CN112015218B - New forms of energy thermostatic chamber - Google Patents

Abstract

The invention relates to the technical field of new energy thermostatic chambers and discloses a new energy thermostatic chamber which comprises a chamber body, wherein supporting legs are fixedly connected to four corners of the bottom of the chamber body, a cavity is formed in the chamber body, two groups of lifting devices are fixedly connected to the interior of the cavity, penetrate through the cavity and extend out of the chamber body, partition plates are sleeved on the outer sides of the two groups of lifting devices, and circular holes are formed in the partition plates. This new forms of energy thermostatic chamber, through setting up elevating gear, and then when cavity inner space is adjusted to needs, hold and block the piece and extract the draw-in groove with the fixed column, then drive the kicking block through the mode of tensile connection rope and remove, thereby make the kicking block drive the partition plate and go up and down, and then make the partition plate adjust the space in the cavity, after finishing adjusting with the fixed column card go into in the draw-in groove, and then make the fixed column block connect the rope and make and connect the unable removal of rope, space in the regulation cavity that from this can be convenient and stable.

Description

New forms of energy thermostatic chamber

Technical Field

The invention relates to the technical field of new energy thermostatic chambers, in particular to a new energy thermostatic chamber.

Background

The thermostatic chamber is used for detecting the equipment of material performance under various environment and testing various material heat-resisting, cold-resistant, resistant dry, moisture-proof performance, the demand of constant temperature and humidity environment is bigger and bigger, the field of application is also broader and broader, the constant temperature and humidity laboratory adopts intelligent control mode, thereby reach the accurate control to indoor environment temperature, humidity, the laboratory air conditioner is the heart of atmospheric control, require the precision height, the fault rate is low, so must require the air conditioner can adjust the refrigerating output, there have two kinds of modes on the market: one is frequency conversion regulation; the other type is a chilled water adjusting mode, in the field of constant temperature and humidity rooms, along with the increasingly strict requirements on quality control, the requirements on constant temperature and humidity environments are increasingly large, the application field is also increasingly wide, the constant temperature room in the market at present is not only complex in structure, but also single in function, and a goods shelf cannot reasonably utilize space according to the size of an object.

According to the adjustable thermostatic chamber disclosed in the Chinese publication No. CN207198698U, the sliding rod is arranged to move up and down through the sliding rail on one side of the vertical rod, so that the sliding rod divides the indoor space, and the phenomenon that objects cannot be placed in too large space is avoided.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a new energy thermostatic chamber, which solves the problem that the space cannot be stably and conveniently adjusted.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a new forms of energy thermostatic chamber, includes the room body, the equal fixedly connected with supporting leg in four corners of room body bottom, the cavity has been seted up to the inside of the room body, two sets of elevating gear of inside fixedly connected with of cavity, and two sets of elevating gear all run through the cavity and extend to outside the room body, and are two sets of the partition plate has been cup jointed in elevating gear's the outside, has seted up the round hole in the inside of partition plate, the inner wall fixedly connected with fixing device of round hole, the multiunit fixed orifices has been seted up to cavity rear side inner wall.

Preferably, the lifting device comprises a fixed rod, the bottom end of the fixed rod is fixedly connected with the inner wall of the bottom of the cavity, the top end of the fixed rod penetrates through the cavity and extends out of the chamber body, a partition plate is sleeved on the outer side of the fixed rod, a clamping groove is arranged in the fixed rod, sliding cavities are arranged at the front side and the rear side of the clamping groove, the outer side of the fixed rod is fixedly connected with a placing block, the top of the placing block is fixedly connected with the bottom end of the second spring, the top end of the second spring is fixedly connected with the bottom of the stop block, the bottom of the stop block is fixedly connected with the top end of the fixed column, the interior of the clamping groove is connected with a movable column in a sliding way, the top end of the movable column is fixedly connected with the bottom end of the connecting rope, the top end of the connecting rope penetrates through the clamping groove and extends out of the fixed rod, two groups of supporting blocks are fixedly connected to the outer side of the movable column, and the supporting blocks penetrate through the sliding cavity and are fixedly connected with the top block.

Preferably, fixing device includes the fixed connection piece, fixed connection piece fixed connection is at the inner wall of round hole, the middle part joint of fixed connection piece has the fixed card rod, the outside fixedly connected with sliding connection piece of fixed card rod, sliding connection piece's rear side and the front end fixed connection of first spring, the rear end of first spring and the front side fixed connection of fixed connection piece, the front end of fixed card rod runs through the round hole and extends to outside the partition plate, the front end of fixed card rod and the rear side fixed connection of handle.

Preferably, the through holes are formed in the left side and the right side of the inner portion of the dividing plate, and the dividing plate is sleeved with the lifting device through the through holes.

