CN116534459B - Storage device of glass lining raw material sample - Google Patents

Abstract

The invention provides a storage device for glass lining raw material samples, which relates to the field of sample storage and comprises: the bidirectional single control assembly comprises a bidirectional mechanism, a conversion mechanism and a connecting mechanism, the problem that the sealing cover of the existing glass lining raw material storage device is not provided with a rapid mounting and dismounting structure, a plurality of groups of bolts need to be mounted and dismounted one by one during mounting and dismounting, and the tightness operation direction of the bolts is fixed and cannot be adjusted is solved.

Description

Storage device of glass lining raw material sample

Technical Field

The invention relates to the technical field of sample storage, in particular to a storage device for glass lining raw material samples.

Background

The enamel glass is made by coating enamel with high silicon content on the surface of metal and enameling at 950 ℃ to make the enamel glass closely adhered on the surface of metal iron tyre, and has the double advantages of similar glass chemical stability and metal strength, and the raw materials and raw material samples of the enamel glass can be stored in corresponding storage tanks at present to ensure that the raw materials can be stably stored without deterioration.

When the existing glass lining raw material sample storage device is used, the following problems exist:

1. the sealing cover does not have a rapid mounting and dismounting structure, a plurality of groups of bolts are arranged outside the sealing cover for connection and fixation in order to ensure the sealing performance inside the storage tank, and the plurality of groups of bolts are required to be mounted and dismounted one by one during mounting and dismounting, so that the steps are complicated and the efficiency is low;

2. the tightness operation direction of the bolt cannot be fixed, and the bolt is required to be repositioned and rotated after being rotated to a certain angle during assembly and disassembly (namely, the bolt cannot be driven to rotate continuously to realize the assembly and disassembly operation when the bolt is restored to the original position) so that the bolt cannot be rotated reciprocally to realize the assembly and disassembly operation, the flexibility is poor, and the practicability is low;

3. the rotation direction of bolt is fixed when installing and removing, is difficult to operate when operating space is less, and adaptability is relatively poor.

Disclosure of Invention

In view of the above, the present invention provides a storage device for glass lining raw material samples, which has a bidirectional single control assembly, wherein the bidirectional single control assembly can realize unified control of a connection mechanism, thereby facilitating the operation of mounting and dismounting a sealing cover on a raw material storage tank, and the storage device is flexible in use, and under the cooperation of the bidirectional mechanism and a conversion mechanism, the operation panel can only realize rotation and driving force in one direction for a driving seat no matter forward or backward rotation, so that the operation panel can realize tightness operation of the connection mechanism during mounting and dismounting, i.e. the operation panel can drive the connection screw to rotate unidirectionally in the reciprocating stroke, the use is convenient, and the direction of the operation panel driving the connection screw to rotate unidirectionally can be freely adjusted, thereby realizing the operation of rapidly mounting and dismounting the sealing cover on the raw material storage tank through the connection mechanism, and the storage device is flexible and convenient in use, and has extremely strong flexibility and practicability.

The invention provides a storage device for glass lining raw material samples, which specifically comprises: the storage assembly comprises a raw material storage tank and a sealing cover, and the sealing cover is fixedly arranged on the side face of the raw material storage tank through a connecting mechanism; further comprises:

the bidirectional single control assembly consists of a bidirectional mechanism, a conversion mechanism and a connecting mechanism; the bidirectional mechanism comprises an operation panel, a control gear a, a control gear b and a connecting gear a, wherein the operation panel, the control gear a and the control gear b are rotationally connected in the sealing cover from top to bottom, the bottom of the operation panel is fixedly connected to the top of the control gear a, the connecting gear a is rotationally connected in the sealing cover, and gear teeth at the top and the bottom of the connecting gear a are respectively meshed with the gear teeth of the control gear a and the control gear b for transmission;

the switching mechanism comprises a driving column, a selection gear a, a selection gear b, a connection gear b and a switching column, wherein the driving column, the selection gear a and the selection gear b are rotatably connected in the sealing cover from top to bottom, the driving column is fixedly arranged at the top of the selection gear a, the driving column is inserted in the control gear a and the control gear b, the connection gear b is rotatably connected in the sealing cover, gear teeth at the top and the bottom of the connection gear b are respectively meshed with gear teeth of the selection gear a and the selection gear b for transmission, the switching column is inserted in the driving column, and a column body of the switching column penetrates through the operation panel;

the connecting mechanism comprises a pressing seat, a driving seat, a protection block and a connecting screw rod, wherein the pressing seat is rotationally connected to the inside of the sealing cover, the driving seat is rotationally connected to the inside of the sealing cover, the pressing seat is arranged at the bottom of the driving seat, the protection block is inserted into the inside of the driving seat, the top end of the connecting screw rod is fixedly connected to the bottom of the pressing seat, and the connecting screw rod is screwed into the inside of the raw material storage tank through a rod body thread.

