CN114768665A

CN114768665A - Laboratory is with compound system of automatic water-reducing agent

Info

Publication number: CN114768665A
Application number: CN202210583891.2A
Authority: CN
Inventors: 马清浩; 马清沛
Original assignee: Beijing Muhu Instrument Manufacturing Co ltd
Current assignee: Beijing Mu Hu Xin Materials Technology Co ltd
Priority date: 2022-05-26
Filing date: 2022-05-26
Publication date: 2022-07-22
Anticipated expiration: 2042-05-26
Also published as: CN114768665B

Abstract

The invention discloses an automatic water reducer compounding system for a laboratory, which belongs to the technical field of water reducer compounding systems and comprises a supporting base, wherein a fixed supporting plate is fixedly connected at the middle position of the top of the supporting base, the top of the fixed supporting plate is fixedly connected with a blending box, a plurality of first placing grooves are opened and closed at the front and back positions of the top of the supporting base, a second placing groove is formed at the top of the front end of the supporting base, a plurality of suction pipes are connected at the front and back of the interior of the blending box, and the suction pipes are positioned at the tops of the first placing grooves; according to the invention, when the speed reducer is compounded each time, the first placing groove and the second placing groove are matched with the blending box and the blending mechanism, so that the occupied area is small, the movement is more convenient, the lifting mechanism is matched with the blending mechanism to realize the preparation of water reducing agents with different proportions, and the bottle placing mechanism, the suction pipe and the lifting mechanism are matched with each other, so that the bottle placing and taking are convenient and rapid each time.

Description

Laboratory is with compound system of automatic water-reducing agent

Technical Field

The invention relates to the technical field of water reducer compounding systems, in particular to an automatic water reducer compounding system for a laboratory.

Background

The water reducing agent is a concrete admixture capable of reducing the water consumption for mixing under the condition of maintaining the slump constant of concrete basically. As anionic surfactants, there are lignin sulfonate, naphthalene sulfonate formaldehyde polymers, and the like. After the concrete mixture is added, the dispersion effect on cement particles is achieved, the workability of the concrete mixture can be improved, the unit water consumption is reduced, and the fluidity of the concrete mixture is improved; or the unit cement consumption is reduced, the cement is saved, and the reducer compounding system is characterized in that bottled water reducer mother liquor and additives are intensively mixed according to a certain proportion and finally reflowed to be intensively dissolved to prepare the water reducer.

In the prior art, in the process of preparing the water reducing agent by utilizing various raw materials, a plurality of bottled raw materials are required to be prepared in a preparation cavity of a suction pipe (6), after each bottled raw material reagent is used and needs to be replaced, the suction pipe (6) needs to be taken out firstly, then an empty bottle needs to be taken out, and finally a new raw material bottle is put in, so that the operation is very inconvenient, the suction pipe (6) can be polluted later, and the re-compounding of the water reducing agent is not facilitated.

Based on the technical scheme, the invention designs an automatic water reducer compounding system for a laboratory, so as to solve the problems.

Disclosure of Invention

The invention aims to provide an automatic water reducer compounding system for a laboratory, which aims to solve the problems that in the prior art, in the process of preparing a water reducer by using various raw materials, a plurality of bottled raw materials need to be prepared in a preparation cavity of a suction pipe (6), when the bottled raw material reagent needs to be replaced after being used, the suction pipe (6) needs to be taken out firstly, then an empty bottle needs to be taken out, and finally a new raw material bottle is put in, so that the operation is very inconvenient, the suction pipe (6) can be polluted later, and the compounding of the water reducer is not facilitated.

In order to achieve the purpose, the invention provides the following technical scheme: an automatic water reducer compounding system for a laboratory comprises a supporting base, wherein a fixed supporting plate is fixedly connected with the middle position of the top of the supporting base, a blending box is fixedly connected with the top of the fixed supporting plate, a plurality of first placing grooves are opened and closed at the front and back positions of the top of the supporting base, a second placing groove is formed in the top of the front end of the supporting base, a plurality of suction pipes are connected with the front and back parts of the interior of the blending box and are positioned at the top of the first placing grooves, a discharging mechanism used for discharging a blended water reducer is connected with the interior of the blending box, a blending mechanism used for driving the suction pipes to suck a raw material agent is connected with the interior of the blending box, a bottle placing mechanism used for automatically placing or taking out raw material bottles into or taking out of the first placing grooves is connected with the front and back sides of the supporting base, and a lifting mechanism used for driving the suction pipes to move up and down is connected with the top of the blending box, when the lifting mechanism drives the suction pipe to fall down, the suction mechanism can suck the raw materials in the raw material agent into the blending box through the suction pipe for blending;

