CN110921084B

CN110921084B - Shockproof temperature control test tube box convenient to transport

Info

Publication number: CN110921084B
Application number: CN201911222631.7A
Authority: CN
Inventors: 王丽华; 肖珊珊
Original assignee: Individual
Current assignee: Wang Lihua
Priority date: 2019-12-03
Filing date: 2019-12-03
Publication date: 2021-02-09
Anticipated expiration: 2039-12-03
Also published as: CN110921084A

Abstract

The invention discloses a shockproof temperature-control test tube box convenient to transport; comprises a base, a refrigerator is fixedly connected in the base, the left end surface of the refrigerator is communicated with an air outlet cavity of the base, the other end of the base air outlet cavity is opened upwards, the right end surface of the refrigerator is communicated with the base air inlet cavity, the other end of the base air inlet cavity is opened upwards, base cushion block cavities with upward openings are symmetrically arranged on the front and the back of the base, the upper side of the base is provided with a test tube box mechanism, different numbers of test tube boxes can be arranged according to requirements through the test tube box mechanism, the transportation is convenient, meanwhile, the movement of the induction plate is controlled by the pressure difference generated by the temperature difference between the air inlet cavity and the test tube cavity of the test tube box, thereby the lift of control air inlet baffle makes the refrigeration effect of refrigerator obtain make full use of, the energy can be saved, thereby on the other hand increases weight stability through the balancing weight to reduce the vibrations that the test tube received through the shock attenuation slider.

Description

Shockproof temperature control test tube box convenient to transport

Technical Field

The invention relates to the technical field of containers, in particular to a shockproof temperature control test tube box convenient to transport.

Background

Test tube transportation is because the test tube is equipped with often needs cryogenic transport such as sample or medicament in, and the difference of the test tube quantity that once needs to transport according to the difference of demand is very big, can cause the space if the test tube quantity is less when the large-scale test tube case of present use, the energy is extravagant, and demand when small-size test tube case can't satisfy big batch transportation again, it also can lead to certain energy extravagant in order to maintain cryogenic refrigerator continuous operation simultaneously, on the other hand, the test tube is fixed to the mode that traditional test tube case used the spacing groove more, when meetting vibrations, the condition such as collision leads to the test tube damaged very easily.

Disclosure of Invention

Aiming at the technical defects, the invention provides the shockproof temperature control test tube box convenient to transport, which can overcome the defects.

The invention relates to a shockproof temperature-control test tube box convenient to transport, which comprises a base, wherein a refrigerator is fixedly connected in the base, the left end surface of the refrigerator is communicated with an air outlet cavity of the base, the other end of the air outlet cavity of the base is upwards opened, the right end surface of the refrigerator is communicated with an air inlet cavity of the base, the other end of the air inlet cavity of the base is upwards opened, a counterweight cavity which is rightwards opened is arranged at the lower side of the refrigerator, counterweights are connected in a sliding fit manner in the counterweight cavity, base cushion block cavities which are upwards opened are symmetrically arranged at the front and back of the base, a test tube box mechanism is arranged at the upper side of the base, the test tube box mechanism comprises a test tube box, the test tube box mechanism can be provided with a plurality of layers, the lower end surface of the test tube box at the lowest, be equipped with the inside fixed sliding block groove of opening on the cushion, be equipped with the ascending test tube chamber of opening in the test tube case, the test tube chamber front and back symmetry be equipped with the opening upwards and with the test tube case cushion chamber that the cushion corresponds, be equipped with the outside pull ring chamber of opening on the test tube case, pull ring intracavity sliding fit is connected with the pull ring, test tube chamber left side be equipped with from top to bottom link up and with the test tube case air inlet chamber that base air outlet chamber corresponds, test tube chamber right side be equipped with from top to bottom link up and with the test tube case air outlet chamber that base air inlet chamber corresponds, test tube case air outlet chamber with the intercommunication is equipped with the air outlet between the test tube chamber.

