I 5-2 of rotary screw rod and handle body
4-2-1 is in the same horizontal position;II 5-3 of compressed spring can be squeezed when driving handle 4-2 moves to right limit position to be made
Push I 5-1 of body that timing is played in the power cut in actuating unit 2 to there is movement;When driving handle 4-2 moves to a left side
III 6-3 of compressed spring can be squeezed when side pole extreme position pushes II 6-1 of body to move downward drive connecting rod I 7 and II 8 movement progress of connecting rod
Pushing mechanism I 5 is moved right plays time action by the power cut in actuating unit 2, makes to turn when the time of timing to be changed
Dynamic II 6-2 of rotary screw rod or I 5-2 of rotary screw rod makes the extreme position of timing holder 4-1 side-to-side movements change;Work as control
When body 10-1 is in leftward position, speed change gear wheel 9-3 and drive pinion 11-4 engagements, when control volume 10-1 is in right lateral position
Gear wheel 11-3 and change speed pinion 9-4 engagements are driven when setting, the number of teeth of transmission gear wheel 11-3 is more than drive pinion 11-4
The number of teeth, drive pinion 11-4 is identical with the number of teeth of speed change gear wheel 9-3, and the number of teeth of speed change gear wheel 9-3 is more than the small tooth of speed change
Take turns the number of teeth of 9-4;II 11-2 of drive pulley drives covert belt wheel 12-2 to be rotated, and covert belt wheel 12-2 drives covert axis 12-1
Rotated, covert axis 12-1 drives covert cone tooth 12-3 to be rotated, II 11-2 of drive pulley drive covert belt wheel 12-2 into
Row rotation, covert belt wheel 12-2 drive covert axis 12-1 to be rotated, and covert axis 12-1 drives covert cone tooth 12-3 to be rotated,
Covert cone tooth 12-3 drives mixing cone tooth 13-3 to be rotated, and mixing cone tooth 13-3 drives mixing supporting plate 13-2 to be rotated, and mixes
Even supporting plate 13-2 drives the 13-4 rotations of mixing box, mixing box 13-4 to rotate reagent mixing.
Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art
The variations, modifications, additions or substitutions that those of ordinary skill is made in the essential scope of the present invention also belong to the guarantor of the present invention
Protect range.