CN109283038B

CN109283038B - Chemical reagent's shock mixing device

Info

Publication number: CN109283038B
Application number: CN201811417394.5A
Authority: CN
Inventors: 张昕; 臧瑞
Original assignee: Shanghai Gehai Technology Co ltd
Current assignee: Shanghai Gehai Technology Co.,Ltd.
Priority date: 2018-11-26
Filing date: 2018-11-26
Publication date: 2021-04-09
Anticipated expiration: 2038-11-26
Also published as: CN109283038A

Abstract

The invention relates to the field of chemical experimental equipment, in particular to a vibration blending device for chemical reagents. Perpendicular supporting seat sliding connection on the base, erect the supporting seat and be connected with the base transmission, two limit slip frame symmetry fixed connection are at the both ends of erecting the supporting seat, two reciprocal slides are sliding connection respectively on two limit slip frames, the lower extreme of two reciprocal slides is connected with two limit slip frame transmissions respectively, sliding connection has two fixing bases respectively on two reciprocal slides, the upper end of two hinge bars articulates respectively on erecting the supporting seat, the lower extreme of two hinge bars articulates respectively on two reciprocal slides, two drive assembly set up the rear end at two limit slip frames respectively. The invention can drive the chemical kit to carry out multidimensional oscillation treatment, can ensure that the chemical liquid of the chemical kit is fully fused, ensures the full reaction, achieves the experimental effect, and simultaneously can drive a plurality of chemical kits to carry out contrast tests.

Description

Chemical reagent's shock mixing device

Technical Field

The invention relates to the field of chemical experimental equipment, in particular to a vibration blending device for chemical reagents.

Background

There is a chemical experiment presentation device of patent No. CN201521107015.4 now, the utility model discloses a chemical experiment presentation device, including box, notes liquid pipe, beaker A, casting tube A, beaker B, casting tube, test tube, pipe, iron stand platform, venthole, switch A, switch B and switch C; the box body is internally provided with a liquid injection pipe and a partition plate, and the upper end surface of the box body is provided with an air outlet; a beaker A is placed on the partition plate, a beaker B is placed on the base of the box body, and both the beaker A and the beaker B cannot move; a switch A is arranged at the pipe orifice of the liquid injection pipe and is respectively connected to the beaker A and the beaker B; the bottom ends of the beaker A and the beaker B are respectively connected with a liquid discharge pipe A and a liquid discharge pipe B; the liquid discharge pipe A and the liquid discharge pipe B are respectively provided with a switch B and a switch C; one end of the guide pipe is connected to the box body, and the other end of the guide pipe is connected to the rubber plug of the test pipe opening; the test tube is clamped on an iron stand; the front surface of the box body is made of transparent materials, so that students can observe the experimental results conveniently; the utility model discloses a component is few, connect simple and convenient operation. However, the device cannot simultaneously carry out oscillation experiments on a plurality of chemical reagents, and the contrast of experimental effects is lacked.

Disclosure of Invention

The invention aims to provide a vibration blending device for chemical reagents, which has the beneficial effects that the vibration blending device can drive a chemical reagent kit to carry out multidimensional vibration treatment, can fully fuse chemical liquid of the chemical reagent kit, ensures full reaction, achieves an experimental effect, and simultaneously can drive a plurality of chemical reagent kits to carry out a contrast test.

The purpose of the invention is realized by the following technical scheme:

a vibration blending device of chemical reagents comprises a base, a vertical supporting seat, side sliding frames, reciprocating sliding seats, fixing seats, hinge rods and driving components, wherein the vertical supporting seat is connected to the base in a sliding manner, the vertical supporting seat is in transmission connection with the base, the two side sliding frames are symmetrically and fixedly connected to two ends of the vertical supporting seat, the two reciprocating sliding seats are respectively in sliding connection with the two side sliding frames, the lower ends of the two reciprocating sliding seats are respectively in transmission connection with the two side sliding frames, the two fixing seats are respectively in sliding connection with the two reciprocating sliding seats, the upper ends of the two hinge rods are respectively hinged to the vertical supporting seat, the lower ends of the two hinge rods are respectively hinged to the two reciprocating sliding seats, the two driving components are respectively arranged at the rear ends of the two side sliding frames, the two driving components are respectively in transmission connection with the two side sliding frames, and the two fixing seats on, the upper end and the lower end of each driving component are respectively fixedly connected with the two reciprocating sliding seats.

The base comprises a bottom plate, a left L-shaped seat, a right L-shaped seat, a rack I and a rack II; a left L-shaped seat and a right L-shaped seat are symmetrically and fixedly connected to two ends of a bottom plate, a rack I is fixedly connected to the top surface of the left L-shaped seat, a rack II is fixedly connected to the bottom plate, and the rack II is located between the left L-shaped seat and the right L-shaped seat.

The vertical supporting seat comprises a supporting column, a left Z-shaped seat plate, a right Z-shaped seat plate, a motor, a driving gear, a rectangular telescopic rod, an external threaded rod and a central gear; the left end and the right end of the support column are fixedly connected with a left Z-shaped seat plate and a right Z-shaped seat plate respectively, the lower ends of the left Z-shaped seat plate and the right Z-shaped seat plate are connected in a left L-shaped seat and a right L-shaped seat in a sliding fit mode respectively, a motor is fixedly connected at the middle end of the left Z-shaped seat plate, a driving gear is fixedly connected to an output shaft of the motor, a driving gear is in meshing transmission with a rack I, a rectangular sliding groove is formed in the upper end of the support column, a rectangular telescopic rod is in sliding connection in the rectangular sliding groove, the upper end of an external threaded rod is connected in the rectangular telescopic rod through threads, the lower end of the external threaded rod is in clearance fit with the lower; the upper ends of the two hinged rods are respectively hinged at the two ends of the rectangular telescopic rod.