On the basis of the technical scheme, the test tube cavity comprises a damping cavity, the damping cavity is positioned in the test tube box and is communicated with the test tube cavity in a front-back symmetrical mode, a damping slide block is connected in the damping cavity in a sliding fit mode, a fixed plate is fixedly connected to the inner end face of the damping slide block, a first compression spring is fixedly connected between the upper end face of the damping slide block and the upper end wall of the damping cavity, a second compression spring is fixedly connected between the lower end face of the damping slide block and the lower end wall of the damping cavity, a rotating shaft cavity with an upward opening is arranged on the fixed plate, a rotating shaft extending upwards to the outside of the test tube cavity is connected in the rotating fit mode in the rotating shaft cavity, a spiral spring is fixedly connected between the bottom end face of the rotating shaft cavity and the bottom end wall of the rotating shaft cavity, four test tube cavity baffles distributed in the circumferential direction are fixedly connected to the upper ends, four circumference of fixed plate up end fixedly connected with distribute and with the corresponding test tube stopper of pivot baffle, the spacing chamber of test tube that runs through from top to bottom is equipped with on the test tube stopper, the fixed plate up end be equipped with upwards with the test tube base groove of the spacing chamber intercommunication of test tube, the symmetry is equipped with the inside test tube fixed block chamber of opening around in the test tube stopper, test tube fixed block intracavity sliding fit is connected with the test tube fixed block, the outer terminal surface of test tube fixed block with fixedly connected with third compression spring between the test tube fixed block chamber diapire, the first stay cord of the outer terminal surface of test tube fixed block still fixedly connected with, the first stay cord other end with pivot chamber fixed connection.

On the basis of the technical scheme, the test tube box cushion chamber comprises a pressing plate chamber, the pressing plate chamber is located at the front side of the test tube box cushion chamber and backwards communicated with the test tube box cushion chamber, the rear end face of the test tube box cushion chamber is communicated with a fixed slider chamber, a fixed slider is connected in a sliding fit mode in the fixed slider chamber, the rear end face of the fixed slider is fixedly connected with a fourth compression spring between the rear end walls of the fixed slider chamber, the rear end face of the fixed slider is also fixedly connected with a second pull rope, the other end of the second pull rope is fixedly connected with a pull ring, and the pressing plate is connected with a pressing plate located on the lower side of the fixed slider in a sliding fit mode in the.

On the basis of the technical scheme, the test tube box air inlet cavity comprises a communicating baffle cavity, the communicating baffle cavity is positioned on the left side of the test tube box air inlet cavity and is communicated with the test tube box air inlet cavity rightwards, a communicating baffle is connected in the communicating baffle cavity in a sliding fit manner, a fifth compression spring is fixedly connected between the left end surface of the communicating baffle and the left end wall of the communicating baffle cavity, a third pull rope is further fixedly connected to the left end surface of the communicating baffle, the other end of the third pull rope is fixedly connected with the upper end surface of the pressing plate, an air inlet opening which is positioned on the lower side of the communicating baffle cavity and is communicated with the test tube cavity rightwards is communicated with the right side of the air inlet cavity of the test tube box, an air inlet baffle cavity is communicated with the lower side of the air inlet, an air inlet baffle is connected in the air inlet baffle cavity in a sliding fit manner, and a sixth compression spring is fixedly, test tube case air inlet chamber right side still communicates and is equipped with and is located go into wind gap downside and right with the response chamber of test tube chamber intercommunication, response chamber longitudinal symmetry intercommunication is equipped with the response spout, sliding fit is connected with the response slider in the response spout, fixedly connected with tablet between the response slider, tablet left end face fixedly connected with fourth stay cord, the fourth stay cord other end with terminal surface fixed connection under the income wind baffle.