Furthermore, the four groups of connecting mechanisms are arranged on the sealing cover, the included angles among the adjacent connecting mechanisms are the same, the driving seats of the four groups of connecting mechanisms are synchronously connected through chain wheels and chains in a transmission manner, the number of the connecting mechanisms is not limited to four groups, and the number of the connecting mechanisms can be increased or decreased.

Further, the bidirectional mechanism further comprises unidirectional transmission blocks, the unidirectional transmission blocks are provided with two groups, the two groups of unidirectional transmission blocks are respectively inserted into the control gear a and the control gear b, two groups of unidirectional tooth grooves are arranged at the top of the driving column, the cross section shapes of the single tooth groove of the unidirectional tooth groove and the outer end of the unidirectional transmission block are right-angled triangles, and the unidirectional transmission blocks in the control gear a and the control gear b are respectively inserted into the two groups of unidirectional tooth grooves.

Further, a positioning top spring is arranged in the unidirectional transmission block, and two ends of the positioning top spring are respectively propped against the inside of the unidirectional transmission block and the inside of the control gear.

Further, the switching mechanism further comprises a driving gear, the driving gear is rotationally connected inside the sealing cover, a transmission gear is arranged outside a driving seat of the group of connecting mechanisms, and gear teeth of the transmission gear and the driving gear are meshed for transmission.

Further, a switching gear is arranged at the bottom of the switching column, a synchronous tooth slot is arranged in the driving gear, and the switching gear is inserted into the synchronous tooth slot.

Further, the bottom of the selection gear a and the top of the selection gear b are respectively provided with a selection tooth socket, the top of the switching column is provided with a reset top spring, two ends of the reset top spring respectively prop against the top of the switching column and the inside of the operation panel, under the action of the reset top spring, when the switching column is not subjected to external force, the top of the switching gear is inserted into the inside of the synchronous tooth socket of the selection gear a, and the bottom of the switching gear is separated from the inside of the synchronous tooth socket of the selection gear b.

Further, one side of the bottom of protection piece towards connecting screw locking direction is spherical design, and compresses tightly the top of seat and be equipped with the protection drive groove, and the bottom of protection piece is pegged graft in the inside of protection drive groove.

Further, the inside of protection piece is equipped with spacing top spring, and the both ends of spacing top spring support respectively in the inside of protection piece and the inside of drive seat.

The invention provides a storage device for glass lining raw material samples, which has the following beneficial effects:

1. the bidirectional single control assembly can realize unified control of the connecting mechanism, thereby facilitating the mounting and dismounting operation of the sealing cover on the raw material storage tank, being flexible in use, and under the cooperation of the bidirectional mechanism and the conversion mechanism, the operation panel can only realize rotation and driving force in one direction no matter forward and backward rotation, thereby realizing the elastic operation of the connecting mechanism when mounting and dismounting, namely, the operation panel can drive the connecting screw to rotate unidirectionally in the reciprocating stroke, the use is convenient, and the direction of the operation panel for driving the connecting screw to rotate unidirectionally can be freely adjusted, thereby realizing the operation of rapidly mounting and dismounting the sealing cover on the raw material storage tank through the connecting mechanism, and being flexible and convenient in use, and extremely strong in flexibility and practicability.

