CN214200875U - Sample detection equipment for water plants - Google Patents

Abstract

The utility model relates to a sample detection device for water plants, which comprises a bottom frame, a crushing component and a detection component, wherein the crushing component and the detection component are arranged on the bottom frame; the crushing assembly comprises a barrel, a spiral stirring rod, a cabin body, rolling rollers and a driving assembly, wherein the barrel is transversely fixed in a support, the cabin body is fixed at the top of the support and positioned above the barrel, an opening at the bottom of the cabin body is inserted at the upper side of the middle part of the barrel, the spiral stirring rod is transversely and rotatably arranged in the barrel, and the driving assembly is arranged between the support and a bracket and can simultaneously drive the spiral stirring rod and the two rolling rollers to rotate; the utility model discloses can once only accomplish the automation of water plant juice draw, shift and injection and reagent instil into, need not manual operation to simplify the operation by a wide margin, improved work efficiency.

Description

Sample detection equipment for water plants

Technical Field

The utility model relates to a water plant's sample test equipment.

Background

The water body pollution mainly refers to the phenomenon that pollutants discharged by human activities enter a water body to cause water quality reduction and utilization value reduction or loss, and strictly speaking, the pollution causes of water are divided into two types: one is caused by human factors and mainly is industrial discharged wastewater; in addition, the method also comprises domestic sewage, farmland drainage, pollutants in rainfall leaching atmosphere, pollutants in water body flowing into the garbage accumulated on the ground through rainfall leaching and the like, and in order to research the influence of water body pollution on water body plants, the substances absorbed by the water body plants need to be detected.

The juice of plant must be extracted earlier before current water plant detects, then with the manual transfer of juice and pour into the reaction vessel into, at last with the manual reagent of dripping into the reaction vessel in, whole process complex operation needs manual operation moreover, and work efficiency is lower, awaits further improvement.

SUMMERY OF THE UTILITY MODEL

To the current situation of above-mentioned prior art, the utility model aims to solve the technical problem that an automatic extraction, transfer and the automation of injection and reagent that can once only accomplish water plant juice instils into is provided to simplify the operation by a wide margin, improved work efficiency's water plant's sample check out test set.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the sample detection equipment for the water plants is characterized by comprising an underframe, a crushing assembly and a detection assembly, wherein the crushing assembly and the detection assembly are arranged on the underframe; the crushing assembly comprises a barrel, a spiral stirring rod, a barrel body, rolling rollers and a driving assembly, wherein the barrel body is transversely fixed in a support, the barrel body is fixed at the top of the support and positioned above the barrel body, the bottom opening of the barrel body is inserted into the upper side of the middle part of the barrel body, the spiral stirring rod is transversely and rotatably arranged in the barrel body, the rolling rollers comprise two rolling rollers, the two rolling rollers are transversely and rotatably arranged inside the top opening of the barrel body and are symmetrically distributed in parallel, the driving assembly is arranged between the support and a bracket and can simultaneously drive the spiral stirring rod and the two rolling rollers to rotate, a bending section is downwards formed at the opening at the front end of the barrel body, a cone opening part is formed at the end part of the bending section, and the detecting assembly comprises a supporting plate, a tank body, a liquid conveying pipe, a valve, a reaction bottle and a shaking assembly; the support plate is transversely fixed on the suspension, the tank body is embedded in the support plate, the reaction bottle is fixed at the top of the chassis by shaking the assembly and is positioned at the front side of the support, one end of the infusion tube is inserted into the bottom of the tank body, the other end and the conical opening of the infusion tube are arranged above the opening of the top of the reaction bottle, and the valve is arranged on the infusion tube.

Preferably, the shaking assembly comprises a bottom plate, a servo motor, a first gear, a rack, a moving plate and a fixed assembly; the bottom plate is transversely fixed at the top of chassis, servo motor fixes the downside at the bottom plate, servo motor's axis of rotation is vertical upwards to pass the bottom plate and stretch out the top of bottom plate, first gear cover is established and is fixed in servo motor's axis of rotation, the rack toothing is on the right side of first gear, the bottom swing joint bottom plate upside of rack can slide around and, the movable plate transverse fixation is at the top of rack, the upside of movable plate is located to fixed subassembly.