The invention has the beneficial effects that: can install the test tube case of different quantity according to the demand through test tube case mechanism, convenient transportation, the removal of tablet is controlled to the pressure difference that produces through the difference in temperature between test tube case air inlet chamber and the test tube chamber simultaneously to the lift of control air inlet baffle makes the refrigeration effect of refrigerator obtain make full use of, the energy can be saved, thereby on the other hand increases weight stability through the balancing weight, and reduce the vibrations that the test tube received through damping slide block.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural view of a shockproof temperature-controlled test tube box convenient for transportation according to the present invention;

3 FIG. 32 3 is 3 a 3 schematic 3 sectional 3 view 3 taken 3 along 3 the 3 line 3 A 3- 3 A 3 in 3 FIG. 31 3; 3

FIG. 3 is a schematic sectional view taken along line B-B in FIG. 1;

FIG. 4 is an enlarged view of the structure at C in FIG. 1;

FIG. 5 is an enlarged view of the structure of FIG. 2 at D;

FIG. 6 is an enlarged schematic view of FIG. 2 at E;

fig. 7 is an enlarged schematic view of the structure at F in fig. 1.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-7, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

As shown in fig. 1-7, the shockproof temperature-controlled test tube box of the device of the present invention, which is convenient for transportation, comprises a base 21, a refrigerator 16 is fixedly connected in the base 21, the left end surface of the refrigerator 16 is communicated with a base air outlet cavity 12, the other end of the base air outlet cavity 12 is upwardly open, the right end surface of the refrigerator 16 is communicated with a base air inlet cavity 18, the other end of the base air inlet cavity 18 is upwardly open, a counterweight cavity 19 which is downwardly open is arranged on the lower side of the refrigerator 16, a counterweight 20 is slidably connected in the counterweight cavity 19 in a matching manner, base cushion blocks 33 which are upwardly open are symmetrically arranged on the base 21 in a front-back manner, a test tube box mechanism is arranged on the upper side of the base 21, the test tube box mechanism comprises a test tube box 10, the test tube box mechanism can be provided with a plurality of layers, and the lower, preceding back symmetry fixedly connected with of test tube case 10 lower terminal surface with the cushion 32 that base cushion chamber 33 corresponds, be equipped with the inside fixed slider groove 31 of opening on the cushion 32, be equipped with the ascending test tube chamber 24 of opening in the test tube case 10, the symmetry is equipped with opening upwards around the test tube chamber 24 and with the test tube case cushion chamber 63 that the cushion 32 corresponds, be equipped with the outside pull ring chamber 25 of opening on the test tube case 10, sliding fit is connected with pull ring 26 in the pull ring chamber 25, test tube chamber 24 left side be equipped with from top to bottom link up and with the test tube case air inlet chamber 11 that base air outlet chamber 12 corresponds, test tube chamber 24 right side be equipped with from top to bottom link up and with test tube case air outlet chamber 23 that base air inlet chamber 18 corresponds, test tube case air outlet chamber 23 with the intercommunication is equipped with air outlet 22 between the test tube chamber 24.

In addition, in one embodiment, the test tube cavity 24 includes a shock absorption cavity 28, the shock absorption cavity 28 is located in the test tube box 10 and is symmetrically communicated with the test tube cavity 24 in front and back, a shock absorption sliding block 29 is connected in the shock absorption cavity 28 in a sliding fit manner, a fixing plate 13 is fixedly connected to an inner end surface of the shock absorption sliding block 29, a first compression spring 27 is fixedly connected between an upper end surface of the shock absorption sliding block 29 and an upper end wall of the shock absorption cavity 28, a second compression spring 30 is fixedly connected between a lower end surface of the shock absorption sliding block 29 and a lower end wall of the shock absorption cavity 28, a rotating shaft cavity 14 with an upward opening is arranged on the fixing plate 13, a rotating shaft 35 extending upwards to the outside of the test tube cavity 24 is rotatably connected in the rotating shaft cavity 14 in a fit manner, a coil spring 15 is fixedly connected between a bottom end surface of the rotating shaft cavity 35 and a bottom end, the lower side of the tube testing cavity baffle 34 is provided with four rotating shaft baffles 36 which are distributed circumferentially and are fixedly connected with the rotating shaft 35, four test tube limiting blocks 49 which are circumferentially distributed and correspond to the rotating shaft baffle 36 are fixedly connected to the upper end surface of the fixing plate 13, the test tube limiting block 49 is provided with a test tube limiting cavity 64 which penetrates up and down, the upper end surface of the fixing plate 13 is provided with a test tube base groove 45 which is upwards communicated with the test tube limiting cavity 64, test tube fixing block cavities 48 with inward openings are symmetrically arranged in the test tube limiting block 49 in the front and back direction, test tube fixing blocks 50 are connected in the test tube fixing block cavities 48 in a sliding fit manner, a third compression spring 47 is fixedly connected between the outer end surface of the test tube fixing block 50 and the bottom wall of the test tube fixing block cavity 48, the outer end face of the test tube fixing block 50 is also fixedly connected with a first pull rope 46, and the other end of the first pull rope 46 is fixedly connected with the rotating shaft cavity 14; rotate pivot 35, overcome coil spring 15's elasticity drives pivot baffle 36 with first stay cord 46 winds coil spring 15 rotates, pivot baffle 36 rotates extremely under test tube chamber baffle 34, test tube chamber 24 communicates with the external world, first stay cord 46 winds coil spring 15 rotates and overcomes third compression spring 47's thrust drives test tube fixed block 50 outwards move extremely in the test tube fixed block chamber 48.