The side sliding frame comprises an inner plate, an outer plate, an L-shaped top plate, a rectangular bottom plate, a limiting sliding groove, a rack III and a rack IV; the inner end of the inner plate is fixedly connected to the outer end face of the support column, the upper ends of the inner plate and the outer plate are fixedly connected with an L-shaped top plate, the lower ends of the inner plate and the outer plate are fixedly connected with a rectangular bottom plate, a limiting sliding groove is formed in the rectangular bottom plate, two ends of a rack III are respectively and fixedly connected to the middle ends of the inner plate and the outer plate, two ends of a rack IV are respectively and fixedly connected between the inner plate and the outer plate, and the rack IV is located between the; two ends of the reciprocating slide seat are respectively connected in the L-shaped top plate and the limiting slide groove in a sliding manner.

The reciprocating slide seat comprises an upper slide seat, an upper rotating shaft, an upper convex plate, a rectangular vertical plate, a lower convex plate, a lower rotating shaft, a driving gear and a T-shaped slide block; the upper sliding seat is connected to a horizontal plate of the L-shaped top plate in a sliding mode, the lower end of the hinge rod is hinged to the upper sliding seat, one end of the upper rotating shaft is connected to the upper sliding seat in a rotating mode through a bearing with a seat, the other end of the upper rotating shaft is fixedly connected with an upper convex plate, two ends of the rectangular vertical plate are respectively fixedly connected with the upper convex plate and a lower convex plate, one end of the lower rotating shaft is fixedly connected with the lower convex plate, the other end of the lower rotating shaft is connected to the T-shaped sliding block in a rotating mode through the bearing with the seat, the driving gear is fixedly connected to the middle end of the lower rotating shaft and is in meshed transmission; two ends of the rectangular vertical plate are respectively connected with a fixed seat in a sliding way.

The fixing seat comprises a cylindrical fixing seat, an annular groove, a vertical plate sliding groove, a baffle, an L-shaped screw seat and a fastening screw, the upper end of the cylindrical fixing seat is hollow, the outer end face of the cylindrical fixing seat is provided with the annular groove, the cylindrical fixing seat is provided with the vertical plate sliding groove, the upper end of the cylindrical fixing seat is provided with the baffle sliding groove, the baffle sliding groove is communicated with the inside of the cylindrical fixing seat, the vertical plate sliding groove is positioned between the annular groove and the baffle sliding groove, one end of the baffle is rotatably connected to the upper end and the lower end of one side of the baffle sliding groove through an articulated shaft, the other end of the baffle is fixedly connected with the L-shaped screw seat, a horizontal plate of the L-shaped screw seat is attached to the top face of the cylindrical; cylindrical fixing base passes through riser spout sliding connection on the rectangle riser.

The driving assembly comprises an upper sliding rod, a lower sliding rod, a gear rotating shaft, a driven gear, a rack V, a reciprocating sliding block, a guide rod, a door-shaped seat, a linkage rod, an arc-shaped plate fixing seat, an arc-shaped plate and a cylindrical rod; two ends of a gear rotating shaft are respectively connected to an upper sliding rod and a lower sliding rod in a rotating mode through bearings with seats, the upper sliding rod and the lower sliding rod are respectively and fixedly connected to the rear ends of an upper sliding seat and a T-shaped sliding block, the middle end of the gear rotating shaft is fixedly connected with a driven gear, the rear end of the driven gear is in meshing transmission with a rack V, the front end of the driven gear is in meshing transmission with a rack III, the rack V is fixedly connected to a reciprocating sliding block, the reciprocating sliding block is connected to a guide rod in a sliding mode, two ends of the guide rod are respectively and fixedly connected to two ends of the rack III through door-shaped seats, one ends of two linkage rods are respectively and rotatably connected to the upper end and the lower end of the reciprocating sliding block through articulated shafts, the other ends of the two linkage rods are respectively and rotatably connected to cylindrical rods, the two cylindrical; the front end of the arc-shaped plate fixing seat is symmetrically and fixedly connected with two arc-shaped plates, and the two arc-shaped plates are in clearance fit with the two ends of the annular groove.

The front end and the rear end of the bottom plate are respectively and fixedly connected with a rectangular stop block.

The oscillating and mixing device for the chemical reagent has the beneficial effects that:

according to the vibration blending device for the chemical reagents, disclosed by the invention, the chemical reagent kit can be driven to carry out multidimensional vibration treatment, so that chemical liquid of the chemical reagent kit can be fully fused, the full reaction is ensured, the experimental effect is achieved, and meanwhile, a plurality of chemical reagent kits can be driven to carry out a contrast test; the invention also solves the problems that manual oscillation shaking takes long time, reagent splashes in the oscillation shaking process, only one container can be oscillated and shaken uniformly once in manual oscillation shaking, and the efficiency is low due to insufficient oscillation caused by manual oscillation.