Preferably, the top of the top block is fixedly connected with two groups of cushions, and the cushions are filled with sponges.

Preferably, the diameter of the fixing column is matched with the diameter of the inner wall of the clamping groove, and the diameter of the blocking block is larger than that of the inner wall of the clamping groove.

Preferably, the handle is a round handle, and the diameter of the handle is larger than that of the inner wall of the round hole.

Preferably, the cavity is further provided with: the device comprises a temperature sensor, a humidity sensor, a temperature adjusting module, a humidity adjusting module, a first control module and a wireless communication module;

the temperature sensor is arranged on the dividing plate and used for detecting the temperature information of the air in the cavity;

the humidity sensor is arranged on the dividing plate and used for detecting humidity information of air in the cavity;

the first control module is arranged on the partition plate, is respectively connected with the temperature sensor, the humidity sensor, the temperature adjusting module, the humidity adjusting module and the wireless communication module, and is used for:

receiving temperature information sent by the temperature sensor, and judging whether the temperature information is in a preset temperature range, wherein the preset temperature range comprises a first preset temperature threshold and a second preset temperature threshold, and the first preset temperature threshold is larger than the second preset temperature threshold; when the temperature information is determined to be larger than the first preset temperature threshold value, controlling the temperature adjusting module to cool the air in the cavity; when the temperature information is determined to be smaller than a second preset temperature threshold value, controlling the temperature adjusting module to carry out heating operation on the air in the cavity;

receiving humidity information sent by the humidity sensor, and judging whether the humidity information is in a preset humidity range, wherein the preset humidity range comprises a first preset humidity threshold and a second preset humidity threshold, and the second preset humidity threshold is larger than the first preset humidity threshold; when the humidity information is determined to be larger than the first preset humidity threshold value, controlling the humidity adjusting module to perform dehumidification operation on the air in the cavity; when the humidity information is determined to be smaller than a second preset humidity threshold value, controlling the humidity adjusting module to carry out atomization and humidification operation on the air in the cavity;

the temperature information and the humidity information are sent to a server through the wireless communication module;

receiving a temperature and humidity adjusting instruction sent by the wireless communication module and controlling the temperature adjusting module and/or the humidity adjusting module to execute;

the server is respectively connected with the wireless communication module and the mobile terminal and is used for:

receiving temperature information and humidity information sent by the first control module through the wireless communication module, and sending the temperature information and the humidity information to a mobile terminal;

receiving a temperature and humidity adjusting instruction sent by the mobile terminal, judging whether the temperature and humidity adjusting instruction is legal or not, and sending the temperature and humidity adjusting instruction to the wireless communication module when the temperature and humidity adjusting instruction is determined to be legal;

the judging whether the temperature and humidity adjusting instruction is legal or not comprises the following steps:

acquiring the instruction length of the temperature and humidity adjusting instruction;

when the instruction length is determined to be equal to a preset instruction length, acquiring an instruction character of the temperature and humidity adjusting instruction;

performing semantic recognition according to the instruction characters to acquire temperature regulation information and/or humidity regulation information;

and when the matching degree of the temperature adjusting information and the preset temperature adjusting information is larger than a first preset matching degree threshold value and/or the matching degree of the humidity adjusting information and the preset humidity adjusting information is larger than a second preset matching degree threshold value, determining that the temperature and humidity adjusting instruction is legal.

Preferably, the cavity is further provided with: the dust removal module, the second control module and the alarm module; wherein the content of the first and second substances,

the dust removal module is arranged on the partition plate and used for performing dust removal treatment on air flowing in through the fixing holes;

the second control module is arranged on the partition plate, is respectively connected with the dust removal module and the alarm module, and is used for calculating the dust removal efficiency of the dust removal module, judging whether the dust removal efficiency is smaller than the preset dust removal efficiency or not, and controlling the alarm module to send an alarm prompt when the dust removal efficiency is determined to be smaller than the preset dust removal efficiency;

the calculating of the dust removal efficiency of the dust removal module includes:

the dust removal module comprises a discharge stage and a dust collection stage, and the discharge stage and the dust collection stage form a dust-driving electric field;

the amount of charge q carried by the dust particles in the air flowing in through the fixing hole is calculated as shown in formula (1):

wherein epsilon₀Is a vacuum dielectric constant; epsilon₁The dielectric constant of dust particles in the air flowing in through the fixing hole; r is the average particle size of dust particles in the air flowing in through the fixing hole; e is the electric field intensity of the dust-removing electric field;

calculating the moving speed V of the dust particles in the air flowing in through the fixed hole in the dust removing electric field according to the charged quantity q of the dust particles in the air flowing in through the fixed hole, as shown in a formula (2):

wherein, P is the viscosity coefficient of the air flowing in through the fixed hole;

calculating the dust removal efficiency eta according to the moving speed V of dust particles in the air flowing in through the fixed hole in the dust removing electric field, as shown in the formula (3):

wherein S is the area of the dust collection stage; q is the flow of air into the cavity.

