CN220841976U - Auxiliary measuring device for length and width of mulberry leaves - Google Patents

Abstract

The utility model discloses an auxiliary measuring device for the length and width of mulberry leaves, which comprises a sliding mechanism, a photosensitive seal, a base plate and paper, wherein the photosensitive seal is positioned above the base plate, the paper is flatly placed on the base plate, the photosensitive seal, the base plate and the paper can be relatively close to flatly pressing and separating through the sliding mechanism, and the shape of the mulberry leaves placed on the paper is printed on the paper. The utility model can solve the problems of time and labor consumption in the outdoor measurement of living mulberry leaves at different heights and the problems of fatigue and difficult reading caused by long-time outdoor eye use and probe reading.

Description

Auxiliary measuring device for length and width of mulberry leaves

Technical Field

The utility model relates to the technical field of living blade length and width measurement. More particularly, the utility model relates to an auxiliary measuring device for the length and width of mulberry leaves.

Background

The leaves have important effects on photosynthesis and transpiration of plants. The length and width of leaves are associated with plant growth conditions and many economic and biological traits. The ill-developed leaf will be of a different size than the synchronous leaf; when a new variety of mulberry is cultivated, the length and width of the leaves are needed to be known. Therefore, the rapid and accurate monitoring of the length and width of the plant leaves is not only helpful for understanding the growth and development of plants, but also for agronomic research.

The traditional mulberry field blade measuring method generally comprises a square grid counting method, a blade measuring instrument scanning method, a photographing weighing method and ruler measurement. The existing square counting method and the existing scanning method of the leaf measuring instrument can only measure the length and the width of the isolated leaf, and cannot detect the length and the width of the leaf in different development periods, such as a tobacco leaf length-width ratio detection device (bulletin number CN 216869463U) in the prior art. Although the photographing weighing method can measure the length and width of the living leaves (such as a nondestructive measurement method of the leaf area of broadleaf plants, bulletin number CN 101799283B), the adjustment and control of photographing, the subsequent cutting weighing conversion and the like are complicated. While the ruler measurement method can measure the length and the width of the living blade, a worker of the method holds a ruler with scales to measure the distance from the bottom end to the top end of the blade, uses the distance as the length of the blade, and uses the maximum width of the blade as the width of the blade. This measurement method must be performed by at least 2 persons working outdoors, one person measuring readings and another person recording, time and labor consuming; and the long-time eye reading outdoors can lead to the problems of eye fatigue, difficult reading of a probe, inaccurate reading and the like. Aiming at the defects in the prior art, the utility model provides an auxiliary device for measuring the length and width of living leaves of the mulberry, which is labor-saving and simple to operate.

Disclosure of utility model

It is an object of the present utility model to solve at least the above problems and to provide at least the advantages to be described later.

The utility model also aims to provide an auxiliary measuring device for the length and width of the mulberry leaves, which can be used for flatly pressing and separating the photosensitive seal, the backing plate and the paper relatively close to each other through the sliding mechanism, printing the appearance of the mulberry leaves placed on the paper, and then centralizing the paper covered with the appearance of the mulberry leaves back into the room, so that the length and width of the mulberry leaves on the paper are measured and data are recorded indoors, the problems that the living mulberry leaves take time and labor at different heights outdoors can be solved, and the problems that the outdoor long-time eye use and the reading of a probe lead to fatigue and difficult reading can be solved.

To achieve these objects and other advantages and in accordance with the purpose of the utility model, a device for auxiliary measurement of length and width of a mulberry leaf is provided, which comprises a sliding mechanism, a photosensitive stamp, a pad and a paper, wherein the photosensitive stamp is positioned above the pad, the paper is flatly placed on the pad, the photosensitive stamp can be pressed against and separated from the pad and the paper relatively close to the flatly by the sliding mechanism, and the shape of the mulberry leaf placed on the paper is printed on the paper.

Preferably, the backing plate is a flat hard plate body.