Drawings

FIG. 1 is a schematic structural diagram of a shaking and mixing device for chemical reagents according to the present invention;

FIG. 2 is a schematic structural diagram of a base;

FIG. 3 is a schematic structural view of a vertical support seat;

FIG. 4 is a schematic cross-sectional view of the vertical support base;

FIG. 5 is a schematic structural diagram of the slide frame;

FIG. 6 is a schematic structural view of the reciprocating slide;

FIG. 7 is a schematic structural view of the fixing base;

FIG. 8 is a first view illustrating a partial structure of the fixing base;

FIG. 9 is a second schematic view of a portion of the fixing base;

FIG. 10 is a first schematic structural diagram of a driving assembly;

fig. 11 is a structural schematic diagram of a driving assembly.

In the figure: a base 1; a bottom plate 1-1; 1-2 of a left L-shaped seat; 1-3 of a right L-shaped seat; 1-4 racks; 1-5 racks; a vertical support base 2; 2-1 of a support column; 2-2 of a left Z-shaped seat plate; 2-3 of a right Z-shaped seat plate; 2-4 of a motor; 2-5 of a driving gear; 2-6 parts of a rectangular telescopic rod; 2-7 parts of external thread rod; 2-8 parts of a central gear; a side sliding frame 3; an inner panel 3-1; an outer panel 3-2; 3-3 of an L-shaped top plate; 3-4 of a rectangular bottom plate; 3-5 of a limiting chute; 3-6 of a rack; 3-7 of a rack; a reciprocating slide 4; an upper slide 4-1; an upper rotating shaft 4-2; 4-3 of an upper convex plate; 4-4 of a rectangular vertical plate; 4-5 parts of a lower convex plate; 4-6 parts of a lower rotating shaft; drive gears 4-7; 4-8 parts of a T-shaped sliding block; a fixed seat 5; a cylindrical fixed seat 5-1; an annular groove 5-2; a vertical plate sliding groove 5-3; 5-4 of baffle sliding chutes; 5-5 parts of a baffle plate; 5-6 parts of an L-shaped screw seat; 5-7 of a fastening screw; a hinge lever 6; a drive assembly 7; an upper sliding rod 7-1; a lower slide bar 7-2; 7-3 of a gear rotating shaft; 7-4 of a driven gear; a rack V7-5; 7-6 of a reciprocating slide block; 7-7 of a guide rod; 7-8 of a door-shaped seat; 7-9 of a linkage rod; 7-10 arc plate fixing seats; 7-11 of arc-shaped plates; cylindrical rods 7-12.