(III) advantageous effects

Compared with the prior art, the invention provides a new energy thermostatic chamber, which has the following beneficial effects:

1. this new forms of energy thermostatic chamber, through setting up elevating gear, and then when cavity inner space is adjusted to needs, hold and block the piece and extract the draw-in groove with the fixed column, then drive the kicking block through the mode of tensile connection rope and remove, thereby make the kicking block drive the partition plate and go up and down, and then make the partition plate adjust the space in the cavity, after finishing adjusting with the fixed column card go into in the draw-in groove, and then make the fixed column block connect the rope and make and connect the unable removal of rope, space in the regulation cavity that from this can be convenient and stable.

2. This new forms of energy thermostatic chamber through setting up fixing device, and then when fixed calorie of rod coincides with a set of fixed orifices, first spring pops out fixed calorie of rod and blocks in the fixed orifices to make fixed calorie of rod block the partition plate, make the partition plate unable removal, increased the protection for the fixed of partition plate from this, ensured the device's normal operating.

Drawings

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

FIG. 2 is a sectional view of the lifting device of the present invention;

FIG. 3 is a sectional view of the fixing device according to the present invention;

FIG. 4 is a block diagram of a new energy thermostat according to an embodiment of the invention;

fig. 5 is a block diagram of a new energy thermostatic chamber according to another embodiment of the invention.

In the figure: 1. a chamber body; 2. supporting legs; 3. a fixing device; 301. a handle; 302. fixing a clamping rod; 303. a sliding connection block; 304. a first spring; 305. fixing a connecting block; 4. a lifting device; 401. fixing the rod; 402. a blocking block; 403. connecting ropes; 404. a slide chamber; 405. a support block; 406. a movable post; 407. a top block; 408. a cushion pad; 409. a card slot; 410. placing the blocks; 411. a second spring; 412. fixing a column; 5. a cavity; 501. a temperature sensor; 502. a humidity sensor; 503. a temperature adjustment module; 504. a humidity adjustment module; 505. a first control module; 506. a wireless communication module; 507. a dust removal module; 508. a second control module; 509. an alarm module; 6. dividing the plate; 7. a fixing hole; 8. a through hole; 9. a circular hole; 10. a server; 11. a mobile terminal.

Detailed Description

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

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a new forms of energy thermostatic chamber, including the room body 1, the equal fixedly connected with supporting leg 2 in four corners of 1 bottom of the room body, cavity 5 has been seted up to the inside of the room body 1, the inner wall of cavity 5 is provided with the air conditioner that adjusts the temperature, temperature sensor and controller, detect the temperature in cavity 5 by temperature sensor, and control the air conditioner that adjusts the temperature by the controller and adjust the temperature in cavity 5, two sets of elevating gear 4 of inside fixedly connected with of cavity 5, and two sets of elevating gear 4 all run through cavity 5 and extend to outside the room body 1, partition plate 6 has been cup jointed in the outside of two sets of elevating gear 4, through-hole 8 has all been seted up to the inside left and right sides of partition plate 6, and partition plate 6 cup joints with elevating gear 4 through-hole 8, round hole 9 has been seted up in the inside of partition plate 6, the inner wall fixedly connected with fixing device.

Specifically, in order to adjust the space in the cavity 5 quickly, a lifting device 4 and a partition plate 6 are arranged, the lifting device 4 comprises a fixed rod 401, the bottom end of the fixed rod 401 is fixedly connected to the inner wall of the bottom of the cavity 5, the top end of the fixed rod 401 penetrates through the cavity 5 and extends out of the chamber 1, the partition plate 6 is sleeved outside the fixed rod 401, a clamping groove 409 is formed inside the fixed rod 401, sliding cavities 404 are formed in the front side and the rear side of the clamping groove 409, a placing block 410 is fixedly connected to the outer side of the fixed rod 401, the top of the placing block 410 is fixedly connected to the bottom end of a second spring 411, the top end of the second spring 411 is fixedly connected to the bottom of a blocking block 402, the bottom of the blocking block 402 is fixedly connected to the top end of a fixed column 412, a movable column 406 is slidably connected to the inside of the clamping groove 409, the top end of the movable column 406 is fixedly connected to the, the outside fixedly connected with two sets of supporting shoe 405 of activity post 406, and supporting shoe 405 runs through sliding cavity 404 and with kicking block 407 fixed connection, from this through setting up elevating gear 4, and then when needing to adjust the cavity 5 inner space, hold stop block 402 and extract draw-in groove 409 with fixed column 412, then drive kicking block 407 through the mode of tensile connection rope 403 and remove, thereby make kicking block 407 drive partition plate 6 and go up and down, and then make partition plate 6 adjust the space in the cavity 5, after finishing adjusting with fixed column 412 card in draw-in groove 409, and then make fixed column 412 block connection rope 403 and make connection rope 403 unable removal, from this the space in can convenient and stable regulation cavity 5.