2. Based on the above-mentioned device that makes possess two kinds of locking modes and unscrew two kinds of usage patterns, no matter the connecting screw rod can screw in the inside of raw materials storage tank all the time when operating panel forward and backward rotates under locking mode promptly and realize locking function, no matter the connecting screw rod can deviate from (unscrew) the inside realization dismantlement function of raw materials storage tank all the time when operating panel forward and backward rotates under unscrewing mode, two kinds of usage patterns can switch and control through the switch post, use nimble convenience, can adapt to and use in the workspace of different grade type, and adaptability is extremely strong.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the inside of the present invention;

FIG. 3 is a schematic diagram of the bi-directional single control assembly of FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the bi-directional mechanism of the present invention with the bi-directional mechanism disassembled;

FIG. 5 is a schematic illustration of the conversion mechanism of the present invention shown in an exploded configuration;

FIG. 6 is a schematic view of the bottom of FIG. 5 in accordance with the present invention;

FIG. 7 is a schematic view of the connection mechanism of the present invention after disassembly;

FIG. 8 is a schematic view of the structure of the connecting mechanism of the present invention after triggering the torsion limiting structure;

FIG. 9 is a schematic view showing the structure of the inside of the present invention when the switching column is pressed to switch the use mode;

FIG. 10 is an enlarged schematic view of the structure of the portion A of FIG. 3 according to the present invention;

FIG. 11 is an enlarged schematic view of the structure of the portion B of FIG. 3 according to the present invention;

FIG. 12 is an enlarged schematic view of the structure of the portion C in FIG. 3 according to the present invention;

FIG. 13 is an enlarged schematic view of the structure of the portion D of FIG. 8 according to the present invention;

FIG. 14 is an enlarged schematic view of the structure of the portion E of FIG. 9 according to the present invention;

list of reference numerals: 1. a storage assembly; 101. a raw material storage tank; 102. a cover; 2. a bi-directional mechanism; 201. an operation panel; 202. a control gear a; 203. a control gear b; 204. a connecting gear a; 205. a unidirectional transmission block; 2051. positioning a top spring; 3. a conversion mechanism; 301. a drive column; 3011. unidirectional tooth slots; 302. selecting a gear a; 3021. selecting tooth grooves; 303. selecting a gear b; 304. a connecting gear b; 305. a switching column; 3051. a switching gear; 3052. resetting the top spring; 306. a drive gear; 3061. synchronizing the tooth slots; 4. a connecting mechanism; 401. a compressing seat; 4011. protecting the driving groove; 402. a driving seat; 4021. a transmission gear; 403. a protection block; 4031. limiting top springs; 404. and (5) connecting a screw rod.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiments of the present invention.

Please refer to fig. 1 to 14.

Example 1: the invention provides a storage device for glass lining raw material samples, which comprises a storage assembly 1, wherein the storage assembly 1 comprises a raw material storage tank 101 and a sealing cover 102, and the sealing cover 102 is fixedly arranged on the side surface of the raw material storage tank 101 through a connecting mechanism 4; further comprises:

the bidirectional single control assembly consists of a bidirectional mechanism 2, a conversion mechanism 3 and a connecting mechanism 4; the bidirectional mechanism 2 comprises an operation panel 201, a control gear a202, a control gear b203 and a connecting gear a204, wherein the operation panel 201, the control gear a202 and the control gear b203 are rotationally connected in the cover 102 from top to bottom, the bottom of the operation panel 201 is fixedly connected at the top of the control gear a202, the connecting gear a204 is rotationally connected in the cover 102, and gear teeth at the top and the bottom of the connecting gear a204 are respectively meshed with the gear teeth of the control gear a202 and the control gear b203 for transmission;

the conversion mechanism 3 comprises a driving column 301, a selection gear a302, a selection gear b303, a connection gear b304 and a switching column 305, wherein the driving column 301, the selection gear a302 and the selection gear b303 are connected in the cover 102 in a rotating way from top to bottom, the driving column 301 is fixedly arranged at the top of the selection gear a302, the driving column 301 is inserted in the control gear a202 and the control gear b203 in a plugging way, the connection gear b304 is connected in the cover 102 in a rotating way, gear teeth at the top and the bottom of the connection gear b304 are respectively meshed with gear teeth of the selection gear a302 and the selection gear b303 in a transmission way, the switching column 305 is inserted in the driving column 301, and a column body of the switching column 305 penetrates through the operation disc 201;

the connecting mechanism 4 comprises a pressing seat 401, a driving seat 402, a protection block 403 and a connecting screw 404, wherein the pressing seat 401 is rotationally connected to the inside of the sealing cover 102, the driving seat 402 is rotationally connected to the inside of the sealing cover 102, the pressing seat 401 is positioned at the bottom of the driving seat 402, the protection block 403 is inserted into the inside of the driving seat 402, the top end of the connecting screw 404 is fixedly connected to the bottom of the pressing seat 401, and the connecting screw 404 is screwed into the inside of the raw material storage tank 101 through a rod body thread.