the bottle discharging mechanism comprises a U-shaped fixing frame, a plurality of discharging through grooves are formed in the top of the U-shaped fixing frame, a plurality of first electric cylinders are fixedly connected to the front side wall of the U-shaped fixing frame, the inner ends of the first electric cylinders are vertically and slidably connected with a first moving frame, pushing electric cylinders are fixedly connected to the outer side wall of the first moving frame, the bottom ends of the pushing electric cylinders are fixedly connected to the outer side wall of the first electric cylinders, two first sliding grooves are formed in the inner side wall of the first moving frame, clamping plates are slidably connected to the inner sides of the two first sliding grooves respectively, two adjacent clamping plates are used for clamping raw material bottles, a second electric cylinder is fixedly connected to the inner side wall of each clamping plate, the second electric cylinder is fixedly connected to the outer side wall of the first moving frame, an arc-shaped supporting plate is rotatably connected to the bottom of each clamping plate, and two adjacent arc-shaped supporting plates are used for supporting the bottom of the raw material bottles, the bottom of each discharging through groove is connected with a guide mechanism for guiding the raw material bottle to vertically fall;

the guide mechanism comprises two third electric cylinders, the two third electric cylinders are fixedly connected to the top of the U-shaped fixing frame, the extending ends of the two third electric cylinders are fixedly connected with a guide ring together, and the guide ring is located right below the discharging through groove and used for vertically guiding the raw material bottles to fall;

the blending mechanism comprises two first isolation plates, the two first isolation plates are fixedly connected to the inner side wall of the blending box, a blending cavity is formed between the two first isolation plates and the blending box, a plurality of suction boxes are fixedly connected to the outer side walls of the two first isolation plates, the suction pipe penetrates through the suction box and is connected with the suction box in a sliding way, a suction opening is arranged on the side wall of the suction pipe close to the upper part, when the suction pipe falls down under the drive of the lifting mechanism, the suction opening is positioned at the inner side of the suction box, the top of the suction pipe seals the top of the suction pipe, a first through pipe is fixedly communicated in each suction box, the inner end of the first through pipe penetrates through the first isolation plate and is positioned in the blending cavity, each first through pipe is fixedly communicated with a suction device, the suction device is fixedly connected to the first isolation plate, and the front side of the allocation box is fixedly connected with a control screen for controlling the suction devices;

the lifting mechanism comprises an L-shaped support frame, the L-shaped support frame is fixedly connected to the top of the allocation box, a driving screw rod is connected between the L-shaped support frame and the allocation box in a rotating mode, the top ends of the suction pipes are fixedly connected with a lifting frame, the driving screw rod goes through lifting and is in threaded connection with the lifting frame, the top end of the driving screw rod is fixedly connected with a first motor, and the first motor is fixedly connected to the top of the L-shaped support frame;

the discharging mechanism comprises a first discharging pipe, the first discharging pipe is fixedly connected to the inner side of the blending box, the bottom end of the first discharging pipe is positioned above the second placing groove and used for discharging the compounded water reducing agent, and the top end of the first discharging pipe is positioned at the bottom of the blending cavity and communicated with the blending cavity;

a plurality of first rotating rods are rotatably connected to the inner side wall of the blending box, the first rotating rods are located in the blending cavity, the rear end of each first rotating rod is fixedly connected with a second motor, the second motors are fixedly connected to the outer side wall of the blending box, and the outer surface of each first rotating rod is fixedly connected with a plurality of stirring blades;

two equal fixedly connected with a plurality of second slide bars in U type mount bottom, every the equal fixed connection supporting disk in top of second slide bar, the supporting disk is used for supporting the raw material bottle that falls, every all overlap on the second slide bar surface and be equipped with the first spring that is located between supporting disk and the U type mount.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, when the speed reducer is compounded each time, the first placing groove and the second placing groove are matched with the blending box and the blending mechanism, so that the occupied area is small, the movement is more convenient, the lifting mechanism is matched with the blending mechanism to realize the preparation of water reducing agents with different proportions, and the bottle placing mechanism, the suction pipe and the lifting mechanism are matched with each other, so that the bottle placing and taking are convenient and rapid each time.

