CN213514949U - Drying equipment for environment monitoring experiments - Google Patents

Abstract

The utility model provides a drying equipment for environmental monitoring experiments, including the oven, the oven bottom is equipped with the bed plate, vibrating motor is installed to bed plate upper surface one end, the vibrating motor upper end is equipped with the hot plate, first locating hole has been seted up one by one to four apex angle departments of hot plate, it has the semiconductor electric hot plate to embed on the hot plate, semiconductor electric hot plate upper end is equipped with the material box, material box both ends symmetry is equipped with the extension board, two equal symmetries in extension board both sides are equipped with the second locating hole, and ring vibrating motor is the rectangle all around and is equipped with four spring shock absorber poles, every spring shock absorber pole top all is equipped with the location inserted bar, the bed plate is kept away from vibrating motor one end and is equipped with the cooling and shelves the board, the top is shelved board. The utility model discloses not only improved the even effect of soil drying heating, but also realized heating and cooling interval separation for the staff reduces the risk of scalding when tak the material box away.

Description

Drying equipment for environment monitoring experiments

Technical Field

The utility model relates to a technical field of environmental monitoring experimental facilities specifically is a drying equipment for environmental monitoring experiments.

Background

Environmental monitoring refers to determining the environmental quality (or pollution level) and its variation trend by measuring representative values of factors affecting the environmental quality.

The environmental monitoring usually adopts experimental equipment to carry out scientific research, carries out deep experiments on environmental products such as soil, water source and the like, provides corresponding argument for theoretical inference of environmental change, and the existing environmental monitoring equipment has more classifications.

For example, patent publication No. CN210832827U provides a soil drying box suitable for laboratory use, which includes a drying box, a mouth-opening assembly is installed at the top end of the drying box, and the mouth-opening assembly includes a base plate, rollers, a first sliding plate, a second sliding plate, a short shaft, a shaft seat, a hinge and a shaft plate. This soil drying cabinet suitable for laboratory use, the mouth subassembly that opens of symmetric distribution is installed to the drying cabinet top, open the mouth subassembly and can freely close and open, convenient to use like this, just can take or change the soil drying ware when opening the mouth subassembly and open, when driving motor work drives driving gear and driven gear and rotates, first slide and second slide can open or close along with it, the manifold in the subassembly that preheats stretches into the below of baffle, the hot-air that gives off on the branch pipe can even get into the upper portion space of baffle, the soil drying ware goes up the splendid attire treat that dry soil just can be quick and even obtains the drying like this, when drying effect is good, open the mouth subassembly can freely close and open, convenient to use like this.

Soil can pile up when foretell soil drying cabinet heats stoving in the soil drying ware together, leads to the inside dry not enough of soil even, has increased drying time, the extravagant energy to staff, it is direct in the zone of heating of drying cabinet when taking the soil drying ware, has certain high temperature scald risk.

SUMMERY OF THE UTILITY MODEL

The utility model mainly provides a drying equipment for environmental monitoring experiments for solve the technical problem who proposes in the above-mentioned background art.

The utility model provides a technical scheme that above-mentioned technical problem adopted does:

the drying equipment for the environment monitoring experiment comprises an oven, wherein a base plate is arranged at the bottom of the oven, a vibration motor is mounted at one end of the upper surface of the base plate, a heating plate is arranged at the upper end of the vibration motor, a transmission rod is arranged between the output end of the vibration motor and the lower surface of the heating plate, first positioning holes are formed in four vertex angles of the heating plate one by one, a semiconductor electric heating plate is embedded in the heating plate, a material box is arranged at the upper end of the semiconductor electric heating plate, extension plates are symmetrically arranged at two ends of the material box, second positioning holes are symmetrically formed in two sides of the two extension plates, the four first positioning holes correspond to the four second positioning holes one by one, four spring damping rods are arranged around the vibration motor in a rectangular shape, and a positioning insertion rod is arranged at;

the utility model discloses a material box, including bed plate, vibrating motor, cooling shelving plate, bracing piece bottom and bed plate upper surface, the bed plate is kept away from vibrating motor one end and is equipped with the cooling and shelve the board, four apex angle departments of board lower surface are shelved in the cooling are equipped with the bracing piece one by one, four bracing piece bottom is connected with the bed plate upper surface, just the top is shelved from vibrating motor one end to the cooling and is shelved board one end from the vibrating motor in the oven and install the transportation subassembly, should transport the subassembly including sharp module, be equipped with the slider that can come and go formula translation motion on the sharp module, the slider is kept away from sharp module one side and is connected with first push rod.