Detailed Description

The invention is described in further detail below with reference to figures 1-11 and the specific implementation.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 11, and a chemical reagent oscillation blending device comprises a base 1, a vertical support base 2, side sliding frames 3, reciprocating slides 4, fixing bases 5, hinge rods 6 and a driving assembly 7, wherein the vertical support base 2 is slidably connected to the base 1, the vertical support base 2 is in transmission connection with the base 1, the two side sliding frames 3 are symmetrically and fixedly connected to two ends of the vertical support base 2, the two reciprocating slides 4 are respectively slidably connected to the two side sliding frames 3, the lower ends of the two reciprocating slides 4 are respectively in transmission connection with the two side sliding frames 3, the two reciprocating slides 4 are respectively slidably connected to the two fixing bases 5, the upper ends of the two hinge rods 6 are respectively hinged to the vertical support base 2, the lower ends of the two hinge rods 6 are respectively hinged to the two reciprocating slides 4, the two driving assemblies 7 are respectively arranged at the rear ends of the two side sliding frames 3, two drive assemblies 7 are respectively in transmission connection with the two side sliding frames 3, two fixing seats 5 on the two reciprocating sliding seats 4 are respectively in clearance fit with the two drive assemblies 7, and the upper ends and the lower ends of the two drive assemblies 7 are respectively fixedly connected with the two reciprocating sliding seats 4. When the chemical reagent box is used, four chemical reagent boxes are respectively placed in four fixed seats 5, the vertical supporting seat 2 is communicated with a power supply and can move back and forth on the base 1 after being opened, so that the four chemical reagent boxes are driven to vibrate back and forth, the vertical supporting seat 2 can drive the two reciprocating slide seats 4 to move left and right through the two hinge rods 6 when working, so that the four chemical reagent boxes are driven to vibrate left and right, the four fixed seats 5 are driven to rotate through meshing transmission with the two side sliding frames 3 when the two reciprocating slide seats 4 move left and right, so that the four chemical reagent boxes are driven to rotate and vibrate, the two driving assemblies 7 can drive the two reciprocating slide seats 4 to work when the two reciprocating slide seats 4 move left and right, and the two driving assemblies 7 respectively drive the two reciprocating.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 11, wherein the base 1 includes a bottom plate 1-1, a left L-shaped seat 1-2, a right L-shaped seat 1-3, a rack i 1-4 and a rack ii 1-5; the left L-shaped seat 1-2 and the right L-shaped seat 1-3 are symmetrically and fixedly connected to two ends of the bottom plate 1-1, the rack I1-4 is fixedly connected to the top surface of the left L-shaped seat 1-2, the rack II 1-5 is fixedly connected to the bottom plate 1-1, and the rack II 1-5 is located between the left L-shaped seat 1-2 and the right L-shaped seat 1-3; the left L-shaped seat 1-2 and the right L-shaped seat 1-3 play a role in supporting and limiting the vertical supporting seat 2.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-11, and the vertical support base 2 includes a support column 2-1, a left Z-shaped base plate 2-2, a right Z-shaped base plate 2-3, a motor 2-4, a driving gear 2-5, a rectangular telescopic rod 2-6, an external threaded rod 2-7 and a central gear 2-8; the left end and the right end of a supporting column 2-1 are respectively fixedly connected with a left Z-shaped seat plate 2-2 and a right Z-shaped seat plate 2-3, the lower ends of the left Z-shaped seat plate 2-2 and the right Z-shaped seat plate 2-3 are respectively connected in a left L-shaped seat 1-2 and a right L-shaped seat 1-3 in a sliding fit manner, a motor 2-4 is fixedly connected at the middle end of the left Z-shaped seat plate 2-2, a driving gear 2-5 is fixedly connected on an output shaft of the motor 2-4, the driving gear 2-5 is in meshing transmission with a rack I1-4, a rectangular sliding groove is arranged at the upper end of the supporting column 2-1, a rectangular telescopic rod 2-6 is in a sliding connection manner in the rectangular sliding groove, the upper end of an external threaded rod 2-7 is connected in the rectangular telescopic rod 2-6 through, the lower end of the external thread rod 2-7 is fixedly connected with a central gear 2-8, and the central gear 2-8 is in meshing transmission with a rack II 1-5; the upper ends of the two hinged rods 6 are respectively hinged at the two ends of the rectangular telescopic rods 2-6. When the vertical supporting seat 2 is used, a motor 2-4 is connected with a power supply and a control switch through a lead and is started, the motor 2-4 drives a driving gear 2-5 to rotate, the driving gear 2-5 drives a left Z-shaped seat plate 2-2 to slide back and forth in a left L-shaped seat 1-2 through meshing transmission with a rack I1-4, the left Z-shaped seat plate 2-2 drives a supporting column 2-1 and a right Z-shaped seat plate 2-3 to move back and forth, the left L-shaped seat 1-2 and the right L-shaped seat 1-3 limit the movement of the left Z-shaped seat plate 2-2 and the right Z-shaped seat plate 2-3 in the vertical direction, so that the supporting column 2-1 can only move back and forth, the supporting column 2-1 moves back and forth to drive four chemical reagent boxes to vibrate back and forth, the external thread rods 2-7 and the central gear 2-8 move back and forth, the central gear 2-8 drives the central gear 2-8 to rotate around the axis of the central gear through meshing transmission with the racks II 1-5, the central gear 2-8 drives the external thread rods 2-7 to rotate, the rectangular telescopic rods 2-6 can only slide up and down in the supporting columns 2-1, the external thread rods 2-7 drive the rectangular telescopic rods 2-6 to move up and down through threads when rotating, and the rectangular telescopic rods 2-6 drive the inner ends of the two hinged rods 6 to move up and down when moving up and down.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-11, and the side sliding frame 3 includes an inner plate 3-1, an outer plate 3-2, an L-shaped top plate 3-3, a rectangular bottom plate 3-4, a limiting chute 3-5, a rack iii 3-6 and a rack iv 3-7; the inner end of the inner plate 3-1 is fixedly connected to the outer end face of the support pillar 2-1, the upper ends of the inner plate 3-1 and the outer plate 3-2 are fixedly connected with an L-shaped top plate 3-3, the lower ends of the inner plate 3-1 and the outer plate 3-2 are fixedly connected with a rectangular bottom plate 3-4, a limiting sliding groove 3-5 is arranged on the rectangular bottom plate 3-4, two ends of a rack III 3-6 are respectively and fixedly connected to the middle ends of the inner plate 3-1 and the outer plate 3-2, two ends of a rack IV 3-7 are respectively and fixedly connected between the inner plate 3-1 and the outer plate 3-2, and the rack IV 3-7 is positioned between the rack III 3-6 and the; two ends of the reciprocating slide seat 4 are respectively connected in the L-shaped top plate 3-3 and the limiting slide groove 3-5 in a sliding manner. When the sideslip frame 3 is used, the inner ends of the two hinge rods 6 move up and down to drive the two reciprocating slide bases 4 to move left and right on the two sideslip frames 3, and the two reciprocating slide bases 4 move left and right to drive the four chemical reagent boxes to vibrate left and right; the L-shaped top plate 3-3 limits the reciprocating slide seat 4 to move up and down, and the limiting slide grooves 3-5 limit the reciprocating slide seat 4 to move back and forth, so that the reciprocating slide seat 4 can only move left and right along the L-shaped top plate 3-3.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-11, and the reciprocating slide 4 includes an upper slide 4-1, an upper rotating shaft 4-2, an upper convex plate 4-3, a rectangular vertical plate 4-4, a lower convex plate 4-5, a lower rotating shaft 4-6, a driving gear 4-7 and a T-shaped slide block 4-8; an upper sliding seat 4-1 is connected to a horizontal plate of an L-shaped top plate 3-3 in a sliding mode, the lower end of a hinge rod 6 is hinged to the upper sliding seat 4-1, one end of an upper rotating shaft 4-2 is connected to the upper sliding seat 4-1 in a rotating mode through a bearing with a seat, the other end of the upper rotating shaft 4-2 is fixedly connected with an upper convex plate 4-3, two ends of a rectangular vertical plate 4-4 are respectively and fixedly connected with the upper convex plate 4-3 and a lower convex plate 4-5, one end of a lower rotating shaft 4-6 is fixedly connected with a lower convex plate 4-5, the other end of the lower rotating shaft 4-6 is connected to a T-shaped sliding block 4-8 in a rotating mode through a bearing with a seat, a driving gear 4-7 is fixedly connected to the middle end of the lower rotating shaft 4-6, the driving gear 4-7 is in meshing transmission with an; two ends of the rectangular vertical plate 4-4 are respectively connected with a fixed seat 5 in a sliding way. When the reciprocating slide seat 4 is used, the hinge rod 6 drives the upper slide seat 4-1 to move left and right, the upper slide seat 4-1 drives the upper rotating shaft 4-2, the upper convex plate 4-3, the rectangular vertical plate 4-4 and the lower convex plate 4-5, the lower rotating shaft 4-6, the driving gear 4-7 and the T-shaped sliding block 4-8 move left and right, the driving gear 4-7 drives the driving gear 4-7 to rotate around the axis of the driving gear through meshing transmission with the rack IV 3-7, the driving gear 4-7 drives the lower rotating shaft 4-6 to rotate around the axis of the driving gear, the lower rotating shaft 4-6 drives the lower convex plate 4-5, the rectangular vertical plate 4-4 and the upper convex plate 4-3 to do circular motion around the axis of the lower rotating shaft 4-6, and the rectangular vertical plate 4-4 drives the two chemical reagent kits on the lower rotating shaft to rotate and oscillate.

