CN110898863B

CN110898863B - Dry case of placing of laboratory ammonia bottle

Info

Publication number: CN110898863B
Application number: CN201911250624.8A
Authority: CN
Inventors: 罗细花; 李格英; 王茗眉
Original assignee: Jiangxi Shi'an Science And Technology Development Co ltd
Current assignee: Hebei Zhengkun Fine Chemical Co ltd
Priority date: 2019-12-09
Filing date: 2019-12-09
Publication date: 2021-07-06
Anticipated expiration: 2039-12-09
Also published as: CN110898863A

Abstract

The invention relates to a drying and placing box, in particular to a drying and placing box for a laboratory ammonia water bottle. The invention provides a laboratory ammonia bottle drying and placing box which can prevent leaked ammonia from overflowing to the outside and can filter and adsorb the leaked ammonia. A laboratory ammonia water bottle drying and placing box comprises a bottom frame, an arc-shaped opening plate, an open cavity shell and the like; the underframe top is equipped with arc opening plate, and arc opening plate top is equipped with the chamber casing of opening. According to the invention, through the matching of the filtering and drying device and the device thereon, the gas mixture containing ammonia gas volatilized from the interior of the open cavity shell is filtered and dried, so that the phenomenon that the experimenter inhales a small amount of ammonia gas to cause discomfort when taking the ammonia water bottle is avoided, and the physical health of the experimenter is effectively ensured.

Description

Dry case of placing of laboratory ammonia bottle

Technical Field

The invention relates to a drying and placing box, in particular to a drying and placing box for a laboratory ammonia water bottle.

Background

Ammonia water is easy to volatilize ammonia, the volatilization rate increases along with the increase of temperature and the prolonging of the standing time, and the volatilization amount increases along with the increase of concentration, according to the characteristics, if the ammonia water bottle is stored for a long time, the ammonia leakage has great probability, when an experimenter takes the ammonia water bottle, if the ammonia gas is carelessly sucked, the symptoms such as lacrimation, pharyngalgia, hoarseness, cough, hypodynamia and the like easily occur, if the sucked ammonia gas is too high, the ammonia concentration in blood is overhigh, and the cardiac arrest and respiratory arrest can be caused by the reflex action of trigeminal nerve endings, thereby endangering life.

According to the prior invention, the ammonia water bottle with a bottom support, the publication number of which is CN204236911U, is hereinafter referred to as practical I, the main technical problem of practical I is to solve the purposes that the bottle body is not easy to turn over, is convenient to store and ensures the use safety, but the problem of how to treat the ammonia water bottle after the ammonia gas volatilizes is not solved.

Therefore, the laboratory ammonia bottle drying and placing box which can prevent leaked ammonia from overflowing to the outside and can filter and adsorb the leaked ammonia needs to be designed to solve the problems.

Disclosure of Invention

In order to overcome the defects that the leaked ammonia gas cannot be prevented from overflowing to the outside and cannot be filtered and adsorbed, the invention has the technical problems that: the utility model provides a can prevent that the ammonia that reveals from spilling to the external world, can filter the absorptive laboratory ammonia bottle drying and placing case of ammonia that leaks.

The technical implementation scheme of the invention is as follows: a laboratory ammonia water bottle drying and placing box comprises a bottom frame, an arc-shaped opening plate and an opening shell, wherein the arc-shaped opening plate is arranged at the top of the bottom frame, the opening shell is arranged at the top of the arc-shaped opening plate, the laboratory ammonia water bottle drying and placing box further comprises an arc-shaped plate, a push rod, a rotary driving device, a mounting frame, a filtering and drying device, an arc-shaped sleeve and a spray head, the arc-shaped plate is connected with one side in the opening shell in a sliding mode, the push rod is arranged at one side of the top of the arc-shaped plate, the rotary driving device is jointly arranged on the opening shell and the bottom frame, the mounting frame is arranged at the other side in the bottom frame, the filtering and drying device is arranged on the mounting frame, the arc-shaped sleeve is arranged at one side of the opening shell, the arc-shaped sleeve is communicated with a cavity in the opening shell, a plurality of round holes are respectively formed in the upper, wherein the filtering and drying device is used for filtering and drying the gas mixture containing the ammonia gas.