Specifically, in order to make the fixation of the dividing plate 6 more stable, the fixing device 3 is provided, the fixing device 3 includes a fixed connecting block 305, the fixed connecting block 305 is fixedly connected to the inner wall of the circular hole 9, a fixed clamping roller 302 is clamped in the middle of the fixed connecting block 305, a sliding connecting block 303 is fixedly connected to the outer side of the fixed clamping roller 302, the rear side of the sliding connecting block 303 is fixedly connected to the front side of the first spring 304, the rear end of the first spring 304 is fixedly connected to the front side of the fixed connecting block 305, the front end of the fixed clamping roller 302 penetrates through the circular hole 9 and extends out of the dividing plate 6, the front end of the fixed clamping roller 302 is fixedly connected to the rear side of the handle 301, therefore, by providing the fixing device 3, when the fixed clamping roller 302 is overlapped with a set of fixing holes 7, the first spring 304 ejects the fixed clamping roller 302 and clamps the dividing plate 6 into the fixing holes 7, so that the dividing plate 6 cannot move, thereby increasing the protection for fixing the dividing plate 6 and ensuring the normal operation of the device.

Specifically, in order to prevent the top block 407 from breaking the dividing plate 6 when moving upward, two sets of cushion pads 408 are fixedly connected to the top of the top block 407, and the cushion pads 408 are filled with sponge, so that the cushion pads 408 can be used to prevent the top block 407 from breaking the dividing plate 6 when moving upward.

Specifically, in order to stably clamp the fixing column 412 into the clamping groove 409, the diameter of the fixing column 412 is matched with the diameter of the inner wall of the clamping groove 409, and the diameter of the blocking block 402 is larger than the diameter of the inner wall of the clamping groove 409, so that the fixing column 412 can be stably clamped into the clamping groove 409.

Specifically, in order to prevent the handle 301 from entering the circular hole 9, the handle 301 is set to be a circular handle, and the diameter of the handle 301 is larger than that of the inner wall of the circular hole 9, so that the handle 301 can be prevented from entering the circular hole 9.

When the device is used, when the space in the cavity 5 needs to be adjusted, the blocking block 402 is held to pull the fixing column 412 out of the clamping groove 409, so that the connecting rope 403 is not fixed by the fixing column 412 any more, then the connecting rope 403 is stretched to drive the top block 407 to move, so that the top block 407 drives the partition plate 6 to lift, the space in the cavity 5 is adjusted by the partition plate 6, after the adjustment is finished, the fixing column 412 is clamped in the clamping groove 409, so that the fixing column 412 clamps the connecting rope 403 to prevent the connecting rope 403 from moving, the space in the cavity 5 can be conveniently and stably adjusted, and by arranging the fixing device 3, when the fixing clamping rod 302 is overlapped with a group of fixing holes 7, the fixing clamping rod 302 is ejected out and clamped in the fixing holes 7 by the first spring 304, so that the fixing clamping rod 302 clamps the partition plate 6, the partition plate 6 cannot move, and therefore, the fixing of the partition plate 6 is ensured, the arrangement of the plurality of sets of fixing holes 7 enables the position of the dividing plate 6 to be freely selected.

To sum up, this new forms of energy thermostatic chamber, through setting up elevating gear 4, and then when needing to adjust cavity 5 inner space, hold stop block 402 and extract fixed column 412 draw-in groove 409, then drive kicking block 407 through the mode of tensile connection rope 403 and remove, thereby make kicking block 407 drive division board 6 go up and down, and then make division board 6 adjust the space in the cavity 5, after finishing adjusting with fixed column 412 card income draw-in groove 409, and then make fixed column 412 block connect rope 403 and make and connect rope 403 unable removal, space in cavity 5 can be convenient and stable regulation from this.

This new forms of energy thermostatic chamber, through setting up fixing device 3, and then when fixing card rod 302 and a set of fixed orifices 7 coincide, first spring 304 pops out fixing card rod 302 and blocks in the fixed orifices 7 to make fixing card rod 302 block cut-off board 6, make cut-off board 6 unable removal, increased the protection for cut-off board 6's is fixed from this, ensured the device's normal operating.

