CN109499455B

CN109499455B - Chemical reagent mixing reaction device

Info

Publication number: CN109499455B
Application number: CN201811418486.5A
Authority: CN
Inventors: 臧瑞
Original assignee: Shandong Bio Biotechnology Co ltd
Current assignee: SHANDONG BIO BIOTECHNOLOGY Co.,Ltd.
Priority date: 2018-11-26
Filing date: 2018-11-26
Publication date: 2021-06-11
Anticipated expiration: 2038-11-26
Also published as: CN109499455A

Abstract

The invention relates to the field of chemical experimental equipment, in particular to a chemical reagent mixing reaction device. The vertical supporting seat is connected to the base in a sliding mode, 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 connected to the two side sliding frames in a sliding mode, the two reciprocating sliding seats are respectively connected to the two fixing seats in a sliding mode, the two fixing seats are respectively in transmission connection with the two side sliding frames, the upper ends of the two hinge rods are respectively hinged to the vertical supporting seat, and the lower ends of the two hinge rods are respectively hinged to the two reciprocating sliding seats; the invention can drive the chemical kit to carry out multidimensional oscillation treatment, so that chemical liquid of the chemical kit is fully fused, full reaction is ensured, and an experimental effect is achieved.

Description

Chemical reagent mixing reaction device

Technical Field

The invention relates to the field of chemical experimental equipment, in particular to a chemical reagent mixing reaction device.

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 chemical reagent mixing reaction device which has the advantages that the chemical reagent mixing reaction device can drive a chemical reagent kit to carry out multidimensional oscillation 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, the chemical reagent kit mixing reaction device can simultaneously drive two chemical reagent kits to carry out a comparative test.

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

a chemical reagent mixing reaction device comprises a base, a vertical supporting seat, side sliding frames, reciprocating sliding seats, fixing seats, hinge rods, driving components and linkage rods, 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 two reciprocating sliding seats are respectively in sliding connection with the two reciprocating sliding seats, the two fixing seats are respectively in transmission connection with the two side sliding frames, 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 on the two reciprocating sliding seats, the lower ends of the two driving components are respectively in transmission connection with the two side sliding frames, and the upper ends of, the lower ends of the two linkage rods are respectively and rotatably connected to the two driving assemblies, and the upper ends of the two linkage rods are respectively and rotatably connected to the two fixing 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, a top plate, a rectangular rod, a bottom plate, a limiting sliding groove and a rack III; the inner fixed connection of inner panel is on the outer terminal surface of support column, and roof and bottom plate fixed connection are at the upper and lower both ends of the outer terminal surface of inner panel respectively, and rectangle pole fixed connection is provided with spacing spout on the bottom plate at the front end of roof, the front end fixedly connected with rack III of spacing spout on the bottom plate.

The reciprocating slide seat comprises an upper slide seat, a rectangular limiting groove, a slide frame, a rectangular through groove, a lower slide seat, a rectangular slide block and a rack IV; the upper sliding seat is provided with a rectangular limiting groove, the upper sliding seat is connected to a rectangular rod in a sliding mode through the rectangular limiting groove, the lower end of the hinge rod is hinged to the upper sliding seat, the upper ends of the two sliding frames are symmetrically and fixedly connected to the two ends of the upper sliding seat, the lower ends of the two sliding frames are symmetrically and fixedly connected to the two ends of the lower sliding seat, the lower end of the lower sliding seat is fixedly connected with a rectangular sliding block, the rectangular sliding block is connected into a rack II in a sliding mode, and the two ends of a rack IV are fixedly connected to the left end faces of the; and rectangular through grooves are formed in the two sliding frames.

The fixed seat comprises a chemical kit, a box end cover, a first rotating shaft, a first T-shaped sliding block, a driving gear, a round rod seat, a cylindrical rod, a second rotating shaft and a second T-shaped sliding block; the box end cover is connected to the chemical kit through threads, a first rotating shaft and a second rotating shaft are fixedly connected to two ends of the chemical kit respectively, the first rotating shaft and the second rotating shaft are in clearance fit in a first T-shaped sliding block and a second T-shaped sliding block respectively, and the first T-shaped sliding block and the second T-shaped sliding block are connected in the two rectangular through grooves in a sliding mode respectively; the first rotating shaft is fixedly connected with a driving gear, and the driving gear is in meshing transmission with the rack IV; the front end of the first T-shaped sliding block is fixedly connected with a round rod seat, the cylindrical rod is fixedly connected to the round rod seat, and the upper end of the linkage rod is rotatably connected to the cylindrical rod.