2. According to the invention, when the raw material bottle needs to be replaced each time, the raw material bottle is put down from the feeding through groove, the raw material bottle and the raw materials in the raw material bottle are vertically placed at the bottom, the raw material bottle vertically falls down, the raw material bottle guiding mechanism is enabled to fall on the two arc-shaped supporting plates at the bottom, the two arc-shaped supporting plates stably support the raw material bottle, then the second electric cylinder is started, the second electric cylinder drives the clamping plates to move, the clamping plates at the two sides of the raw material bottle are enabled to mutually approach each other, the raw material bottle is clamped, the guiding mechanism moves upwards to separate from the raw material bottle, the influence on the inward movement of the raw material bottle is avoided, after the guiding mechanism separates from the raw material bottle, the first electric cylinder is started, the first electric cylinder drives the first moving frame, the clamping plates and the raw material bottle to push inwards, the raw material bottle is placed in the first placing groove, then the first electric cylinder retracts, the suction pipe is inserted into the raw material bottle, the operation is convenient and rapid, when the raw material bottle needs to be taken out, the second electricity jar drives the clamp plate and presss from both sides tightly raw material bottle, then starts to promote the electricity jar, upwards lifts up one section distance with raw material bottle, makes raw material bottle break away from first standing groove, then, outwards takes out raw material bottle, convenient and fast again.

Drawings

FIG. 1 is a first perspective view of the general structure of the present invention;

FIG. 2 is a second perspective view of the general structure of the present invention;

FIG. 3 is a first perspective view of the bottle releasing mechanism of the present invention;

FIG. 4 is a schematic view of the clamping plate, the arc-shaped supporting plate and the connection structure thereof according to the present invention;

FIG. 5 is a schematic view of the blending structure in the blending tank of the present invention;

FIG. 6 is a schematic view of the elevator mechanism and several suction tubes of the present invention;

fig. 7 is a schematic view of the position of the suction port and the suction box when the suction pipe of the present invention is dropped.

In the drawings, the reference numbers indicate the following list of parts:

the device comprises a supporting base 1, a fixed supporting plate 2, a blending box 3, a first placing groove 4, a second placing groove 5, a suction pipe 6, a U-shaped fixing frame 7, a discharging through groove 8, a first electric cylinder 9, a first moving frame 10, a pushing electric cylinder 11, a first sliding groove 12, a clamping plate 13, a second electric cylinder 14, an arc-shaped supporting plate 15, a third electric cylinder 16, a guide ring 17, a first isolation plate 18, a blending cavity 19, a suction box 20, a suction opening 21, a first through pipe 22, a suction device 23, a control screen 24, an L-shaped supporting frame 25, a driving screw rod 26, a lifting frame 27, a first motor 28, a first discharging pipe 29, a first rotating rod 30, a second motor 31, a stirring blade 32, a second sliding rod 33, a supporting plate 34 and a first spring 35.

Detailed Description

Referring to fig. 1-7, the present invention provides a technical solution: an automatic water reducer compounding system for a laboratory comprises a supporting base 1, a fixed supporting plate 2 is fixedly connected with the middle position of the top of the supporting base 1, a blending box 3 is fixedly connected with the top of the fixed supporting plate 2, a plurality of first placing grooves 4 are opened and closed at the front and back positions of the top of the supporting base 1, a second placing groove 5 is arranged at the top of the front end of the supporting base 1, a plurality of suction pipes 6 are connected with the front and back of the interior of the blending box 3, the suction pipes 6 are positioned at the top of the first placing grooves 4, a discharging mechanism for discharging a blended water reducer is connected with the interior of the blending box 3, a blending mechanism for driving the suction pipes 6 to suck a raw material is connected with the interior of the blending box 3, a bottle placing mechanism for automatically placing or taking out a raw material bottle from the first placing grooves 4 is connected with the front and back sides of the supporting base 1, a lifting mechanism for driving the suction pipes 6 to move up and down is connected with the top of the blending box 3, when the lifting mechanism drives the suction pipe 6 to fall down, the suction mechanism can suck the raw materials in the raw material agent into the blending box 3 through the suction pipe 6 for blending;

