CN218422894U - Electric heating constant temperature oscillation water tank - Google Patents

Abstract

The utility model discloses an electric heating constant temperature oscillation water tank, which comprises a constant temperature water tank and an installation bottom plate; the mounting bottom plate is provided with a sucker; the constant-temperature water tank is arranged on the mounting bottom plate; the constant temperature water tank is provided with a water bath cavity and a control cavity; a control device and an oscillating driving piece are arranged in the control cavity; the water bath cavity comprises an oscillation transmission assembly and an article placing groove piece; the oscillating transmission component is in transmission connection with the article placing groove piece; the oscillating transmission component is in transmission connection with the driving end of the oscillating driving component, so that the oscillating driving component can drive the article placing groove piece to horizontally move in the water bath cavity. The utility model provides an oscillating basin drives article through the oscillation driving piece and places groove spare round trip movement, and the test article on article placement groove spare is placed in the oscillation, avoids the test article to take place the reaction of stewing, has also reduced staff's manual oscillation test article's process to guarantee that the test article reaction is accurate, simplified experimental operation, alleviateed experimental working strength.

Description

Electric heating constant temperature oscillation water tank

Technical Field

The utility model relates to a test equipment technical field especially relates to an electric heat constant temperature oscillation basin.

Background

The electric heating constant temperature water tank is also called an electric heating constant temperature water bath kettle, the water bath kettle is mainly used for distilling, drying, concentrating and warm soaking chemicals or biological products in a laboratory, can also be used for constant temperature heating and other temperature tests, and is a common tool in the fields of biology, heredity, viruses, aquatic products, environmental protection, medicine, sanitation, laboratories, analysis rooms, education and scientific research and the like.

The water bath kettle in the prior art can only provide support for a reaction instrument which reacts under a standing condition, is not suitable for the reaction instrument which needs to react and oscillate, and needs to be taken out at intervals for manual oscillation, so that the operation is complicated, and the reaction process is influenced.

SUMMERY OF THE UTILITY MODEL

Problem to the background art provides, the utility model aims to provide an electric heat constant temperature oscillation basin has solved the problem that current constant temperature basin can only stew placing object article.

To achieve the purpose, the utility model adopts the following technical proposal:

an electric heating constant temperature oscillation water tank comprises a constant temperature water tank and a mounting bottom plate; the bottom of the mounting bottom plate is provided with a plurality of sucker pieces; the constant-temperature water tank is detachably arranged at the top of the mounting bottom plate; a water bath cavity and a control cavity are arranged in the constant-temperature water tank; a control device and an oscillating driving piece are arranged in the control cavity; the oscillating driving piece is electrically connected with the control device; the bottom of the water bath cavity is provided with a heating pipe, and the heating pipe is electrically connected with the control device; the water bath cavity also comprises an oscillation transmission assembly and an article placing groove piece; the oscillating transmission assembly is in transmission connection with the article placing groove piece; the oscillating transmission assembly is in transmission connection with the driving end of the oscillating driving piece, so that the oscillating driving piece can drive the article placing groove piece to horizontally move in the water bath cavity through the oscillating transmission assembly.

Preferably, the oscillating transmission assembly comprises a connecting rod assembly and a rotating shaft; the connecting rod assembly comprises a first hinge plate and a second hinge plate; the article placing groove part is provided with a hinge seat; the rotating shaft hermetically penetrates through a partition wall between the water bath cavity and the control cavity and is in transmission connection with the driving end of the oscillating driving piece, so that the rotating shaft can rotate around the axis of the rotating shaft; the first connecting end of the first hinged plate is connected with the rotating shaft; the second connecting end of the second hinged plate is hinged to the first transmission end of the first hinged plate, and the second transmission end of the second hinged plate is hinged to the hinged seat.

Furthermore, sliding grooves are respectively formed in the side walls of the left side and the right side of the water bath cavity; the left side and the right side of the article placing groove piece are respectively provided with a sliding lug; the sliding lug is clamped in the sliding groove, so that the article placing groove piece can horizontally move in the water bath cavity.

Furthermore, the article placing groove piece is also provided with a plurality of placing through holes; a plurality of mounting grooves are arranged in the placing through hole and are horizontally arranged; a clamping component is arranged in the mounting groove; the clamping assembly comprises a spring part, a mounting block and a roller part; the fixed end of the spring part is fixedly connected to the inner wall of the mounting groove, and the compression end of the spring part horizontally extends towards the center line direction of the placing through hole; the mounting block is fixedly connected with the compression end of the spring piece; the mounting block is provided with a rolling groove; the roller piece is rotatably mounted in the rolling groove, and one side of the roller piece extends into the placing through hole.