As shown in fig. 4, in the new energy thermostatic chamber, a temperature sensor 501, a humidity sensor 502, a temperature adjusting module 503, a humidity adjusting module 504, a first control module 505, and a wireless communication module 506 are further disposed in the cavity 5;

the temperature sensor 501 is arranged on the dividing plate 6 and used for detecting the temperature information of the air in the cavity 5;

the humidity sensor 502 is arranged on the dividing plate 6 and used for detecting humidity information of air in the cavity 5;

the first control module 505 is disposed on the dividing plate 6, and is respectively connected 506 with the temperature sensor 501, the humidity sensor 502, the temperature adjusting module 503, the humidity adjusting module 504, and the wireless communication module, and is configured to:

receiving temperature information sent by the temperature sensor 501, and judging whether the temperature information is within a preset temperature range, where the preset temperature range includes a first preset temperature threshold and a second preset temperature threshold, and the first preset temperature threshold is greater than the second preset temperature threshold; when it is determined that the temperature information is greater than the first preset temperature threshold, controlling the temperature adjusting module 503 to cool the air in the cavity 5; when the temperature information is determined to be smaller than a second preset temperature threshold, controlling the temperature adjusting module 503 to perform a temperature rise operation on the air in the cavity 5;

receiving humidity information sent by the humidity sensor 502, and judging whether the humidity information is within a preset humidity range, where the preset humidity range includes a first preset humidity threshold and a second preset humidity threshold, and the second preset humidity threshold is greater than the first preset humidity threshold; when the humidity information is determined to be greater than the first preset humidity threshold, controlling the humidity adjusting module 504 to perform a dehumidification operation on the air in the cavity 5; when the humidity information is determined to be smaller than a second preset humidity threshold value, controlling the humidity adjusting module 504 to perform atomization and humidification operations on the air in the cavity 5;

the temperature information and the humidity information are sent to the server 10 through the wireless communication module 506;

receiving a temperature and humidity adjustment instruction sent by the wireless communication module 506 and controlling the temperature adjustment module 503 and/or the humidity adjustment module 504 to execute;

the server 10 is connected to the wireless communication module 506 and the mobile terminal 11, and is configured to:

receiving the temperature information and the humidity information sent by the first control module 505 through the wireless communication module 506, and sending the temperature information and the humidity information to the mobile terminal 11;

receiving a temperature and humidity adjustment instruction sent by the mobile terminal 11, judging whether the temperature and humidity adjustment instruction is legal, and sending the temperature and humidity adjustment instruction to the wireless communication module 506 when the temperature and humidity adjustment instruction is determined to be legal;

the judging whether the temperature and humidity adjusting instruction is legal or not comprises the following steps:

acquiring the instruction length of the temperature and humidity adjusting instruction;

when the instruction length is determined to be equal to a preset instruction length, acquiring an instruction character of the temperature and humidity adjusting instruction;

performing semantic recognition according to the instruction characters to acquire temperature regulation information and/or humidity regulation information;

and when the matching degree of the temperature adjusting information and the preset temperature adjusting information is larger than a first preset matching degree threshold value and/or the matching degree of the humidity adjusting information and the preset humidity adjusting information is larger than a second preset matching degree threshold value, determining that the temperature and humidity adjusting instruction is legal.

The working principle of the scheme is as follows: the temperature sensor 501 is used for detecting the temperature information of the air in the cavity 5; the humidity sensor 502 is used for detecting humidity information of the air in the cavity 5; the first control module 505 is configured to receive the temperature information sent by the temperature sensor 501, and determine whether the temperature information is within a preset temperature range, where the preset temperature range includes a first preset temperature threshold and a second preset temperature threshold, and the first preset temperature threshold is greater than the second preset temperature threshold; when it is determined that the temperature information is greater than the first preset temperature threshold, controlling the temperature adjusting module 503 to cool the air in the cavity 5; when the temperature information is determined to be smaller than a second preset temperature threshold, controlling the temperature adjusting module 503 to perform a temperature rise operation on the air in the cavity 5;