when the system works, a plurality of raw material bottles are placed in a bottle placing mechanism arranged in the front and back, the bottle placing mechanism clamps the raw material bottles and moves the raw material bottles to the top of a first discharging groove, so that the raw material bottles are accurately placed in the first discharging groove, the first discharging groove supports the raw material bottles from the bottom, the raw material bottles are prevented from moving in disorder, then the bottle placing mechanism retracts, a lifting mechanism at the top of a blending box 3 is started to drive a plurality of suction pipes 6 to move downwards, so that the suction pipes 6 are inserted into the raw material bottles conveniently and quickly, the top of each suction pipe 6 falls into the blending mechanism, then the blending mechanism is started, the raw materials in each original bottle are sucked at different speeds according to a preset proportion by using the suction pipes 6, the raw materials are sucked into the blending box 3 to be mixed and compounded, so that a small water reducing agent is blended, in the process, a discharging mechanism can be started, the compounded water reducing agent is discharged from the bottom, the water reducing agent is discharged into an empty bottle arranged at the top of the second placing groove 5, so that the water reducing agent is collected, after the raw material agent in one raw material bottle is used up, the lifting mechanism is started firstly to drive the suction pipe 6 inserted into the raw material bottle to rise upwards, so that the interference of the suction pipe 6 with the discharge of the raw material bottle is avoided, then, the corresponding bottle placing mechanism is controlled to be started, the bottle placing mechanism stretches out to clamp the raw material bottle, then, the raw material bottle is lifted upwards out of the first placing groove 4 to drive the raw material bottle to move outwards, the raw material bottle is taken out, so that the used raw material bottle is automatically taken out, the influence of the suction pipe 6 in the bottle taking or bottle placing process is avoided, the operation is convenient and fast, when the speed reducing agent is re-compounded each time, the first placing groove 4, the second placing groove 5 are matched with the blending box 3 and the blending mechanism, the occupied area is small, the movement is more convenient, and the preparation of water reducing agents with different proportions is realized by the lifting mechanism matched with the blending mechanism, the bottle placing mechanism, the suction tube 6 and the lifting mechanism are matched with each other, so that the bottle placing and taking are convenient and fast.

As a further scheme of the invention, the bottle placing mechanism comprises a U-shaped fixing frame 7, a plurality of material placing through grooves 8 are formed in the top of the U-shaped fixing frame 7, a plurality of first electric cylinders 9 are fixedly connected to the front side wall of the U-shaped fixing frame 7, a first moving frame 10 is vertically and slidably connected to the inner end of each first electric cylinder 9, a pushing electric cylinder 11 is fixedly connected to the outer side wall of the first moving frame 10, the bottom end of the pushing electric cylinder 11 is fixedly connected to the outer side wall of the first electric cylinder 9, two first sliding grooves 12 are formed in the inner side wall of the first moving frame 10, clamping plates 13 are slidably connected to the inner sides of the two first sliding grooves 12, two adjacent clamping plates 13 are used for clamping a raw material bottle, a second electric cylinder 14 is fixedly connected to the inner side wall of each clamping plate 13, the second electric cylinder 14 is fixedly connected to the outer side wall of the first moving frame 10, an arc-shaped supporting plate 15 is rotatably connected to the bottom of each clamping plate 13, two adjacent arc-shaped supporting plates 15 are used for supporting the bottom of the raw material bottle, the bottom of each discharging through groove 8 is connected with a guide mechanism for guiding the raw material bottle to vertically fall; when the device works, the raw material bottle is required to be replaced, the raw material bottle is convenient and quick to replace, when the raw material bottle is required to be replaced each time, the raw material bottle is put down from the material placing through groove 8, the raw material bottle and raw materials in the raw material bottle are vertically placed at the bottom, the raw material bottle vertically falls down, the raw material bottle guiding mechanism acts on and falls down on the two arc-shaped supporting plates 15 at the bottom, the two arc-shaped supporting plates 15 stably support the raw material bottle, then the second electric cylinder 14 is started, the second electric cylinder 14 drives the clamping plates 13 to act, the clamping plates 13 positioned at two sides of the raw material bottle are mutually close to clamp the raw material bottle, the guiding mechanism moves upwards to separate from the raw material bottle, the influence on inward movement of the raw material bottle is avoided, after the guiding mechanism separates from the raw material bottle, the first electric cylinder 9 is started, the first electric cylinder 9 drives the first moving frame 10, the clamping plates 13 and the raw material bottle to push inwards, the raw material bottle is placed in the first placing groove 4, then the first electric cylinder 9 retracts, the suction tube 6 is inserted into the raw material bottle, the operation is convenient and rapid, when the raw material bottle needs to be taken out, the second electric cylinder 14 drives the clamping plate 13 to clamp the raw material bottle, then the electric cylinder 11 is started and pushed to lift the raw material bottle upwards for a certain distance, the raw material bottle is separated from the first placing groove 4, then the raw material bottle is taken out, and the operation is convenient and rapid,

