JP2021085652A - Oxidation prevention device for organic chemistry experiment - Google Patents

Abstract

To provide an oxidation prevention device for organic chemistry experiment.SOLUTION: An oxidation prevention device for organic chemistry experiment comprises an oxidation preventer, the inside of the oxidation preventer is provided with an intermediate space, the inside of the oxidation preventer is provided with placement spaces positionally symmetrically with the intermediate space as the center, and the inside of each placement space is provided with a storage mechanism. This invention almost removes oxygen in an organic material storage space by combustion with respect to materials easy to be oxidized in organic chemistry experiment, and facilitates operations; on the other hand, the contact between an organic material and oxygen is reduced, the oxidation speed of the organic material is relaxed, and the fact that experiment is satisfactorily performed is assured. Since combustion is performed with an alcohol lamp, the one generated by the combustion does not influence on the experiment, further, when alcohol is insufficient, this invention cannot be operated, and satisfactory safety is provided.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of organic chemistry, and specifically is an antioxidant device for organic chemistry experiments.

Organic chemistry is a field of chemistry that studies organic compounds, and is a department of chemistry that studies the manufacturing methods, structures, uses, and properties of organic compounds. In some organic chemistry experiments, producing a substance that is easily oxidized and not blocking the oxidation of that substance can affect subsequent experiments. Antioxidants in existing organic chemistry experiments often use protective inert gases or antioxidants. While the use of inert gas is expensive, it is also inconvenient to operate. The use of antioxidants requires removal of the antioxidants in subsequent treatments, which can affect subsequent experiments.

Chinese Patent Application Publication No. 106111963

Technical problem: Provide antioxidant equipment for organic chemistry experiments to solve the inconvenience of antioxidant operation in organic chemistry experiments and the problems affecting subsequent experiments.

In order to solve the above problems, the present invention adopts the following technical plan: The antioxidant device for organic chemistry experiments according to the present invention includes an antioxidant, and an intermediate space is provided in the antioxidant. A storage space is provided in the antioxidant so as to be symmetrical in position with respect to the intermediate space, and a storage mechanism is provided in the storage space so that the storage mechanism can slide left and right. A beaker space opened upward is provided on the upper end surface of the storage block including the storage block, and a test tube space opened upward is provided in the end wall close to the intermediate space in the beaker space. A beaker can be placed in the beaker space, and a test tube can be placed in the test tube space.
A combustion mechanism is provided between the two storage mechanisms, the combustion mechanism includes an alcohol storage block installed in the antioxidant, and a storage space is provided in the alcohol storage block. Alcohol is stored in the storage space, hard ropes are provided symmetrically in the storage space, the upper end of the hard rope is located in the storage space, and alcohol is stored in the hard rope. A work space opened toward the place space is provided between the place space and the intermediate space, and an electric heating block is fixedly provided on the rear end wall of the work space. In the electric heating block, a first heating block and a second heating block that can move left and right are provided on the side close to the storage space, and the electric heating block generates heat when energized, and the first heating block and the first heating block. The first heating block and the second heating block are heated by transferring heat to the second heating block, and after the first heating block and the second heating block are heated, the hard rope is sandwiched between them. Burns the hard rope and consumes oxygen in the storage space.
A transmission mechanism for energizing the electric heating block is provided in the work space.

As a preferred technical plan, the storage mechanism includes a moving groove formed in the lower end wall of the storage space, the moving groove is open upward, and a moving rod slides in the moving groove. The upper end of the moving rod is located in the storage space, the storage block penetrates the end wall away from the intermediate space in the storage space, and is fixed to the upper end of the moving rod. A rack is fixedly provided on the end face of the storage block close to the intermediate space, and a lid plate is fixedly provided on the end face of the storage block away from the intermediate space. Handles are fixedly provided on the end faces of the plate away from the intermediate space, and storage spaces communicating the placing space and the external space are provided on the left and right end faces of the antioxidant in a positionally symmetrical manner. A plug is blocked in the upper end of the storage space.