Preferably, the slide mechanism includes:

the support piece is two plate bodies which are respectively and vertically fixed on two sides of the base plate, two sides of each plate body are provided with sliding rails which are vertical to the base plate, and the sliding rails are matched with sliding blocks arranged on the photosensitive seal and are used for enabling the photosensitive seal and the base plate to be relatively close to and flatly pressed and separated;

The telescopic sleeve is sleeved with the inner cylinder and the outer cylinder in a sliding manner, a spring for controlling the telescopic sleeve to extend and retract is penetrated in the sleeve, the telescopic sleeve is vertically arranged on the base plate, one end of the telescopic sleeve is fixedly connected with the photosensitive seal, and the other end of the telescopic sleeve is fixedly connected with the base plate; when the telescopic sleeve is in a natural state, the photosensitive seal is separated from the base plate by a certain distance, and when the telescopic sleeve is compressed under the action of external force, the seal surface of the photosensitive seal is flatly pressed against the base plate.

Preferably, the two plate bodies of the supporting piece are replaced by four upright posts, the four upright posts are evenly and vertically fixed on four inner corners of the base plate, each upright post is provided with a slide rail perpendicular to the base plate, and the slide rail is matched with a slide block arranged on the photosensitive seal and used for enabling the photosensitive seal to be relatively close to the base plate, and the slide rails are flatly pressed and separated.

Preferably, the photosensitive seal comprises a seal shell and a seal pad arranged at the opening end of the seal shell, the seal shell is provided with an ink adding opening, the outer surface of the seal pad is a seal surface, the seal surface protrudes out of the seal shell, the seal pad and the seal surface of the photosensitive seal are made of photosensitive materials, and the seal surface is not exposed to form a film.

Preferably, the photosensitive seal further comprises an oil storage pad, the oil storage pad is arranged in the seal shell, a rubber screen plate is arranged between the oil storage pad and the seal shell, and the rubber screen plate is fixedly arranged with the seal shell.

Preferably, the photosensitive stamp further comprises a rubber pad disposed on the open end of the stamp shell and surrounding the outer peripheral edge of the stamp pad.

Preferably, the paper is plain coated paper or plain white paper with a plurality of labels.

Preferably, the device further comprises a first rope set and a second rope set which are respectively arranged on the lower surface of the base plate and the upper surface of the seal shell and used for being worn by fingers to control the relative movement of the photosensitive seal and the base plate.

Preferably, the device further comprises an electric push rod, a cross beam used for fixedly arranging the electric push rod above the photosensitive seal, a switch used for controlling the electric push rod to stretch and retract and a third set of ropes used for wearing fingers or palms.

The utility model at least comprises the following beneficial effects:

Firstly, can be relatively close to smooth butt pressure and separation with photosensitive seal and backing plate and paper through slide mechanism, the appearance of the mulberry leaf that will place on the paper is printed on the paper, the paper that will be stamped the mulberry leaf appearance is concentrated again and is brought back indoor, the length and width of mulberry leaf on the indoor measurement paper, record data, can solve living body mulberry leaf and measure the problem that consumes time and labor in open air and not co-altitude, solve outdoor long-time eye, the probe reading leads to tired, the difficult problem of reading.

And the telescopic sleeve is arranged between the photosensitive seal and the backing plate, so that the photosensitive seal can be conveniently rebounded and reset after being stamped, the upward moving driving force of the photosensitive seal is reduced, and the strength is saved.

And the first sleeve ropes and the second sleeve ropes are respectively arranged on the lower surface of the base plate and the upper surface of the printing shell, so that four fingers of a hand can be conveniently worn on the second sleeve ropes on the upper surface of the printing shell, and the thumb can be conveniently worn on the first sleeve ropes on the lower surface of the base plate, so that one hand can be conveniently used for stamping and controlling.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a schematic structural diagram of an implementation form of an auxiliary measuring device for the length and width of mulberry leaves according to the present utility model;

FIG. 2 is a schematic top view of FIG. 1;

FIG. 3 is a schematic top view of a second implementation of the auxiliary measuring device for the length and width of mulberry leaves according to the present utility model;

FIG. 4 is a schematic structural diagram of a third implementation form of an auxiliary measuring device for the length and width of mulberry leaves according to the present utility model;

FIG. 5 is a schematic structural diagram of a fourth implementation form of an auxiliary measuring device for the length and width of mulberry leaves according to the present utility model;

The reference numerals specifically are: a backing plate 1; a sheet 2; a telescopic sleeve 3; a support 4; a slide rail 5; a slider 6; a print shell 7; an oil storage pad 8; a rubber mesh plate 9; a pad 10; a photosensitive stamp 11; a rubber pad 12; a printing surface 13; a first set of cords 14; a second set of ropes 15; a cross beam 16; an electric push rod 17; a telescoping end 18; a third set of ropes 19; a switch 20; a sliding mechanism 21.

