CN118362370A - Detection device for impurity in sodium glucoheptonate - Google Patents

Abstract

The invention relates to the technical field of sodium glucoheptonate detection, and discloses a detection device for impurities in sodium glucoheptonate, which comprises a impurity removing box, an impurity removing component and a sampling component, wherein a partition plate is further arranged between a first accommodating cavity and a second accommodating cavity, the impurity removing component is arranged in the first accommodating cavity and the second accommodating cavity, the impurity removing component is used for carrying out corresponding crushing and screening on agglomerated sodium glucoheptonate particles, through the arrangement of an impurity removing cylinder, not only can the scattering plate effectively complete the corresponding scattering and crushing effect on the agglomerated sodium glucoheptonate particles conveyed into the inside of the impurity removing cylinder, but also can effectively lead the scattered and crushed sodium glucoheptonate particles and qualified sodium glucoheptonate particles to be discharged out of the impurity removing cylinder from a discharge hole in the opposite rotating direction with the scattering plate, thereby effectively improving the impurity removing efficiency, and facilitating the subsequent work to be carried out quickly.

Description

Detection device for impurity in sodium glucoheptonate

Technical Field

The invention relates to the technical field of sodium glucoheptonate detection, in particular to a device for detecting impurities in sodium glucoheptonate.

Background

Sodium glucoheptonate has good complexing performance and no toxic or side effect, so that the sodium glucoheptonate has wide application, such as (1) application in large water treatment devices and alkaline descaling in boiler condensers and heat exchangers, (2) application in metal surface treatment, such as rust removal, degreasing, electroplating and paint removal of low-carbon steel, (3) use of a bottle cleaning agent of a sodium glucoheptonate formula, good cleaning effect, easy rinsing, water saving and environmental protection, (4) use as a concrete additive, play a retarding role and delay of corrosion of reinforcing steel bars, (5) use as a trace fertilizer additive, can greatly promote absorption and conversion of trace elements by crops, (6) use as a stabilizer of peroxide, can improve stability of peroxide, and the like.

However, in the process of preparing sodium glucoheptonate, because the preparation setting or the preparation time are different, the sodium glucoheptonate can generate more or less corresponding impurities after the preparation is finished, so that the detection of the impurities is generally required before the sodium glucoheptonate is put into use.

Before the impurity detection, the sodium glucoheptonate particles are more humid or longer in storage time in the transportation process of the sodium glucoheptonate, so that the caking phenomenon is likely to occur, and if the caking sodium glucoheptonate particles are directly detected, the inaccurate detection result is likely to occur, so that corresponding treatment is required before the detection of the sodium glucoheptonate particles.

Therefore, the existing requirements are not met, and a device for detecting impurities in sodium glucoheptonate is provided.

Disclosure of Invention

The invention provides a device for detecting impurities in sodium glucoheptonate, which has the beneficial effects of solving the problems in the background technology.

The invention provides the following technical scheme: the utility model provides a detection device of impurity in sodium glucoheptonate, includes edulcoration case, edulcoration subassembly and sampling assembly, first holding chamber and second holding chamber and third holding chamber have been seted up respectively to the edulcoration incasement portion, still be provided with the division board between first holding chamber and the second holding chamber, first holding chamber and second holding intracavity portion all are provided with the edulcoration subassembly, the edulcoration subassembly is used for carrying out corresponding crushing screening to sodium glucoheptonate granule;

The impurity removal assembly comprises an impurity removal barrel and a collecting box, the impurity removal barrel is movably arranged in a first accommodating cavity, the collecting box is movably arranged in a second accommodating cavity, two sleeving parts are fixedly arranged in the first accommodating cavity respectively and movably sleeved on the impurity removal barrel, a first shaft rod is movably connected to the inside of the impurity removal barrel, a scattering plate is fixedly arranged on the first shaft rod, and the scattering plate is used for rotating and scattering the caking sodium glucoheptonate in the inside of the impurity removal barrel.

As an alternative scheme of the detection device for the impurities in the sodium glucoheptonate, the invention comprises the following steps: the utility model discloses a purifying device for removing impurity, including a purifying section of thick bamboo, a plurality of edulcoration section of thick bamboo surface has still been seted up, the discharging hole is used for the sodium glucoheptonate after scattering the inside edulcoration section of thick bamboo outside the purifying section of thick bamboo, purifying section of thick bamboo bottom end still is provided with the rotation tooth mouth, intermesh between rotation tooth mouth and the fourth gear, the fourth gear is fixed cup joints on the third axostylus axostyle, form swing joint between the both ends of third axostylus axostyle and cup joint piece and the division board respectively, the division board is fixed to be set up in purifying case inner wall department.