the first control module 505 is further configured to receive humidity information sent by the humidity sensor 502, and determine whether the humidity information is within a preset humidity range, where the preset humidity range includes a first preset humidity threshold and a second preset humidity threshold, and the second preset humidity threshold is greater than the first preset humidity threshold; when the humidity information is determined to be greater than the first preset humidity threshold, controlling the humidity adjusting module 504 to perform a dehumidification operation on the air in the cavity 5; when the humidity information is determined to be smaller than a second preset humidity threshold value, controlling the humidity adjusting module 504 to perform atomization and humidification operations on the air in the cavity 5; the first control module 505 is further configured to send the temperature information and the humidity information to the server 10 through the wireless communication module 506; the first control module 505 is further configured to receive a temperature and humidity adjustment instruction sent by the wireless communication module 506 and control the temperature adjustment module 503 and/or the humidity adjustment module 504 to execute the temperature and humidity adjustment instruction; the server 10 is configured to receive the temperature information and the humidity information sent by the first control module 505 through the wireless communication module 506, and send the temperature information and the humidity information to the mobile terminal 11; the server 10 is further configured to receive a temperature and humidity adjustment instruction sent by the mobile terminal 11, determine whether the temperature and humidity adjustment instruction is legal, and send the temperature and humidity adjustment instruction to the wireless communication module 506 when it is determined that the temperature and humidity adjustment instruction is legal; the judging whether the temperature and humidity adjusting instruction is legal or not comprises the following steps: acquiring the instruction length of the temperature and humidity adjusting instruction; when the instruction length is determined to be equal to a preset instruction length, acquiring an instruction character of the temperature and humidity adjusting instruction; performing semantic recognition according to the instruction characters to acquire temperature regulation information and/or humidity regulation information; and when the matching degree of the temperature adjusting information and the preset temperature adjusting information is larger than a first preset matching degree threshold value and/or the matching degree of the humidity adjusting information and the preset humidity adjusting information is larger than a second preset matching degree threshold value, determining that the temperature and humidity adjusting instruction is legal.

The beneficial effect of above-mentioned scheme: the temperature sensor 501 can detect the temperature information in the thermostatic chamber, and when the temperature information is not within the temperature threshold preset by the user, the first control module 505 automatically controls the temperature adjusting module to adjust the temperature in the thermostatic chamber, so that the practicability of the thermostatic chamber is improved, and the influence on the durability of the material in the thermostatic chamber due to overhigh or overlow temperature is avoided; meanwhile, the humidity sensor 502 can detect the humidity information in the thermostatic chamber, when the humidity information is not within the preset temperature threshold of the user, the first control module 505 automatically controls the humidity adjusting module to adjust the humidity in the thermostatic chamber, so that the inaccuracy of a detection result due to overhigh or overlow humidity is avoided, the detection efficiency is improved, and the detection precision is ensured; meanwhile, the user terminal 11 can monitor temperature information and humidity information in the thermostatic chamber in real time, and can send temperature and humidity adjusting instructions to remotely control the temperature and humidity in the thermostatic chamber at any time, so that the intelligence of the thermostatic chamber is improved, and the experience of a user is improved.

As shown in fig. 5, the present invention provides a technical solution, wherein the cavity is further provided with a dust removal module 507, a second control module 508, and an alarm module 509; wherein the content of the first and second substances,

the dust removal module 507 is arranged on the partition plate 6 and is used for performing dust removal treatment on the air flowing in through the fixing hole 7;

the second control module 508 is disposed on the partition plate 6, is connected to the dust removal module 507 and the alarm module 509, and is configured to calculate the dust removal efficiency of the dust removal module 507, determine whether the dust removal efficiency is lower than a preset dust removal efficiency, and control the alarm module 509 to send an alarm prompt when it is determined that the dust removal efficiency is lower than the preset dust removal efficiency;

the calculating the dust removal efficiency of the dust removal module 507 includes:

the dust removal module 507 comprises a discharge stage and a dust collection stage, which form a dust-driving electric field;

the amount of charge q carried by the dust particles in the air flowing in through the fixing hole 7 is calculated as shown in formula (1):

wherein epsilon₀Is a vacuum dielectric constant; epsilon₁The dielectric constant of the dust particles in the air flowing in through the fixing hole 7; r is the average particle size of dust particles in the air flowing in through the fixing hole 7; e is the electric field intensity of the dust-removing electric field;

calculating the moving speed V of the dust particles in the air flowing in through the fixed hole 7 in the dust-removing electric field according to the charged quantity q of the dust particles in the air flowing in through the fixed hole 7, as shown in the formula (2):

wherein P is the viscosity coefficient of the air flowing in through the fixing hole 7;

the dust removal efficiency η is calculated from the moving speed V of the dust particles in the air flowing in through the fixing hole 7 in the dust-removing electric field, as shown in formula (3):

wherein S is the area of the dust collection stage; q is the flow of air into the cavity 5.

The working principle of the scheme is as follows: the dust removal module 507 comprises an electrostatic dust collector, and in order to ensure the dust removal efficiency of the dust removal module 507, the second control module 508 is used for calculating the dust removal efficiency of the dust removal module 507 and judging whether the dust removal efficiency is less than the preset dust removal efficiency, and when the dust removal efficiency is determined to be less than the preset dust removal efficiency, the alarm module 509 is controlled to send an alarm prompt.