Detailed Description

The present utility model is described in further detail below with reference to the drawings to enable those skilled in the art to practice the utility model by referring to the description.

It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1-2, the present utility model provides an auxiliary measuring device for the length and width of a mulberry leaf, which comprises a sliding mechanism 21, a photosensitive stamp 11, a backing plate 1 and paper 2, wherein the sliding mechanism 21 can be a mechanism for guiding the moving direction in the prior art or the sliding mechanism 21 further defined by the present utility model, and can guide the stamping surface 13 of the photosensitive stamp 11 to be flatly pressed against the paper 2 of the backing plate 1 under the driving of external force and can guide the moving direction to be separated; the pad 10 and the printing surface 13 of the photosensitive seal 11 can be made of the existing photosensitive material, and the printing surface 13 has uniform oil storage and seepage functions; the photosensitive seal 11 is located above the base plate 1, one sheet or a stack of paper sheets 2 are flatly placed on the base plate 1, the photosensitive seal 11, the base plate 1 and the paper sheets 2 can be relatively close to flatly pressing and separating through the sliding mechanism 21, and the shape of the mulberry leaves placed on the paper sheets 2 is printed on the paper sheets 2.

When the auxiliary measuring device is used, the photosensitive seal 11 of the auxiliary measuring device is filled with red or other color ink, the ink is brought to the mulberry cultivation base, and white paper with the mark or one or a stack of paper sheets 2 which are different from the color of the ink are flatly placed on the base plate 1 between the photosensitive seal 11 and the base plate 1. The mulberry leaf to be measured is sequentially put on the paper 2 through the distance between the photosensitive seal 11 and the paper 2, then the photosensitive seal 11 is driven by the external force of a hand to be grasped to move downwards along the track or the slide rail 5 of the sliding mechanism 21, the stamping surface 13 of the photosensitive seal 11 is flatly pressed against the mulberry leaf and the paper 2, then the photosensitive seal 11 is driven by the external force of the hand to move upwards along the track or the slide rail 5 of the sliding mechanism 21 or is reset upwards by the aid of the elastic force of the sliding mechanism 21, the measured mulberry leaf is moved out through the distance between the photosensitive seal 11 and the paper 2, the appearance of the mulberry leaf can be stamped on the paper 2, then the paper 2 with the appearance of the mulberry leaf stamped is taken out from the distance between the photosensitive seal 11 and the paper 2 and placed in a collecting bag or a collecting box, after the next appearance of the mulberry leaf to be measured is stamped, the paper 2 with the appearance of the mulberry leaf stamped can be brought back into the room, and the length and the width of the mulberry leaf on the paper 2 can be measured through a ruler and data can be recorded. The auxiliary measuring device can solve the problems that living mulberry leaves take time and labor in outdoor measurement, and the problems of fatigue and difficult reading caused by long-time outdoor eye use and probe reading.

The auxiliary measuring device of the utility model can be provided with two or three types, and the size of the stamping surface 13 of the photosensitive stamp 11 can be divided into: 6cm by 6cm, 11cm by 11cm, 16cm by 16cm; the corresponding paper 2 can be slightly larger than the printing surface 13 by 1cm, so that the mulberry can be conveniently used in different growth periods, such as small size in the early growth period, medium size in the middle growth period and large size in the later growth period of the mulberry leaves, or the specification can be selected according to the variety of the mulberry or the growth size of the leaves.

On the basis of the above scheme, the backing plate 1 is a flat hard plate body, such as a light hard plastic plate.

In another aspect of the present invention, the slide mechanism 21 includes:

the support piece 4 is two plate bodies, the two plate bodies are respectively and vertically fixed on two sides of the base plate 1, two sides of each plate body are provided with slide rails 5 which are vertical to the base plate 1, the slide rails 5 are matched with sliding blocks 6 arranged on the photosensitive seal 11, and the photosensitive seal 11 and the base plate 1 can be relatively close to be flatly pressed and separated; the other two sides of the base plate 1 are not provided with the positions of the plate bodies of the supporting pieces 4 for putting in and removing paper and mulberry leaves;