As an alternative scheme of the detection device for the impurities in the sodium glucoheptonate, the invention comprises the following steps: the third shaft rod is fixedly sleeved with a second gear, the second gear is meshed with the first gear, the first gear is fixedly sleeved on the second shaft rod, the second shaft rod is fixedly connected with the output end of the external motor arranged on the partition plate, the first gear is meshed with the third gear, the third gear is fixedly sleeved on the first shaft rod, and the partition plate is further provided with a protecting piece.

As an alternative scheme of the detection device for the impurities in the sodium glucoheptonate, the invention comprises the following steps: the bottom end of first axostylus axostyle and first carousel between form fixed connection, first carousel sets up in the second holds the intracavity portion, the bottom end of first carousel still is provided with first connecting rod eccentrically, the below of first carousel is provided with the moving part, first connecting rod slides and sets up inside the moving part, the second spacing groove has still been seted up to the inside of first carousel, the inside activity of second spacing groove is provided with the connection ball, the one end of connection ball and third connecting rod forms fixed connection, form fixed connection between the other end of third connecting rod and the connecting gear.

As an alternative scheme of the detection device for the impurities in the sodium glucoheptonate, the invention comprises the following steps: the connecting gear is meshed with the two reciprocating racks, each reciprocating rack is fixedly connected with one end of a corresponding limiting rod, the other end of the limiting rod is slidably arranged inside a first limiting groove, the first limiting groove is formed in the inner wall of two sides of the second accommodating cavity, and the moving part is fixedly connected with one reciprocating rack.

As an alternative scheme of the detection device for the impurities in the sodium glucoheptonate, the invention comprises the following steps: the bottom of two reciprocating racks all is provided with the second connecting rod, the inside activity of second connecting rod is provided with the movable rod, form fixed connection between the bottom end of movable rod and the corresponding flitch that pushes away, the flitch setting is inside the collecting box, every the flitch that pushes away is kept away from the collecting box one side all activity and is provided with the fly leaf, first removal orbit groove and second removal orbit groove have been seted up to collecting box inner wall department symmetry, the flitch that pushes away slides through corresponding removal slider and sets up in the first removal orbit inslot portion that corresponds, the fly leaf slides through corresponding removal slider and sets up in the second removal orbit inslot portion that corresponds.

As an alternative scheme of the detection device for the impurities in the sodium glucoheptonate, the invention comprises the following steps: the utility model discloses a collection box, including the collection box, the collection box is fixed to be provided with at the both ends of collection box and is connected the slider, the collection box is through connecting the slider slip setting and putting thing inslot portion, it holds chamber both sides inner wall department to put the thing groove and offer at the second, it still is provided with connecting spring to connect the slider with put between the thing groove, it still moves about to be provided with the second carousel to put thing inslot portion, fixedly on the second carousel be provided with extrusion lug, the second carousel forms fixed connection with the output of corresponding external motor.

As an alternative scheme of the detection device for the impurities in the sodium glucoheptonate, the invention comprises the following steps: the third holds the chamber setting and holds the chamber below at the second, the third holds the chamber and is used for collecting and has accomplished the sodium glucoheptonate granule that breaks up and smashes, the one side inner wall department that holds the chamber of third still has offered a plurality of sample through-hole, and the inside all activity of every sample through-hole is provided with the sampling rod.

As an alternative scheme of the detection device for the impurities in the sodium glucoheptonate, the invention comprises the following steps: the sampling rods are used for conducting layered sampling on the sodium glucoheptonate in the third accommodating cavity, the other ends of the sampling rods are fixedly connected with the connecting plate, and the connecting plate is arranged on one side of the impurity removing box.

As an alternative scheme of the detection device for the impurities in the sodium glucoheptonate, the invention comprises the following steps: and the bottom of the third accommodating cavity is also provided with a discharge hole, and the discharge hole is used for discharging sodium glucoheptonate particles in the third accommodating cavity out of the impurity removing box.

The invention has the following beneficial effects:

1. This detection device of impurity in sodium glucoheptonate, through the setting of edulcoration section of thick bamboo, not only effectually let break up the board and accomplish and carry out corresponding break up to the inside caking sodium glucoheptonate granule of edulcoration section of thick bamboo and smash the effect, and through letting the edulcoration section of thick bamboo rotate, and be in opposite direction of rotation with the board of breaking up, also effectually let the sodium glucoheptonate granule that has accomplished break up and qualified sodium glucoheptonate granule discharge the edulcoration section of thick bamboo outside fast from the relief hole, thereby effectually improved edulcoration efficiency, so that follow-up work also can be carried out fast.

