CN217987061U - A archives intensive for soil sample keeps - Google Patents

Abstract

The application provides a archives compact shelf for soil sample preservation, belongs to the soil sample preservation field. A archives compact shelf for soil sample keeps includes a plurality of storage shelves, pedal platform and a plurality of lift unit. The storage racks are arranged side by side, the front surface of each storage rack is provided with a plurality of sample storage spaces, each storage rack is provided with a rack body moving mechanism which moves along the arrangement direction so that a taking and placing channel can be formed in front of any storage rack, and the bottom of each storage rack is provided with a moving channel which penetrates along the arrangement direction; the pedal platform is provided with a pedal moving mechanism which moves along the arrangement direction and is suitable for passing through the corresponding storage rack from the moving channel so as to move to a pick-and-place channel in front of any storage rack; the plurality of lifting units are transversely distributed on the pedal platform along the storage rack, and each lifting unit can be lifted to different heights in the picking and placing channel to form a ladder. The lifting unit of the pedal platform can form a ladder in the taking and placing channel, so that soil samples can be conveniently taken and placed, and time and labor are saved.

Description

A archives intensive for soil sample keeps

Technical Field

The application belongs to the technical field of soil sample preservation, and particularly relates to an archive compact shelf for soil sample preservation.

Background

A large number of soil samples in different areas can be collected in soil environment detection, and a plurality of storage racks are required to be adopted for storage due to the huge number of the samples. The bottom of each storage rack is provided with a movable wheel, and the storage racks are tightly attached together at ordinary times so as to reduce the occupied area; when a sample on a certain storage rack needs to be taken and placed, each storage rack can be moved, a channel is formed in front of the storage rack needing to be taken and placed, and then a person enters the channel to take and place the soil sample on the corresponding storage rack.

However, since each storage rack is very high in height, when taking and placing a soil sample at a high position, an operator needs to carry a ladder into a passage in front of the storage rack, then take and place the soil sample, and then carry the ladder out, which is a laborious operation. In particular, when soil samples on a plurality of different storage racks need to be accessed, an operator needs to move the storage racks back and forth to form channels in front of the different storage racks, and also needs to move a ladder back and forth between the channels, which is very tedious and laborious.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the present application provides a compact file rack for soil sample preservation, so as to solve the technical problems that in the prior art, when taking and placing soil samples at a high position of each storage rack, a ladder needs to be moved back and forth, and the operation is complex and laborious.

In order to achieve the purpose, the technical scheme adopted by the application is as follows:

there is provided an archive compact shelf for soil sample preservation, comprising:

the storage racks are arranged side by side, a plurality of sample storage spaces are arranged on the front face of each storage rack, each storage rack is provided with a rack body moving mechanism moving along the arrangement direction, so that a picking and placing channel can be formed in front of any storage rack, and the bottom of each storage rack is provided with a moving channel penetrating along the arrangement direction;

the pedal platform is provided with a pedal moving mechanism which moves along the arrangement direction and is suitable for passing through the corresponding storage rack from the moving channel so as to move to a pick-and-place channel in front of any storage rack; and

the lifting units are distributed on the pedal platform along the transverse direction of the storage rack, and each lifting unit can be lifted to different heights in the picking and placing channel to form a ladder.

In some embodiments, the lifting unit comprises:

the pedal moving mechanism is arranged on the bottom shell and is provided with an accommodating groove with an upward opening; and

the scissors type lifting structure is contracted in the accommodating groove, the top of the scissors type lifting structure is provided with a pedal suitable for treading, and the pedal seals an opening of the accommodating groove.

In some embodiments, the pedal moving mechanism includes:

the two pedal rails are arranged side by side along the arrangement direction and sequentially penetrate through the moving channels of the storage racks; and

the two groups of the four pedal driving wheels are arranged at the bottoms of the two ends of the pedal platform, and the two ends of the pedal platform respectively move along the two pedal tracks through the pedal driving wheels.

In some embodiments, the magazine moving mechanism includes:

the two frame body rails are arranged side by side along the arrangement direction; and

four support body drive wheels, two a set of branch are located the bottom at storage frame both ends, storage frame both ends are passed through separately the support body drive wheel is along two the support body track removes.

In some embodiments, each storage rack is provided with a slave control panel, the slave control panel is connected with the rack body moving mechanism of the storage rack to control the movement of the storage rack, and the slave control panel is connected with the pedal moving mechanism and each lifting unit to control the movement of the pedal platform and the lifting of each lifting unit.