In addition, in one embodiment, the test tube box cushion block cavity 63 includes a pressing plate cavity 53, the pressing plate cavity 53 is located in front of the test tube box cushion block cavity 63 and is communicated with the test tube box cushion block cavity 63 backwards, a fixed slider cavity 55 is communicated with a rear end surface of the test tube box cushion block cavity 63, the fixed slider cavity 55 is connected with a fixed slider 54 in a sliding fit manner, a fourth compression spring 57 is fixedly connected between the rear end surface of the fixed slider 54 and a rear end wall of the fixed slider cavity 55, a second pull rope 56 is further fixedly connected to a rear end surface of the fixed slider 54, the other end of the second pull rope 56 is fixedly connected with the pull ring 26, and a pressing plate 52 located on the lower side of the fixed slider 54 is connected in the pressing plate cavity 53 in a sliding fit.

In addition, in one embodiment, the test tube box air inlet cavity 11 includes a communicating baffle cavity 38, the communicating baffle cavity 38 is located at the left side of the test tube box air inlet cavity 11 and communicates with the test tube box air inlet cavity 11 rightward, the communicating baffle cavity 38 is connected with a communicating baffle 40 in a sliding fit manner, a fifth compression spring 39 is fixedly connected between the left end surface of the communicating baffle 40 and the left end wall of the communicating baffle cavity 38, the left end surface of the communicating baffle 40 is further connected with a third pull rope 37 in a fixed manner, the other end of the third pull rope 37 is fixedly connected with the upper end surface of the pressing plate 52, the right side of the test tube box air inlet cavity 11 is communicated with an air inlet 41 located at the lower side of the communicating baffle cavity 38 and communicating with the test tube cavity 24 rightward, an air inlet baffle cavity 43 is communicated with the lower side of the air inlet 41, and an air inlet baffle 42 is connected in the air inlet, a sixth compression spring 44 is fixedly connected between the lower end surface of the air inlet baffle plate 42 and the lower end wall of the air inlet baffle plate cavity 43, the right side of the air inlet cavity 11 of the test tube box is further communicated with an induction cavity 60 which is positioned at the lower side of the air inlet 41 and is communicated with the test tube cavity 24 rightwards, the induction cavity 60 is symmetrically communicated with induction sliding grooves 59 from top to bottom, induction sliding blocks 58 are connected in the induction sliding grooves 59 in a sliding fit mode, an induction plate 61 is fixedly connected between the induction sliding blocks 58, a fourth pull rope 62 is fixedly connected to the left end surface of the induction plate 61, and the other end of the fourth pull rope 62 is fixedly connected with the lower end surface of the air inlet baffle plate; when the sensing plate 61 moves to the right side, the fourth pull rope 62 drives the air inlet baffle 42 to overcome the thrust of the sixth compression spring 44 and move downward into the air inlet baffle cavity 43, so that the cold air enters the test tube cavity 24 through the air inlet 41, and when the pressing plate 52 moves downward under pressure, the communicating baffle 40 overcomes the thrust of the fifth compression spring 39 and moves leftward into the communicating baffle cavity 38 under the action of the tension of the third pull rope 37, so that the test tube box air inlet cavity 11 is communicated with the test tube box air inlet cavity 11 of the test tube box mechanism on the upper side.