The driving assembly comprises a driving gear, a driving belt wheel, a belt wheel rotating shaft, a driven belt wheel, a rotary table rotating shaft, a rotary table, a limiting sliding seat and an adjustable sliding block; the driving gear and the driving pulley are fixedly connected to a pulley rotating shaft, the driving gear is meshed with the rack III for transmission, the rear end of the pulley rotating shaft is connected to the front end of a sliding frame at the outer end through a belt seat bearing in a rotating mode, the driving pulley and the driven pulley are connected through a belt in a transmission mode, the driven pulley and the rotary table are fixedly connected to a rotary table rotating shaft in a rotating mode, the rear end of the rotary table rotating shaft is connected to the front end of the sliding frame at the outer end through a belt seat bearing in a rotating mode, the rotary table is located at the front end of the driven pulley, a limiting sliding seat is fixedly connected to the front end face of the rotary table, an adjustable sliding.

The lower end of the limiting sliding seat is provided with a screw seat plate sliding groove communicated with the inside of the limiting sliding seat.

Adjustable slide block sliding connection in spacing slide, adjustable slide block's lower extreme fixedly connected with screw bedplate, screw bedplate sliding connection is in screw bedplate spout, fastening screw passes through threaded connection on the screw bedplate, fastening screw is located the outer end of spacing slide, fastening screw top is on the carousel, adjustable slide block's front end fixedly connected with short round bar, the lower extreme of gangbar rotates to be connected on short round bar.

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

The chemical reagent mixing reaction device has the beneficial effects that:

according to the chemical reagent mixing reaction device, the chemical reagent kit can be driven to carry out multidimensional oscillation treatment, so that chemical liquid of the chemical reagent kit can be fully fused, full reaction is guaranteed, an experimental effect is achieved, and meanwhile, two chemical reagent kits can be driven to carry out a comparative 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 chemical reagent mixing reaction apparatus 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 first schematic structural view of a fixing base;

FIG. 8 is a second schematic structural view of the fixing base;

FIG. 9 is a 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 second schematic structural view of the driving assembly;

FIG. 12 is a schematic structural view of the position limiting slider;

fig. 13 is a schematic structural diagram of an adjustable slider.

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; a top plate 3-2; 3-3 of a rectangular rod; 3-4 of a bottom plate; 3-5 of a limiting chute; 3-6 of a rack; a reciprocating slide 4; an upper slide 4-1; a rectangular limiting groove 4-2; 4-3 of a sliding frame; 4-4 of a rectangular through groove; 4-5 of a lower sliding seat; 4-6 of a rectangular sliding block; 4-7 of a rack; a fixed seat 5; 5-1 of a chemical kit; 5-2 parts of a box end cover; a first rotating shaft 5-3; a first T-shaped slide block 5-4; 5-5 of a driving gear; 5-6 parts of a round rod seat; 5-7 parts of a cylindrical rod; 5-8 parts of a second rotating shaft; a second T-shaped slide block 5-9; a hinge lever 6; a drive assembly 7; a driving gear 7-1; a driving pulley 7-2; 7-3 of a belt wheel rotating shaft; 7-4 of a driven belt wheel; 7-5 of a rotary table rotating shaft; 7-6 of a turntable; a limiting sliding seat 7-7; a screw seat plate sliding groove 7-7-1; 7-8 parts of adjustable sliding block; a screw seat plate 7-8-1; fastening screws 7-8-2; 7-8-3 parts of short round rod; a linkage rod 8.