More preferably, the rotation driving device comprises a unidirectional rotation component, a first rotating shaft, a rotating handle, a placing disc and a bevel gear, the second pivot, sector gear, the leading truck, rack bar and first compression spring, it is connected with first pivot to open common rotary type on chamber casing and the underframe, it is equipped with one-way rotating assembly to open chamber casing top, one-way rotating assembly is passed and rather than cooperateing to first pivot, first pivot top is equipped with the turning handle, all be equipped with from top to bottom at first pivot middle part and place the dish, first pivot bottom is equipped with bevel gear, the rotary type is connected with the second pivot between the front and back two walls in the underframe, be equipped with bevel gear in the second pivot equally, two bevel gear intermeshing, be equipped with sector gear in the second pivot of bevel gear rear side, one side is equipped with the leading truck in the underframe, the slidingtype is connected with the rack bar in the leading truck, be connected with first compression spring between rack bar and the leading truck.

More preferably, the filtering and drying device comprises a cylinder body, a piston, a filtering frame, a first hose and a second hose, wherein the cylinder body is arranged on the lower portion of the mounting frame, the piston is connected in the cylinder body in a sliding mode, one side of the piston is connected with the rack rod, the filtering frame is arranged on the upper portion of the mounting frame, the bottom end of the filtering frame is connected with a one-way valve on the upper portion of the cylinder body, the first hose is connected with the first hose, the tail end of the first hose is connected with the arc sleeve, the one-way valve on the lower portion of the cylinder body is.

More preferably, the cavity opening device further comprises an arc strip and rubber bulges, wherein the arc strip is arranged on one side of the top of the cavity opening shell, and the rubber bulges are uniformly distributed on the surface of the arc strip.

More preferably, the fan is further included, the fan is arranged at the lower portion of the first rotating shaft, an arc-shaped opening is formed in the top of the bottom frame, and the caliber of the arc-shaped opening is consistent with that of an opening in the arc-shaped opening plate.

Compared with the prior art, the invention has the following advantages: according to the invention, through the matching of the filtering and drying device and the device thereon, the gas mixture containing ammonia gas volatilized from the interior of the open cavity shell is filtered and dried, so that the phenomenon that the experimenter inhales a small amount of ammonia gas to cause discomfort when taking the ammonia water bottle is avoided, and the physical health of the experimenter is effectively ensured.

Cross the rubber arch, avoid the push rod to slide at will under receiving the exogenic action, and then lead to opening the inside gas of chamber casing and leak and cause harmful effects, also avoided external high light to go into opening in the chamber casing simultaneously, cause the speed of volatilizing of aqueous ammonia with higher speed.

The air around the open cavity shell is pumped into the bottom frame through the fan, and the effect of preventing experimenters from sucking ammonia is achieved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

Fig. 3 is a partial top view of the present invention.

FIG. 4 is a schematic view of a second partial body structure according to the present invention.

Fig. 5 is a perspective view of a third embodiment of the present invention.

The meaning of the reference symbols in the figures: 1. underframe, 2, arc opening plate, 3, open chamber casing, 4, arc, 5, push rod, 6, unidirectional rotating assembly, 7, first pivot, 8, turning handle, 9, place the dish, 10, bevel gear, 11, second pivot, 12, sector gear, 13, leading truck, 14, rack bar, 15, first compression spring, 16, mounting bracket, 17, filter drying device, 1701, cylinder body, 1702, piston, 1703, filter frame, 1704, first hose, 1705, second hose, 18, arc cover, 19, round hole, 20, shower nozzle, 21, arc, 22, rubber bulge, 23, fan.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