Preferably, the fixing assembly comprises a column and a clamping block; the stand includes two, two the equal vertical upside at the movable plate of fixing of stand, the clamp splice includes two, two the clamp splice is fixed respectively on two stands and preceding back symmetry presss from both sides tightly outside at the open-top of reaction bottle, two the tip detachable reciprocal anchorage of clamp splice.

Preferably, the driving assembly comprises a seat plate, a motor, a second gear, a first pulley, a second pulley and a belt; the bedplate is transversely fixed between support and bracket, the motor is fixed on the last plane of bedplate, the second gear includes two, two the rear end of fixing at two rolling rollers and all locating the cabin body is established to the second gear cover respectively and is just intermeshing, the rear end of fixing at one of them rolling roller and locating the cabin body is established to the second belt pulley cover, first belt pulley cover is established and is fixed the rear end of spiral puddler and locate the rear side of barrel, the belt cover is established on first band pulley and second belt pulley, the axis of rotation of motor is transversely fixed the rear end at spiral puddler forward.

Preferably, a plurality of positioning assemblies which are distributed at equal angles along the circumferential direction are further fixed on the upper side of the moving plate, and the plurality of positioning assemblies are all around the outer side of the bottom of the reaction bottle.

Preferably, the positioning assembly comprises a fixed block, a bolt and a movable block; the fixed block is fixed on the upper plane of the movable plate, the bolts comprise two bolts, the two bolts are transversely inserted into the fixed block in a threaded mode, the movable block is arranged on the inner side of the fixed block, the threaded ends of the two bolts are rotatably connected into the movable block, and the inner side of the movable block is attached to the outer wall of the bottom of the reaction bottle.

Compared with the prior art, the utility model has the advantages of: the utility model discloses can once only accomplish the automation of water plant juice draw, shift and injection and reagent instil into, need not manual operation to simplify the operation by a wide margin, improved work efficiency.

Drawings

FIG. 1 is a right rear structural view of the present invention;

fig. 2 is a right front side structure view of the present invention.

Detailed Description

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by those of ordinary skill in the art to which the invention belongs. The use of "first," "second," and similar terms in the description herein do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

To maintain the following description of the embodiments of the present invention clear and concise, detailed descriptions of well-known functions and components may be omitted.

As shown in fig. 1-2, a sample detection device for water plants comprises an underframe 1, and a crushing assembly and a detection assembly which are arranged on the underframe 1, wherein a support 101 is formed upwards in the middle of the top of the underframe 1, a suspension 103 is formed outwards on the front side of the top of the support 101, and a bracket 102 is formed upwards on the rear side of the top of the underframe 1; the crushing assembly comprises a cylinder body 2, a spiral stirring rod 3, a cabin body 5, a rolling roller 6 and a driving assembly, wherein the cylinder body 2 is transversely fixed in a bracket 101, the cabin body 5 is fixed at the top of the support 101 and is positioned above the cylinder body 2, an opening at the bottom of the cabin body 5 is inserted at the upper side of the middle part of the cylinder body 2, the spiral stirring rod 3 is transversely and rotatably arranged in the cylinder body 2, the two rolling rollers 6 comprise two rolling rollers 6, the two rolling rollers 6 are transversely and rotatably arranged in the opening at the top of the cabin body 5 and are symmetrically distributed in parallel in the left-right direction, the driving assembly is arranged between the support 101 and the bracket 102 and can simultaneously drive the spiral stirring rod 3 and the two rolling rollers 6 to rotate, a bending section 201 is downwards formed at the opening at the front end of the cylinder body 2, a conical opening part 202 is formed at the end part of the bending section 201, and the detection assembly comprises a supporting plate 10, a tank body 11, a transfusion tube 24, a valve 12, a reaction bottle 23 and a shaking assembly; the supporting plate 10 is transversely fixed on the suspension frame 103, the tank body 11 is embedded in the supporting plate 10, the reaction bottle 23 is fixed at the top of the chassis 1 by the shaking assembly and is positioned at the front side of the bracket 101, one end of the infusion tube 24 is inserted at the bottom of the tank body 11, the other end of the infusion tube 24 and the conical opening part 202 are both arranged above the opening part at the top of the reaction bottle 23, and the valve 12 is arranged on the infusion tube 24.