Detailed Description

The invention is described in further detail below with reference to figures 1-13 and the specific implementation.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 13, and a chemical reagent mixing reaction apparatus comprises a base 1, a vertical support base 2, side sliding frames 3, reciprocating slides 4, fixing bases 5, hinge rods 6, a driving assembly 7 and linkage rods 8, 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 two reciprocating slides 4 are respectively slidably connected to the two fixing bases 5, the two fixing bases 5 are respectively in transmission connection with the two side sliding frames 3, 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 on the two reciprocating slides 4, the lower ends of the two driving assemblies 7 are respectively in transmission connection with the two edge sliding frames 3, the upper ends of the two driving assemblies 7 are respectively in rotation connection with the two fixing seats 5, the lower ends of the two linkage rods 8 are respectively in rotation connection with the two driving assemblies 7, and the upper ends of the two linkage rods 8 are respectively in rotation connection with the two fixing seats 5. When the chemical reagent feeding device is used, 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 chemical reagents in the two fixing seats 5 are driven to oscillate back and forth, the vertical supporting seat 2 can drive the two reciprocating sliding seats 4 to move left and right through the two hinge rods 6 when working, so that the chemical reagents in the two fixing seats 5 are driven to oscillate left and right, the two driving assemblies 7 can be driven to work in the process of moving the two reciprocating sliding seats 4 left and right, the two driving assemblies 7 respectively drive the two fixing seats 5 to move up and down on the two reciprocating sliding seats 4 through the linkage rods 8, so that the chemical reagents in the two fixing seats 5 are driven to oscillate up and down, and the amplitude of the up and down oscillation; the in-process that two fixing bases 5 reciprocated is connected through the transmission with two reciprocating slide 4 and is driven two fixing bases 5 and rotate to drive the rotatory vibration of the chemical reagent in two fixing bases 5.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1-13, 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. 1-13, 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 chemical reagents in two fixing seats 5 to vibrate back and forth, and, 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 to 13, and the side sliding frame 3 includes an inner plate 3-1, a top plate 3-2, a rectangular rod 3-3, a bottom plate 3-4, a limiting sliding groove 3-5 and a rack iii 3-6; the inner end of the inner plate 3-1 is fixedly connected to the outer end face of the support column 2-1, the top plate 3-2 and the bottom plate 3-4 are fixedly connected to the upper end and the lower end of the outer end face of the inner plate 3-1 respectively, the rectangular rod 3-3 is fixedly connected to the front end of the top plate 3-2, the bottom plate 3-4 is provided with a limiting sliding groove 3-5, and the front end of the limiting sliding groove 3-5 is fixedly connected with a rack III 3-6. 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 chemical reagents in the two fixed seats 5 to vibrate left and right; the rectangular rod 3-3 limits the reciprocating slide 4 to move up and down, and the limiting slide groove 3-5 limits the reciprocating slide 4 to move back and forth, so that the reciprocating slide 4 can only move left and right along the rectangular rod 3-3.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 13, and the reciprocating slide 4 includes an upper slide 4-1, a rectangular limiting groove 4-2, a slide frame 4-3, a rectangular through groove 4-4, a lower slide 4-5, a rectangular slide block 4-6 and a rack iv 4-7; the upper sliding seat 4-1 is provided with a rectangular limiting groove 4-2, the upper sliding seat 4-1 is connected to a rectangular rod 3-3 in a sliding manner through the rectangular limiting groove 4-2, the lower end of a hinge rod 6 is hinged to the upper sliding seat 4-1, the upper ends of two sliding frames 4-3 are symmetrically and fixedly connected to the two ends of the upper sliding seat 4-1, the lower ends of the two sliding frames 4-3 are symmetrically and fixedly connected to the two ends of a lower sliding seat 4-5, the lower end of the lower sliding seat 4-5 is fixedly connected with a rectangular sliding block 4-6, the rectangular sliding block 4-6 is connected in a rack II 1-5 in a sliding manner, and the two ends of a rack IV 4-7 are fixedly connected to the left end faces of the upper sliding seat 4-; the two sliding frames 4-3 are respectively provided with a rectangular through groove 4-4. When the reciprocating slide seat 4 is used, the hinge rod 6 drives the upper slide seat 4-1 to move left and right, and the upper slide seat 4-1 drives the two slide frames 4-3, the rectangular through groove 4-4, the lower slide seat 4-5, the rectangular slide block 4-6 and the rack IV 4-7 to move left and right.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1 to 13, where the fixing base 5 includes a chemical reagent kit 5-1, a kit end cap 5-2, a first rotating shaft 5-3, a first T-shaped slider 5-4, a driving gear 5-5, a circular rod base 5-6, a cylindrical rod 5-7, a second rotating shaft 5-8, and a second T-shaped slider 5-9; the box end cover 5-2 is connected to the chemical kit 5-1 through threads, two ends of the chemical kit 5-1 are fixedly connected with a first rotating shaft 5-3 and a second rotating shaft 5-8 respectively, the first rotating shaft 5-3 and the second rotating shaft 5-8 are in clearance fit in a first T-shaped sliding block 5-4 and a second T-shaped sliding block 5-9 respectively, and the first T-shaped sliding block 5-4 and the second T-shaped sliding block 5-9 are in sliding connection in two rectangular through grooves 4-4 respectively; the first rotating shaft 5-3 is fixedly connected with a driving gear 5-5, and the driving gear 5-5 is in meshing transmission with the rack IV 4-7; the front end of the first T-shaped sliding block 5-4 is fixedly connected with a round rod seat 5-6, a cylindrical rod 5-7 is fixedly connected to the round rod seat 5-6, and the upper end of a linkage rod 8 is rotatably connected to the cylindrical rod 5-7. When the fixing seat 5 is used, the box end cover 5-2 is rotated, the box end cover 5-2 is taken down, chemical reagents to be mixed are placed in the chemical reagent box 5-1, the box end cover 5-2 is screwed, the first T-shaped sliding block 5-4 and the second T-shaped sliding block 5-9 can move up and down on the two sliding frames 4-3, the first T-shaped sliding block 5-4 drives the first rotating shaft 5-3 and the driving gear 5-5 to move up and down, the driving gear 5-5 drives the driving gear 5-5 to rotate around the axis of the driving gear through meshing transmission with the rack IV 4-7 in the moving process of the driving gear 5-5, the driving gear 5-5 drives the first rotating shaft 5-3 to rotate around the axis of the driving gear 5-3, the first rotating shaft 5-3 drives the chemical reagent box 5-1 to rotate around the axis of, thereby driving the chemical reagent in the chemical reagent kit 5-1 to rotate and vibrate.