The four groups of connecting mechanisms 4 are arranged on the sealing cover 102, the included angles between the adjacent connecting mechanisms 4 are the same, the driving seats 402 of the four groups of connecting mechanisms 4 are synchronously connected through chain wheels and chains, one side of the bottom of the protecting block 403, which faces the locking direction of the connecting screw 404, is in a spherical design, the top of the pressing seat 401 is provided with a protecting driving groove 4011, the bottom of the protecting block 403 is inserted into the protecting driving groove 4011, the number of the connecting mechanisms 4 is not limited to four groups, the number of the connecting mechanisms 4 can be increased or decreased, and in use, when the driving seats 402 of any group of connecting mechanisms 4 are rotated, the driving seats 402 of the four groups of connecting mechanisms 4 can synchronously rotate under the action of chain wheels, so that the operation of mounting and dismounting the sealing cover 102 at the top of the raw material storage tank 101 is realized, and the sealing cover is convenient to use and quick in mounting and dismounting.

Example 2: on the basis of embodiment 1, the bidirectional mechanism 2 further comprises a unidirectional transmission block 205, the unidirectional transmission block 205 is provided with two groups, the two groups of unidirectional transmission blocks 205 are respectively inserted into the control gear a202 and the control gear b203, the top of the driving column 301 is provided with two groups of unidirectional tooth grooves 3011, the cross section shapes of the single tooth groove of the unidirectional tooth groove 3011 and the outer end of the unidirectional transmission block 205 are right-angled triangles, and the unidirectional transmission blocks 205 in the control gear a202 and the control gear b203 are respectively inserted into the two groups of unidirectional tooth grooves 3011;

the conversion mechanism 3 further comprises a driving gear 306, the driving gear 306 is rotatably connected inside the cover 102, a transmission gear 4021 is arranged outside the driving seat 402 of one group of connecting mechanisms 4, and gear teeth of the transmission gear 4021 and the driving gear 306 are meshed for transmission.

Wherein, the inside of the unidirectional transmission block 205 is provided with a positioning top spring 2051, both ends of the positioning top spring 2051 respectively prop against the inside of the unidirectional transmission block 205 and the inside of the control gear, in use, the operation panel 201 can only realize rotation and driving force in one direction for the driving seat 402 no matter the forward and reverse rotation, thereby the operation panel 201 can realize the tightness operation of the connecting mechanism 4 during the assembly and disassembly, namely the operation panel 201 can drive the connecting screw 404 to rotate unidirectionally in the reciprocating stroke, when the operation panel 201 rotates, the operation panel 201 can drive the control gear a202 to rotate, the rotation directions of the control gear a202 and the control gear b203 are always opposite under the action of the connecting gear a204, and under the action of the existence of the unidirectional transmission block 205 and the unidirectional tooth socket 3011 and the mutual cooperation, the unidirectional transmission block 205 can drive the driving column 301 to rotate only when the straight edge of the unidirectional tooth socket 3011 is mutually clamped, that is, when the operation panel 201 rotates forward, the control gear a202 rotates forward and drives the driving post 301 to rotate forward synchronously under the clamping action of the inner unidirectional transmission block 205 and the straight edge of the unidirectional tooth socket 3011, and at the moment, the control gear b203 rotates reversely, but the inner unidirectional transmission block 205 and the inclined edge of the unidirectional tooth socket 3011 mutually extrude and avoid and compress the positioning top spring 2051 to avoid the blocking device, when the operation panel 201 rotates reversely, the control gear a202 rotates reversely synchronously, at the moment, because the unidirectional transmission block 205 and the inclined edge of the unidirectional tooth socket 3011 inside the control gear a202 mutually extrude and avoid, the control gear a202 does not drive the driving post 301 to rotate reversely, at the same time, the control gear b203 rotates forward and drives the driving post 301 to rotate forward synchronously under the clamping action of the inner unidirectional transmission block 205 and the straight edge of the unidirectional tooth socket 3011, thereby realizing the operation that the operation panel 201 can only drive the driving column 301 to rotate towards a single direction by bidirectional rotation, and being convenient to use.