Preferably, the top of the mounting bottom plate is provided with a plurality of supporting columns; the supporting column is provided with a clamping hole, and a damping spring is arranged in the clamping hole; the bottom of the constant-temperature water tank is provided with a plurality of clamping columns; and clamping the clamping column in the clamping hole, so that the constant-temperature water tank is detachably arranged on the mounting bottom plate.

More preferably, a first water circulation assembly is also included; the water circulation assembly comprises a first heat-preservation water tank, a first one-way valve and a first preheating pipe; an overflow groove is further arranged inside the constant-temperature water tank, and an overflow outlet is formed in the overflow groove; the overflow tank is communicated with the top of the water bath cavity; a first temperature sensor is arranged in the first heat-preservation water tank and electrically connected with the control device; the water inlet of the first heat-preservation water tank is communicated with the overflow outlet through a connecting pipe; a first heating coil is sleeved outside the first preheating pipe and is communicated with the control device; one end of the first preheating pipe is communicated with the water outlet of the first heat-preservation water tank, and the other end of the first preheating pipe is communicated with the bottom of the water bath cavity; the first one-way valve is arranged between the first preheating pipe and the water outlet of the first heat-preservation water tank; the first one-way valve is electrically connected with the control device; the first one-way valve is used for controlling the communication between the first preheating pipe and the first heat-preservation water tank.

The water circulation system further comprises a second water circulation assembly, wherein the second water circulation assembly comprises a second heat-preservation water tank, a second preheating pipe, a second one-way valve and a third one-way valve; the water inlet of the second heat-preservation water tank is communicated with the water outlet of the water bath cavity through a connecting pipe; the second one-way valve is arranged between the water inlet of the second heat-preservation water tank and the water outlet of the water bath cavity and used for controlling the communication between the water inlet of the second heat-preservation water tank and the water outlet of the water bath cavity; the water outlet of the second heat-preservation water tank is communicated with the bottom of the water bath cavity through a second preheating pipe; the third one-way valve is arranged between the water outlet of the second heat-preservation water tank and the second preheating pipe and is used for controlling the communication between the water outlet of the second heat-preservation water tank and the preheating pipe; the second one-way valve and the third one-way valve are respectively electrically connected with the control device; a second temperature sensor is arranged in the second heat-preservation water tank and electrically connected with the control device; and a second heating coil is wound outside the second preheating pipe and is electrically connected with the control device.

Preferably, a third temperature sensor and a liquid level sensor are further arranged in the water bath cavity; the third temperature sensor and the liquid level sensor are respectively electrically connected with the control device.

Preferably, the constant-temperature water tank further comprises a sealing cover, and the sealing cover is connected with the constant-temperature water tank through a hinge structure; the seal cap further comprises a metal connecting post; the top of the constant-temperature water tank is provided with a connecting hole matched with the metal connecting column; an electromagnetic plate is arranged in the connecting hole and electrically connected with the control device.

More preferably, the control chamber further comprises a backup battery.

Compared with the prior art, one of the technical schemes has the following beneficial effects:

the utility model provides an oscillation basin passes through the oscillation driving piece drives article place groove spare round trip movement, the oscillation place in article place the test article on the groove spare, avoid the test article to take place the reaction of stewing, also reduced staff's manual oscillation test article's process to guarantee that the test article reaction is accurate, simplified experimental operation, alleviateed experimental working strength.

More preferably, mounting plate's bottom still is provided with four at least suction disc spare, through the mesa is inhaled to the suction disc spare, guarantees the constant temperature basin can be placed in experimental mesa firmly, avoids the constant temperature basin to drop, thereby avoids the constant temperature basin damages, prolongs the life of constant temperature basin to also avoid the user to be scalded, guarantee safe in utilization.

Drawings

Fig. 1 is a schematic structural view of an oscillating water tank according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a mounting base plate according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a constant-temperature water tank according to an embodiment of the present invention;

FIG. 4 is an internal cross-sectional view of a thermostatic water bath according to an embodiment of the present invention;

FIG. 5 is a schematic view of the connection of the oscillation drive assembly to the article-receiving slot according to one embodiment of the present invention;

fig. 6 is an internal sectional view of an article-receiving channel member according to an embodiment of the present invention;

FIG. 7 is a schematic structural view of a first water circulation assembly according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a second water circulation assembly according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, features defined as "first", "second" and "third" may explicitly or implicitly include one or more of the features.