The seventh embodiment:

the embodiment is described below with reference to fig. 1 to 13, and the driving assembly 7 includes a driving gear 7-1, a driving pulley 7-2, a pulley rotating shaft 7-3, a driven pulley 7-4, a turntable rotating shaft 7-5, a turntable 7-6, a limiting slide seat 7-7 and an adjustable slide block 7-8; the driving gear 7-1 and the driving pulley 7-2 are fixedly connected to a pulley rotating shaft 7-3, the driving gear 7-1 is in meshed transmission with a rack III 3-6, the rear end of the pulley rotating shaft 7-3 is rotatably connected to the front end of a sliding frame 4-3 at the outer end through a belt seat bearing, the driving pulley 7-2 is in transmission connection with a driven pulley 7-4 through a belt, the driven pulley 7-4 and a rotary table 7-6 are fixedly connected to a rotary table rotating shaft 7-5, the rear end of the rotary table rotating shaft 7-5 is rotatably connected to the front end of the sliding frame 4-3 at the outer end through a belt seat bearing, the rotary table 7-6 is positioned at the front end of the driven pulley 7-4, a limiting sliding seat 7-7 is fixedly connected to the front end face of the rotary table 7-6, and an adjustable sliding block 7-8 is slidably connected, the lower end of the linkage rod 8 is rotatably connected to the adjustable sliding blocks 7-8. When the driving assembly 7 is used, the sliding frame 4-3 moves left and right to drive the belt wheel rotating shaft 7-3 to move left and right, the belt wheel rotating shaft 7-3 drives the driving gear 7-1 to move left and right, the driving gear 7-1 drives the driving gear 7-1 to rotate around the axis of the driving gear 7-1 through meshing transmission with the rack III 3-6 in the moving process of the driving gear 7-1, the driving gear 7-1 drives the belt wheel rotating shaft 7-3 and the driving belt wheel 7-2 to rotate, the driving belt wheel 7-2 drives the driven belt wheel 7-4 to rotate through a belt, the driven belt wheel 7-4 drives the turntable rotating shaft 7-5 to rotate, the turntable rotating shaft 7-5 drives the turntable 7-6 to rotate, the turntable 7-6 drives the limiting sliding seat 7-7 and the adjustable sliding, when the adjustable slide block 7-8 does circular motion, the linkage rod 8 drives the cylindrical rod 5-7 to move up and down, and the cylindrical rod 5-7 drives the chemical reagent kit 5-1 to move up and down.