In some embodiments, a main control panel is arranged on one of the storage shelves, and the main control panel is connected with the shelf body moving mechanism of each storage shelf to control the movement of each storage shelf; each of the host control panels is connected with the pedal moving mechanism and each of the lifting units to control the movement of the pedal platform and the lifting of each of the lifting units.

In some embodiments, the top of the storage shelves is provided with a light that faces the front of the storage shelves.

In some embodiments, a temperature and humidity sensor is arranged in the sample storage space of each storage rack, the host control panel is provided with a temperature and humidity monitoring unit, and the temperature and humidity monitoring unit is connected with the temperature and humidity sensor of each storage rack.

In some embodiments, the sample storage space is a drawer disposed on a front face of the storage rack.

The archives compact shelving for soil sample preservation provided by the embodiment of the application has the beneficial effects that: compared with the prior art, the archives compact shelf for soil sample preservation of this application embodiment, pedal platform can pass, remove to getting wantonly from the removal passageway of storage frame bottom and put the passageway, then make the lifting unit get and put the passageway and constitute the ladder, make things convenient for the operator to get and put the soil sample of storage frame eminence, easy operation, labour saving and time saving.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

FIG. 1 is a side view of an archive compact shelf for soil sample preservation provided in an embodiment of the application;

FIG. 2 isbase:Sub>A cross-sectional view taken at A-A of FIG. 1;

FIG. 3 is a state diagram of the lifting unit of FIG. 2 when it is constructed as a step;

fig. 4 is an enlarged view of the lifting unit of fig. 3.

Wherein, in the figures, the various reference numbers:

1-a storage rack; 11-sample storage space; 12-a pick-and-place channel; 13-moving the channel; 14-a frame rail; 15-frame driving wheel; 16-slave machine control panel; 17-host control panel; 18-a lighting lamp; 2-a foot platform; 21-a lifting unit; 211-a bottom shell; 212-scissor lift configuration; 213-a pedal; 22-foot pedal track; 23-pedal the drive wheel.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "plurality" or "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 4 together, an archive dense rack for soil sample preservation according to an embodiment of the present application will be described. An archive compact shelf for soil sample preservation, comprising:

the storage racks 1 are arranged side by side, a plurality of sample storage spaces 11 are arranged on the front surface of each storage rack 1, each storage rack 1 is provided with a rack body moving mechanism moving along the arrangement direction, so that a picking and placing channel 12 can be formed in front of any storage rack 1, and the bottom of each storage rack 1 is provided with a moving channel 13 penetrating along the arrangement direction;

a pedal platform 2 provided with a pedal 213 moving mechanism moving in the arrangement direction and adapted to pass through the corresponding storage rack 1 from the moving passage 13 to move to the pick-and-place passage 12 in front of any storage rack 1; and

a plurality of lifting units 21 are distributed on the pedal platform 2 along the transverse direction of the storage rack 1, and each lifting unit 21 can be lifted to different heights in the pick-and-place passage 12 to form a ladder.

Compared with the prior art, the archives compact shelf for soil sample preservation of the embodiment of the application has the advantages that the pedal platform 2 can penetrate through the moving channel 13 at the bottom of the storage shelf 1 and move to the arbitrary taking and placing channel 12, then the lifting unit 21 forms a ladder in the taking and placing channel 12, an operator can conveniently take and place soil samples at the high position of the storage shelf 1, the operation is simple, and time and labor are saved.

In the present embodiment, the general structure of the storage rack 1 may be the same as the conventional structure, by raising the bottom of the storage rack 1 so that the bottom of the storage rack 1 forms the moving passage 13.

The foot platforms 2 run in the direction of the row of storage racks 1 through rails or slide rails in a moving channel 13 at the bottom of the storage racks 1. The foot platform 2 is composed of a plurality of lifting units 21, and the plurality of lifting units 21 are distributed along the storage rack 1 in the transverse direction.

Referring to fig. 3 and 4, as an embodiment of the present application, a file compact shelf for soil sample preservation includes a lifting unit 21 including:

the bottom shell 211 is provided with a pedal 213 moving mechanism which is arranged on the bottom shell 211 and is provided with an accommodating groove with an upward opening; and

the scissors-type lifting structure 212 is contracted in the accommodating groove, the top of the scissors-type lifting structure is provided with a pedal 213 suitable for stepping, and the pedal 213 seals the opening of the accommodating groove.

In this embodiment, the scissor type lifting structure 212 has a high lifting speed and is more convenient to use. The scissor type lifting structure 212 is contracted in the accommodating groove, so that the whole structure is compact; the pedal 213 closes the opening of the receiving groove, preventing external objects from falling into the receiving groove.