Furthermore, the center points of the four positioning insertion rods, the first positioning holes and the second positioning holes are respectively positioned on the same vertical central line, and each positioning insertion rod is in insertion connection with the corresponding first positioning hole and the corresponding second positioning hole.

Furthermore, each clamping jaw upper end all is equipped with the second push rod that is used for the drive, every second push rod output shaft all runs through the balancing pole and keeps rotating with the clamping jaw that corresponds and be connected.

Furthermore, the first push rod and the two second push rods are either electric telescopic rods, hydraulic telescopic rods or pneumatic telescopic rods.

Furthermore, a controller and a heating power supply box are respectively arranged at one end, close to the vibration motor, of the surface of the top of the oven, the heating power supply box is connected with a power supply harness, and the power supply harness penetrates through a top plate of the oven and extends to the inside to be electrically connected with the semiconductor electric heating plate.

Further, the surface of the top of the oven is far away from one end of the heating power supply box, a cooling fan is installed, an air outlet pipe of the cooling fan penetrates through the top plate of the oven and extends to the inner part, an arc air outlet cover is connected to the inner part, and the height of the arc air outlet cover is larger than that of the cooling placement plate.

Furthermore, a feeding door and a discharging door are arranged on the plate body on one side of the drying oven corresponding to the vibrating motor and the cooling shelving plate respectively, an arc-shaped exhaust hood is arranged at one end, corresponding to the cooling shelving plate, of the plate body on the side, away from the discharging door, of the drying oven, the height of the arc-shaped exhaust hood is consistent with that of the arc-shaped exhaust hood, and the installation position of the arc-shaped exhaust hood is opposite to that of the arc-shaped exhaust hood.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses novel structure, through placing the material box at the hot plate upper surface, utilize the location inserted bar cooperation first locating hole and the second locating hole at four spring shock attenuation pole tops to implement the location, to material box inside heating when semiconductor electric plate work produces the heat, make the material box produce the shake with the help of vibrating motor again, shake and scatter to soil in the material box, make soil can not the blocking, improve the even effect of dry heating, it lifts on after the completion heating makes two clamping jaws snatch the material box by first push rod promotion balancing pole decline, the restriction that breaks away from the material box then the translation to the cooling shelve the board and descend and shelve, wait to take out by the staff after cooling, heating and cooling interval separation have been realized, make the staff reduce the risk of scald when tak away from the material box.

The present invention will be explained in detail with reference to the drawings and specific embodiments.

Drawings

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

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

FIG. 3 is a schematic view of the connection structure between the cooling fan and the arc-shaped air outlet housing of the present invention;

fig. 4 is a schematic structural view of the transfer assembly of the present invention.