2. This detection device of impurity in sodium glucoheptonate, through the setting of first carousel, reciprocal rack and pushing plate, not only can let the sodium glucoheptonate granule that holds up in the collecting box inner wall department draw close to central point department, thereby effectual storage volume that improves the collecting box, so that follow-up collecting box can more effectually go on when carrying out the shale shaker, let two pushing plates carry out relative reciprocating motion moreover, also let two fly leaves on two pushing plates carry out corresponding extrusion crushing to concentrated sodium glucoheptonate granule before carrying out reset movement, in order to avoid carrying out the impurity detection time measuring in the follow-up, these sodium glucoheptonate granule that do not have broken up and smash can cause the influence to the detection.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic view of the upper end section structure of the local impurity removal box of the present invention.

Fig. 3 is a schematic structural view of the impurity removing cartridge of the present invention.

Fig. 4 is an enlarged schematic view of the structure of the present invention at a.

FIG. 5 is a schematic view of the structure of the lower end section of the local impurity removal box of the present invention.

Fig. 6 is a schematic view of the structure of the collecting box of the present invention.

Fig. 7 is an enlarged schematic view of the structure of the present invention at B.

FIG. 8 is a schematic view of a partial second link section of the present invention.

Fig. 9 is a schematic diagram of the internal structure of the storage tank according to the present invention.

In the figure: 1. a impurity removing box; 2. a decontamination assembly; 3. a sampling assembly;

101. a first accommodation chamber; 102. a socket; 103. a partition plate; 104. a second accommodation chamber; 105. sampling through holes; 106. a discharge port; 107. a third accommodation chamber; 108. a discharge chute; 109. a guard;

201. a impurity removing cylinder; 202. a discharge hole; 203. a scattering plate; 204. a first shaft; 205. a second shaft; 206. a first gear; 207. a second gear; 208. a third gear; 209. rotating the tooth mouth; 210. a third shaft; 211. a fourth gear; 212. a first turntable; 213. a moving member; 214. a first link; 215. a first limit groove; 216. a limit rod; 217. a reciprocating rack; 218. a connecting gear; 219. a collection box; 220. a first movement track groove; 221. a second link; 222. a pushing plate; 223. the connecting slide block; 224. a connecting spring; 225. a storage groove; 226. a second turntable; 227. extruding the convex blocks; 228. a third link; 229. connecting balls; 230. the second limit groove; 231. a moving rod; 232. a movable plate; 233. a second movement track groove;

301. A connecting plate; 302. a sampling rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-4, a device for detecting impurities in sodium glucoheptonate includes a impurity removing box 1, an impurity removing assembly 2 and a sampling assembly 3, wherein a first accommodating cavity 101, a second accommodating cavity 104 and a third accommodating cavity 107 are respectively formed in the impurity removing box 1, a partition plate 103 is further arranged between the first accommodating cavity 101 and the second accommodating cavity 104, the impurity removing assembly 2 is arranged in the first accommodating cavity 101 and the second accommodating cavity 104, and the impurity removing assembly 2 is used for carrying out corresponding crushing screening on sodium glucoheptonate particles;

The impurity removal assembly 2 comprises an impurity removal barrel 201 and a collecting box 219, the impurity removal barrel 201 is movably arranged inside the first accommodating cavity 101, the collecting box 219 is movably arranged inside the second accommodating cavity 104, two sleeving pieces 102 are fixedly arranged inside the first accommodating cavity 101 respectively, the two sleeving pieces 102 are movably sleeved on the impurity removal barrel 201, a first shaft rod 204 is movably connected inside the impurity removal barrel 201, a scattering plate 203 is fixedly arranged on the first shaft rod 204, and the scattering plate 203 is used for scattering the caking sodium glucoheptonate inside the impurity removal barrel 201 in a rotating mode.

The surface of the impurity removing cylinder 201 is also provided with a plurality of discharging holes 202, the discharging holes 202 are used for discharging the scattered sodium glucoheptonate inside the impurity removing cylinder 201 out of the impurity removing cylinder 201, the bottom end of the impurity removing cylinder 201 is also provided with a rotary tooth opening 209, the rotary tooth opening 209 is meshed with a fourth gear 211, the fourth gear 211 is fixedly sleeved on a third shaft rod 210, two ends of the third shaft rod 210 are respectively movably connected with the sleeved part 102 and the partition plate 103, and the partition plate 103 is fixedly arranged at the inner wall of the impurity removing box 1.