The shaking assembly comprises a bottom plate 13, a servo motor 14, a first gear 15, a rack 16, a moving plate 17 and a fixed assembly; bottom plate 13 transversely fixes at the top of chassis 1, and servo motor 14 fixes the downside at bottom plate 13, and servo motor 14's axis of rotation vertically upwards passes bottom plate 13 and stretches out the top of bottom plate 13, and first gear 15 cover is established and is fixed in servo motor 14's axis of rotation, and rack 16 meshes on first gear 15's right side, and the bottom swing joint bottom plate 13 upside of rack 16 can slide from beginning to end, and movable plate 17 transversely fixes the top at rack 16, and fixed subassembly locates the upside of movable plate 17.

The fixing component comprises a vertical column 21 and a clamping block 22; the stand 21 includes two, and two equal vertical fixes in the upside of movable plate 17 of stand 21, and clamp splice 22 includes two, and two clamp splice 22 are fixed respectively on two stands 21 and front and back symmetry press from both sides tightly in the open-top portion outside of reaction flask 23, and the tip detachable reciprocal anchorage of two clamp splice 22.

The driving component comprises a seat plate 25, a motor 4, a second gear 7, a first belt wheel 26, a second belt wheel 8 and a belt 9; the bedplate 25 is transversely fixed between support 101 and bracket 102, motor 4 is fixed on the last plane of bedplate 25, second gear 7 includes two, two second gear 7 overlap respectively to establish fix at the rear end of two rolling roller 6 and all locate the rear side of the cabin body 5 and intermeshing, the rear side of fixing at one of them rolling roller 6 and locating the cabin body 5 is established to the second band pulley 8 cover, first band pulley 26 cover is established and is fixed at the rear end of spiral puddler 3 and locate the rear side of barrel 2, belt 9 covers is established on first band pulley 26 and second band pulley 8, the axis of rotation of motor 4 is transversely fixed forward at the rear end of spiral puddler 3.

A plurality of positioning assemblies which are distributed at equal angles along the circumferential direction are fixed on the upper side of the moving plate 17, the positioning assemblies surround the outer side of the bottom of the reaction bottle 23, and each positioning assembly comprises a fixed block 18, a bolt 19 and a moving block 20; the fixed block 18 is fixed on the upper plane of the movable plate 17, the number of the bolts 19 is two, the two bolts 19 are transversely inserted into the fixed block 18 in a threaded manner, the movable block 20 is arranged on the inner side of the fixed block 18, the threaded ends of the two bolts 19 are rotatably connected into the movable block 20, and the inner side of the movable block 20 is attached to the outer wall of the bottom of the reaction bottle 23.

When in use: placing plants in a water body into the opening at the top of the cabin body 5, starting the motor 4 to rotate the rotating shaft thereof, further driving the spiral stirring rod 3 and the first belt wheel 26 to rotate, further driving one of the rolling rollers 6 to rotate by the belt 9 and the second belt wheel 8, further driving the other rolling roller 6 to reversely rotate by the two second gears 7, further crushing the plants, and allowing the crushed plant residues and juice to fall into the barrel body 2, and to move forward under the driving of the spiral stirring rod 3, further to fall into the reaction bottle 23 through the bending section 201 and the conical opening 202; at the same time, the valve 12 is opened to allow the reagent contained in the tank 11 to also fall into the reaction flask 23 via the liquid transfer tube 24, thereby interacting with the plant residue and the juice to detect the components therein; meanwhile, the servo motor 14 is started to make the rotating shaft thereof rotate in a positive and negative rotation manner at a certain interval frequency, so as to drive the first gear 15 to rotate in a positive and negative rotation manner at a certain interval frequency, so as to drive the rack 16 to slide back and forth at a certain interval frequency, further drive the fixing component to move back and forth at a certain interval frequency by means of the moving plate 17, further drive the reaction bottle 23 to move back and forth at a certain interval frequency, and further shake the juice and the reagent in the reaction bottle 23 back and forth to achieve the effect of uniform and sufficient reaction.