In the specific implementation, one free end at the lower end of the X-shaped lifting frame of the scissor type lifting structure 212 is hinged to the bottom shell 211, the other free end rolls along the bottom of the accommodating groove through a roller, and the roller at the lower end of the X-shaped lifting frame is pushed by an air cylinder or an electric push rod to realize the lifting of the scissor type lifting structure 212. The footboard 213 sets up in the upper end of X crane, and one free end of X crane upper end articulates on footboard 213, and another free end supports footboard 213 through the gyro wheel.

Referring to fig. 2 and 3, as an embodiment of the present application, a movable mechanism of a pedal 213 comprises:

two foot rails 22 arranged side by side along the arrangement direction and sequentially passing through the moving channels 13 of the storage racks 1; and

four pedal drive wheel 23, the bottom at pedal platform 2 both ends is located to two a set of branch, and pedal platform 2 both ends move along two pedal tracks 22 through pedal drive wheel 23 respectively.

In this embodiment, the two ends of the pedal platform 2 move through the pedal driving wheels 23 and the pedal tracks 22 respectively, so that the whole structure is more stable, and the lifting unit 21 is prevented from being toppled after being lifted.

In the specific implementation, the two pedal rails 22 are horizontally laid on the ground, the pedal driving wheels 23 at the two ends of the pedal platform 2 respectively roll along the two pedal rails 22, and the two ends of the pedal platform 2 are respectively provided with a driving motor to respectively drive the pedal driving wheels 23 at the two ends of the pedal platform 2.

Referring to fig. 1 to 3, as an embodiment of the present application, a compact file storage for soil sample storage includes:

two frame rails 14 arranged side by side in the arrangement direction; and

four support body drive wheels 15, two a set of branches are located the bottom at storage frame 1 both ends, and storage frame 1 both ends are passed through support body drive wheel 15 respectively and are followed two support body tracks 14 and removed.

In this embodiment, storage frame 1 both ends are removed through support body drive wheel 15 and support body track 14 respectively, and overall structure is more stable, prevents that storage frame 1 from empting.

In a specific implementation, the two frame rails 14 are laid horizontally on the ground, and the frame rails 14 and the foot rails 22 are parallel. The frame driving wheels 15 at the two ends of the storage frame 1 roll along the two frame rails 14 respectively, and the two ends of the storage frame 1 are provided with driving motors respectively to drive the frame driving wheels 15 at the two ends of the storage frame 1 respectively.

Referring to fig. 1, as an embodiment of the present application, each storage rack 1 is provided with a slave control panel 16, the slave control panel 16 is connected to the rack body moving mechanism of the storage rack 1 to control the movement of the storage rack 1, and the slave control panel 16 is connected to the pedal 213 moving mechanism and each lifting unit 21 to control the movement of the pedal platform 2 and the lifting of each lifting unit 21.

In this embodiment, the front and rear movement of each storage rack 1 can be controlled independently by the slave control panel 16; it is also possible to more conveniently move the stepping platform 2 to a desired position by controlling the pedal 213 moving mechanism from the control panel 16, and then control the respective elevating units 21 to be elevated and lowered to form steps.

In a specific implementation, the slave control panel 16 is installed at one end side of the storage rack 1, and the slave control panel 16 is directly connected to a driving motor of a rack body moving mechanism of the storage rack 1, so as to control the movement of the storage rack 1.

The driving motor of the pedal 213 moving mechanism of the stepping platform 2 and the electric push rod of each elevating unit 21 are connected to the slave control panel 16 of each storage rack 1 through cables so that the operator can directly control the stepping platform 2 through the slave control panel 16 at close.

Referring to fig. 1, as a specific embodiment of the present application, a storage rack 1 is provided with a host control panel 17, and the host control panel 17 is connected to a rack moving mechanism of each storage rack 1 to control the movement of each storage rack 1; each of the main body control panels 17 is connected to the pedal 213 moving mechanism and each of the elevating units 21 to control the movement of the footrest platform 2 and the elevation of each of the elevating units 21.

In this embodiment, the front and back movement of each storage rack 1 can be controlled simultaneously by the host control panel 17; the pedal 213 moving mechanism can be controlled by the main control panel 17 to conveniently move the stepping platform 2 to a desired position, and then control each lifting unit 21 to lift to form a step.

In a specific implementation, the master control panel 17 is installed at one end of the storage rack 1, and the master control panel 17 may be directly connected to the driving motor of the rack moving mechanism of each storage rack 1, or connected to the slave control panel 16 of each storage rack 1, so as to control the movement of the storage rack 1.