The third shaft rod 210 is fixedly sleeved with a second gear 207, the second gear 207 is meshed with the first gear 206, the first gear 206 is fixedly sleeved on the second shaft rod 205, the second shaft rod 205 is fixedly connected with the output end of an external motor arranged on the partition plate 103, the first gear 206 is meshed with a third gear 208, the third gear 208 is fixedly sleeved on the first shaft rod 204, and the partition plate 103 is further provided with a protection piece 109.

In this embodiment: before impurity detection, the sodium glucoheptonate particles are subjected to relative treatment before detection because of high humidity or long storage time in the transportation process of the sodium glucoheptonate, and the caking phenomenon is likely to occur, and if the caking sodium glucoheptonate particles are directly detected, the inaccurate detection result is likely to occur;

Because the impurity removing cylinder 201 is movably arranged in the impurity removing box 1, the bottom end of the impurity removing cylinder 201 is meshed with the fourth gear 211 through the arranged rotating tooth opening 209, the fourth gear 211 is fixedly sleeved on the third shaft rod 210, the third shaft rod 210 is also meshed with the first gear 206 through the second gear 207, and the first gear 206 is fixedly sleeved on the second shaft rod 205, when a user starts an external motor fixedly connected with the second shaft rod 205, the first gear 206 drives the second gear 207 to rotate and then drives the third shaft rod 210 to rotate, so that the fourth gear 211 drives the rotating tooth opening 209 to perform a corresponding rotating effect, and after the subsequent scattering plate 203 arranged in the impurity removing cylinder 201 is used for scattering and breaking sodium glucoheptonate particles, the broken sodium glucoheptonate particles are better and faster discharged out of the impurity removing cylinder 201 through corresponding rotation of the impurity removing cylinder 201;

The scattering plate 203 is fixedly arranged on the first shaft lever 204, and the first shaft lever 204 is movably connected with the impurity removing cylinder 201, on the one hand, the first shaft lever 204 is also meshed with the first gear 206 through the third gear 208, so that when the first gear 206 rotates, the first shaft lever 204 correspondingly rotates under the meshing action of the third gear 208 and the first gear 206, the scattering plate 203 can achieve the scattering and scattering effects of the sodium glucoheptonate agglomerated in the impurity removing cylinder 201, and the scattering and scattering of the sodium glucoheptonate and the corresponding rotary discharging can be more effectively carried out through the meshing rotation of the gears and the opposite rotation directions of the impurity removing cylinder 201 and the scattering plate 203;

It should be noted that, since the shielding member 109 is further disposed on the partition plate 103, and the third gear 208, the first gear 206, the second gear 207, the fourth gear 211, and the rotating gear opening 209 are disposed inside the shielding member 109, the gear opening can be effectively shielded by this arrangement, so that after the sodium glucoheptonate particles are discharged out of the impurity removing cylinder 201, a portion of the sodium glucoheptonate particles will affect the rotation of the gear opening;

Through the arrangement, not only is the scattering plate 203 effectively enabled to perform the corresponding scattering and crushing effects on the agglomerated sodium glucoheptonate particles conveyed to the interior of the impurity removing cylinder 201, but also the impurity removing cylinder 201 is enabled to rotate and the scattering plate 203 is in the opposite rotating direction, and the scattered sodium glucoheptonate particles and qualified sodium glucoheptonate particles are effectively enabled to be rapidly discharged out of the impurity removing cylinder 201 from the discharging hole 202, so that the impurity removing efficiency is effectively improved, and further the follow-up work can be rapidly performed.

In the second embodiment, the bottom end of the first shaft 204 is fixedly connected with the first rotating disc 212, the first rotating disc 212 is disposed in the second accommodating cavity 104, the bottom end of the first rotating disc 212 is further eccentrically provided with a first connecting rod 214, a moving member 213 is disposed below the first rotating disc 212, the first connecting rod 214 is slidably disposed in the moving member 213, a second limiting groove 230 is further disposed in the first rotating disc 212, a connecting ball 229 is movably disposed in the second limiting groove 230, the connecting ball 229 is fixedly connected with one end of the third connecting rod 228, and the other end of the third connecting rod 228 is fixedly connected with the connecting gear 218.

The connecting gear 218 is meshed with the two reciprocating racks 217, each reciprocating rack 217 is fixedly connected with one end of the corresponding limiting rod 216, the other end of the limiting rod 216 is slidably arranged inside the first limiting groove 215, the first limiting groove 215 is formed in the inner walls of the two sides of the second accommodating cavity 104, and the moving piece 213 is fixedly connected with one reciprocating rack 217.