As a preferential technical plan, the combustion mechanism includes a blocking plate that is positionedly symmetrically and fixedly installed on the lower end wall of the storage space, and the left and right end faces of the blocking plate are included in the blocking plate. A penetrating connecting hole is provided, a floating block is provided between the two blocking plates so that the floating block can float up and down, and a connecting rod is fixedly provided on the upper end surface of the floating block, and the connecting rod is provided. The upper end is located in the intermediate space, a connecting space penetrating the upper and lower end surfaces of the connecting rod is provided in the connecting rod, and a support plate is fixedly provided at the upper end of the connecting rod. A metal rod is provided on the upper end surface of the support plate symmetrically and fixedly in position, and a replenishment space communicating with the external space is provided on the upper end wall of the intermediate space. Is communicated by a hose, a transmission space is provided in the electric heating block, a rotation shaft is provided on the rear end wall of the transmission space so that the rotation shaft can rotate, and a rotation rod is fixedly provided on the rotation shaft. In the transmission space, the first heat conduction rod and the second heat conduction rod are provided so as to slide in the end wall away from the intermediate space, and the first heat conduction rod is the second heat conduction rod. The first heating block is fixedly connected to the first heat conductive rod, the second heating block is fixedly connected to the second heat conductive rod, and the second heat conductive rod is fixedly connected to the second heating rod. A telescopic groove opened downward is formed on the upper side of the above, and a telescopic spring is fixedly provided on the end wall of the telescopic groove away from the intermediate space, and at one end of the telescopic spring close to the intermediate space. A telescopic block fixedly connected to the second heat conductive rod is fixedly provided, and a pressure space opened upward is provided in the upper end wall of the telescopic groove, and in the pressure space, in the intermediate space. A pressure spring is fixedly provided on the adjacent end wall, and a pressure block fixedly connected to the first heat conductive rod is fixedly provided on one end of the pressure spring away from the intermediate space. There is.

As a preferential technical plan, the transmission mechanism includes a rotating shaft rotatably provided on the rear end wall of the placing space, and the rotating shaft is fixedly provided with a curved block and a transmission gear, and the transmission gear is provided. Is located on the front side of the curved block, a power supply is fixedly provided on the rear end wall of the work block, and two conductive seals are positioned in the front and rear of the end face close to the intermediate space in the power supply. The conductive seal is provided symmetrically to conduct electrical conduction with the metal rod, and a guide space and an outlet opened in a direction away from the intermediate space are provided on the end face of the power source away from the intermediate space, and the guide is provided. A guide spring is fixedly provided on the end wall close to the intermediate space in the space, and a guide rod connected to the guide spring so as to be slidable is fixed to one end of the guide spring away from the intermediate space. A plug is fixedly provided at one end of the guide rod away from the intermediate space, and the plug and the electric heating block enable electric conduction with each other by an electric wire.

As a preferred technical plan, the storage block is a non-thermally conductive material and the hose is a soft material.

As a preferred technical plan, the floating block is designed with a hollow structure to increase buoyancy.

Beneficial effect: The present invention removes most of the oxygen in the organic material storage space by combustion for materials that are easily oxidized in organic chemistry experiments, and is easy to operate, while reducing the contact between the organic material and oxygen. Since the oxidation rate of the organic material is slowed down, the experiment is guaranteed to be carried out smoothly, and the combustion is performed with an alcohol lamp, the product produced by the combustion does not affect the experiment, and in the case of lack of oxygen, the present invention Is inoperable and has good safety.

In order to explain the invention of the present application in detail with reference to FIGS. 1 to 4 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG.

FIG. 1 is a schematic front view of the entire cross section of the present invention. FIG. 2 is an enlarged schematic view of FIG. 1A. FIG. 3 is an enlarged schematic view of FIG. 1B. FIG. 4 is a schematic view in the CC direction of FIG.

With reference to FIGS. 1 to 4, the antioxidant device for organic chemistry experiments according to the present invention includes an antioxidant 10, and an intermediate space 21 is provided in the antioxidant 10, and the antioxidant 10 is provided. A storage space 18 is provided in the storage space 18 symmetrically with respect to the center of the intermediate space 21, a storage mechanism 70 is provided in the storage space 18, and the storage mechanism 70 is a storage block that can slide left and right. A beaker space 16 that includes 14 and is open upward is provided on the upper end surface of the storage block 14, and a test tube space 17 that is open upward in the end wall of the beaker space 16 close to the intermediate space 21. Can be provided, a beaker can be placed in the beaker space 16, and a test tube can be placed in the test tube space 17.
A combustion mechanism 71 is provided between the two storage mechanisms 70, and the combustion mechanism 71 includes an alcohol storage block 26 installed in the antioxidant 10 and stores in the alcohol storage block 26. A space 32 is provided, alcohol is stored in the storage space 32, a hard rope 33 is provided in the storage space 32 symmetrically in position, and the upper end of the hard rope 33 is the storage space. Alcohol has penetrated into the hard rope 33, and a work space 19 is provided between the storage space 18 and the intermediate space 21 and is open toward the storage space 18. An electric heating block 39 is fixedly provided on the rear end wall of the work space 19, and the first heating block 34 and the second heating block 37 that can move left and right on the side of the electric heating block 39 close to the placement space 18 The electric heating block 39 generates heat when energized, and transfers heat to the first heating block 34 and the second heating block 37 to transfer the heat to the first heating block 34 and the second heating block 37. 37 is heated, and after the first heating block 34 and the second heating block 37 are heated, the hard rope 33 is sandwiched, whereby the hard rope 33 burns and consumes oxygen in the storage space 18. And
A transmission mechanism 72 that energizes the electric heating block 39 is provided in the work space 19.