The sixth specific implementation mode:

the present embodiment will be described with reference to fig. 1-11, wherein the fixing base 5 includes a cylindrical fixing base 5-1, an annular groove 5-2, a riser sliding groove 5-3, a baffle sliding groove 5-4, a baffle 5-5, an L-shaped screw base 5-6 and a fastening screw 5-7, the upper end of the cylindrical fixing base 5-1 is hollowed, the annular groove 5-2 is provided on the outer end surface of the cylindrical fixing base 5-1, the vertical riser sliding groove 5-3 is provided on the cylindrical fixing base 5-1, the upper end of the cylindrical fixing base 5-1 is provided with a baffle sliding groove 5-4, the baffle sliding groove 5-4 is communicated with the interior of the cylindrical fixing base 5-1, the riser sliding groove 5-3 is located between the annular groove 5-2 and the baffle sliding groove 5-4, and one end of the baffle 5-5 is rotatably connected to the upper At two ends, the other end of the baffle 5-5 is fixedly connected with an L-shaped screw seat 5-6, a horizontal plate of the L-shaped screw seat 5-6 is attached to the top surface of the cylindrical fixed seat 5-1, a fastening screw 5-7 is connected to the horizontal plate of the L-shaped screw seat 5-6 through a thread, and the fastening screw 5-7 is pressed against the top surface of the cylindrical fixed seat 5-1; the cylindrical fixed seat 5-1 is connected to the rectangular vertical plate 4-4 in a sliding manner through a vertical plate sliding groove 5-3. When the fixing seat 5 is used, after the fastening screws 5-7 are loosened, the baffle plate 5-5 is rotated 90 degrees clockwise, the chemical reagent kit is placed into the cylindrical fixing seat 5-1, the baffle plate 5-5 is rotated 90 degrees counterclockwise, then the fastening screws 5-7 are screwed to fix the position of the baffle plate 5-5, so that the position of the chemical reagent kit is fixed in the cylindrical fixing seat 5-1, the cylindrical fixing seat 5-1 is connected to the rectangular vertical plate 4-4 in a sliding mode through the vertical plate sliding groove 5-3, and the cylindrical fixing seat 5-1 can be driven to rotate when the rectangular vertical plate 4-4 does circular motion, so that the chemical reagent kit is driven to rotate and vibrate.

The seventh embodiment:

the embodiment is described below with reference to fig. 1 to 11, and the driving assembly 7 includes an upper sliding rod 7-1, a lower sliding rod 7-2, a gear rotating shaft 7-3, a driven gear 7-4, a rack v 7-5, a reciprocating slider 7-6, a guide rod 7-7, a door-shaped seat 7-8, a linkage rod 7-9, an arc-shaped plate fixing seat 7-10, an arc-shaped plate 7-11 and a cylindrical rod 7-12; two ends of a gear rotating shaft 7-3 are respectively and rotatably connected to an upper sliding rod 7-1 and a lower sliding rod 7-2 through a bearing with a seat, the upper sliding rod 7-1 and the lower sliding rod 7-2 are respectively and fixedly connected to the rear ends of an upper sliding seat 4-1 and a T-shaped sliding block 4-8, the middle end of the gear rotating shaft 7-3 is fixedly connected with a driven gear 7-4, the rear end of the driven gear 7-4 is in meshing transmission with a rack V7-5, the front end of the driven gear 7-4 is in meshing transmission with a rack III 3-6, the rack V7-5 is fixedly connected to a reciprocating sliding block 7-6, the reciprocating sliding block 7-6 is slidably connected to a guide rod 7-7, two ends of the guide rod 7-7 are respectively and fixedly connected to two ends of the rack III 3-6 through a door-shaped seat 7-8, one end of two articulated shafts 7-9 are respectively and rotatably The upper end and the lower end of the connecting rod 6, the other ends of the two linkage rods 7-9 are respectively and rotatably connected to the cylindrical rods 7-12, the two cylindrical rods 7-12 are respectively and fixedly connected to the two arc-shaped plate fixing seats 7-10, and the rear ends of the two arc-shaped plate fixing seats 7-10 are respectively and slidably connected to the upper sliding rod 7-1 and the lower sliding rod 7-2; the front ends of the arc-shaped plate fixing seats 7-10 are symmetrically and fixedly connected with two arc-shaped plates 7-11, and the two arc-shaped plates 7-11 are in clearance fit with the two ends of the annular groove 5-2. When the driving component 7 is used, the upper sliding seat 4-1 and the T-shaped sliding block 4-8 drive the upper sliding rod 7-1 and the lower sliding rod 7-2 to move left and right, the upper sliding rod 7-1 and the lower sliding rod 7-2 drive the gear rotating shaft 7-3 and the driven gear 7-4 to move left and right, the driven gear 7-4 drives the driven gear 7-4 to rotate around the axis of the driven gear through meshing transmission with the rack III 3-6, the driven gear 7-4 drives the rack V7-5 to move left and right through meshing transmission with the rack V7-5, the rack V7-5 drives the reciprocating sliding block 7-6 to move left and right, the inner ends of the two linkage rods 7-9 are driven to move left and right when the reciprocating sliding block 7-6 moves, the outer ends of the two linkage rods 7-9 drive the two arc-shaped plate fixing seats, the arc-shaped plate fixing seat 7-10 drives the chemical reagent kit in the cylindrical fixing seat 5-1 to vibrate up and down; the two arc plates 7-11 are in clearance fit with the two ends of the annular groove 5-2, so that the cylindrical fixed seat 5-1 can rotate between the two arc plates 7-11.