In a preferred embodiment of the present application, as shown in fig. 1 to 8, an electric heating constant temperature oscillation water tank includes a constant temperature water tank 1 and a mounting base plate 2; the bottom of the mounting bottom plate 2 is provided with a plurality of sucking disc pieces 21; the constant-temperature water tank 1 is detachably arranged at the top of the mounting bottom plate 2; a water bath cavity 11 and a control cavity 12 are arranged in the constant-temperature water tank 1; a control device 121 and an oscillating driving element 122 are arranged in the control cavity 12; the oscillating driving member 122 is electrically connected to the control device 121; a heating pipe 111 is arranged at the bottom of the water bath cavity 11, and the heating pipe 111 is electrically connected with the control device 121; the water bath cavity 11 also comprises an oscillation transmission assembly 14 and an article placing tank piece 13; the oscillation transmission assembly 14 is in transmission connection with the article placing groove piece 13; the oscillation transmission assembly 14 is in transmission connection with the driving end of the oscillation driving member 122, so that the oscillation driving member 122 can drive the article placing groove member 13 to horizontally move in the water bath cavity 11 through the oscillation transmission assembly 14.

In this embodiment, the article placing tank 13 is used for placing a test article to be heated at a constant temperature, and the heating pipe 111 is used for heating water in the water bath chamber 11, so that the water bath chamber 11 is kept at a constant temperature. Further, when the test article placed on the article placing groove member 13 cannot stand still or needs to oscillate, the oscillating driving member 122 can drive the article placing groove member 13 to move back and forth in the water bath cavity 11 through the oscillating transmission component 14, so as to oscillate the test article placed on the article placing groove member 13, thereby avoiding the test article standing reaction or manual oscillation; and the control means 121 may also control the output frequency of the oscillating drive 122, and thus the oscillating frequency of the article. Consequently, the oscillating basin of this application passes through oscillation driving piece 122 drives article place tank member 13 round trip movement, the oscillation place in article place the test article on the tank member 13, avoid the test article to take place the reaction of stewing, also reduced staff's the process of manual oscillation test article to guarantee that the test article reaction is accurate, simplified experimental operation, alleviateed experimental working strength. Preferably, when the article placing tank 13 moves back and forth in the water bath cavity 11, the constant temperature water tank 1 may also shake, and the constant temperature water tank 1 is generally placed on a test bench, which is poor in stability, so that when the article placing tank 13 oscillates a test article in the water bath cavity 11, the shaking of the constant temperature water tank 1 may cause the constant temperature water tank 1 to fall off from the table top, which may damage the constant temperature water tank 1, and the hot water in the water bath cavity 11 may scald a user. Therefore, in this embodiment, the bottom of mounting plate 2 still is provided with four at least suction disc spare 21, through the mesa is inhaled to suction disc spare 21, guarantees thermostatic bath 1 can place in experimental mesa firmly, avoids thermostatic bath 1 to drop, thereby avoids thermostatic bath 1 damages, the extension thermostatic bath 1's life to also avoid the user to be scalded, guarantee safe in utilization. It should be noted that the control device 121 is a PLC control system, and the oscillating driving member 122 is a driving motor.

In the present application, the oscillating actuator assembly 14 is of a wide variety of types, but in the present embodiment, the following oscillating actuator assemblies 14 are preferred: the oscillation transmission assembly 14 comprises a connecting rod assembly and a rotating shaft 141; the link assembly includes a first hinge plate 142 and a second hinge plate 143; the article placing groove member 13 is provided with a hinge seat 131; the rotating shaft 141 hermetically penetrates through a partition wall between the water bath cavity 11 and the control cavity 12 and is in transmission connection with the driving end of the oscillating driving piece 122, so that the rotating shaft 141 can rotate around the axis of the rotating shaft 141; the first connecting end of the first hinge plate 142 is connected to the rotating shaft 141; the second connecting end of the second hinge plate 143 is hinged to the first transmission end of the first hinge plate 142, and the second transmission end of the second hinge plate 143 is hinged to the hinge base 131.