as a further scheme of the invention, the guide mechanism comprises two third electric cylinders 16, the two third electric cylinders 16 are fixedly connected to the top of the U-shaped fixing frame 7, the extending ends of the two third electric cylinders 16 are fixedly connected with a guide ring 17 together, and the guide ring 17 is positioned right below the discharging through groove 8 and used for vertically guiding the raw material bottle to fall; the during operation, because need guide the raw materials bottle when placing raw materials bottle, through when need put into the raw materials bottle at every turn, start two third electric jars 16 earlier, drive guide ring 17 and move down, then, put down raw materials bottle from placing logical inslot, guide ring 17 carries out vertical guide to the raw materials bottle, guide ring 17 is at raw materials bottle in-process that falls, guide ring 17 is on the lateral wall of raw materials bottle all the time, thereby guarantee raw materials bottle's stability, avoid taking place the incline when putting into raw materials bottle, after raw materials bottle falls completely, pinch-off plate 13 presss from both sides tight back with the raw materials bottle, third electric jar 16 retracts guide ring 17, break away from the raw materials bottle, avoid influencing the raw materials bottle back-and-forth movement.

As a further scheme of the invention, the allocation mechanism comprises two first isolation plates 18, the two first isolation plates 18 are fixedly connected on the inner side wall of the allocation box 3, an allocation cavity 19 is formed between the two first isolation plates 18 and the allocation box 3, a plurality of suction boxes 20 are fixedly connected on the outer side walls of the two first isolation plates 18, the suction pipe 6 penetrates through the suction boxes 20 and is in sliding connection with the suction box 20, a suction opening 21 is formed in the side wall of the upper part of the suction pipe 6, when the suction pipe 6 falls down under the driving of the lifting mechanism, the suction opening 21 is positioned at the inner side of the suction box 20, the top of the suction pipe 6 is sealed by the top of the suction pipe 6, a first through pipe 22 is fixedly communicated in each suction box 20, the inner end of the first through pipe 22 penetrates through the first isolation plates 18 and is positioned in the allocation cavity 19, a suction device 23 is fixedly communicated with each first through pipe 22, and the suction device 23 is fixedly connected on the first isolation plates 18, the front side of the allocation box 3 is fixedly connected with a control screen 24 for controlling a plurality of suction devices 23; the during operation, owing to need allocate the reagent of a plurality of raw material bottles, control suction 23's suction speed in advance through control screen 24, after suction tube 6 is inserted in the raw material bottle by the elevating system whereabouts, suction port 21 is located suction box 20, control screen 24 controls a plurality of aspirators 23 and starts simultaneously, aspirator 23 is through first siphunculus 22, suction box 20, then in suction port 21 and suction tube 6 with the raw material reagent suction allotment chamber 19 in the raw material bottle, thereby mix in allotment chamber 19 with a plurality of raw material suctions, thereby the allotment of the water-reducing agent of different ratios is realized conveniently and swiftly, and convenient and fast, and can satisfy the automatic bottle of putting the bottle mechanism and the requirement of getting the bottle.

As a further scheme of the invention, the lifting mechanism comprises an L-shaped support frame 25, the L-shaped support frame 25 is fixedly connected to the top of the allocation box 3, a driving screw rod 26 is jointly and rotatably connected between the L-shaped support frame 25 and the allocation box 3, the top ends of the plurality of suction pipes 6 are jointly and fixedly connected with a lifting frame 27, the driving screw rod 26 goes through the lifting and is in threaded connection with the driving screw rod 26, the top end of the driving screw rod 26 is fixedly connected with a first motor 28, and the first motor 28 is fixedly connected to the top of the L-shaped support frame 25; when the suction pipe lifting device works, the first motor 28 is started to drive the driving screw rod 26 to rotate and the lifting frame 27 to move up and down due to the fact that the plurality of suction pipes 6 need to be driven to move up and down, and therefore the suction pipe lifting device is simple in structure and convenient to operate.