The applicant will now specifically describe a portable, rugged, temperature-controlled test chamber box of the present application with reference to figures 1-7 and the above description:

in an initial state, the induction sliding block 58 is located at the tail end of the left side of the induction sliding groove 59, the fourth pull rope 62 is in a tightened state, the sixth compression spring 44 is in a loosened state, the upper end face of the air inlet baffle plate 42 is abutted with the upper end wall of the air inlet 41, the fourth compression spring 57 is in a loosened state, the second pull rope 56 is in a tightened state, the fixed sliding block 54 is partially located in a cushion block cavity 63 of the test tube box, the lower end face of the fixed sliding block 54 on the upper end face of the pressing plate 52 is abutted, the third pull rope 37 is in a tightened state, the fifth compression spring 39 is in a loosened state, the right end face of the communicating baffle plate 40 is abutted with the right end wall of the test tube box air inlet cavity 11, the spiral spring 15 is in a loosened state, the first pull rope 46 is in a tightened state, the third compression spring 47 is in a loosened state, the test;

when the test tube placing device starts to work, the rotating shaft 35 is rotated to drive the rotating shaft baffle 36 to be opened, meanwhile, the test tube fixing block 50 is driven to be opened through the first pull rope 46, a test tube is placed into the test tube limiting cavity 64, the rotating shaft 35 is loosened, the cushion block 32 of the previous layer of test tube box mechanism is placed into the test tube box cushion block cavity 63, the fixing slide block 54 enters the fixing slide block groove 31 to be fixed, the pressing plate 52 is pressed to descend, the communicating baffle 40 is opened, the test tube box air inlet cavities 11 of the upper layer of test tube box mechanism and the lower layer of test tube box;

the process of installing the test tube box mechanism is repeated as required, the refrigerator 16 is started after the installation is completed, cold air enters the test tube box air inlet cavity 11 through the base air outlet cavity 12, the pressure on the left side of the induction plate 61 is greater than that on the right side, the induction plate 61 moves rightwards under the action of pressure to drive the air inlet baffle 42 to be opened, the cold air enters the test tube cavity 24 through the air inlet 41, the induction plate 61 and the air inlet baffle 42 reset after the temperature in the test tube cavity 24 is reduced, the process is repeated when the temperature is increased again, so that the temperature control effect is achieved, when transportation is required, the balance weight 20 is placed into the balance weight cavity 19 to avoid shaking vibration, and when vibration is encountered, the vibration on the fixing plate 13 is reduced through the buffering of the first compression spring 27 and the second compression spring 30;

when the test tube box mechanism needs to be removed, the pull ring 26 of the lower test tube box mechanism is pulled, the fixed slide block 54 overcomes the pushing force of the fourth compression spring 57 and enters the fixed slide block cavity 55, and then the upper test tube box mechanism can be removed.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a temperature control test tube case takes precautions against earthquakes convenient to transportation, includes the base, its characterized in that: a refrigerator is fixedly connected in the base, the left end face of the refrigerator is communicated with the base air outlet cavity, the other end of the base air outlet cavity is upwards opened, the right end face of the refrigerator is communicated with the base air inlet cavity, the other end of the base air inlet cavity is upwards opened, a right-opening counterweight cavity is arranged on the lower side of the refrigerator, a counterweight is connected in a sliding fit manner in the counterweight cavity, base cushion block cavities with upwards opened ends are symmetrically arranged on the front and back of the base, a test tube box mechanism is arranged on the upper side of the base and comprises test tube boxes, the test tube box mechanism can be provided with a plurality of layers of lower end faces which are arranged at the lowest sides, the lower end faces of the test tube boxes are fixedly connected with the upper end face of the base, cushion blocks corresponding to the base cushion block cavities are symmetrically and fixedly connected with the front and back of the lower end faces of, test tube chamber front and back symmetry be equipped with the opening upwards and with the test tube case cushion chamber that the cushion corresponds, be equipped with the outside pull ring chamber of opening on the test tube case, pull ring intracavity sliding fit is connected with the pull ring, test tube chamber left side be equipped with from top to bottom link up and with the test tube case air inlet chamber that base air outlet chamber corresponds, test tube chamber right side be equipped with from top to bottom link up and with the test tube case air outlet chamber that base air inlet chamber corresponds, test tube case air outlet chamber with the intercommunication is equipped with the air outlet between the test tube chamber.