Beneficially, the storage mechanism 70 includes a moving groove 53 formed in the lower end wall of the storage space 18, the moving groove 53 is open upward, and a moving rod is contained in the moving groove 53. The 54 is provided so as to be slidable, the upper end of the moving rod 54 is located in the placing space 18, and the storage block 14 penetrates an end wall away from the intermediate space 21 in the placing space 18. Further, the rack 12 is fixedly connected to the upper end of the moving rod 54, and the rack 12 is fixedly provided on the end surface of the storage block 14 close to the intermediate space 21, and is separated from the intermediate space 21 in the storage block 14. A lid plate 55 is fixedly provided on the end face, a handle 13 is fixedly provided on the end face of the lid plate 55 away from the intermediate space 21, and the placement space is provided on the left and right end faces of the antioxidant 10. A storage space 15 that communicates the 18 and the external space is provided symmetrically in position, and a plug 60 is closed in the upper end of the placement space 18.

Beneficially, the combustion mechanism 71 includes a blocking plate 31 that is positionedly symmetrically and fixedly installed on the lower end wall of the storage space 32, and the blocking plate 31 includes the left and right sides of the blocking plate 31. A connecting hole 27 penetrating the end surface is provided, a floating block 28 is provided between the two blocking plates 31 so that the floating block 28 can float up and down, and a connecting rod 30 is fixed to the upper end surface of the floating block 28. The upper end of the connecting rod 30 is located in the intermediate space 21, and a connecting space 29 penetrating the upper and lower end surfaces of the connecting rod 30 is provided in the connecting rod 30. A support plate 20 is fixedly provided on the upper end of the support plate 20, and a metal rod 24 is provided on the upper end surface of the support plate 20 symmetrically and fixedly in position, and on the upper end wall of the intermediate space 21. A replenishment space 23 communicating with the external space is provided, the replenishment space 23 and the connection space 29 are communicated with each other by a hose 22, and a transmission space 40 is provided in the electric heating block 39, after the transmission space 40. A rotating shaft 41 is provided on the end wall so that the rotating shaft 41 can rotate, and a rotating rod 42 is fixedly provided on the rotating shaft 41. The first heat conduction rod 11 and the second heat conduction rod 56 are provided so as to be slidable, the first heat conduction rod 11 is located above the second heat conduction rod 56, and the first heating block 34 is the first. A telescopic groove that is fixedly connected to the one heat conductive rod 11, the second heating block 37 is fixedly connected to the second heat conductive rod 56, and opens downward on the upper side of the second heat conductive rod 56. 36 is formed, a telescopic spring 35 is fixedly provided on an end wall away from the intermediate space 21 in the telescopic groove 36, and the second heat is provided at one end of the telescopic spring 35 close to the intermediate space 21. A telescopic block 43 fixedly connected to the conduction rod 56 is fixedly provided, a pressure space 57 opened upward is provided in the upper end wall of the telescopic groove 36, and the intermediate space is provided in the pressure space 57. A pressure spring 59 is fixedly provided on the end wall close to the 21 and the pressure block 58 is fixedly connected to the first heat conductive rod 11 at one end of the pressure spring 59 away from the intermediate space 21. Is fixedly provided.

Beneficially, the transmission mechanism 72 includes a rotation shaft 51 rotatably provided on the rear end wall of the placement space 18, and the rotation shaft 51 is fixedly provided with a curved block 50 and a transmission gear 49. The transmission gear 49 is located on the front side of the curved block 50, a power supply 46 is fixedly provided on the rear end wall of the work block 19, and in the end face of the power supply 46 close to the intermediate space 21. Two conductive seals 25 are provided positionally symmetrically in the front-rear direction, the conductive seal 25 conducts electrical conduction with the metal rod 24, and the end face away from the intermediate space 21 in the power supply 46 is separated from the intermediate space 21. A guide space 45 and an outlet 48 opened in the vertical direction are provided, and a guide spring 47 is fixedly provided on an end wall of the guide space 45 close to the intermediate space 21, and the intermediate space 21 is provided in the guide spring 47. A guide rod 44 connected to the guide space 45 so as to be slidable is fixedly provided at one end away from the guide rod 44, and a plug 52 is fixedly provided at one end of the guide rod 44 away from the intermediate space 21. The plug 52 and the electric heating block 39 are electrically conducted with each other by the electric wire 38.