The utility model discloses can once only accomplish the automation of water plant juice draw, shift and injection and reagent instil into, need not manual operation to simplify the operation by a wide margin, improved work efficiency.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (6)

1. The sample detection equipment for the water plants is characterized by comprising an underframe, a crushing assembly and a detection assembly, wherein the crushing assembly and the detection assembly are arranged on the underframe; the crushing assembly comprises a barrel, a spiral stirring rod, a barrel body, rolling rollers and a driving assembly, wherein the barrel body is transversely fixed in a support, the barrel body is fixed at the top of the support and positioned above the barrel body, the bottom opening of the barrel body is inserted into the upper side of the middle part of the barrel body, the spiral stirring rod is transversely and rotatably arranged in the barrel body, the rolling rollers comprise two rolling rollers, the two rolling rollers are transversely and rotatably arranged inside the top opening of the barrel body and are symmetrically distributed in parallel, the driving assembly is arranged between the support and a bracket and can simultaneously drive the spiral stirring rod and the two rolling rollers to rotate, a bending section is downwards formed at the opening at the front end of the barrel body, a cone opening part is formed at the end part of the bending section, and the detecting assembly comprises a supporting plate, a tank body, a liquid conveying pipe; the support plate is transversely fixed on the suspension, the tank body is embedded in the support plate, the reaction bottle is fixed at the top of the chassis by shaking the assembly and is positioned at the front side of the support, one end of the infusion tube is inserted into the bottom of the tank body, the other end and the conical opening of the infusion tube are arranged above the opening of the top of the reaction bottle, and the valve is arranged on the infusion tube.

2. The apparatus of claim 1, wherein the rocking assembly comprises a base plate, a servo motor, a first gear, a rack, a moving plate, and a fixed assembly; the bottom plate is transversely fixed at the top of chassis, servo motor fixes the downside at the bottom plate, servo motor's axis of rotation is vertical upwards to pass the bottom plate and stretch out the top of bottom plate, first gear cover is established and is fixed in servo motor's axis of rotation, the rack toothing is on the right side of first gear, the bottom swing joint bottom plate upside of rack can slide around and, the movable plate transverse fixation is at the top of rack, the upside of movable plate is located to fixed subassembly.

3. The apparatus of claim 2, wherein the fixture assembly comprises a post and a clamp block; the stand includes two, two the equal vertical upside at the movable plate of fixing of stand, the clamp splice includes two, two the clamp splice is fixed respectively on two stands and preceding back symmetry presss from both sides tightly outside at the open-top of reaction bottle, two the tip detachable reciprocal anchorage of clamp splice.

4. The apparatus of claim 1, wherein the drive assembly comprises a base plate, a motor, a second gear, a first pulley, a second pulley, and a belt; the bedplate is transversely fixed between support and bracket, the motor is fixed on the last plane of bedplate, the second gear includes two, two the rear end of fixing at two rolling rollers and all locating the cabin body is established to the second gear cover respectively and is just intermeshing, the rear end of fixing at one of them rolling roller and locating the cabin body is established to the second belt pulley cover, first belt pulley cover is established and is fixed the rear end of spiral puddler and locate the rear side of barrel, the belt cover is established on first band pulley and second belt pulley, the axis of rotation of motor is transversely fixed the rear end at spiral puddler forward.

5. The apparatus for detecting the samples of the aquatic plants according to claim 2, wherein a plurality of positioning assemblies are fixed on the upper side of the moving plate and distributed at equal angles along the circumferential direction, and the plurality of positioning assemblies are all around the outside of the bottom of the reaction flask.

6. The apparatus according to claim 5, wherein the positioning assembly comprises a fixed block, a bolt and a movable block; the fixed block is fixed on the upper plane of the movable plate, the bolts comprise two bolts, the two bolts are transversely inserted into the fixed block in a threaded mode, the movable block is arranged on the inner side of the fixed block, the threaded ends of the two bolts are rotatably connected into the movable block, and the inner side of the movable block is attached to the outer wall of the bottom of the reaction bottle.

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