The beneficial effect of above-mentioned scheme: when the dust removal efficiency of the dust removal module 507 is calculated, the dielectric constant of dust particles in air flowing in through the fixing hole 7, the electric field intensity of a dust-repelling electric field, the charge quantity of the dust particles in the air flowing in through the fixing hole 7, the viscosity coefficient of the air flowing in through the fixing hole 7, the area of a dust collection level, the flow of the air entering the cavity 5 and other factors are considered, so that the calculated dust removal efficiency is more accurate, the accuracy of judging the dust removal efficiency and the preset dust removal efficiency is improved, when the dust removal efficiency is smaller than the preset dust removal efficiency, the alarm module 509 sends out an alarm prompt to remind a worker whether a component in the dust removal module 509 has a fault or not in time, when the component in the dust removal module 509 has the fault, the maintenance is carried out in time, the loss is reduced, and the dust removal efficiency is ensured.

The electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device controlled by a computer or the like.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a new forms of energy thermostatic chamber, includes the room body (1), its characterized in that: the supporting legs (2) are fixedly connected to four corners of the bottom of the chamber body (1), a cavity (5) is formed in the chamber body (1), two groups of lifting devices (4) are fixedly connected to the interior of the cavity (5), the two groups of lifting devices (4) penetrate through the cavity (5) and extend out of the chamber body (1), partition plates (6) are sleeved on the outer sides of the two groups of lifting devices (4), round holes (9) are formed in the partition plates (6), fixing devices (3) are fixedly connected to the inner walls of the round holes (9), and a plurality of groups of fixing holes (7) are formed in the inner wall of the rear side of the cavity (5);

the cavity (5) is also internally provided with: the device comprises a temperature sensor (501), a humidity sensor (502), a temperature adjusting module (503), a humidity adjusting module (504), a first control module (505) and a wireless communication module (506);

the temperature sensor (501) is arranged on the dividing plate (6) and used for detecting temperature information of air in the cavity (5);

the humidity sensor (502) is arranged on the dividing plate (6) and used for detecting humidity information of air in the cavity (5);

the first control module (505) is arranged on the dividing plate (6), is respectively connected with the temperature sensor (501), the humidity sensor (502), the temperature adjusting module (503), the humidity adjusting module (504) and the wireless communication module (506), and is used for:

receiving temperature information sent by the temperature sensor (501), and judging whether the temperature information is in a preset temperature range, wherein the preset temperature range comprises a first preset temperature threshold and a second preset temperature threshold, and the first preset temperature threshold is larger than the second preset temperature threshold; when the temperature information is determined to be larger than the first preset temperature threshold value, controlling the temperature adjusting module (503) to cool the air in the cavity (5); when the temperature information is determined to be smaller than a second preset temperature threshold value, controlling the temperature adjusting module (503) to carry out temperature rise operation on the air in the cavity (5);

receiving humidity information sent by the humidity sensor (502), and judging whether the humidity information is in a preset humidity range, wherein the preset humidity range comprises a first preset humidity threshold and a second preset humidity threshold, and the second preset humidity threshold is larger than the first preset humidity threshold; when the humidity information is determined to be larger than the first preset humidity threshold value, controlling the humidity adjusting module (504) to perform dehumidification operation on the air in the cavity (5); when the humidity information is determined to be smaller than a second preset humidity threshold value, controlling the humidity adjusting module (504) to carry out atomization and humidification operation on the air in the cavity (5);

sending the temperature information and the humidity information to a server (10) through the wireless communication module (506);

receiving a temperature and humidity adjusting instruction sent by the wireless communication module (506) and controlling the temperature adjusting module (503) and/or the humidity adjusting module (504) to execute;

the server (10) is respectively connected with the wireless communication module (506) and the mobile terminal (11) and is used for:

receiving temperature information and humidity information sent by the first control module (505) through the wireless communication module (506), and sending the temperature information and the humidity information to a mobile terminal (11);

receiving a temperature and humidity adjusting instruction sent by the mobile terminal (11), judging whether the temperature and humidity adjusting instruction is legal or not, and sending the temperature and humidity adjusting instruction to the wireless communication module (506) when the temperature and humidity adjusting instruction is legal;

the judging whether the temperature and humidity adjusting instruction is legal or not comprises the following steps:

acquiring the instruction length of the temperature and humidity adjusting instruction;

when the instruction length is determined to be equal to a preset instruction length, acquiring an instruction character of the temperature and humidity adjusting instruction;

performing semantic recognition according to the instruction characters to acquire temperature regulation information and/or humidity regulation information; and when the matching degree of the temperature adjusting information and the preset temperature adjusting information is larger than a first preset matching degree threshold value and/or the matching degree of the humidity adjusting information and the preset humidity adjusting information is larger than a second preset matching degree threshold value, determining that the temperature and humidity adjusting instruction is legal.