A laboratory ammonia water bottle drying and placing box is disclosed, as shown in figures 1-5, comprising a bottom frame 1, an arc-shaped opening plate 2, an open cavity shell 3, an arc-shaped plate 4, a push rod 5, a unidirectional rotation component 6, a first rotating shaft 7, a rotating handle 8, a placing plate 9, a bevel gear 10, a second rotating shaft 11, a sector gear 12, a guide frame 13, a rack rod 14, a first compression spring 15, a mounting frame 16, a cylinder body 1701, a piston 1702, a filter frame 1703, a first hose 1704, a second hose 1705, an arc-shaped sleeve 18 and a nozzle 20, wherein the arc-shaped opening plate 2 is arranged on the top of the bottom frame 1, the open cavity shell 3 is arranged on the top of the arc-shaped opening plate 2, the arc-shaped plate 4 is connected to one side in the open cavity shell 3 in a sliding manner, the push rod 5 is arranged on one side of the top of the arc-shaped plate 4, the open cavity shell 3 and the bottom frame 1 are connected with the first rotating shaft 7 in a co-rotating manner, the, a rotating handle 8 is arranged at the top end of a first rotating shaft 7, a placing plate 9 is respectively arranged at the upper part and the lower part of the middle part of the first rotating shaft 7, a bevel gear 10 is arranged at the bottom end of the first rotating shaft 7, a second rotating shaft 11 is rotatably connected between the front wall and the rear wall in the bottom frame 1, the bevel gear 10 is also arranged on the second rotating shaft 11, the bevel gear 10 is mutually meshed with the bevel gear 10, a sector gear 12 is arranged on the second rotating shaft 11 at the rear side of the bevel gear 10, a guide frame 13 is arranged at one side in the bottom frame 1, a rack bar 14 is connected in a sliding manner in the guide frame 13, a first compression spring 15 is connected between the rack bar 14 and the guide frame 13, a mounting frame 16 is arranged at the other side in the bottom frame 1, an arc sleeve 18 is arranged at one side of the cavity-opening shell 3, the arc sleeve 18 is communicated with the cavity in the cavity-opening shell 3, a plurality of round holes, the piston 1702 side is connected with the rack bar 14, the upper portion of the mounting rack 16 is provided with a filter frame 1703, the bottom end of the filter frame 1703 is connected with the check valve at the upper portion of the cylinder 1701, one side of the filter frame 1703 is connected with a first hose 1704, the tail end of the first hose 1704 is connected with the arc-shaped sleeve 18, the check valve at the lower portion of the cylinder 1701 is connected with a second hose 1705, and the tail end of the second hose 1705 is connected with the spray head 20.

When ammonia water is easy to volatilize ammonia gas in the placing disc 9 of the device, the placing time is prolonged to increase the volatilization rate and the volatilization amount is increased along with the increase of the concentration, when an experimenter needs to take the ammonia water after placing the ammonia water for a period of time, the experimenter firstly rotates the rotating handle 8 clockwise, drives the first rotating shaft 7 to rotate clockwise through the rotating handle 8, ensures that the first rotating shaft 7 can only rotate clockwise through the matching of parts such as a ratchet pawl and the like in the unidirectional rotating component 6, the first rotating shaft 7 drives the placing disc 9 and the bevel gear 10 to rotate clockwise, the bevel gear 10 rotates clockwise to drive the other bevel gear 10 to rotate clockwise, further drives the second rotating shaft 11 and the upper device to rotate clockwise, the sector gear 12 rotating clockwise drives the rack bar 14 and the upper device to move leftwards, and the first compression spring 15 is compressed, when the sector gear 12 is separated from the rack bar 14, the first compression spring 15 resets to push the rack bar 14 and the device thereon to move rightwards for resetting, the piston 1702 reciprocates leftwards and rightwards through the matching of the rack bar 14 and the device thereon, the piston 1702 pumps the gas mixed with ammonia in the open cavity housing 3 into the filter frame 1703 through the first hose 1704 and the device thereon, when the gas mixed with ammonia passes through the filter frame 1703, the purpose of filtering water vapor and ammonia is achieved through quicklime and activated carbon in the filter frame 1703 respectively, the gas subjected to drying and filtering treatment finally enters the cylinder body 1701, then the part of gas is discharged into the nozzle 20 through the second hose 1705 through the piston 1702, the purpose of discharging the gas into the open cavity housing 3 is finally achieved, when an experimenter thinks that the gas in the open cavity housing 3 is fully dried and filtered, the arc-shaped plate 4 is pulled to rotate anticlockwise to a proper position through the push rod 5 so as to be convenient for taking an ammonia bottle, the experimenter rotates change handle 8 according to the demand once more by a small margin afterwards, when the ammonia bottle that needs were taken changes to the position of being convenient for to take, the experimenter stop rotate change handle 8 once more can, after the ammonia bottle takes to finish, through 5 pulling arc 4 clockwise rotations of push rod reset can.