The bottom of the switching column 305 is provided with a switching gear 3051, the inside of the driving gear 306 is provided with a synchronous tooth socket 3061, the switching gear 3051 is inserted into the synchronous tooth socket 3061 of the selecting gear a302, the bottom of the selecting gear a302 and the top of the selecting gear b303 are both provided with a selecting tooth socket 3021, the top of the switching column 305 is provided with a reset top spring 3052, two ends of the reset top spring 3052 are respectively abutted against the top of the switching column 305 and the inside of the operating panel 201, under the action of the reset top spring 3052, when the switching column 305 is not subjected to external force, the top of the switching gear 3051 is inserted into the synchronous tooth socket 3061 of the selecting gear a302, and the bottom of the switching gear 3051 is separated from the synchronous tooth socket 3061 of the selecting gear b303, in use, when the switching mechanism 3 is in a reset state, the driving column 301 can drive the selecting gear a302 to rotate when rotating, and the driving gear 306 can synchronously rotate along with the synchronous tooth socket 3051, the driving gear 306 can drive the driving column 305 to rotate through the driving seat 402 when the driving gear 4021, thereby realizing the function of the switching seat 3021, and the switching of the switching gear a gear 302 can be realized, and the switching direction of the switching seat 3051 can be realized when the switching seat 302 is realized, and the switching gear 3051 is changed, and the direction of the switching gear is changed, and the switching gear is realized, and the switching gear is changed by the switching seat 3051 is realized.

Example 3: on the basis of embodiment 1 and embodiment 2, the inside of protection piece 403 is equipped with spacing top spring 4031, and the both ends of spacing top spring 4031 support respectively in the inside of protection piece 403 and the inside of drive seat 402, in use, coupling mechanism 4 still possesses torsion limit structure, protection piece 403 is pegged graft all the time in the inside of protection drive groove 4011 under the effect of spacing top spring 4031, thereby can drive protection piece 403 synchronous rotation when drive seat 402 rotates, protection piece 403 can drive the synchronous rotation of clamp seat 401 through protection drive groove 4011 when following drive seat 402 and rotate, thereby the operation of installing and removing of rotation of connecting screw 404 is realized, and if when reaching the biggest connection dynamics in the installation, the rotation resistance of connecting screw 404 is greater than under limit top spring 4031 to and protection piece 403 this moment, thereby protection piece 403 can deviate from the inside of protection drive groove 4011 through the spherical block in bottom and compress spacing top spring 4031 when drive seat 402 continues to rotate, the stability of the device has been improved.