Specifically, the oscillating driving element 122 may drive the rotating shaft 141 to rotate forward and backward, so that the forward and backward rotation of the rotating shaft 141 may drive the first hinge plate 142 to swing back and forth in the vertical direction. Because the second hinge plate 143 is hinged to the first hinge plate 142, the swing of the first hinge plate 142 can also drive the second hinge plate 143 to swing back and forth in the vertical direction, and further, the second hinge plate 143 is hinged to the hinge seat 131 of the article placing trough member 13, so that the swing of the second hinge plate 143 can push and pull the article placing trough member 13, so that the article placing trough member 13 can move in the water bath chamber 11 in the front and rear directions, and thus the test articles can oscillate. The purpose of this arrangement is that the oscillation transmission assembly 14 of this embodiment has a simple and compact structure and reliable transmission, ensures that the article placing tank 13 can move smoothly in the water bath chamber 11, and can accurately control the oscillation frequency of the test article through the output frequency of the oscillation driving member 122, thereby ensuring the accurate reaction of the test article.

Further, the side walls of the left side and the right side of the water bath cavity 11 are respectively provided with a sliding groove 112; the left side and the right side of the article placing groove piece 13 are respectively provided with a sliding lug 132; the sliding protrusion 132 is snapped into the sliding groove 112, so that the article placing chute member 13 can be horizontally moved in the water bath chamber 11. The purpose of this arrangement is to ensure that the article placing tank 13 can stably and horizontally move in the water bath cavity 11, so as to ensure that the test article can be stably placed in the article placing tank 13 during oscillation, and avoid the test article from falling over in the water bath cavity 11 due to unstable oscillation.

Further, the article placing groove member 13 is further provided with a plurality of placing through holes 133; a plurality of installation grooves 1330 are formed in the placing through hole 133, and the installation grooves 1330 are horizontally arranged; a clamping component is arranged in the mounting groove 1330; the clamping assembly includes a spring piece 1331, a mounting block 1332, and a roller piece 1333; a fixed end of the spring 1331 is fixedly connected to the inner wall of the mounting groove 1330, and a compression end of the spring 1331 extends horizontally toward the center line of the placing through hole 133; the mounting block 1332 is fixedly connected to a compression end of the spring member 1331; the mounting block 1332 is provided with a rolling groove; the roller piece 1333 is rotatably installed at the rolling groove, and one side of the roller piece extends into the placing through hole 133. In this embodiment, when the article placement groove 13 is used to place a tubular test article, the tubular test article can be inserted into the placement through hole 133, and when the tubular test article is inserted into the placement through hole 133, the tubular test article can be in rolling contact with the roller protruding into the placement through hole 133, so that the roller rotates in the rolling groove, and the roller can press the spring part 1331 through the mounting block 1332, so that the spring part 1331 is compressed toward the inner wall of the mounting groove 1330, and the tubular test article can be further inserted downward. When the tubular test piece is placed to a required height, the tubular test piece stops moving downwards, and the spring piece 1331 returns to stretch towards the central line direction of the placing through hole 133 after not being subjected to the extrusion force of the mounting block 1332, so that the roller abuts against the tubular test piece, and the tubular test piece is stably placed in the placing through hole 133. Due to the arrangement, the test article can be stably placed in the article placing groove piece 13, and the test article is prevented from being overturned during oscillation.

Preferably, a plurality of supporting columns 22 are arranged at the top of the installation bottom plate 2; the supporting column 22 is provided with a clamping hole 220, and a damping spring is arranged in the clamping hole 220; the bottom of the constant-temperature water tank 1 is provided with a plurality of clamping columns 15; the clamping column 15 is clamped in the clamping hole 220, so that the constant-temperature water tank 1 is detachably mounted on the mounting base plate 2. The damping spring is placed in the clamping hole 220, and when the clamping column 15 is clamped in the clamping hole 220, the clamping column 15 abuts against the top of the damping spring. Therefore, when article place tank spare 13 is when removing, or when constant temperature basin 1 receives external force to strike, damping spring can be right constant temperature tank spare plays the absorbing effect of buffering, avoids constant temperature basin 1 to drop to avoid constant temperature basin 1 to damage, guarantee user's safety.