In the figure: 1. an oven; 2. a heating power supply box; 3. a cooling fan; 3a, an arc air outlet cover; 4. a controller; 5. a feed gate; 6. a discharge door; 7. an arc exhaust hood; 8. a base plate; 9. a vibration motor; 9a, a transmission rod; 10. a spring shock-absorbing lever; 10a, positioning inserted rods; 11. a support bar; 12. cooling the shelving plate; 13. heating plates; 13a, a first positioning hole; 14. a semiconductor electric heating plate; 15. a material box; 15a, an extension plate; 15b, a second positioning hole; 16. a linear module; 16a, a slide block; 17. a first push rod; 18. a balancing pole; 19. a clamping jaw; 19a, a second push rod.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully with reference to the accompanying drawings, in which several embodiments of the present invention are shown, but the present invention can be implemented in different forms, and is not limited to the embodiments described in the text, but rather, these embodiments are provided to make the disclosure of the present invention more thorough and comprehensive.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the use of the term knowledge in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to the attached drawings 1 and 2, the drying equipment for the environmental monitoring experiment comprises an oven 1, wherein a base plate 8 is arranged at the bottom of the oven 1, a vibration motor 9 is installed at one end of the upper surface of the base plate 8, a matched damping base is installed between the vibration motor 9 and the base plate 8, a heating plate 13 is arranged at the upper end of the vibration motor 9, a transmission rod 9a is arranged between the output end of the vibration motor 9 and the lower surface of the heating plate 13, the transmission rod 9a and the lower surface of the heating plate 13 are fixed through screws, so that the vibration force of the vibration motor 9 can be transmitted to the heating plate 13, first positioning holes 13a are formed in four corners of the heating plate 13 one by one, a semiconductor electric heating plate 14 is embedded in the heating plate 13, the semiconductor electric heating plate 14 is a conventional PTC heating sheet and is embedded in the upper surface of the heating plate 13 and can be, the material box 15 is made of metal material with good heat conductivity, two ends of the material box 15 are symmetrically provided with extension plates 15a, two sides of two extension plates 15a are symmetrically provided with second positioning holes 15b, four first positioning holes 13a correspond to four second positioning holes 15b one by one, four spring shock-absorbing rods 10 are arranged around the vibration motor 9 in a rectangular shape, the top of each spring shock-absorbing rod 10 is provided with a positioning inserted rod 10a, the central points of the four positioning inserted rods 10a, the first positioning holes 13a and the second positioning holes 15b are respectively positioned on the same vertical central line, each positioning inserted rod 10a is in penetrating connection with the corresponding first positioning hole 13a and the corresponding second positioning hole 15b, after the material box 15 is placed on the upper end of the heating plate 13, the four positioning inserted rods 10a penetrate the four first positioning holes 13a and the second positioning holes 15b one by one to form positioning limitation, the top height of location inserted bar 10a is higher than extension board 15a upper surface 3cm at least, along with vibrating motor 9 work for hot plate 13 and 15 synchronous vibration of material box, shake the scattering to the soil of 15 inside places of material box, and the soil of spreading out is more even when the heating is dry, and four spring shock attenuation poles 10 carry out good support under the condition that can slow down the vibration influence.

Referring to fig. 2 and 4, a cooling placement plate 12 is arranged at one end of a base plate 8 far away from a vibration motor 9, support rods 11 are arranged at four vertex angles of the lower surface of the cooling placement plate 12 one by one, the bottoms of the four support rods 11 are connected with the upper surface of the base plate 8, a transfer assembly is arranged at the top of the oven 1 from one end of the vibration motor 9 to one end of the cooling placement plate 12, the transfer assembly comprises a linear module 16 (model KMK4566), a slider 16a capable of reciprocating translational motion is arranged on the linear module 16, one side of the slider 16a far away from the linear module 16 is connected with a first push rod 17, an output shaft of the first push rod 17 is connected with a balance rod 18, the balance rod 18 is parallel to a material box 15, clamping jaws 19 are symmetrically arranged at two ends of the balance rod 18, a second push rod 19a for driving is arranged at the upper end of each clamping jaw 19, an output shaft of each second push rod 19a penetrates through the balance rod 18 and is rotatably, each clamping jaw 19 is composed of two symmetrical bending connecting rods which are respectively and rotatably connected with the lower surface of the balance rod 18 through a rotating bolt, one end of each bending connecting rod is rotatably connected with the output shaft of the second push rod 19a through a shaft rod in an inserting mode, the other end of each bending connecting rod is provided with a clamping head for clamping articles, the distance between the two clamping jaws 19 corresponds to the distance between the two sides of the material box 15, the first push rod 17 and the two second push rods 19a are electric telescopic rods, hydraulic telescopic rods or pneumatic telescopic rods, when the material box 15 needs to be transferred, the first push rod 17 extends to lower the balance rod 18 to enable the two clamping jaws 19 to correspond to the box bodies on the two sides of the material box 15, then the two second push rods 19a work to fold the clamping heads of the two clamping jaws 19 to clamp the material box 15, the first push rod 17 is reset and contracted, and the material box 15 is separated from the, the linear module 16 is then operated to move the slide 16a in translation, so that the material cassette 15 reaches above the cooling rest 12 and then descends and releases the two clamping jaws 19, resting the material cassette 15 on the cooling rest 12.