Advantageously, the storage block 14 is a non-thermally conductive material and the hose 22 is a soft material.

Advantageously, the floating block 28 is designed to have a hollow structure and can increase buoyancy.

Mechanical operation sequence of the entire invention of the present application:
(1) A beaker or test tube for an organic chemistry experiment is placed in the beaker space 16 and the test tube space 17, and the handle 13 is pushed and moved to be attached to the storage space 15, and the storage block 14 moves with the handle 13 to the third position. One heating block 34 is pushed and moved so as to approach the intermediate space 21, the first heat conductive rod 11 moves along with the intermediate space 21 and pushes and rotates the rotating rod 42, and the rotating rod 42 pushes the second heat conductive rod 56 into the intermediate space. Pushing away from 21, the second heating block 37 moves with the second heat conductive rod 56, and the second heating block 37 and the first heating block 34 sandwich the hard rope 33.
(2) The rack 12 moves with the storage block 14, and after the rack 12 moves, it meshes with the transmission gear 49 to rotate the transmission gear 49, and the curved block 50 rotates with the transmission gear 49 to insert the plug 52 into the outlet 48. The electric power source 46 energizes the electric heating block 39 by conducting the electric wire 38 to heat the electric heating block 39, and the temperature of the first heating block 34 and the second heating block 37 rises so that the hard rope 33 is located. Burn alcohol.
(3) By burning the alcohol in the hard rope 33, all the oxygen in the storage space 18 is consumed, the pressure in the storage space 18 becomes low, the lid plate 55 closes the storage space 18, and the beaker and the beaker. Organic chemistry experimental products in test tubes are no longer in contact with oxygen.
(4) When trying to take out the beaker and the test tube, by pulling out the stopper 60, the air pressure inside the storage space 18 becomes the same as the external air pressure, and the storage block 14 is placed in the space 18. Can be taken out.
(5) When the alcohol in the storage space 32 becomes insufficient, the floating block 28 is lowered to lower the metal rod 24, and the metal rod 24 is separated from the conductive seal 25, so that the power supply 46 is not energized and the power supply 46 is removed. Stops supplying electricity, which prevents the rigid rope 33 from burning, and it is necessary to replenish alcohol from the replenishment space 23 into the storage space 32.

Engineers in this field can clarify that they do not depart from the general spirit and ideas of the present invention, and various modifications can be made to the above examples, all of which are within the scope of the present invention. The protection plan of the present invention should be standardized on the claim of the present invention.

The present invention takes up the field of organic chemistry, and specifically is an antioxidant device for organic chemistry experiments.

Organic chemistry is a field of chemistry that studies organic compounds, and is a department of chemistry that studies the manufacturing methods, structures, uses, and properties of organic compounds. In some organic chemistry experiments, producing a substance that is easily oxidized and not blocking the oxidation of that substance can affect subsequent experiments. Antioxidants in existing organic chemistry experiments often use protective inert gases or antioxidants. While the use of inert gas is expensive, it is also inconvenient to operate. The use of antioxidants requires removal of the antioxidants in subsequent treatments, which can affect subsequent experiments.

Chinese Patent Application Publication No. 106111963

Technical problem: Provide antioxidant equipment for organic chemistry experiments to solve the inconvenience of antioxidant operation in organic chemistry experiments and the problems affecting subsequent experiments.

In order to solve the above problems, the present invention adopts the following technical plan: The antioxidant device for organic chemistry experiments according to the present invention includes an antioxidant, and an intermediate space is provided in the antioxidant. A storage space is provided in the antioxidant so as to be symmetrical in position with respect to the intermediate space, and a storage mechanism is provided in the storage space so that the storage mechanism can slide left and right. A beaker space opened upward is provided on the upper end surface of the storage block including the storage block, and a test tube space opened upward is provided in the end wall close to the intermediate space in the beaker space. A beaker can be placed in the beaker space, and a test tube can be placed in the test tube space.
A combustion mechanism is provided between the two storage mechanisms, the combustion mechanism includes an alcohol storage block installed in the antioxidant, and a storage space is provided in the alcohol storage block. Alcohol is stored in the storage space, hard ropes are provided symmetrically in the storage space, the upper end of the hard rope is located in the storage space, and alcohol is stored in the hard rope. A work space opened toward the place space is provided between the place space and the intermediate space, and an electric heating block is fixedly provided on the rear end wall of the work space. In the electric heating block, a first heating block and a second heating block that can move left and right are provided on the side close to the storage space, and the electric heating block generates heat when energized, and the first heating block and the first heating block. The first heating block and the second heating block are heated by transferring heat to the second heating block, and after the first heating block and the second heating block are heated, the hard rope is sandwiched between them. The alcohol contained in the hard rope is burned to consume oxygen in the storage space, and a transmission mechanism for energizing the electric heat block is provided in the work space.