More preferably, a first water circulation assembly 31; the water circulation assembly comprises a first heat-preservation water tank 311, a first one-way valve 312 and a first preheating pipe 313; an overflow trough 113 is further arranged inside the constant-temperature water tank 1, and an overflow outlet 114 is formed in the overflow trough 113; the overflow tank 113 is communicated with the top of the water bath cavity 11; a first temperature sensor is arranged in the first heat-preservation water tank 311, and the first temperature sensor is electrically connected with the control device 121; the water inlet of the first heat-preservation water tank 311 is communicated with the overflow outlet 114 through a connecting pipe; a first heating coil is sleeved outside the first preheating pipe 313 and is communicated with the control device 121; one end of the first preheating pipe 313 is communicated with the water outlet of the first heat-preservation water tank 311, and the other end of the first preheating pipe 313 is communicated with the bottom of the water bath cavity 11; the first check valve 312 is disposed between the first preheating pipe 313 and the water outlet of the first heat-preservation water tank 311; the first check valve 312 is electrically connected to the control device 121; the first check valve 312 is used for controlling the communication between the first preheating pipe 313 and the first heat-preservation water tank 311. When the water amount in the water bath cavity 11 is too much or the article holding tank 13 moves in the water bath cavity 11, the water in the water bath cavity 11 overflows, so that in order to prevent the high-temperature water in the water bath cavity 11 from directly overflowing into the thermostatic water tank 1, the top of the water bath cavity 11 is provided with an overflow tank 113, so that the overflowing water flows into the overflow tank 113 and then flows out of the water bath cavity 11 from the overflow outlet 114, thereby preventing the high-temperature water from directly overflowing out of the cavity opening of the water bath cavity 11, and ensuring the safety of a user. Further, since the overflowing water is heated by the heating pipe 111 and has a certain amount of heat energy, in order to avoid wasting energy, in this embodiment, a first heat preservation water tank 311 is provided, and the overflowing water is discharged into the first heat preservation water tank 311 for heat preservation and storage. When water needs to be replenished in the water bath cavity 11, the first check valve 312 is opened, so that the water stored in the first heat-preservation water tank 311 is drained back to the water bath cavity 11. Further, a first temperature sensor is further disposed in the first heat-preservation water tank 311, the temperature of the water stored in the first heat-preservation water tank 311 can be detected by the first temperature sensor before the water in the first heat-preservation water tank 311 is discharged back to the water bath chamber 11, and when the temperature of the water in the first heat-preservation water tank 311 is detected by the first temperature sensor to be lower than a required temperature, the control device 121 controls the first heating coil to be energized after receiving feedback from the first sensor, so as to heat the water flowing back to the water bath chamber 11 through the first preheating pipe 313. Therefore, the arrangement can preserve the heat energy of the overflowed water through the first heat preservation water tank 311, thereby avoiding the waste of energy, and the water flowing into the water bath cavity 11 can be heated in advance through the first heating coil, thereby reducing the time and improving the efficiency of the test.

Further, a second water circulation assembly 32 is also included, wherein the second water circulation assembly 32 comprises a second heat preservation water tank 321, a second preheating pipe 324, a second one-way valve 322 and a third one-way valve 323; the water inlet of the second heat-preservation water tank 321 is communicated with the water outlet of the water bath cavity 11 through a connecting pipe; the second check valve 322 is arranged between the water inlet of the second heat-preservation water tank 321 and the water outlet of the water bath cavity 11, and is used for controlling the communication between the water inlet of the second heat-preservation water tank 321 and the water outlet of the water bath cavity 11; the water outlet of the second heat-preservation water tank 321 is communicated with the bottom of the water bath cavity 11 through a second preheating pipe 324; the third check valve 323 is arranged between the water outlet of the second holding water tank 321 and the second preheating pipe 324, and the third check valve 323 is used for controlling the communication between the water outlet of the second holding water tank 321 and the preheating pipe; the second check valve 322 and the third check valve 323 are electrically connected to the control device 121 respectively; a second temperature sensor is arranged in the second heat-preservation water tank 321, and the second temperature sensor is electrically connected with the control device 121; a second heating coil is wound outside the second preheating pipe 324, and the second heating coil is electrically connected to the control device 121. When the water bath chamber 11 needs to be drained, the water is required to be drained because the target of constant temperature heating is different and the required water amount is different. The water discharged to the outside also has a certain amount of heat energy, but the temperature of the water discharged to the outside is different from that of the overflowing water, so as to avoid the consumption of heat energy when the discharged water is mixed with the overflowing water, and therefore, the second insulated water tank 321 is further provided in the embodiment. The discharged water is discharged into the second heat-preservation water tank 321, and the second one-way valve 322 is arranged between the water inlet of the second heat-preservation water tank 321 and the discharge port of the water bath cavity 11, so that the situation that the water of the second heat-preservation water tank 321 flows back into the water bath cavity 11 to cause the over-high water level is avoided. Further, when the water bath cavity 11 needs to be replenished with water, the third check valve 323 can be opened, so that the water in the second heat-preservation water tank 321 flows back to the water bath cavity 11 through the water outlet of the second heat-preservation water tank 321, and thus, water resources and heat energy are saved, and waste of energy is reduced.