The specific implementation mode is eight:

the present embodiment is described below with reference to fig. 1 to 13, and the lower end of the limiting slide 7-7 is provided with a screw seat plate sliding groove 7-7-1 communicated with the inside of the limiting slide 7-7.

The adjustable sliding block 7-8 is connected in the limiting sliding seat 7-7 in a sliding mode, the lower end of the adjustable sliding block 7-8 is fixedly connected with a screw seat plate 7-8-1, the screw seat plate 7-8-1 is connected in the screw seat plate sliding groove 7-7-1 in a sliding mode, a fastening screw 7-8-2 is connected to the screw seat plate 7-8-1 through threads, the fastening screw 7-8-2 is located at the outer end of the limiting sliding seat 7-7, the fastening screw 7-8-2 abuts against the rotating disc 7-6, the front end of the adjustable sliding block 7-8 is fixedly connected with a short round rod 7-8-3, and the lower end of the linkage rod 8 is connected to the short round rod 7-8-3 in a rotating mode. When the adjustable slide block 7-8 is used, the screw seat plate 7-8-1 is connected in the screw seat plate sliding groove 7-7-1 in a sliding mode, the adjustable slide block 7-8 is prevented from exceeding the stroke and being separated from the limiting slide seat 7-7 when moving, the adjustable slide block 7-8 can move left and right in the limiting slide seat 7-7, the smaller the distance between the adjustable slide block 7-8 and the circle center of the rotary table 7-6 is, the smaller the swing amplitude of the linkage rod 8 is, the smaller the vertical oscillation amplitude of the chemical reagent kit 5-1 is, the larger the distance between the adjustable slide block 7-8 and the circle center of the rotary table 7-6 is, the larger the vertical oscillation amplitude of the chemical reagent kit 5-1 is, and the position of the adjustable slide block 7-8.

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 working principle of the chemical reagent mixing reaction device is as follows: when the chemical reagent feeding device is used, 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 chemical reagents in the two fixing seats 5 are driven to oscillate back and forth, the vertical supporting seat 2 can drive the two reciprocating sliding seats 4 to move left and right through the two hinge rods 6 when working, so that the chemical reagents in the two fixing seats 5 are driven to oscillate left and right, the two driving assemblies 7 can be driven to work in the process of moving the two reciprocating sliding seats 4 left and right, the two driving assemblies 7 respectively drive the two fixing seats 5 to move up and down on the two reciprocating sliding seats 4 through the linkage rods 8, so that the chemical reagents in the two fixing seats 5 are driven to oscillate up and down, and the amplitude of the up and down oscillation; the in-process that two fixing bases 5 reciprocated is connected through the transmission with two reciprocating slide 4 and is driven two fixing bases 5 and rotate to drive the rotatory vibration of the chemical reagent in two fixing bases 5. 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 chemical reagents in two fixing seats 5 to vibrate back and forth, and, 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 chemical reagents in the two fixed seats 5 to vibrate left and right; the rectangular rod 3-3 limits the reciprocating slide 4 to move up and down, and the limiting slide groove 3-5 limits the reciprocating slide 4 to move back and forth, so that the reciprocating slide 4 can only move left and right along the rectangular rod 3-3. When the fixing seat 5 is used, the box end cover 5-2 is rotated, the box end cover 5-2 is taken down, then the chemical reagent with the mixing function is placed in the chemical reagent box 5-1, the box end cover 5-2 is screwed, the first T-shaped sliding block 5-4 and the second T-shaped sliding block 5-9 can move up and down on the two sliding frames 4-3, the first T-shaped sliding block 5-4 drives the first rotating shaft 5-3 and the driving gear 5-5 to move up and down, the driving gear 5-5 drives the driving gear 5-5 to rotate around the axis of the driving gear through meshing transmission with the rack IV 4-7 in the moving process of the driving gear 5-5, the driving gear 5-5 drives the first rotating shaft 5-3 to rotate around the axis of the driving gear 5-3, the first rotating shaft 5-3 drives the chemical reagent box 5-1 to rotate around the, thereby driving the chemical reagent in the chemical reagent kit 5-1 to rotate and vibrate. When the driving assembly 7 is used, the sliding frame 4-3 moves left and right to drive the belt wheel rotating shaft 7-3 to move left and right, the belt wheel rotating shaft 7-3 drives the driving gear 7-1 to move left and right, the driving gear 7-1 drives the driving gear 7-1 to rotate around the axis of the driving gear 7-1 through meshing transmission with the rack III 3-6 in the moving process of the driving gear 7-1, the driving gear 7-1 drives the belt wheel rotating shaft 7-3 and the driving belt wheel 7-2 to rotate, the driving belt wheel 7-2 drives the driven belt wheel 7-4 to rotate through a belt, the driven belt wheel 7-4 drives the turntable rotating shaft 7-5 to rotate, the turntable rotating shaft 7-5 drives the turntable 7-6 to rotate, the turntable 7-6 drives the limiting sliding seat 7-7 and the adjustable sliding, when the adjustable slide block 7-8 does circular motion, the linkage rod 8 drives the cylindrical rod 5-7 to move up and down, and the cylindrical rod 5-7 drives the chemical reagent kit 5-1 to move up and down.