The front end and the rear end of the bottom plate 1-1 are respectively and fixedly connected with a rectangular stop block, so that the vertical supporting seat 2 is prevented from exceeding the stroke and being separated from the base 1 in the moving process.

The invention relates to a working principle of a vibration mixing device for chemical reagents, which comprises the following steps: when the chemical reagent box is used, four chemical reagent boxes are respectively placed in four fixed seats 5, the vertical supporting seat 2 is communicated with a power supply and can move back and forth on the base 1 after being opened, so that the four chemical reagent boxes are driven to vibrate back and forth, the vertical supporting seat 2 can drive the two reciprocating slide seats 4 to move left and right through the two hinge rods 6 when working, so that the four chemical reagent boxes are driven to vibrate left and right, the four fixed seats 5 are driven to rotate through meshing transmission with the two side sliding frames 3 when the two reciprocating slide seats 4 move left and right, so that the four chemical reagent boxes are driven to rotate and vibrate, the two driving assemblies 7 can drive the two reciprocating slide seats 4 to work when the two reciprocating slide seats 4 move left and right, and the two driving assemblies 7 respectively drive the two reciprocating. When the vertical supporting seat 2 is used, a motor 2-4 is connected with a power supply and a control switch through a lead and is started, the motor 2-4 drives a driving gear 2-5 to rotate, the driving gear 2-5 drives a left Z-shaped seat plate 2-2 to slide back and forth in a left L-shaped seat 1-2 through meshing transmission with a rack I1-4, the left Z-shaped seat plate 2-2 drives a supporting column 2-1 and a right Z-shaped seat plate 2-3 to move back and forth, the left L-shaped seat 1-2 and the right L-shaped seat 1-3 limit the movement of the left Z-shaped seat plate 2-2 and the right Z-shaped seat plate 2-3 in the vertical direction, so that the supporting column 2-1 can only move back and forth, the supporting column 2-1 moves back and forth to drive four chemical reagent boxes to vibrate back and forth, the external thread rods 2-7 and the central gear 2-8 move back and forth, the central gear 2-8 drives the central gear 2-8 to rotate around the axis of the central gear through meshing transmission with the racks II 1-5, the central gear 2-8 drives the external thread rods 2-7 to rotate, the rectangular telescopic rods 2-6 can only slide up and down in the supporting columns 2-1, the external thread rods 2-7 drive the rectangular telescopic rods 2-6 to move up and down through threads when rotating, and the rectangular telescopic rods 2-6 drive the inner ends of the two hinged rods 6 to move up and down when moving up and down. When the sideslip frame 3 is used, the inner ends of the two hinge rods 6 move up and down to drive the two reciprocating slide bases 4 to move left and right on the two sideslip frames 3, and the two reciprocating slide bases 4 move left and right to drive the four chemical reagent boxes to vibrate left and right; the L-shaped top plate 3-3 limits the reciprocating slide seat 4 to move up and down, and the limiting slide grooves 3-5 limit the reciprocating slide seat 4 to move back and forth, so that the reciprocating slide seat 4 can only move left and right along the L-shaped top plate 3-3. When the reciprocating slide seat 4 is used, the hinge rod 6 drives the upper slide seat 4-1 to move left and right, the upper slide seat 4-1 drives the upper rotating shaft 4-2, the upper convex plate 4-3, the rectangular vertical plate 4-4 and the lower convex plate 4-5, the lower rotating shaft 4-6, the driving gear 4-7 and the T-shaped sliding block 4-8 move left and right, the driving gear 4-7 drives the driving gear 4-7 to rotate around the axis of the driving gear through meshing transmission with the rack IV 3-7, the driving gear 4-7 drives the lower rotating shaft 4-6 to rotate around the axis of the driving gear, the lower rotating shaft 4-6 drives the lower convex plate 4-5, the rectangular vertical plate 4-4 and the upper convex plate 4-3 to do circular motion around the axis of the lower rotating shaft 4-6, and the rectangular vertical plate 4-4 drives the two chemical reagent kits on the lower rotating shaft to rotate and oscillate. When the fixing seat 5 is used, after the fastening screws 5-7 are loosened, the baffle plate 5-5 is rotated 90 degrees clockwise, the chemical reagent kit is placed into the cylindrical fixing seat 5-1, the baffle plate 5-5 is rotated 90 degrees counterclockwise, then the fastening screws 5-7 are screwed to fix the position of the baffle plate 5-5, so that the position of the chemical reagent kit is fixed in the cylindrical fixing seat 5-1, the cylindrical fixing seat 5-1 is connected to the rectangular vertical plate 4-4 in a sliding mode through the vertical plate sliding groove 5-3, and the cylindrical fixing seat 5-1 can be driven to rotate when the rectangular vertical plate 4-4 does circular motion, so that the chemical reagent kit is driven to rotate and vibrate. When the driving component 7 is used, the upper sliding seat 4-1 and the T-shaped sliding block 4-8 drive the upper sliding rod 7-1 and the lower sliding rod 7-2 to move left and right, the upper sliding rod 7-1 and the lower sliding rod 7-2 drive the gear rotating shaft 7-3 and the driven gear 7-4 to move left and right, the driven gear 7-4 drives the driven gear 7-4 to rotate around the axis of the driven gear through meshing transmission with the rack III 3-6, the driven gear 7-4 drives the rack V7-5 to move left and right through meshing transmission with the rack V7-5, the rack V7-5 drives the reciprocating sliding block 7-6 to move left and right, the inner ends of the two linkage rods 7-9 are driven to move left and right when the reciprocating sliding block 7-6 moves, the outer ends of the two linkage rods 7-9 drive the two arc-shaped plate fixing seats, the arc-shaped plate fixing seat 7-10 drives the chemical reagent kit in the cylindrical fixing seat 5-1 to vibrate up and down; the two arc plates 7-11 are in clearance fit with the two ends of the annular groove 5-2, so that the cylindrical fixed seat 5-1 can rotate between the two arc plates 7-11.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a chemical reagent's shock mixing device, includes base (1), erects supporting seat (2), sideslip frame (3), reciprocal slide (4), fixing base (5), hinge bar (6) and drive assembly (7), its characterized in that: the vertical supporting seat (2) is connected on the base (1) in a sliding way, the vertical supporting seat (2) is connected with the base (1) in a transmission way, the two sideslip frames (3) are symmetrically and fixedly connected at two ends of the vertical supporting seat (2), the two reciprocating sliding seats (4) are respectively connected on the two sideslip frames (3) in a sliding way, the lower ends of the two reciprocating sliding seats (4) are respectively connected with the two sideslip frames (3) in a transmission way, the number of the fixing seats (5) is four, the two reciprocating sliding seats (4) are respectively connected with the two fixing seats (5) in a sliding way, the upper ends of the two hinge rods (6) are respectively hinged on the vertical supporting seat (2), the lower ends of the two hinge rods (6) are respectively hinged on the two reciprocating sliding seats (4), the two driving assemblies (7) are respectively arranged at the rear ends of the two sideslip frames (3), and the two driving assemblies (7) are respectively, two fixed seats (5) on the two reciprocating sliding seats (4) are respectively in clearance fit with two driving components (7), and the upper end and the lower end of each driving component (7) are respectively fixedly connected with the two reciprocating sliding seats (4);