Preferably, the second holding water tank 321 is further provided with a second temperature detector for detecting the temperature of the water in the second holding water tank 321. Therefore, the control device 121 can determine whether to discharge the water in the first holding water tank 311 or the water in the second holding water tank 321 back into the water bath chamber 11 through the feedback data of the second temperature detector and the first temperature detector, thereby reducing the use of the heating coil and saving the power.

Preferably, a third temperature sensor 115 and a liquid level sensor 116 are further arranged in the water bath cavity 11; the third temperature sensor 115 and the liquid level sensor 116 are electrically connected to the control device 121, respectively. The second temperature sensor is used for detecting the water temperature in the water bath cavity 11, detecting whether the temperature in the water bath cavity 11 reaches a required condition or not, and if the temperature in the water bath cavity 11 does not reach the required condition, the heating pipe 111 is electrified and heated, so that the water temperature is stable. The liquid level sensor 116 is used for detecting the water quantity in the water bath cavity 11, so as to judge whether the water bath cavity 11 needs water supplement or drainage, and ensure the accuracy of the test reaction.

More preferably, the constant-temperature water tank further comprises a sealing cover 4, wherein the sealing cover 4 is connected with the constant-temperature water tank 1 through a hinge structure; the sealing cap 4 further comprises a metal connecting post 41; the top of the constant-temperature water tank 1 is provided with a connecting hole 116 matched with the metal connecting column 415; an electromagnetic plate is disposed in the connection hole 116, and the electromagnetic plate is electrically connected to the control device 121. The metal connecting column 41 is clamped in the connecting hole 116, so that the sealing cover 4 can seal the cavity opening of the water bath cavity 11. Sealed lid 4 is covered behind water bath chamber 11, the electromagnetism board circular telegram makes the electromagnetism board has magnetism, adsorbs metal connecting post 41, thereby sealed lid 4 can closely the closing cap water bath chamber 11 avoids when article place tank spare 13 removes, leads to sealed lid 4 to open for the temperature reduces.

Preferably, the control chamber 12 further comprises a backup battery 123. When sudden power failure occurs or a power supply cannot be found, the power can be output through the standby battery 123, and normal operation of all parts is guaranteed.

The technical principle of the present invention has been described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. An electric heating constant-temperature oscillation water tank is characterized by comprising a constant-temperature water tank and a mounting bottom plate;

the bottom of the mounting bottom plate is provided with a plurality of sucker pieces;

the constant-temperature water tank is detachably arranged at the top of the mounting bottom plate;

a water bath cavity and a control cavity are arranged in the constant-temperature water tank;

a control device and an oscillating driving piece are arranged in the control cavity;

the oscillating driving piece is electrically connected with the control device;

the bottom of the water bath cavity is provided with a heating pipe, and the heating pipe is electrically connected with the control device;

the water bath cavity also comprises an oscillation transmission assembly and an article placing groove piece;

the oscillating transmission assembly is in transmission connection with the article placing groove piece;

the oscillating transmission assembly is in transmission connection with the driving end of the oscillating driving piece, so that the oscillating driving piece can drive the article placing groove piece to horizontally move in the water bath cavity through the oscillating transmission assembly.

2. The electrically heated, thermostatically oscillating water bath according to claim 1, wherein the oscillation drive assembly includes a linkage assembly and a rotating shaft;

the connecting rod assembly comprises a first hinge plate and a second hinge plate;

the article placing groove part is provided with a hinge seat;

the rotating shaft hermetically penetrates through a partition wall between the water bath cavity and the control cavity and is in transmission connection with the driving end of the oscillating driving piece, so that the rotating shaft can rotate around the axis of the rotating shaft;

the first connecting end of the first hinged plate is connected with the rotating shaft;

the second connecting end of the second hinged plate is hinged to the first transmission end of the first hinged plate, and the second transmission end of the second hinged plate is hinged to the hinged seat.