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 mixing reaction device, includes base (1), erects supporting seat (2), sideslip frame (3), reciprocal slide (4), fixing base (5), articulated rod (6), drive assembly (7) and gangbar (8), 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 side sliding 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 side sliding frames (3) in a sliding way, the two reciprocating sliding seats (4) are respectively connected with the two fixing seats (5) in a sliding way, the two fixing seats (5) are respectively connected with the two side sliding frames (3) in a transmission 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 on the two reciprocating sliding seats (4), the lower ends of the two driving assemblies (7) are respectively connected with the two side sliding frames (3) in a transmission way, the upper ends of the two driving assemblies, the lower ends of the two linkage rods (8) are respectively and rotatably connected to the two driving components (7), and the upper ends of the two linkage rods (8) are respectively and rotatably connected to the two fixed seats (5);

the base (1) comprises a first 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 first 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 first 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 first 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 first driving gear (2-5) is fixedly connected on an output shaft of the motor (2-4), a first driving gear (2-5) is meshed with a rack I (1-4) for transmission, a rectangular sliding chute is arranged at the upper end of the supporting column (2-1), a rectangular telescopic rod (2-6) is connected in the rectangular sliding chute 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), a top plate (3-2), a rectangular rod (3-3), a second bottom plate (3-4), a limiting sliding groove (3-5) and a rack III (3-6); the inner end of the inner plate (3-1) is fixedly connected to the outer end face of the support column (2-1), the top plate (3-2) and the second bottom plate (3-4) are respectively and fixedly connected to the upper end and the lower end of the outer end face of the inner plate (3-1), the rectangular rod (3-3) is fixedly connected to the front end of the top plate (3-2), the second bottom plate (3-4) is provided with a limiting sliding groove (3-5), and the front end of the limiting sliding groove (3-5) is fixedly connected with a rack III (3-6);

the reciprocating slide seat (4) comprises an upper slide seat (4-1), a rectangular limiting groove (4-2), a slide frame (4-3), a rectangular through groove (4-4), a lower slide seat (4-5), a rectangular slide block (4-6) and a rack IV (4-7); the upper sliding seat (4-1) is provided with a rectangular limiting groove (4-2), the upper sliding seat (4-1) is connected to a rectangular rod (3-3) in a sliding mode through the rectangular limiting groove (4-2), the lower end of the hinge rod (6) is hinged to the upper sliding seat (4-1), the upper ends of the two sliding frames (4-3) are symmetrically and fixedly connected to the two ends of the upper sliding seat (4-1), the lower ends of the two sliding frames (4-3) are symmetrically and fixedly connected to the two ends of the lower sliding seat (4-5), the lower end of the lower sliding seat (4-5) is fixedly connected with a rectangular sliding block (4-6), the rectangular sliding block (4-6) is connected into the limiting sliding groove (3-5) in a sliding mode, and the two ends of a rack IV (4-7) are fixedly connected to the left end faces of the upper sliding seat (4-1) and the lower sliding; rectangular through grooves (4-4) are formed in the two sliding frames (4-3);