Example 2

On the basis of the embodiment 1, as shown in fig. 4, the cavity-opening shell further comprises an arc-shaped strip 21 and rubber protrusions 22, wherein the arc-shaped strip 21 is arranged on one side of the top of the cavity-opening shell 3, and the rubber protrusions 22 are uniformly distributed on the surface of the arc-shaped strip 21.

Through the rubber bulge 22, avoid push rod 5 to slide at will under receiving the exogenic action, and then lead to opening the inside gas of chamber casing 3 and leak and cause harmful effects, also avoided external strong light to go into simultaneously and opened in the chamber casing 3, cause the speed of volatilizing of aqueous ammonia with higher speed.

As shown in fig. 2, the device further comprises a fan 23, the fan 23 is arranged at the lower part of the first rotating shaft 7, an arc-shaped opening is formed in the top of the bottom frame 1, and the caliber of the arc-shaped opening is consistent with that of an opening on the arc-shaped opening plate 2.

When the first rotating shaft 7 rotates, the first rotating shaft 7 drives the fan 23 to rotate, and the air around the cavity opening shell 3 is pumped into the bottom frame 1 through the fan 23, so that the effect of preventing experimenters from sucking ammonia gas is achieved.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims

1. The utility model provides a laboratory ammonia bottle is dry places case, is equipped with arc opening plate including underframe, arc opening plate and uncork casing, underframe top, and arc opening plate top is equipped with uncork casing, characterized by: the device comprises a cavity opening shell, and is characterized by further comprising an arc plate, a push rod, a rotary driving device, a mounting frame, a filtering and drying device, an arc sleeve and a spray head, wherein the arc plate is connected to one side in the cavity opening shell in a sliding manner, the push rod is arranged on one side of the top of the arc plate, the rotary driving device is jointly arranged on the cavity opening shell and the bottom frame, the mounting frame is arranged on the other side in the bottom frame, the filtering and drying device is arranged on the mounting frame, the arc sleeve is arranged on one side of the cavity opening shell and is communicated with a cavity in the cavity opening shell, a plurality of round holes are formed in the upper portion and the lower portion of the inner portion of the cavity opening shell, the spray head is arranged on the top of the cavity opening shell, and the two sides of the filtering and drying device; the rotary driving device comprises a one-way rotating assembly, a first rotating shaft, a rotating handle, a placing disc, a bevel gear, a second rotating shaft, a sector gear, a guide frame, a rack rod and a first compression spring, wherein the first rotating shaft is connected to the cavity opening shell and the bottom frame in a common rotating mode; the filtering and drying device comprises a cylinder body, a piston, a filter frame, a first hose and a second hose, wherein the cylinder body is arranged on the lower portion of the mounting frame, the piston is connected with the cylinder body in an inner sliding mode, one side of the piston is connected with a rack rod, the filter frame is arranged on the upper portion of the mounting frame, the bottom end of the filter frame is connected with a one-way valve on the upper portion of the cylinder body, the first hose is connected with the first hose, the tail end of the first hose is connected with an arc sleeve, the one-way valve on the lower portion of the.

2. The drying and placing box for the laboratory ammonia water bottles as claimed in claim 1, which is characterized in that: still including arc strip and rubber arch, open chamber casing top one side and be equipped with the arc strip, arc strip surface distribution evenly is equipped with rubber arch.

3. A laboratory ammonia water bottle drying and placing box according to claim 2, which is characterized in that: the fan is arranged at the lower part of the first rotating shaft, an arc-shaped opening is formed in the top of the bottom frame, and the diameter of the arc-shaped opening is consistent with that of an opening in the arc-shaped opening plate.