The telescopic sleeve 3 is sleeved with the inner cylinder and the outer cylinder in a sliding manner, a spring for controlling the telescopic sleeve to extend and retract is penetrated in the sleeve, the telescopic sleeve 3 is vertically arranged on the base plate 1, one end of the telescopic sleeve is fixedly connected with the photosensitive seal 11, and the other end of the telescopic sleeve is fixedly connected with the base plate 1; when the telescopic sleeve 3 is in a natural state, the photosensitive seal 11 is separated from the base plate 1 by a certain distance, the distance can be designed to be 3-6cm according to actual needs, mulberry leaves can extend between the photosensitive seal 11 and paper of the base plate 1 from the separated distance, when the telescopic sleeve 3 is compressed under the action of external force, the seal face 13 of the photosensitive seal 11 is flatly pressed against the base plate 1, when the paper is flatly placed on the base plate 1, the seal face 13 of the photosensitive seal 11 is flatly pressed against the flatly placed paper on the base plate 1, and if the mulberry leaves are placed on the paper, the shape of the mulberry leaves can be printed on the paper through seal ink of the photosensitive seal 11; one specific design mechanism of the telescopic sleeve 3 is: the inner cylinder and the outer cylinder which are sleeved with each other are mutually communicated, the spring penetrates through the inner cylinder and the outer cylinder, one end of the spring is fixedly arranged at one end of the telescopic sleeve 3, and the other end of the spring is fixedly arranged at the other end of the telescopic sleeve 3; or one end of the spring is fixedly connected with the photosensitive seal 11, and the other end of the spring is fixedly connected with the backing plate 1. When in use, the photosensitive seal 11 can be conveniently bounced back and reset after stamping, the upward movement driving force of the photosensitive seal 11 is reduced, and the strength is saved.

On the basis of the above scheme, in another technical scheme, as shown in fig. 3, two plate bodies of the supporting piece 4 are replaced by four upright posts, the four upright posts are evenly and vertically fixed on four inner corners of the base plate 1, each upright post is provided with a slide rail 5 vertical to the base plate 1, the slide rail 5 is matched with a slide block 6 arranged on the photosensitive seal 11, and the photosensitive seal 11 and the base plate 1 can be relatively close to be in flat pressing and separation. Four corners of the base plate 1 can be rounded corners, and all four sides of the base plate 1 can be used for putting in and removing paper and mulberry leaves.

On the basis of the scheme, the photosensitive seal 11 comprises a seal shell 7 and a seal pad 10 arranged at the opening end of the seal shell 7, an ink adding port (not shown in the figure) is arranged on the seal shell 7, the outer surface of the seal pad 10 is a seal surface 13, the seal surface 13 protrudes out of the seal shell 7, the seal surface 13 can be an arc surface or a flat surface, the seal pad 10 and the seal surface 13 of the photosensitive seal 11 are made of photosensitive materials, and the seal surface 13 is not exposed to form a film, so that the photosensitive seal has a uniform oil storage and seepage function; when the telescopic sleeve 3 is compressed under the action of external force, the printing surface 13 of the photosensitive stamp 11 can be pressed and separated in parallel with the paper on the upper surface of the backing plate 1, and the photosensitive stamp 11 further comprises a printing cover (not shown in the figure) sleeved on the printing pad 10 for protecting the printing pad 10 and the printing surface 13.

On the basis of the scheme, the photosensitive seal 11 further comprises an oil storage pad 8, the oil storage pad 8 is arranged in the printing shell 7, a rubber screen plate 9 is arranged between the oil storage pad 8 and the printing pad 10, the rubber screen plate 9 is fixedly arranged with the printing shell 7, the improvement of the oil storage ink quantity of the photosensitive seal 11 is facilitated, the printing pad 10 can absorb the ink of the oil storage pad 8 and prevent the printing pad 10 from sinking, and the printing surface 13 is kept protruding out of the printing shell 7.

On the basis of the scheme, the photosensitive seal 11 further comprises a rubber pad 12 which is arranged on the opening end of the seal shell 7 and surrounds the periphery edge of the seal pad 10, so that the impact force of stamping is reduced, and the shape of the seal pad 10 is kept within a certain range.

Based on the scheme, the paper can be flat coated paper or plain white paper with a plurality of labels.