Specific use and action of the embodiment: in the invention, the operation of mounting and dismounting the sealing cover 102 on the raw material storage tank 101 can be realized through the bidirectional single control component, after a glass lining raw material sample is put into the raw material storage tank 101, the sealing cover 102 can be mounted through the operation of the bidirectional single control component, the bidirectional single control component is provided with two locking modes and unscrewing two using modes, namely, the locking function is realized through the fact that the connecting screw 404 can be always screwed into the raw material storage tank 101 no matter how the operating panel 201 rotates positively or negatively in the locking mode, the dismounting function is realized through the fact that the connecting screw 404 can be always pulled out (unscrewed) from the raw material storage tank 101 no matter how the operating panel 201 rotates positively or negatively in the unscrewing mode, the two using modes can be switched and controlled through the switching column 305, no matter whether the operating panel 201 rotates positively or negatively, the rotation and the driving force of one direction can be realized only for the driving seat 402, therefore, the operation panel 201 can also realize the tightness operation of the connecting mechanism 4 during the assembly and disassembly, namely, the connecting screw 404 can be driven to rotate in one direction in the reciprocating stroke of the operation panel 201, when the operation panel 201 is rotated, the operation panel 201 can drive the control gear a202 to rotate, the rotation directions of the control gear a202 and the control gear b203 are always opposite under the action of the connecting gear a204, and under the action of the unidirectional transmission block 205 and the unidirectional tooth socket 3011 and the mutual matching action, the driving column 301 can be driven to rotate only when the unidirectional transmission block 205 is mutually clamped with the straight edge of the unidirectional tooth socket 3011, namely, when the operation panel 201 rotates in the forward direction, the control gear a202 rotates in the forward direction and drives the driving column 301 to rotate in the forward direction synchronously under the clamping action of the unidirectional transmission block 205 and the straight edge of the unidirectional tooth socket 3011, the control gear b203 rotates reversely, but the inner unidirectional transmission block 205 and the inner oblique sides of the unidirectional tooth grooves 3011 are mutually extruded to avoid and compress the positioning top spring 2051, so that the device is not blocked, when the operation panel 201 rotates reversely, the control gear a202 rotates synchronously, at this moment, because the inner unidirectional transmission block 205 of the control gear a202 and the inner oblique sides of the unidirectional tooth grooves 3011 are mutually extruded to avoid, the control gear a202 can not drive the driving column 301 to rotate reversely, at the same time, the control gear b203 rotates positively and drives the driving column 301 to rotate synchronously through the clamping action of the inner unidirectional transmission block 205 and the straight sides of the unidirectional tooth grooves 3011, thereby realizing the operation that the bidirectional rotation of the operation panel 201 can only drive the driving column 301 to rotate in a single direction, the switching mechanism 3 can drive the selection gear a302 in a reset state, and the switching gear 3061 can drive the selection gear 3061 to rotate at the moment, at the same time, so that the driving gear 3061 can synchronously rotate along with the driving column 301, the driving gear 306 can drive the driving seat 402 to rotate through the transmission gear 4021, the driving seat 402, the driving gear 302102 can drive the driving seat 3051 can always rotate, the selection gear 3051 b is always under the action of the switching gear 3051, the switching mechanism 3051 can always, the switching mechanism can always rotate in opposite directions, and the direction of the selection gear 3051 can always rotate, and the protection mechanism can always rotate along with the direction of the selection gear 3051, and the protection seat 303 can always rotate along with the direction, and the direction of the rotation direction of the selection gear 3051, and the driving seat 305, and the rotation can always realize the rotation of the switching mechanism, and the rotation control mechanism, and the rotation of the driving seat 3051 when the driving seat, and the rotation mechanism has the rotation, and the rotation mechanism, and the rotation protection mechanism. Therefore, when the driving seat 402 rotates, the protection block 403 can be driven to synchronously rotate, the protection block 403 can drive the compression seat 401 to synchronously rotate through the protection driving groove 4011 when following the rotation of the driving seat 402, so that the rotation mounting and dismounting operation of the connecting screw 404 is realized, and when the maximum connecting force is reached in the mounting process, the rotation resistance of the connecting screw 404 is larger than the action of the limit top spring 4031 on the protection block 403, so that when the driving seat 402 continues to rotate, the protection block 403 can be separated from the inside of the protection driving groove 4011 through a bottom spherical block body and compress the limit top spring 4031, the phenomenon that the connecting force is overlarge or the connecting force of four groups of connecting mechanisms 4 is uneven is avoided, and when the driving seat 402 of any group of connecting mechanisms 4 is rotated, the driving seat 402 of the four groups of connecting mechanisms 4 can synchronously rotate under the action of sprocket connection, so that the operation of mounting and dismounting the sealing cover 102 on the top of the raw material storage tank 101 is realized.

Claims (6)

1. A storage device for glass lining raw material samples, comprising: the storage assembly (1), the storage assembly (1) further comprises a raw material storage tank (101) and a sealing cover (102), and the sealing cover (102) is fixedly arranged on the side face of the raw material storage tank (101) through a connecting mechanism (4); characterized by further comprising:

the bidirectional single control assembly consists of a bidirectional mechanism (2), a conversion mechanism (3) and a connecting mechanism (4); the bidirectional mechanism (2) comprises an operation disc (201), a control gear a (202), a control gear b (203) and a connecting gear a (204), wherein the operation disc (201), the control gear a (202) and the control gear b (203) are rotationally connected in the sealing cover (102) from top to bottom, the bottom of the operation disc (201) is fixedly connected to the top of the control gear a (202), the connecting gear a (204) is rotationally connected in the sealing cover (102), and gear teeth at the top and the bottom of the connecting gear a (204) are respectively meshed with the gear teeth of the control gear a (202) and the control gear b (203) for transmission; the bidirectional mechanism (2) further comprises two groups of unidirectional transmission blocks (205), the unidirectional transmission blocks (205) are provided with two groups of unidirectional transmission blocks (205), the two groups of unidirectional transmission blocks (205) are respectively inserted into the control gear a (202) and the control gear b (203), two groups of unidirectional tooth grooves (3011) are arranged at the top of the driving column (301), the cross section shapes of the single tooth groove of the unidirectional tooth groove (3011) and the outer end of the unidirectional transmission block (205) are right-angled triangles, and the unidirectional transmission blocks (205) in the control gear a (202) and the control gear b (203) are respectively inserted into the two groups of unidirectional tooth grooves (3011);