As a preferred technical plan, the storage mechanism includes a moving groove formed in the lower end wall of the storage space, the moving groove is open upward, and a moving rod slides in the moving groove. The upper end of the moving rod is located in the storage space, the storage block penetrates the end wall away from the intermediate space in the storage space, and is fixed to the upper end of the moving rod. A rack is fixedly provided on the end face of the storage block close to the intermediate space, and a lid plate is fixedly provided on the end face of the storage block away from the intermediate space. Handles are fixedly provided on the end faces of the plate away from the intermediate space, and storage spaces communicating the placing space and the external space are provided on the left and right end faces of the antioxidant in a positionally symmetrical manner. there is a plug in at the upper end of the space place.

As a preferential technical plan, the combustion mechanism includes a blocking plate that is positionedly symmetrically and fixedly installed on the lower end wall of the storage space, and the left and right end faces of the blocking plate are included in the blocking plate. A penetrating connecting hole is provided, a floating block is provided between the two blocking plates so that the floating block can float up and down, and a connecting rod is fixedly provided on the upper end surface of the floating block, and the connecting rod is provided. The upper end is located in the intermediate space, a connecting space penetrating the upper and lower end surfaces of the connecting rod is provided in the connecting rod, and a support plate is fixedly provided at the upper end of the connecting rod. A metal rod is provided on the upper end surface of the support plate symmetrically and fixedly in position, and a replenishment space communicating with the external space is provided on the upper end wall of the intermediate space. Is communicated by a hose, a transmission space is provided in the electric heating block, a rotation shaft is provided on the rear end wall of the transmission space so that the rotation shaft can rotate, and a rotation rod is fixedly provided on the rotation shaft. In the transmission space, the first heat conduction rod and the second heat conduction rod are provided so as to slide in the end wall away from the intermediate space, and the first heat conduction rod is the second heat conduction rod. Located above the rod, the first heating block is fixedly connected to the first heat conduction rod, the second heating block is fixedly connected to the second heat conduction rod, and the second heat conduction A telescopic groove opened downward is formed on the upper side of the rod, and a telescopic spring is fixedly provided on the end wall away from the intermediate space in the telescopic groove, and at one end of the telescopic spring close to the intermediate space. Is fixedly provided with a telescopic block fixedly connected to the second heat conductive rod, a pressure space opened upward is provided in the upper end wall of the telescopic groove, and the intermediate space is provided in the pressure space. A pressure spring is fixedly provided on the end wall close to the above, and a pressure block fixedly connected to the first heat conductive rod is fixedly provided at one end of the pressure spring away from the intermediate space. ing.

As a preferential technical plan, the transmission mechanism includes a rotating shaft rotatably provided on the rear end wall of the placing space, and the rotating shaft is fixedly provided with a curved block and a transmission gear, and the transmission gear is provided. Is located on the front side of the curved block, a power supply is fixedly provided on the rear end wall of the work space , and two conductive seals are positioned in the front and rear of the end face close to the intermediate space in the power supply. The conductive seal is provided symmetrically to conduct electrical conduction with the metal rod, and a guide space and an outlet opened in a direction away from the intermediate space are provided on the end face of the power source away from the intermediate space, and the guide is provided. A guide spring is fixedly provided on the end wall close to the intermediate space in the space, and a guide rod connected to the guide spring so as to be slidable is fixed to one end of the guide spring away from the intermediate space. A plug is fixedly provided at one end of the guide rod away from the intermediate space, and the plug and the electric heating block enable electric conduction with each other by an electric wire.

As a technical plan of choice, the storage block is rock wool with excellent heat insulation , and the hose is a soft material.

As a preferred technical plan, the floating block is designed with a hollow structure to increase buoyancy.

Beneficial effect: The present invention removes most of the oxygen in the organic material storage space by combustion for materials that are easily oxidized in organic chemistry experiments, and is easy to operate, while reducing the contact between the organic material and oxygen. Since the oxidation rate of the organic material is slowed down, the experiment is guaranteed to be carried out smoothly, and the combustion is performed with an alcohol lamp, the product produced by the combustion does not affect the experiment, and in the case of lack of oxygen, the present invention Is inoperable and has good safety.

In order to explain the invention of the present application in detail with reference to FIGS. 1 to 4 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG.

FIG. 1 is a schematic front view of the entire cross section of the present invention. FIG. 2 is an enlarged schematic view of FIG. 1A. FIG. 3 is an enlarged schematic view of FIG. 1B. FIG. 4 is a schematic view in the CC direction of FIG.