The bottoms of the two reciprocating racks 217 are respectively provided with a second connecting rod 221, a movable rod 231 is movably arranged in the second connecting rod 221, a fixed connection is formed between the bottom end of the movable rod 231 and a corresponding pushing plate 222, the pushing plates 222 are arranged in the collecting box 219, movable plates 232 are movably arranged on one sides, far away from the collecting box 219, of each pushing plate 222, a first moving track groove 220 and a second moving track groove 233 are symmetrically formed in the inner wall of the collecting box 219, the pushing plates 222 are slidably arranged in the corresponding first moving track grooves 220 through corresponding moving sliding blocks, and the movable plates 232 are slidably arranged in the corresponding second moving track grooves 233 through corresponding moving sliding blocks.

In this embodiment: since the bottom end of the first shaft 204 is fixedly connected with the first turntable 212, when the first shaft 204 rotates, the first turntable 212 also rotates with the step, the bottom surface of the first turntable 212 is eccentrically connected with the first connecting rod 214, the first connecting rod 214 is slidably disposed inside the moving member 213, and the moving member 213 is fixedly connected with a reciprocating rack 217, so that the first connecting rod 214 drives the moving member 213 to do transverse reciprocating motion at the bottom of the first turntable 212 along with the rotation of the first turntable 212, and it is required to say that both the reciprocating racks 217 are slidably disposed inside the first limiting groove 215 through the corresponding limiting rods 216, so that the moving member 213 can drive the reciprocating rack 217 fixedly connected with the moving member 213 to do transverse reciprocating motion inside the second accommodating cavity 104 through the sliding limitation of the limiting rods 216 inside the first limiting groove 215;

Meanwhile, the reciprocating rack 217 which is fixedly connected with the moving member 213 is also meshed with the connecting gear 218, and the other reciprocating rack 217 is also meshed with the connecting gear 218, so that when the moving member 213 reciprocates, the other reciprocating rack 217 also reciprocates opposite to the reciprocating rack 217 which is fixedly connected with the moving member 213 under the meshing action of the connecting gear 218;

It should be noted that, the connecting gear 218 is movably disposed inside the second limiting groove 230 through the third connecting rod 228 and the connecting ball 229, and the second limiting groove 230 is formed at the bottom of the first rotating disc 212, so that the connecting gear 218 can be disposed at the bottom of the first rotating disc 212, and thus the two reciprocating racks 217 and the connecting gear 218 can complete meshing movement, and the connecting gear 218 can not rotate along with the first rotating disc 212 when the first rotating disc 212 rotates, so as to avoid jamming;

When the two reciprocating racks 217 do opposite reciprocating motion, as the bottoms of the two reciprocating racks 217 are fixedly provided with the second connecting rods 221, the inside of each second connecting rod 221 is movably provided with the movable rod 231, and the bottom end of the movable rod 231 is fixedly connected with the corresponding pushing plate 222, when the two reciprocating racks 217 do opposite reciprocating motion, the two pushing plates 222 connected with the reciprocating racks 217 do synchronous reciprocating motion inside the collecting box 219;

It should be noted that, the impurity removing cylinder 201 discharges the sodium glucoheptonate particles which have been broken up and smashed out of the impurity removing cylinder 201 through a rotating manner, so most of the sodium glucoheptonate particles are adhered to the inner wall of the first accommodating cavity 101, then discharged into the second accommodating cavity 104 through the discharge groove 108 formed on the partition plate 103, finally fall into the collecting box 219, and the sodium glucoheptonate particles falling into the collecting box 219 fall into the collecting box 219 due to the fact that the inner wall of the second accommodating cavity 104 is adhered to the inner wall of the collecting box 219, so most of the sodium glucoheptonate particles are accumulated in the inner wall of the collecting box 219, and as the sodium glucoheptonate particles are accumulated more, the sodium glucoheptonate particles possibly overflow out of the collecting box 219, thereby causing unnecessary waste and pollution, and the subsequent collecting box 219 is affected by the scattered accumulation to perform vibration screening on the sodium glucoheptonate particles, and through the reciprocating arrangement, the corresponding pushing plate 222 can push the sodium glucoheptonate particles accumulated at the inner wall of the collecting box 219 to the middle position, thereby improving the overall material storage quantity of the collecting box 219;

It should be noted that, the two pushing plates 222 are slidably disposed inside the first moving track groove 220 through the corresponding moving slide blocks, and each first moving track groove 220 is further divided into a first moving station, a second moving station and a third moving station, where the heights of the first moving station, the second moving station and the third moving station are sequentially reduced, and the pushing plates 222 are located inside the first moving station at the initial position, so that when the two pushing plates 222 reciprocate inside the collection box 219, the height of the pushing plates 222 is gradually reduced in the process of moving inside the first moving track groove 220, so that sodium glucoheptonate particles are more effectively collected towards the central position, and the storage amount of the collection box 219 is effectively increased;