As a further scheme of the invention, the discharging mechanism comprises a first discharging pipe 29, the first discharging pipe 29 is fixedly connected to the inner side of the blending box 3, the bottom end of the first discharging pipe 29 is positioned above the second placing groove 5 and is used for discharging the compounded water reducing agent, and the top end of the first discharging pipe 29 is positioned at the bottom of the blending cavity 19 and is communicated with the blending cavity 19; the during operation is owing to need accomplish the back water-reducing agent with the allotment and discharge, through at every turn allotment back, starts first material discharge pipe 29, with allotment 19 interior water-reducing agent from the bottom discharge place in the empty bottle at second standing groove 5 top, convenient and fast.

As a further scheme of the invention, a plurality of first rotating rods 30 are rotatably connected to the inner side wall of the blending box 3, the plurality of first rotating rods 30 are all positioned in the blending cavity 19, the rear end of each first rotating rod 30 is fixedly connected with a second motor 31, the plurality of second motors 31 are all fixedly connected to the outer side wall of the blending box 3, and the outer surface of each first rotating rod 30 is fixedly connected with a plurality of stirring blades 32; the during operation, because when mixing in the raw materials reagent suction allotment chamber 19 with in a plurality of raw materials bottles, only utilize the flow between each liquid, mixing speed is slower, and mixing effect is relatively poor, through at allotment in-process at every turn, starts a plurality of second motors 31, drives a plurality of first bull stick 30 and stirring leaf 32 and rotates to carry out the flash mixed with the raw materials reagent of continuous suction, make the allotment effect better.

As a further scheme of the invention, the bottoms of the two U-shaped fixed frames 7 are fixedly connected with a plurality of second sliding rods 33, the top end of each second sliding rod 33 is fixedly connected with a supporting plate 34, the supporting plate 34 is used for supporting a falling raw material bottle, and the outer surface of each second sliding rod 33 is sleeved with a first spring 35 positioned between the supporting plate 34 and the U-shaped fixed frame 7; the during operation, because when putting down raw material bottle at every turn, raw material bottle falls and rotates to the 15 tops of arc backup pad of vertical state and bumps, through when raw material bottle puts down at every turn, first spring 35 upwards extrudees supporting disk 34, makes supporting disk 34 be higher than two arc backup pads 15, when raw material bottle falls, earlier with supporting disk 34 contact, supporting disk 34 bottom utilizes first spring 35 to support to carry out elastic buffering to the raw material bottle that falls, avoids raw material bottle's damage.

Claims

1. The utility model provides a laboratory is with compound system of automatic water-reducing agent, includes support base (1), its characterized in that: the middle position of the top of the supporting base (1) is fixedly connected with a fixed supporting plate (2), the top of the fixed supporting plate (2) is fixedly connected with a blending box (3), the front and back positions of the top of the supporting base (1) are respectively opened and closed with a plurality of first placing grooves (4), the top of the front end of the supporting base (1) is provided with a second placing groove (5), the front and back of the interior of the blending box (3) are respectively connected with a plurality of suction pipes (6), the suction pipes (6) are positioned at the top of the first placing grooves (4), the interior of the blending box (3) is connected with a discharging mechanism for discharging a blended water reducing agent, the inner side of the blending box (3) is connected with a blending mechanism for driving the suction pipes (6) to suck a raw material agent, the front and back two sides of the supporting base (1) are respectively connected with a bottle placing mechanism for automatically placing the raw material bottles into or taking out of the first placing grooves (4), allotment case (3) top is connected with and is used for driving a plurality of suction tubes (6) and reciprocates's elevating system, elevating system drives suction tube (6) and when falling down suction mechanism can be allotd by suction tube (6) with the raw materials suction in the raw materials agent in allotment case (3).