With reference to FIGS. 1 to 4, the antioxidant device for organic chemistry experiments according to the present invention includes an antioxidant 10, and an intermediate space 21 is provided in the antioxidant 10, and the antioxidant 10 is provided. A storage space 18 is provided in the storage space 18 symmetrically with respect to the center of the intermediate space 21, a storage mechanism 70 is provided in the storage space 18, and the storage mechanism 70 is a storage block that can slide left and right. A beaker space 16 that includes 14 and is open upward is provided on the upper end surface of the storage block 14, and a test tube space 17 that is open upward in the end wall of the beaker space 16 close to the intermediate space 21. Can be provided, a beaker can be placed in the beaker space 16, and a test tube can be placed in the test tube space 17.
A combustion mechanism 71 is provided between the two storage mechanisms 70, and the combustion mechanism 71 includes an alcohol storage block 26 installed in the antioxidant 10 and stores in the alcohol storage block 26. A space 32 is provided, alcohol is stored in the storage space 32, a hard rope 33 is provided in the storage space 32 symmetrically in position, and the upper end of the hard rope 33 is the storage space. Alcohol has penetrated into the hard rope 33, and a work space 19 is provided between the storage space 18 and the intermediate space 21 and is open toward the storage space 18. An electric heating block 39 is fixedly provided on the rear end wall of the work space 19, and the first heating block 34 and the second heating block 37 that can move left and right on the side of the electric heating block 39 close to the placement space 18 The electric heating block 39 generates heat when energized, and transfers heat to the first heating block 34 and the second heating block 37 to transfer the heat to the first heating block 34 and the second heating block 37. 37 is heated, and after the first heating block 34 and the second heating block 37 are heated, the hard rope 33 is sandwiched, whereby alcohol contained in the hard rope 33 is burned and the inside of the storage space 18 is used. Consume oxygen,
A transmission mechanism 72 that energizes the electric heating block 39 is provided in the work space 19.

Beneficially, the storage mechanism 70 includes a moving groove 53 formed in the lower end wall of the storage space 18, the moving groove 53 is open upward, and a moving rod is contained in the moving groove 53. The 54 is provided so as to be slidable, the upper end of the moving rod 54 is located in the placing space 18, and the storage block 14 penetrates an end wall away from the intermediate space 21 in the placing space 18. Further, the rack 12 is fixedly connected to the upper end of the moving rod 54, and the rack 12 is fixedly provided on the end surface of the storage block 14 close to the intermediate space 21, and is separated from the intermediate space 21 in the storage block 14. A lid plate 55 is fixedly provided on the end face, a handle 13 is fixedly provided on the end face of the lid plate 55 away from the intermediate space 21, and the placement space is provided on the left and right end faces of the antioxidant 10. A storage space 15 that communicates the 18 and the external space is provided symmetrically in position, and a plug 60 is located in the upper end of the storage space 18.

Beneficially, the combustion mechanism 71 includes a blocking plate 31 that is positionedly symmetrically and fixedly installed on the lower end wall of the storage space 32, and the blocking plate 31 includes the left and right sides of the blocking plate 31. A connecting hole 27 penetrating the end surface is provided, a floating block 28 is provided between the two blocking plates 31 so that the floating block 28 can float up and down, and a connecting rod 30 is fixed to the upper end surface of the floating block 28. The upper end of the connecting rod 30 is located in the intermediate space 21, and a connecting space 29 penetrating the upper and lower end surfaces of the connecting rod 30 is provided in the connecting rod 30. A support plate 20 is fixedly provided on the upper end of the support plate 20, and a metal rod 24 is provided on the upper end surface of the support plate 20 symmetrically and fixedly in position, and on the upper end wall of the intermediate space 21. A replenishment space 23 communicating with the external space is provided, the replenishment space 23 and the connection space 29 are communicated with each other by a hose 22, and a transmission space 40 is provided in the electric heating block 39, after the transmission space 40. A rotating shaft 41 is provided on the end wall so that the rotating shaft 41 can rotate, and a rotating rod 42 is fixedly provided on the rotating shaft 41. The one heat conduction rod 11 and the second heat conduction rod 56 are provided so as to be slidable, the first heat conduction rod 11 is located above the second heat conduction rod 56, and the first heating block 34 is said. The second heating block 37 is fixedly connected to the first heat conductive rod 11, and the second heating block 37 is fixedly connected to the second heat conductive rod 56. A groove 36 is formed, a telescopic spring 35 is fixedly provided on an end wall of the telescopic groove 36 away from the intermediate space 21, and a second telescopic spring 35 is provided at one end of the telescopic spring 35 close to the intermediate space 21. A telescopic block 43 fixedly connected to the heat conductive rod 56 is fixedly provided, and a pressure space 57 opened upward is provided in the upper end wall of the telescopic groove 36, and the intermediate in the pressure space 57. A pressure spring 59 is fixedly provided on the end wall close to the space 21, and a pressure block fixedly connected to the first heat conductive rod 11 at one end of the pressure spring 59 away from the intermediate space 21. 58 is fixedly provided.