Meanwhile, as the movable plate 232 is movably arranged on the surface of one side of each pushing plate 222 far away from the collecting box 219, the movable plate 232 is arranged on one hand to assist the pushing plates 222 to gather the sodium glucoheptonate particles to the central position, and on the other hand, as the second moving track grooves 233 are also arranged on the inner walls of the two sides of the collecting box 219, the movable plate 232 is slidably arranged in the second moving track grooves 233, the second moving track grooves 233 are also divided into a first moving station, a second moving station, a third moving station and a fourth moving station, the first moving station, the second moving station and the third moving station in the second moving track grooves 233 are the same as the moving track of the first moving station, the second moving station and the third moving station in the first moving track grooves 220, and the movable plate 232 can synchronously move along with the pushing plates 222, however, the fourth moving station in the two second moving track grooves 233 has a height lower than the third moving station corresponding to the second moving track groove 233 and a height higher than the third moving station corresponding to the second moving track groove 233, so that when the two movable plates 232 move to the inside of the corresponding fourth moving station, the two movable plates 232 move up and down on the corresponding pushing plate 222 respectively, and the arrangement can squeeze the sodium glucoheptonate particles gathered to the central position, so as to squeeze and crush the sodium glucoheptonate particles which are not completely broken up, and further improve the squeezing and crushing degree of the sodium glucoheptonate particles which are not completely broken up by making the two movable plates 232 move up and down respectively, so as to avoid subsequent impurity detection, these incomplete break up of the broken sodium glucoheptonate particles will have an influence on the detection;

It should be noted that, since the two movable plates 232 are slidably disposed on the corresponding pushing plates 222 through the corresponding moving springs, when the movable plates 232 move up and down on the pushing plates 222, respectively, the movable plates 232 can not only smoothly go on, but also quickly reset through the correspondingly disposed moving springs when the pushing plates 222 reset, so that the movable plates 232 can smoothly go on when being pressed again next time;

It should be noted that, since the second link 221 is movably provided with the moving rod 231, when the pushing plate 222 moves in the first moving track slot 220, the pushing plate 222 is prevented from being blocked by the moving rod 231;

through the arrangement, sodium glucoheptonate particles accumulated on the inner wall of the collecting box 219 can be gathered towards the central position, so that the storage capacity of the collecting box 219 is effectively improved, the subsequent collecting box 219 can effectively perform vibration screening, the two pushing plates 222 can relatively reciprocate, and the two movable plates 232 on the two pushing plates 222 can effectively perform corresponding extrusion grinding on the concentrated sodium glucoheptonate particles before resetting movement, so that influence on detection caused by incomplete broken sodium glucoheptonate particles during subsequent impurity detection is avoided.

In the third embodiment, the improvement is made on the basis of the second embodiment, according to fig. 5 and 9, connecting sliding blocks 223 are fixedly arranged at two ends of the collecting box 219, the collecting box 219 is slidably arranged inside a storage groove 225 through the connecting sliding blocks 223, the storage groove 225 is arranged at two inner walls of the second accommodating cavity 104, a connecting spring 224 is further arranged between the connecting sliding blocks 223 and the storage groove 225, a second rotary disc 226 is movably arranged inside the storage groove 225, an extrusion protruding block 227 is fixedly arranged on the second rotary disc 226, and the second rotary disc 226 is fixedly connected with the output end of a corresponding external motor.

The third holds the chamber 107 and sets up in the second and holds the chamber 104 below, and the third holds the chamber 107 and is used for collecting and has accomplished the sodium glucoheptonate granule that breaks up and smashes, and the one side inner wall department that holds the chamber 107 still has offered a plurality of sampling through hole 105, and the inside all activity of every sampling through hole 105 is provided with the sampling rod 302.

The sampling rods 302 are used for conducting layered sampling on the sodium glucoheptonate in the third accommodating cavity 107, the other ends of the sampling rods 302 are fixedly connected with the connecting plate 301, and the connecting plate 301 is arranged on one side of the impurity removing box 1.

The bottom of the third accommodating cavity 107 is also provided with a discharge outlet 106, and the discharge outlet 106 is used for discharging the sodium glucoheptonate particles in the third accommodating cavity 107 out of the impurity removing box 1.