the switching mechanism (3) comprises a driving column (301), a selection gear a (302), a selection gear b (303), a connection gear b (304) and a switching column (305), wherein the driving column (301), the selection gear a (302) and the selection gear b (303) are connected in the inside of the sealing cover (102) in a rotating way from top to bottom, the driving column (301) is fixedly arranged at the top of the selection gear a (302), the driving column (301) is inserted in the control gear a (202) and the control gear b (203), the connection gear b (304) is connected in the inside of the sealing cover (102) in a rotating way, gear teeth at the top and the bottom of the connection gear b (304) are respectively in meshed transmission with the gear teeth of the selection gear a (302) and the selection gear b (303), the switching column (305) is inserted in the inside of the driving column (301), and a column body of the switching column (305) penetrates through the inside of the operating disc (201); the conversion mechanism (3) further comprises a driving gear (306), the driving gear (306) is rotationally connected inside the sealing cover (102), a transmission gear (4021) is arranged outside a driving seat (402) of one group of connecting mechanisms (4), and gear teeth of the transmission gear (4021) and the driving gear (306) are meshed for transmission;

the connecting mechanism (4) comprises a pressing seat (401), a driving seat (402), a protection block (403) and a connecting screw (404), wherein the pressing seat (401) is rotationally connected to the inside of the sealing cover (102), the driving seat (402) is rotationally connected to the inside of the sealing cover (102), the pressing seat (401) is positioned at the bottom of the driving seat (402), the protection block (403) is inserted into the inside of the driving seat (402), the top end of the connecting screw (404) is fixedly connected to the bottom of the pressing seat (401), and the connecting screw (404) is screwed into the inside of the raw material storage tank (101) through a rod body thread; four groups of connecting mechanisms (4) are arranged on the sealing cover (102), the included angles between the adjacent connecting mechanisms (4) are the same, and the driving seats (402) of the four groups of connecting mechanisms (4) are synchronously connected through chain wheels and chains in a transmission manner;

the bottom of select gear a (302) and the top of select gear b (303) all are equipped with select tooth's socket (3021), and the top of switch post (305) is equipped with reset top spring (3052), the both ends of reset top spring (3052) support respectively in the inside of the top of switch post (305) and operating panel (201), under the effect of reset top spring (3052), when switch post (305) do not receive external force, the inside at synchronous tooth's socket (3061) of select gear a (302) is pegged graft at the top of switch gear (3051), and the inside of synchronous tooth's socket (3061) of select gear b (303) is deviate from to the bottom of switch gear (3051).

2. A glass lining raw material sample storage device as defined in claim 1, wherein: the inside of unidirectional transmission piece (205) is equipped with location top spring (2051), and the both ends of location top spring (2051) support respectively in the inside of unidirectional transmission piece (205) and the inside of control gear.

3. A glass lining raw material sample storage device as defined in claim 1, wherein: the bottom of switching post (305) is equipped with switching gear (3051), and the inside of driving gear (306) is equipped with synchronous tooth's socket (3061), and switching gear (3051) peg graft in the inside of synchronous tooth's socket (3061).

4. A glass lining raw material sample storage device as defined in claim 1, wherein: one side of the bottom of the protection block (403) facing the locking direction of the connecting screw (404) is in a spherical design, the top of the compression seat (401) is provided with a protection driving groove (4011), and the bottom of the protection block (403) is inserted into the protection driving groove (4011).

5. A glass lining raw material sample storage device as defined in claim 4, wherein: the inside of protection piece (403) is equipped with spacing top spring (4031), and the both ends of spacing top spring (4031) support respectively in the inside of protection piece (403) and the inside of drive seat (402).

6. A glass lining raw material sample storage device as defined in claim 1, wherein: the number of the connecting mechanisms (4) is not limited to four groups, and the number of the connecting mechanisms can be increased or decreased.