the base (1) comprises a bottom plate (1-1), a left L-shaped seat (1-2), a right L-shaped seat (1-3), a rack I (1-4) and a rack II (1-5); the left L-shaped seat (1-2) and the right L-shaped seat (1-3) are symmetrically and fixedly connected to two ends of the bottom plate (1-1), the rack I (1-4) is fixedly connected to the top surface of the left L-shaped seat (1-2), the rack II (1-5) is fixedly connected to the bottom plate (1-1), and the rack II (1-5) is located between the left L-shaped seat (1-2) and the right L-shaped seat (1-3);

the vertical supporting seat (2) comprises a supporting column (2-1), a left Z-shaped seat plate (2-2), a right Z-shaped seat plate (2-3), a motor (2-4), a driving gear (2-5), a rectangular telescopic rod (2-6), an external threaded rod (2-7) and a central gear (2-8); the left end and the right end of a supporting column (2-1) are respectively fixedly connected with a left Z-shaped seat plate (2-2) and a right Z-shaped seat plate (2-3), the lower ends of the left Z-shaped seat plate (2-2) and the right Z-shaped seat plate (2-3) are respectively connected in a left L-shaped seat (1-2) and a right L-shaped seat (1-3) in a sliding fit manner, a motor (2-4) is fixedly connected at the middle end of the left Z-shaped seat plate (2-2), a driving gear (2-5) is fixedly connected on an output shaft of the motor (2-4), the driving gear (2-5) is in meshing transmission with a rack I (1-4), a rectangular sliding groove is arranged at the upper end of the supporting column (2-1), a rectangular telescopic rod (2-6) is in the rectangular sliding groove in a sliding manner, the upper end of an external threaded rod (2-7) is, the lower end of the external thread rod (2-7) is in clearance fit with the lower end of the support column (2-1), the lower end of the external thread rod (2-7) is fixedly connected with a central gear (2-8), and the central gear (2-8) is in meshing transmission with the rack II (1-5); the upper ends of the two hinged rods (6) are respectively hinged at the two ends of the rectangular telescopic rods (2-6);

the side sliding frame (3) comprises an inner plate (3-1), an outer plate (3-2), an L-shaped top plate (3-3), a rectangular bottom plate (3-4), a limiting sliding groove (3-5), a rack III (3-6) and a rack IV (3-7); the inner end of the inner plate (3-1) is fixedly connected to the outer end face of the support column (2-1), the upper ends of the inner plate (3-1) and the outer plate (3-2) are fixedly connected with an L-shaped top plate (3-3), the lower ends of the inner plate (3-1) and the outer plate (3-2) are fixedly connected with a rectangular bottom plate (3-4), a limiting sliding groove (3-5) is arranged on the rectangular bottom plate (3-4), two ends of a rack III (3-6) are respectively and fixedly connected to the middle ends of the inner plate (3-1) and the outer plate (3-2), two ends of a rack IV (3-7) are respectively and fixedly connected between the inner plate (3-1) and the outer plate (3-2), and the rack IV (3-7) is located between the rack III (3-6) and the rectangular bottom plate (; two ends of the reciprocating slide seat (4) are respectively connected in the L-shaped top plate (3-3) and the limiting slide groove (3-5) in a sliding manner;