In this embodiment: because the collecting box 219 is slidably arranged in the corresponding storage groove 225 through the connecting sliding blocks 223 arranged on two sides, the connecting sliding blocks 223 and the storage groove 225 are connected through the two connecting springs 224, the second rotating disc 226 is movably arranged below the connecting sliding blocks 223, and the extruding convex blocks 227 are further arranged on the second rotating disc 226, when a user starts an external motor fixedly connected with the second rotating disc 226, the second rotating disc 226 rotates in the storage groove 225, the extruding convex blocks 227 arranged on the second rotating disc 226 intermittently contact the connecting sliding blocks 223 at the moment due to the rotation of the second rotating disc 226, when the connecting sliding blocks 223 are in contact extrusion, the connecting sliding blocks 223 drive the collecting box 219 to move upwards, and after the collecting box 219 moves upwards, the connecting springs 224 are extruded, and under the action of the reset elastic force of the connecting springs 224, the collecting box 219 moves downwards again, so that the collecting box 219 is reciprocated;

By the arrangement, the collection box 219 can complete corresponding intermittent vibration under the action of intermittent contact of the extrusion convex blocks 227 and the connecting sliding blocks 223, so that sodium glucoheptonate particles falling into the collection box 219 can rapidly complete corresponding screening effect under the action of the vibration, and the impurity removal degree of the sodium glucoheptonate particles is improved again, so that corresponding detection can be carried out subsequently;

The sodium glucoheptonate particles falling from the inside of the collection box 219 can fall into the inside of the third containing cavity 107 below the second containing cavity 104, as a plurality of sampling through holes 105 are further formed in the surface of one side of the third containing cavity 107, sampling rods 302 are movably arranged in each sampling through hole 105, and the sampling rods 302 are fixedly connected with the connecting plates 301, when a certain amount of sodium glucoheptonate particles are stored in the inside of the third containing cavity 107, the sampling rods 302 extend into the stored sodium glucoheptonate particles by starting an external cylinder fixedly connected with the connecting plates 301, so that the corresponding material taking effect is achieved, meanwhile, due to the fact that the plurality of sampling rods 302 are arranged, the accuracy of subsequent detection is improved to a certain extent, the sodium glucoheptonate particles collected by the sampling rods 302 can be fed into corresponding detection equipment, so that the corresponding detection is completed, and because the sodium glucoheptonate particles collected at the moment are correspondingly processed, the impurities in the inside of the sodium glucoheptonate particles can be accurately detected during the detection;

It should be noted that, since the bottom of the third accommodating cavity 107 is further provided with the discharge port 106, after the user completes the corresponding collection, the user may also open the plugging member for plugging the discharge port 106, so that the sodium gluconate particles in the third accommodating cavity 107 are discharged out of the impurity removing box 1.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims (10)

1. The utility model provides a detection device of impurity in sodium glucoheptonate, includes edulcoration case (1), edulcoration subassembly (2) and sampling assembly (3), its characterized in that: the novel sodium glucoheptonate impurity removing device is characterized in that a first accommodating cavity (101), a second accommodating cavity (104) and a third accommodating cavity (107) are respectively formed in the impurity removing box (1), a separation plate (103) is further arranged between the first accommodating cavity (101) and the second accommodating cavity (104), impurity removing components (2) are arranged in the first accommodating cavity (101) and the second accommodating cavity (104), and the impurity removing components (2) are used for carrying out corresponding crushing and screening on agglomerated sodium glucoheptonate particles;

The utility model discloses a edulcoration subassembly (2) comprises edulcoration section of thick bamboo (201) and collecting box (219), edulcoration section of thick bamboo (201) activity sets up inside first holding chamber (101), collecting box (219) activity sets up inside second holding chamber (104), first holding chamber (101) inside is fixed respectively and is provided with two cup joints piece (102), and two cup joints piece (102) all activity cup joints on edulcoration section of thick bamboo (201), the inside swing joint of edulcoration section of thick bamboo (201) has first axostylus axostyle (204) still, just still fixedly on first axostylus axostyle (204) are provided with and beat board (203), break up board (203) and be used for rotating the caking sodium glucoheptonate that is in the inside edulcoration section of thick bamboo (201) and break up.

2. The device for detecting impurities in sodium glucoheptonate according to claim 1, wherein: the utility model discloses a purifying box, including impurity removal section of thick bamboo (201), a plurality of relief hole (202) have still been seted up on impurity removal section of thick bamboo (201) surface, relief hole (202) are used for the sodium glucoheptonate after scattering inside impurity removal section of thick bamboo (201) outside, impurity removal section of thick bamboo (201) bottom end still is provided with rotates tooth mouth (209), intermeshing between rotation tooth mouth (209) and fourth gear (211), fourth gear (211) are fixed cup joint on third axostylus axostyle (210), form swing joint between both ends of third axostylus axostyle (210) and socket joint piece (102) and division board (103) respectively, division board (103) are fixed to be set up in impurity removal case (1) inner wall department.