Beneficially, the transmission mechanism 72 includes a rotation shaft 51 rotatably provided on the rear end wall of the placement space 18, and the rotation shaft 51 is fixedly provided with a curved block 50 and a transmission gear 49. The transmission gear 49 is located on the front side of the curved block 50, a power supply 46 is fixedly provided on the rear end wall of the work space 19, and the power supply 46 is contained in an end surface close to the intermediate space 21. Two conductive seals 25 are provided positionally symmetrically in the front-rear direction, the conductive seal 25 conducts electrical conduction with the metal rod 24, and the end face away from the intermediate space 21 in the power supply 46 is separated from the intermediate space 21. A guide space 45 and an outlet 48 opened in the vertical direction are provided, and a guide spring 47 is fixedly provided on an end wall of the guide space 45 close to the intermediate space 21, and the intermediate space 21 is provided in the guide spring 47. A guide rod 44 connected to the guide space 45 so as to be slidable is fixedly provided at one end away from the guide rod 44, and a plug 52 is fixedly provided at one end of the guide rod 44 away from the intermediate space 21. The plug 52 and the electric heating block 39 are electrically conducted with each other by the electric wire 38.

Advantageously, the storage block 14 is rock wool with excellent heat insulating properties , and the hose 22 is a soft material.

Advantageously, the floating block 28 is designed to have a hollow structure and can increase buoyancy.

Mechanical operation sequence of the entire invention of the present application:
(1) A beaker or test tube for an organic chemistry experiment is placed in the beaker space 16 and the test tube space 17, and the handle 13 is pushed and moved to be attached to the storage space 15, and the storage block 14 moves with the handle 13 to the third position. One heating block 34 is pushed and moved so as to approach the intermediate space 21, the first heat conductive rod 11 moves along with the intermediate space 21 and pushes and rotates the rotating rod 42, and the rotating rod 42 pushes the second heat conductive rod 56 into the intermediate space. Pushing away from 21, the second heating block 37 moves with the second heat conductive rod 56, and the second heating block 37 and the first heating block 34 sandwich the hard rope 33.
(2) The rack 12 moves with the storage block 14, and after the rack 12 moves, it meshes with the transmission gear 49 to rotate the transmission gear 49, and the curved block 50 rotates with the transmission gear 49 to insert the plug 52 into the outlet 48. The electric power source 46 energizes the electric heating block 39 by conducting the electric wire 38 to heat the electric heating block 39, and the temperature of the first heating block 34 and the second heating block 37 rises so that the hard rope 33 is located. Burn alcohol.
(3) By burning the alcohol in the hard rope 33, all the oxygen in the storage space 18 is consumed, the pressure in the storage space 18 becomes low, the lid plate 55 closes the storage space 18, and the beaker and the beaker. Organic chemistry experimental products in test tubes are no longer in contact with oxygen.
(4) When trying to take out the beaker and the test tube, by pulling out the stopper 60, the air pressure inside the storage space 18 becomes the same as the external air pressure, and the storage block 14 is placed in the space 18. Can be taken out.
(5) When the alcohol in the storage space 32 becomes insufficient, the floating block 28 is lowered to lower the metal rod 24, and the metal rod 24 is separated from the conductive seal 25, so that the power supply 46 is not energized and the power supply 46 is removed. Stops supplying electricity, which prevents the rigid rope 33 from burning, and it is necessary to replenish alcohol from the replenishment space 23 into the storage space 32.

Engineers in this field can clarify that they do not deviate from the general spirit and ideas of the present invention, and various modifications can be made to the above examples, and all of these modifications are within the scope of the present invention. The protection plan of the present invention should be standardized on the claim of the present invention.