2. The shockproof temperature-controlled test tube box convenient to transport of claim 1, wherein: the test tube cavity comprises a damping cavity, the damping cavity is positioned in the test tube box and is communicated with the test tube cavity in a front-back symmetrical mode, a damping slide block is connected in the damping cavity in a sliding fit mode, a fixed plate is fixedly connected to the inner end face of the damping slide block, a first compression spring is fixedly connected between the upper end face of the damping slide block and the upper end wall of the damping cavity, a second compression spring is fixedly connected between the lower end face of the damping slide block and the lower end wall of the damping cavity, a rotating shaft cavity with an upward opening is arranged on the fixed plate, a rotating shaft extending upwards to the outside of the test tube cavity is connected in the rotating shaft cavity in a rotating fit mode, a spiral spring is fixedly connected between the rotating shaft face and the bottom end wall of the rotating shaft cavity, four test tube cavity baffles which are distributed in the circumferential direction are fixedly connected to the upper end of the circumferential end, four circumference of fixed plate up end fixedly connected with distribute and with the corresponding test tube stopper of pivot baffle, the spacing chamber of test tube that runs through from top to bottom is equipped with on the test tube stopper, the fixed plate up end be equipped with upwards with the test tube base groove of the spacing chamber intercommunication of test tube, the symmetry is equipped with the inside test tube fixed block chamber of opening around in the test tube stopper, test tube fixed block intracavity sliding fit is connected with the test tube fixed block, the outer terminal surface of test tube fixed block with fixedly connected with third compression spring between the test tube fixed block chamber diapire, the first stay cord of the outer terminal surface of test tube fixed block still fixedly connected with, the first stay cord other end with pivot chamber fixed connection.

3. The shockproof temperature-controlled test tube box convenient to transport of claim 2, wherein: the test tube box cushion chamber comprises a pressing plate chamber, the pressing plate chamber is located at the front side of the test tube box cushion chamber and backwards communicated with the test tube box cushion chamber, the rear end face of the test tube box cushion chamber is communicated with a fixed slide block chamber, a fixed slide block is connected in a sliding fit mode in the fixed slide block chamber, the rear end face of the fixed slide block is fixedly connected with a fourth compression spring between the rear end walls of the fixed slide block chamber, the rear end face of the fixed slide block is fixedly connected with a second pull rope, the other end of the second pull rope is fixedly connected with a pull ring, and the pressing plate chamber is connected with a pressing plate located on the lower side of the fixed slide block in.

4. The shockproof temperature-controlled test tube box convenient to transport of claim 3, wherein: the test tube box air inlet cavity comprises a communicating baffle cavity, the communicating baffle cavity is positioned on the left side of the test tube box air inlet cavity and is communicated with the test tube box air inlet cavity rightwards, a communicating baffle is connected in the communicating baffle cavity in a sliding fit manner, a fifth compression spring is fixedly connected between the left end surface of the communicating baffle and the left end wall of the communicating baffle cavity, a third pull rope is further fixedly connected on the left end surface of the communicating baffle, the other end of the third pull rope is fixedly connected with the upper end surface of the pressing plate, an air inlet which is positioned on the lower side of the communicating baffle cavity and is communicated with the test tube cavity rightwards is communicated with the right side of the air inlet cavity, the lower side of the air inlet is communicated with the air inlet baffle cavity, an air inlet baffle is connected in the air inlet baffle cavity in a sliding fit manner, and a sixth compression spring is fixedly connected between the, test tube case air inlet chamber right side still communicates and is equipped with and is located go into wind gap downside and right with the response chamber of test tube chamber intercommunication, response chamber longitudinal symmetry intercommunication is equipped with the response spout, sliding fit is connected with the response slider in the response spout, fixedly connected with tablet between the response slider, tablet left end face fixedly connected with fourth stay cord, the fourth stay cord other end with terminal surface fixed connection under the income wind baffle.