Referring to the attached drawings 1 and 3, a controller 4 (model TG765S-XT) and a heating power supply box 2 are respectively arranged at one end, close to a vibrating motor 9, of the top surface of an oven 1, the heating power supply box 2 is connected with a power supply harness, the power supply harness penetrates through a top plate of the oven 1 and extends to the inside to be electrically connected with a semiconductor electric heating plate 14, a cooling fan 3 is arranged at one end, far away from the heating power supply box 2, of the top surface of the oven 1, an air outlet pipe of the cooling fan 3 penetrates through the top plate of the oven 1 and extends to the inside to be connected with an arc air outlet hood 3a, the height of the arc air outlet hood 3a is larger than that of a cooling placement plate 12, a feeding door 5 and a discharging door 6 are respectively arranged on a plate body at one side of the oven 1, corresponding to the vibrating motor 9 and the cooling placement plate 12, an arc exhaust, the height of the arc exhaust hood 7 is consistent with that of the arc air outlet hood 3a, the installation position of the arc air outlet hood 3a is opposite to that of the arc exhaust hood 7, the controller 4 is used as a control center of the whole device and is respectively and electrically connected with the vibration motor 9, the linear module 16, the first push rod 17, the second push rod 19a, the heating power supply box 2 and the cooling fan 3 through a control circuit, through corresponding control programs, the automatic control effect is realized, the feeding door 5 and the discharging door 6 are of a hinge connection structure and can be rotationally opened, the material box 15 is convenient to put in and take out, certain water vapor can be generated in the oven 1 in the drying process, the cooling fan 3 can be utilized to open to work, external air is blown into the oven 1 along the air outlet pipe to the arc air outlet hood 3a, and then blown out from the arc exhaust hood 7 to take away hot air containing the water vapor, meanwhile, when the material box 15 is placed on the cooling placing plate 12 for cooling, the height of the arc air outlet cover 3a is arranged at the upper end of the material box 15, so that the heat of the heated and dried soil can be taken away synchronously, and the cooling speed of the whole material box 15 is accelerated.

The utility model discloses a concrete operation as follows:

firstly, a worker puts a proper amount of moist soil into a material box 15, then opens a feeding door 5 to place the material box 15 above a heating plate 13, so that four positioning insertion rods 10a penetrate through four second positioning holes 15b one by one to position and limit the material box 15, then closes the feeding door 5, controls a heating power supply box 2 to be communicated with a working power supply of a semiconductor electric heating plate 14 by using a controller 4, then starts a vibration motor 9 to work to heat and share and shake the moist soil in the material box 15, at the moment, can use a cooling fan 3 to start work, blows external air into an oven 1 along an air outlet pipe to an arc air outlet cover 3a, blows out the air from an arc exhaust cover 7 to take away hot air containing water vapor, after drying is finished, the controller 4 controls a first push rod 17 to extend to lower a balance rod 18 so that two clamping jaws 19 correspond to box bodies on two sides of the material box 15, then two second push rods 19a work, the chucks of the two clamping jaws 19 are folded to move to clamp the material moving box 15, then the first push rods 17 reset and contract, the material box 15 is separated from the limit of the positioning insertion rods 10a, the linear module 16 works to move the sliding blocks 16a in a translation mode, so that the material box 15 reaches the position above the cooling placing plate 12 and then descends and loosens the two clamping jaws 19, the material box 15 is placed on the cooling placing plate 12, meanwhile, the cooling fan 3 can be continuously used for starting work, external air is blown into the oven 1 from the air outlet pipe to the arc air outlet cover 3a, then the external air is blown out from the arc exhaust hood 7, the heat of the dried soil can be synchronously taken away, the cooling speed of the whole material box 15 is accelerated, and after cooling is completed, a worker opens the material outlet door 6 to take out the material box 15.

The present invention has been described above with reference to the accompanying drawings, and it is obvious that the present invention is not limited by the above-mentioned manner, if the method and the technical solution of the present invention are adopted, the present invention can be directly applied to other occasions without substantial improvement, and the present invention is within the protection scope of the present invention.