Claims (6)

Including antioxidant
An intermediate space is provided in the antioxidant, a storage space is provided in the antioxidant in a symmetrical position with respect to the intermediate space, and a storage mechanism is provided in the storage space. The storage mechanism is provided and includes a storage block that can slide left and right, and a beaker space that opens upward is provided on the upper end surface of the storage block, and in the end wall that is close to the intermediate space in the beaker space. A test tube space opened upward is provided, a beaker can be placed in the beaker space, and a test tube can be placed in the test tube space.
A combustion mechanism is provided between the two storage mechanisms, the combustion mechanism includes an alcohol storage block installed in the antioxidant, and a storage space is provided in the alcohol storage block. Alcohol is stored in the storage space, hard ropes are provided symmetrically in the storage space, the upper end of the hard rope is located in the storage space, and alcohol is stored in the hard rope. A work space opened toward the place space is provided between the place space and the intermediate space, and an electric heating block is fixedly provided on the rear end wall of the work space. In the electric heating block, a first heating block and a second heating block that can move left and right are provided on the side close to the storage space, and the electric heating block generates heat when energized, and the first heating block and the first heating block. The first heating block and the second heating block are heated by transferring heat to the second heating block, and after the first heating block and the second heating block are heated, the hard rope is sandwiched between them. Burns the hard rope and consumes oxygen in the storage space.
An antioxidant device for an organic chemistry experiment, characterized in that a transmission mechanism for energizing the electric heating block is provided in the work space. The storage mechanism includes a moving groove formed in the lower end wall of the storage space, the moving groove is opened upward, and the moving rod is provided in the moving groove so as to be slidable. The upper end of the moving rod is located in the storage space, the storage block penetrates the end wall away from the intermediate space in the storage space, and is fixedly connected to the upper end of the moving rod. A rack is fixedly provided on the end face of the storage block close to the intermediate space, a lid plate is fixedly provided on the end face of the storage block away from the intermediate space, and the lid plate is fixedly provided from the intermediate space. Handles are fixedly provided on the distant end faces, and storage spaces communicating the placing space and the external space are provided symmetrically on the left and right end faces of the antioxidant, and inside the upper end of the placing space. The antioxidant device for organic chemistry experiments according to claim 1, wherein the stopper is closed. The combustion mechanism includes a blocking plate that is positionedly symmetrically and fixedly installed on the lower end wall of the storage space, and a connecting hole that penetrates the left and right end faces of the blocking plate is provided in the blocking plate. A floating block is provided between the two blocking plates so that the floating block can float up and down, a connecting rod is fixedly provided on the upper end surface of the floating block, and the upper end of the connecting rod is in the intermediate space. Located inside, a connecting space is provided in the connecting rod that penetrates the upper and lower end surfaces of the connecting rod, a support plate is fixedly provided at the upper end of the connecting rod, and the upper end surface of the supporting plate is provided. The metal rods are provided symmetrically and fixedly in position, a replenishment space communicating with the external space is provided on the upper end wall of the intermediate space, and the replenishment space and the connection space are communicated by a hose. A transmission space is provided in the electric heating block, a rotating shaft is provided on the rear end wall of the transmission space so that the rotating shaft can rotate, and a rotating rod is fixedly provided on the rotating shaft. The first heat conduction rod and the second heat conduction rod are provided so as to be slidable in the end wall away from the intermediate space, and the first heat conduction rod is located above the second heat conduction. The first heating block is fixedly connected to the first heat conductive rod, the second heating block is fixedly connected to the second heat conductive rod, and the upper side of the second heat conductive rod is downward. An open telescopic groove is formed, a telescopic spring is fixedly provided on the end wall of the telescopic groove away from the intermediate space, and the second heat conductive rod is fixedly provided at one end of the telescopic spring near the intermediate space. A telescopic block fixedly connected to and is provided, a pressure space opened upward is provided in the upper end wall of the telescopic groove, and an end wall close to the intermediate space in the pressure space is provided. A pressure spring is fixedly provided, and a pressure block fixedly connected to the first heat conductive rod is fixedly provided at one end of the pressure spring away from the intermediate space. The antioxidant device for organic chemistry experiments according to claim 1. The transmission mechanism includes a rotating shaft rotatably provided on the rear end wall of the placing space, and a curved block and a transmission gear are fixedly provided on the rotating shaft, and the transmission gear is on the front side of the curved block. A power supply is fixedly provided on the rear end wall of the work block, and two conductive seals are provided in the end face close to the intermediate space in the power supply so as to be symmetrical in the front-rear direction. The conductive seal conducts electrical conduction with the metal rod, and a guide space and an outlet opened in a direction away from the intermediate space are provided on the end face of the power source away from the intermediate space. A guide spring is fixedly provided on the adjacent end wall, and a guide rod connected to the guide space so as to be slidable is fixedly provided at one end of the guide spring away from the intermediate space. The organic chemistry experiment according to claim 1, wherein a plug is fixedly provided at one end of the rod away from the intermediate space, and the plug and the electric heating block enable electric conduction with each other by an electric wire. Antioxidant device for. The antioxidant device for an organic chemistry experiment according to claim 3, wherein the storage block is a material having no thermal conductivity, and the hose is a soft material. The antioxidant device for an organic chemistry experiment according to claim 3, wherein the floating block is designed to have a hollow structure and can increase buoyancy.

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