3. The device for detecting impurities in sodium glucoheptonate according to claim 2, wherein: the third shaft lever (210) is fixedly sleeved with a second gear (207), the second gear (207) is meshed with the first gear (206), the first gear (206) is fixedly sleeved on the second shaft lever (205), the second shaft lever (205) is fixedly connected with the output end of an external motor arranged on the partition plate (103), the first gear (206) is meshed with a third gear (208), the third gear (208) is fixedly sleeved on the first shaft lever (204), and the partition plate (103) is further provided with a protecting piece (109).

4. A device for detecting impurities in sodium glucoheptonate according to claim 3 wherein: the bottom end of first axostylus axostyle (204) and first carousel (212) between form fixed connection, first carousel (212) set up inside second holds chamber (104), the bottom end of first carousel (212) still is provided with first connecting rod (214) eccentrically, the below of first carousel (212) is provided with moving part (213), first connecting rod (214) slip setting is inside moving part (213), second spacing groove (230) have still been seted up to the inside of first carousel (212), the inside activity of second spacing groove (230) is provided with connection ball (229), connection ball (229) form fixed connection with the one end of third connecting rod (228), form fixed connection between the other end of third connecting rod (228) and connecting gear (218).

5. The device for detecting impurities in sodium glucoheptonate according to claim 4, wherein: the connecting gears (218) are meshed with the two reciprocating racks (217), each reciprocating rack (217) is fixedly connected with one end of a corresponding limiting rod (216), the other end of each limiting rod (216) is slidably arranged inside a first limiting groove (215), the first limiting grooves (215) are formed in the inner walls of the two sides of the second accommodating cavity (104), and the moving piece (213) is fixedly connected with one reciprocating rack (217).

6. The device for detecting impurities in sodium glucoheptonate according to claim 5, wherein: the bottom of two reciprocating rack (217) all is provided with second connecting rod (221), the inside activity of second connecting rod (221) is provided with movable rod (231), form fixed connection between the bottom end of movable rod (231) and corresponding pushing plate (222), pushing plate (222) set up inside collecting box (219), every pushing plate (222) keep away from collecting box (219) one side surface all activity be provided with fly leaf (232), first removal orbit groove (220) and second removal orbit groove (233) have been seted up to collecting box (219) inner wall department symmetry, pushing plate (222) are through inside corresponding first removal orbit groove (220) of moving slider slip setting, fly leaf (232) are inside corresponding second removal orbit groove (233) through corresponding moving slider slip setting.

7. The device for detecting impurities in sodium glucoheptonate according to claim 6, wherein: the utility model discloses a collection box, including collection box (219), second carousel (226), collection box (219), second carousel (226) are provided with connecting slider (223), collection box (219) are fixed at both ends of being provided with connecting slider (219), collection box (219) are through connecting slider (223) sliding arrangement in put thing groove (225) inside, put thing groove (225) and offer in second holding chamber (104) both sides inner wall department, still be provided with connecting spring (224) between connecting slider (223) and putting thing groove (225), the inside activity of putting thing groove (225) still is provided with second carousel (226), fixedly on second carousel (226) be provided with extrusion lug (227), second carousel (226) forms fixed connection with the output of corresponding external motor.

8. The device for detecting impurities in sodium glucoheptonate according to claim 1, wherein: the third holds chamber (107) and sets up in second holds chamber (104) below, third holds chamber (107) and is used for collecting and has accomplished the sodium glucoheptonate granule that breaks up and smashes, a plurality of sampling through-hole (105) have still been seted up to the one side inner wall department of third holds chamber (107), and every sampling through-hole (105) are inside all to be provided with sampling rod (302) movably.

9. The device for detecting impurities in sodium glucoheptonate according to claim 8, wherein: the sampling rods (302) are used for conducting layered sampling on sodium glucoheptonate in the third accommodating cavity (107), the other ends of the sampling rods (302) are fixedly connected with the connecting plate (301), and the connecting plate (301) is arranged on one side of the impurity removing box (1).

10. The device for detecting impurities in sodium glucoheptonate according to claim 9, wherein: the bottom of the third accommodating cavity (107) is also provided with a discharge outlet (106), and the discharge outlet (106) is used for discharging sodium glucoheptonate particles in the third accommodating cavity (107) out of the impurity removing box (1).