2. The new energy thermostatic chamber as claimed in claim 1, characterized in that: the lifting device (4) comprises a fixed rod (401), the bottom end of the fixed rod (401) is fixedly connected to the inner wall of the bottom of the cavity (5), the top end of the fixed rod (401) penetrates through the cavity (5) and extends out of the chamber body (1), a partition plate (6) is sleeved on the outer side of the fixed rod (401), a clamping groove (409) is formed in the fixed rod (401), sliding cavities (404) are formed in the front side and the rear side of the clamping groove (409), a placing block (410) is fixedly connected to the outer side of the fixed rod (401), the top of the placing block (410) is fixedly connected with the bottom end of a second spring (411), the top end of the second spring (411) is fixedly connected with the bottom of a blocking block (402), the bottom of the blocking block (402) is fixedly connected with the top end of a fixed column (412), and a movable column (406) is slidably connected in the clamping groove (409, the top end of the movable column (406) is fixedly connected with the bottom end of the connecting rope (403), the top end of the connecting rope (403) penetrates through the clamping groove (409) and extends out of the fixing rod (401), two groups of supporting blocks (405) are fixedly connected to the outer side of the movable column (406), and the supporting blocks (405) penetrate through the sliding cavity (404) and are fixedly connected with the top block (407).

3. The new energy thermostatic chamber as claimed in claim 1, characterized in that: fixing device (3) are including fixed connection piece (305), fixed connection piece (305) fixed connection is at the inner wall of round hole (9), the middle part joint of fixed connection piece (305) has fixed calorie of rod (302), the outside fixedly connected with sliding connection piece (303) of fixed calorie of rod (302), the rear side of sliding connection piece (303) and the front end fixed connection of first spring (304), the rear end of first spring (304) and the front side fixed connection of fixed connection piece (305), the front end of fixed calorie of rod (302) runs through round hole (9) and extends to outside cut-apart board (6), the front end of fixed calorie of rod (302) and the rear side fixed connection of handle (301).

4. The new energy thermostatic chamber as claimed in claim 1, characterized in that: through holes (8) are formed in the left side and the right side of the interior of the dividing plate (6), and the dividing plate (6) is sleeved with the lifting device (4) through the through holes (8).

5. The new energy thermostatic chamber as claimed in claim 2, characterized in that: the top of the top block (407) is fixedly connected with two groups of cushions (408), and the cushions (408) are filled with sponge.

6. The new energy thermostatic chamber as claimed in claim 2, characterized in that: the diameter of the fixing column (412) is matched with that of the inner wall of the clamping groove (409), and the diameter of the blocking block (402) is larger than that of the inner wall of the clamping groove (409).

7. The new energy thermostatic chamber as claimed in claim 3, wherein: the handle (301) is a round handle, and the diameter of the handle (301) is larger than that of the inner wall of the round hole (9).

8. The new energy thermostatic chamber as claimed in claim 1, characterized in that: the cavity is also provided with: a dust removal module (507), a second control module (508) and an alarm module (509); wherein the content of the first and second substances,

the dust removal module (507) is arranged on the dividing plate (6) and is used for performing dust removal treatment on air flowing in through the fixing hole (7);

the second control module (508) is arranged on the partition plate (6), is respectively connected with the dust removal module (507) and the alarm module (509), and is used for calculating the dust removal efficiency of the dust removal module (507), judging whether the dust removal efficiency is smaller than the preset dust removal efficiency or not, and controlling the alarm module (509) to send out an alarm prompt when the dust removal efficiency is determined to be smaller than the preset dust removal efficiency;

the calculating the dust removal efficiency of the dust removal module (507) comprises the following steps:

the dust removal module (507) comprises a discharge stage and a dust collection stage, and the discharge stage and the dust collection stage form a dust-driving electric field;

calculating the charge q of the dust particles in the air flowing in through the fixed hole (7) as shown in the formula (1):

wherein epsilon₀Is a vacuum dielectric constant; epsilon₁The dielectric constant of the dust particles in the air flowing in through the fixing hole (7); r is the average particle size of dust particles in the air flowing in through the fixing hole (7); e is the electric field intensity of the dust-removing electric field;

calculating the moving speed V of the dust particles in the air flowing in through the fixed hole (7) in the dust removing electric field according to the charged quantity q of the dust particles in the air flowing in through the fixed hole (7), as shown in the formula (2):

wherein P is the viscosity coefficient of the air flowing in through the fixing hole (7);

calculating the dust removal efficiency eta according to the moving speed V of dust particles in the air flowing in through the fixed hole (7) in the dust removing electric field, as shown in the formula (3):

wherein S is the area of the dust collection stage; q is the flow rate of air entering the cavity (5).

Images