Claims (7)

1. The utility model provides a drying equipment for environment monitoring experiments, includes oven (1), its characterized in that, oven (1) bottom is equipped with bed plate (8), vibrating motor (9) are installed to bed plate (8) upper surface one end, vibrating motor (9) upper end is equipped with hot plate (13), be equipped with transfer line (9a) between vibrating motor (9) output and hot plate (13) lower surface, first locating hole (13a) have been seted up one by one to four apex angle departments of hot plate (13), it has semiconductor electric plate (14) to inlay on hot plate (13), semiconductor electric plate (14) upper end is equipped with material box (15), material box (15) both ends symmetry is equipped with extension board (15a), two extension board (15a) both sides all symmetry are equipped with second locating hole (15b), four first locating hole (13a) and four second locating hole (15b) correspond one by one, four spring damping rods (10) are arranged around the vibration motor (9) in a rectangular shape, and a positioning inserted rod (10a) is arranged at the top of each spring damping rod (10);

a cooling placing plate (12) is arranged at one end of the base plate (8) far away from the vibration motor (9), supporting rods (11) are arranged at four top corners of the lower surface of the cooling placing plate (12) one by one, the bottoms of the four supporting rods (11) are connected with the upper surface of the base plate (8), and a transfer component is arranged from one end of the vibration motor (9) to one end of the cooling shelving plate (12) at the top in the oven (1), the transfer component comprises a linear module (16), a slide block (16a) capable of reciprocating translational motion is arranged on the linear module (16), one side of the sliding block (16a) far away from the linear module (16) is connected with a first push rod (17), an output shaft of the first push rod (17) is connected with a balance rod (18), clamping jaws (19) are symmetrically arranged at two ends of the balance rod (18), and the distance between the two clamping jaws (19) corresponds to the distance between the two sides of the material box (15).

2. The drying equipment for the environment monitoring experiment as claimed in claim 1, wherein the central points of the four positioning insertion rods (10a), the first positioning holes (13a) and the second positioning holes (15b) are respectively located on the same vertical central line, and each positioning insertion rod (10a) is connected with the corresponding first positioning hole (13a) and the corresponding second positioning hole (15b) in a penetrating manner.

3. The drying equipment for the environment monitoring experiment is characterized in that a second push rod (19a) for driving is arranged at the upper end of each clamping jaw (19), and an output shaft of each second push rod (19a) penetrates through a balance rod (18) and is in rotating connection with the corresponding clamping jaw (19).

4. The drying equipment for environmental monitoring experiments as claimed in claim 3, wherein the first push rod (17) and the two second push rods (19a) are either electrically telescopic rods, hydraulically telescopic rods or pneumatically telescopic rods.

5. The drying equipment for the environmental monitoring experiment as claimed in claim 1, wherein a controller (4) and a heating power supply box (2) are respectively arranged at one end of the top surface of the oven (1) close to the vibration motor (9), and a power supply harness is connected to the heating power supply box (2), penetrates through the top plate of the oven (1) and extends to the inside to be electrically connected with the semiconductor electric heating plate (14).

6. The drying equipment for the environment monitoring experiment of claim 5, wherein a cooling fan (3) is installed at one end, away from the heating power supply box (2), of the top surface of the oven (1), an air outlet pipe of the cooling fan (3) penetrates through the top plate of the oven (1) and extends to the inside of the oven to be connected with an arc air outlet cover (3a), and the height of the arc air outlet cover (3a) is greater than that of the cooling placement plate (12).

7. The drying equipment for the environment monitoring experiment of claim 6, wherein a feeding door (5) and a discharging door (6) are arranged on a plate body on one side of the drying oven (1) corresponding to the vibration motor (9) and the cooling placing plate (12) respectively, an arc exhaust hood (7) is arranged at one end, away from the discharging door (6), of the drying oven (1) corresponding to the cooling placing plate (12) on the plate body on one side of the discharging door (6), the height of the arc exhaust hood (7) is identical to that of the arc exhaust hood (3a), and the installation position of the arc exhaust hood (3a) is opposite to that of the arc exhaust hood (7).

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