the reciprocating slide seat (4) comprises an upper slide seat (4-1), an upper rotating shaft (4-2), an upper convex plate (4-3), a rectangular vertical plate (4-4), a lower convex plate (4-5), a lower rotating shaft (4-6), a driving gear (4-7) and a T-shaped slide block (4-8); an upper sliding seat (4-1) is connected to a horizontal plate of an L-shaped top plate (3-3) in a sliding manner, the lower end of a hinge rod (6) is hinged to the upper sliding seat (4-1), one end of an upper rotating shaft (4-2) is connected to the upper sliding seat (4-1) in a rotating manner, the other end of the upper rotating shaft (4-2) is fixedly connected with an upper convex plate (4-3), the two ends of a rectangular vertical plate (4-4) are respectively and fixedly connected with the upper convex plate (4-3) and a lower convex plate (4-5), one end of the lower rotating shaft (4-6) is fixedly connected with a lower convex plate (4-5), the other end of the lower rotating shaft (4-6) is connected to a T-shaped sliding block (4-8) in a rotating manner, a driving gear (4-7) is fixedly connected to the middle end of the lower rotating shaft (4-6), and the driving gear (4, the lower end of the T-shaped sliding block (4-8) is connected in the limiting sliding groove (3-5) in a sliding manner; two ends of the rectangular vertical plate (4-4) are respectively connected with a fixed seat (5) in a sliding way;

the fixing seat (5) comprises a cylindrical fixing seat (5-1), an annular groove (5-2), a vertical plate sliding groove (5-3), a baffle plate sliding groove (5-4), a baffle plate (5-5), an L-shaped screw seat (5-6) and a fastening screw (5-7), the upper end of the cylindrical fixing seat (5-1) is hollow, the annular groove (5-2) is arranged on the outer end face of the cylindrical fixing seat (5-1), the vertical plate sliding groove (5-3) is arranged on the cylindrical fixing seat (5-1), the baffle plate sliding groove (5-4) is arranged at the upper end of the cylindrical fixing seat (5-1), the baffle plate sliding groove (5-4) is communicated with the inside of the cylindrical fixing seat (5-1), and the vertical plate sliding groove (5-3) is positioned between the annular groove (5-2) and the baffle plate sliding groove, one end of the baffle (5-5) is rotatably connected to the upper end and the lower end of one side of the baffle sliding chute (5-4) through a hinged shaft, the other end of the baffle (5-5) is fixedly connected with an L-shaped screw seat (5-6), a horizontal plate of the L-shaped screw seat (5-6) is attached to the top surface of the cylindrical fixed seat (5-1), a horizontal plate of the L-shaped screw seat (5-6) is connected with a fastening screw (5-7) through threads, and the fastening screw (5-7) is pressed against the top surface of the cylindrical fixed seat (5-1); the cylindrical fixed seat (5-1) is connected to the rectangular vertical plate (4-4) in a sliding manner through a vertical plate sliding groove (5-3);

the driving assembly (7) comprises an upper sliding rod (7-1), a lower sliding rod (7-2), a gear rotating shaft (7-3), a driven gear (7-4), a rack V (7-5), a reciprocating sliding block (7-6), a guide rod (7-7), a door-shaped seat (7-8), a linkage rod (7-9), an arc-shaped plate fixing seat (7-10), an arc-shaped plate (7-11) and a cylindrical rod (7-12); two ends of a gear rotating shaft (7-3) are respectively and rotatably connected to an upper sliding rod (7-1) and a lower sliding rod (7-2), the upper sliding rod (7-1) and the lower sliding rod (7-2) are respectively and fixedly connected to the rear ends of an upper sliding seat (4-1) and a T-shaped sliding block (4-8), the middle end of the gear rotating shaft (7-3) is fixedly connected with a driven gear (7-4), the rear end of the driven gear (7-4) is in meshing transmission with a rack V (7-5), the front end of the driven gear (7-4) is in meshing transmission with a rack III (3-6), the rack V (7-5) is fixedly connected to a reciprocating sliding block (7-6), the reciprocating sliding block (7-6) is slidably connected to a guide rod (7-7), and two ends of the guide rod (7-7) are respectively and fixedly connected to two ends of the rack (3-6) through a door-shaped seat (7-8) One end of each linkage rod (7-9) is rotatably connected to the upper end and the lower end of the reciprocating slide block (7-6) through a hinged shaft, the other end of each linkage rod (7-9) is rotatably connected to a cylindrical rod (7-12), the two cylindrical rods (7-12) are fixedly connected to two arc-shaped plate fixing seats (7-10) respectively, and the rear ends of the two arc-shaped plate fixing seats (7-10) are slidably connected to an upper slide rod (7-1) and a lower slide rod (7-2) respectively; the front ends of the arc-shaped plate fixing seats (7-10) are symmetrically and fixedly connected with two arc-shaped plates (7-11), and the two arc-shaped plates (7-11) are in clearance fit with the two ends of the annular groove (5-2).

2. The oscillating blending device of chemical reagents according to claim 1, characterized in that: the front end and the rear end of the bottom plate (1-1) are respectively and fixedly connected with a rectangular stop block.