The driving motor of the pedal 213 moving mechanism of the stepping platform 2 and the electric push rod of each lifting unit 21 are connected to the main machine control panel 17 through cables so that the operator can directly control the stepping platform 2 through the main machine control panel 17.

Referring to fig. 1 to 3, as an embodiment of the present disclosure, an illuminating lamp 18 is disposed on the top of the storage rack 1 and faces the storage rack 1.

In this embodiment, after the access passage 12 is formed in front of the storage rack 1, the illumination lamp 18 can provide illumination. In specific implementation, the lighting lamp 18 can be controlled by a switch, and can also be controlled by a human body induction switch through an inductor.

As a concrete implementation mode of the archive compact shelf for soil sample preservation provided by the application, a temperature and humidity sensor is arranged in the sample storage space 11 of each storage shelf 1, a temperature and humidity monitoring unit is arranged on the host control panel 17, and the temperature and humidity monitoring unit is connected with the temperature and humidity sensors of the storage shelves 1.

In this embodiment, the temperature and humidity monitoring unit of the host control panel 17 can monitor and record the temperature and humidity in each sample storage space 11 in real time to determine the preservation condition of the soil sample.

As a specific embodiment of the present application, the storage space 11 is a drawer disposed on the front of the storage rack 1.

In this embodiment, adopt the drawer structure, soil sample takes more conveniently.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (7)

1. A archives compact shelf for soil sample keeps, its characterized in that includes:

the storage racks are arranged side by side, a plurality of sample storage spaces for storing soil samples are arranged on the front surface of each storage rack, each storage rack is provided with a rack body moving mechanism which moves along the arrangement direction so that a taking and placing channel can be formed in front of any storage rack, and the bottom of each storage rack is provided with a moving channel which penetrates along the arrangement direction;

the pedal platform is provided with a pedal moving mechanism which moves along the arrangement direction and is suitable for passing through the corresponding storage rack from the moving channel so as to move to a pick-and-place channel in front of any storage rack; and

a plurality of lifting units which are distributed on the pedal platform along the transverse direction of the storage rack, and each lifting unit can be lifted to different heights in the pick-and-place channel to form a ladder;

each storage rack is respectively provided with a slave control panel, the slave control panel is connected with the rack body moving mechanism of the storage rack so as to control the movement of the storage rack, and the slave control panel is connected with the pedal moving mechanism and each lifting unit so as to control the movement of the pedal platform and the lifting of each lifting unit;

one be equipped with host computer control panel on the storage frame, every be equipped with temperature and humidity sensor in the sample storage space of storage frame, host computer control panel is equipped with the temperature and humidity monitoring unit, the temperature and humidity monitoring unit and each the storage frame temperature and humidity sensor connects for real-time supervision, record temperature, humidity in the sample storage space to judge the save condition of soil sample.

2. Compact archive storage for soil sample preservation according to claim 1, characterized in that said lifting unit comprises:

the pedal moving mechanism is arranged on the bottom shell and is provided with an accommodating groove with an upward opening; and

the scissors type lifting structure is contracted in the accommodating groove, the top of the scissors type lifting structure is provided with a pedal suitable for treading, and the pedal seals an opening of the accommodating groove.

3. An archive compact shelf for soil sample preservation according to claim 1, characterized in that said pedal movement mechanism comprises:

the two pedal rails are arranged side by side along the arrangement direction and sequentially penetrate through the moving channels of the storage racks; and

the two groups of the four pedal driving wheels are arranged at the bottoms of the two ends of the pedal platform, and the two ends of the pedal platform respectively move along the two pedal tracks through the pedal driving wheels.

4. An archive compact shelf for soil sample preservation according to claim 1, characterized in that said shelf body moving mechanism comprises:

the two frame body rails are arranged side by side along the arrangement direction; and

four support body drive wheels, two a set of branch are located the bottom at storage frame both ends, storage frame both ends are passed through separately the support body drive wheel is along two the support body track removes.

5. The compact archives storage rack for soil sample preservation according to claim 1, wherein a host control panel is provided on one of the storage racks, and the host control panel is connected to the rack body moving mechanism of each storage rack to control the movement of each storage rack; each of the host control panels is connected with the pedal moving mechanism and each of the lifting units to control the movement of the pedal platform and the lifting of each of the lifting units.

6. An archives compact shelving for soil sample preservation according to claim 1, wherein the top of the storage shelf is provided with an illumination lamp facing the front of the storage shelf.

7. An archive compact shelf for soil sample preservation according to claim 1, characterized in that the sample storage space is a drawer provided at the front of the storage shelf.

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