3. The electric heating constant-temperature oscillating water tank as claimed in claim 2, wherein the side walls of the left and right sides of the water bath cavity are respectively provided with a sliding groove;

the left side and the right side of the article placing groove are respectively provided with a sliding lug;

the sliding lug is clamped in the sliding groove, so that the article placing groove piece can horizontally move in the water bath cavity.

4. The electric heating constant-temperature oscillating water tank as claimed in claim 1, wherein the article placing tank member is further provided with a plurality of placing through holes;

a plurality of mounting grooves are arranged in the placing through hole and are horizontally arranged;

a clamping component is arranged in the mounting groove;

the clamping assembly comprises a spring part, a mounting block and a roller part;

the fixed end of the spring part is fixedly connected to the inner wall of the mounting groove, and the compression end of the spring part horizontally extends towards the center line direction of the placing through hole;

the mounting block is fixedly connected with the compression end of the spring piece;

the mounting block is provided with a rolling groove;

the roller piece is rotatably mounted in the rolling groove, and one side of the roller piece extends into the placing through hole.

5. An electrothermal constant-temperature oscillating water tank according to claim 1, wherein a plurality of support columns are provided on the top of the installation base plate;

the supporting column is provided with a clamping hole, and a damping spring is arranged in the clamping hole;

the bottom of the constant-temperature water tank is provided with a plurality of clamping columns;

and clamping the clamping column in the clamping hole, so that the constant-temperature water tank is detachably arranged on the mounting bottom plate.

6. The electro-thermal thermostatic oscillating water bath of claim 1 further comprising a first water circulation assembly;

the water circulation assembly comprises a first heat-preservation water tank, a first one-way valve and a first preheating pipe;

an overflow groove is further arranged inside the constant-temperature water tank, and an overflow outlet is formed in the overflow groove;

the overflow groove is communicated with the top of the water bath cavity;

a first temperature sensor is arranged in the first heat-preservation water tank and electrically connected with the control device;

the water inlet of the first heat-preservation water tank is communicated with the overflow outlet through a connecting pipe;

a first heating coil is sleeved outside the first preheating pipe and is communicated with the control device;

one end of the first preheating pipe is communicated with the water outlet of the first heat-preservation water tank, and the other end of the first preheating pipe is communicated with the bottom of the water bath cavity;

the first one-way valve is arranged between the first preheating pipe and the water outlet of the first heat-preservation water tank;

the first one-way valve is electrically connected with the control device;

the first one-way valve is used for controlling the communication between the first preheating pipe and the first heat-preservation water tank.

7. The electric heating constant temperature oscillating water tank as claimed in claim 6, further comprising a second water circulation assembly, the second water circulation assembly comprising a second holding water tank, a second preheating pipe, a second check valve and a third check valve;

the water inlet of the second heat-preservation water tank is communicated with the water outlet of the water bath cavity through a connecting pipe;

the second one-way valve is arranged between the water inlet of the second heat-preservation water tank and the water outlet of the water bath cavity and used for controlling the communication between the water inlet of the second heat-preservation water tank and the water outlet of the water bath cavity;

the water outlet of the second heat-preservation water tank is communicated with the bottom of the water bath cavity through a second preheating pipe;

the third one-way valve is arranged between the water outlet of the second heat-preservation water tank and the second preheating pipe and is used for controlling the communication between the water outlet of the second heat-preservation water tank and the preheating pipe; the second one-way valve and the third one-way valve are respectively electrically connected with the control device;

a second temperature sensor is arranged in the second heat-preservation water tank and is electrically connected with the control device;

and a second heating coil is wound outside the second preheating pipe and is electrically connected with the control device.

8. The electric heating constant-temperature oscillating water tank as claimed in claim 1, wherein a third temperature sensor and a liquid level sensor are further arranged in the water bath cavity;

the third temperature sensor and the liquid level sensor are respectively electrically connected with the control device.

9. The electric heating constant-temperature oscillating water tank as claimed in claim 1, further comprising a sealing cover connected with the constant-temperature water tank through a hinge structure;

the seal cap further comprises a metal connecting post;

the top of the constant-temperature water tank is provided with a connecting hole matched with the metal connecting column;

and an electromagnetic plate is arranged in the connecting hole and electrically connected with the control device.

10. The electrically heated, thermostatically oscillated water bath as claimed in claim 1 wherein the control chamber further comprises a backup battery.

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