the fixing seat (5) comprises a chemical kit (5-1), a box end cover (5-2), a first rotating shaft (5-3), a first T-shaped sliding block (5-4), a driving gear (5-5), a circular rod seat (5-6), a cylindrical rod (5-7), a second rotating shaft (5-8) and a second T-shaped sliding block (5-9); the box end cover (5-2) is connected to the chemical kit (5-1) through threads, two ends of the chemical kit (5-1) are fixedly connected with a first rotating shaft (5-3) and a second rotating shaft (5-8) respectively, the first rotating shaft (5-3) and the second rotating shaft (5-8) are in clearance fit with a first T-shaped sliding block (5-4) and a second T-shaped sliding block (5-9) respectively, and the first T-shaped sliding block (5-4) and the second T-shaped sliding block (5-9) are connected in two rectangular through grooves (4-4) respectively in a sliding mode; the first rotating shaft (5-3) is fixedly connected with a driving gear (5-5), and the driving gear (5-5) is in meshing transmission with the rack IV (4-7); the front end of the first T-shaped sliding block (5-4) is fixedly connected with a round rod seat (5-6), a cylindrical rod (5-7) is fixedly connected to the round rod seat (5-6), and the upper end of a linkage rod (8) is rotatably connected to the cylindrical rod (5-7);

the driving assembly (7) comprises a second driving gear (7-1), a driving belt wheel (7-2), a belt wheel rotating shaft (7-3), a driven belt wheel (7-4), a rotary table rotating shaft (7-5), a rotary table (7-6), a limiting sliding seat (7-7) and an adjustable sliding block (7-8); a second driving gear (7-1) and a driving pulley (7-2) are fixedly connected on a pulley rotating shaft (7-3), the second driving gear (7-1) is in meshing transmission with a rack III (3-6), the rear end of the pulley rotating shaft (7-3) is rotatably connected with the front end of a sliding frame (4-3) at the outer end, the driving pulley (7-2) is in transmission connection with a driven pulley (7-4) through a belt, the driven pulley (7-4) and a rotary table (7-6) are fixedly connected on a rotary table rotating shaft (7-5), the rear end of the rotary table rotating shaft (7-5) is rotatably connected with the front end of the sliding frame (4-3) at the outer end, the rotary table (7-6) is positioned at the front end of the driven pulley (7-4), and a limiting slide seat (7-7) is fixedly connected on the front end face of the rotary table (7-6), the adjustable sliding blocks (7-8) are connected in the limiting sliding seats (7-7) in a sliding mode, and the lower end of the linkage rod (8) is connected to the adjustable sliding blocks (7-8) in a rotating mode;

the lower end of the limiting sliding seat (7-7) is provided with a screw seat plate sliding groove (7-7-1) communicated with the inside of the limiting sliding seat (7-7);

the adjustable sliding block (7-8) is connected in the limiting sliding seat (7-7) in a sliding manner, the lower end of the adjustable sliding block (7-8) is fixedly connected with a screw seat plate (7-8-1), the screw seat plate (7-8-1) is connected in a screw seat plate sliding groove (7-7-1) in a sliding manner, a fastening screw (7-8-2) is connected on the screw seat plate (7-8-1) through threads, the fastening screw (7-8-2) is positioned at the outer end of the limiting sliding seat (7-7), the fastening screw (7-8-2) is propped against the rotary disc (7-6), the front end of the adjustable sliding block (7-8) is fixedly connected with a short round rod (7-8-3), and the lower end of the linkage rod (8) is rotatably connected to the short round rod (7-8-3).

2. A chemical reagent mixing reaction device according to claim 1, wherein: the front end and the rear end of the first bottom plate (1-1) are respectively and fixedly connected with a rectangular stop block.