2. The automatic water reducer compounding system for the laboratory according to claim 1, characterized in that: the bottle placing mechanism comprises a U-shaped fixing frame (7), a plurality of discharging through grooves (8) are formed in the top of the U-shaped fixing frame (7), a plurality of first electric cylinders (9) are fixedly connected to the front side wall of the U-shaped fixing frame (7), the inner end of each first electric cylinder (9) is vertically and slidably connected with a first moving frame (10), a pushing electric cylinder (11) is fixedly connected to the outer side wall of each first moving frame (10), the bottom end of each pushing electric cylinder (11) is fixedly connected to the outer side wall of each first electric cylinder (9), two first sliding grooves (12) are formed in the inner side wall of each first moving frame (10), clamping plates (13) are slidably connected to the inner sides of the two first sliding grooves (12), two adjacent clamping plates (13) are used for clamping raw material bottles, and a second electric cylinder (14) is fixedly connected to the inner side wall of each clamping plate (13), second electricity jar (14) fixed connection is on first removal frame (10) lateral wall, every clamp plate (13) bottom all rotates and is connected with arc backup pad (15), adjacent two arc backup pad (15) are used for supporting the bottom of raw materials bottle, every blowing logical groove (8) bottom all is connected with the guide mechanism who is used for guiding the vertical whereabouts of raw materials bottle.

3. The automatic water reducer compounding system for the laboratory according to claim 2, characterized in that: the guide mechanism comprises two third electric cylinders (16), two are fixed to the top of the U-shaped fixing frame (7) respectively, the extending ends of the third electric cylinders (16) are fixedly connected with guide rings (17) together, and the guide rings (17) are located under the discharging through grooves (8) and used for vertically guiding raw material bottles to fall.

4. The automatic water reducer compounding system for the laboratory according to claim 3, characterized in that: the adjusting mechanism comprises two first partition plates (18), the two first partition plates (18) are fixedly connected to the inner side wall of the adjusting box (3), an adjusting cavity (19) is formed between the two first partition plates (18) and the adjusting box (3), a plurality of suction boxes (20) are fixedly connected to the outer side wall of the two first partition plates (18), the suction pipe (6) penetrates through the suction boxes (20) and is in sliding connection with the suction boxes, a suction port (21) is formed in the side wall of the upper portion of the suction pipe (6), when the suction pipe (6) falls down under the driving of the lifting mechanism, the suction port (21) is located on the inner side of the suction boxes (20), the top of the suction pipe (6) is sealed by the top of the suction pipe (6), a first through pipe (22) is fixedly communicated in each suction box (20), the inner end of the first through pipe (22) penetrates through the first partition plates (18) and is located in the adjusting cavity (19), each first through pipe (22) is fixedly communicated with a suction device (23), the suction devices (23) are fixedly connected to the first isolation plate (18), and the front side of the blending box (3) is fixedly connected with a control screen (24) for controlling the suction devices (23).

5. The automatic water reducer compounding system for the laboratory according to claim 4, characterized in that: elevating system includes L type support frame (25), L type support frame (25) fixed connection is at the top of allotment case (3), it is connected with drive lead screw (26) to rotate jointly between L type support frame (25) and allotment case (3), a plurality of the common fixedly connected with crane (27) in suction tube (6) top, drive lead screw (26) run through go up and down and rather than threaded connection, the first motor (28) of drive lead screw (26) top fixedly connected with, first motor (28) fixed connection is at L type support frame (25) top.

6. The automatic water reducer compounding system for the laboratory according to claim 1, which is characterized in that: the discharging mechanism comprises a first discharging pipe (29), the first discharging pipe (29) is fixedly connected to the inner side of the blending box (3), the bottom end of the first discharging pipe (29) is located above the second placing groove (5) and used for discharging the compounded water reducing agent, and the top end of the first discharging pipe (29) is located at the bottom of the blending cavity (19) and communicated with the blending cavity (19).

7. The automatic water reducer compounding system for the laboratory according to claim 1, characterized in that: allotment case (3) inside wall is gone up to rotate and is connected with a plurality of first bull stick (30), and is a plurality of first bull stick (30) all are located allotment chamber (19), every the equal fixedly connected with second motor (31) in first bull stick (30) rear end, it is a plurality of the equal fixed connection of second motor (31) is on allotment case (3) lateral wall, every a plurality of stirring leaves (32) of equal fixedly connected with on first bull stick (30) surface.

8. The automatic water reducer compounding system for the laboratory according to claim 2, characterized in that: two equal fixedly connected with a plurality of second slide bars (33) in U type mount (7) bottom, every the equal fixed connection supporting disk (34) in top of second slide bar (33), supporting disk (34) are used for supporting the raw material bottle that falls, every all the cover is equipped with first spring (35) that are located between supporting disk (34) and U type mount (7) on second slide bar (33) surface.