On the basis of the above scheme, in another technical scheme, as shown in fig. 4, the device further comprises a first sleeve rope 14 and a second sleeve rope 15, which are respectively arranged on the lower surface of the pad plate 1 and the upper surface of the seal shell 7, and are used for wearing fingers to control the relative movement of the photosensitive seal 11 and the pad plate 1. When the multifunctional seal is used, four fingers of one hand are usually worn on the second sleeve rope 15 on the upper surface of the seal shell 7, the thumb is worn on the first sleeve rope 14 on the lower surface of the base plate 1, the photosensitive seal 11 can be controlled to move only by controlling the opening and closing of the four fingers and the thumb by one hand, and the seal surface 13 is flatly pressed on mulberry leaves and paper and then separated. The operation is convenient and quick.

On the basis of the above scheme, in another technical scheme, as shown in fig. 5, the device further comprises an electric push rod 17, a cross beam 16 for fixedly arranging the electric push rod 17 above the photosensitive seal 11, a switch 20 for controlling the electric push rod 17 to stretch and retract, and a third set of ropes 19 for wearing fingers or palms. The two ends of the cross beam 16 are fixedly arranged at the upper end of the supporting piece 4, the middle part of the cross beam 16 is used for fixing the electric push rod 17, the telescopic end 18 of the electric push rod 17 is fixedly arranged at the center of the seal shell 7 of the photosensitive seal 11 and used for controlling and pushing the photosensitive seal 11 to move relative to the base plate 1, so that the electric control of the photosensitive seal 11 to print the appearance of the mulberry leaf placed between the photosensitive seal 11 and paper on the paper is realized, the labor is saved, and the efficiency is improved. The switch 20 for controlling the expansion of the electric push rod 17 is arranged at the right end of one side edge of the base plate 1, so that a worker can conveniently grasp the auxiliary measuring device and simultaneously control the photosensitive seal 11 to work, and the left end and the right end of one side edge of the base plate 1 of the auxiliary measuring device are respectively provided with a third sleeve rope 19, so that the worker can conveniently wear the palm or fingers on the third sleeve rope 19, and the grasping stability and convenience are provided.

The number of equipment and the scale of processing described herein are intended to simplify the description of the present utility model. The application, modification and variation of the auxiliary measuring device for the length and width of the mulberry leaves of the present utility model will be apparent to those skilled in the art.

Although embodiments of the present utility model have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the utility model would be readily apparent to those skilled in the art, and accordingly, the utility model is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (10)

1. The auxiliary measuring device for the length and the width of the mulberry leaves is characterized by comprising a sliding mechanism, a photosensitive seal, a base plate and paper, wherein the photosensitive seal is positioned above the base plate, the paper is flatly placed on the base plate, the photosensitive seal, the base plate and the paper can be relatively close to flatly propped and separated by the sliding mechanism, and the appearance of the mulberry leaves placed on the paper is printed on the paper.

2. An auxiliary measuring device for the length and width of a mulberry leaf according to claim 1, wherein the backing plate is a flat rigid plate.

3. An auxiliary measuring device for the length and width of a mulberry leaf as claimed in claim 1 or 2 wherein the sliding mechanism comprises:

the support piece is two plate bodies which are respectively and vertically fixed on two sides of the base plate, two sides of each plate body are provided with sliding rails which are vertical to the base plate, and the sliding rails are matched with sliding blocks arranged on the photosensitive seal and are used for enabling the photosensitive seal and the base plate to be relatively close to and flatly pressed and separated;

The telescopic sleeve is sleeved with the inner cylinder and the outer cylinder in a sliding manner, a spring for controlling the telescopic sleeve to extend and retract is penetrated in the sleeve, the telescopic sleeve is vertically arranged on the base plate, one end of the telescopic sleeve is fixedly connected with the photosensitive seal, and the other end of the telescopic sleeve is fixedly connected with the base plate; when the telescopic sleeve is in a natural state, the photosensitive seal is separated from the backing plate by a distance of 3-6cm, and when the telescopic sleeve is compressed under the action of external force, the seal surface of the photosensitive seal is flatly pressed against the backing plate.

4. An auxiliary measuring device for the length and width of a mulberry leaf according to claim 3, wherein the two plates of the supporting member are replaced with four columns which are vertically fixed on four inner corners of the pad on average, and the slide rail is provided on each column.

5. An auxiliary measuring device for the length and width of a mulberry leaf according to claim 3, wherein the photosensitive stamp comprises a stamp shell and a stamp pad arranged at the opening end of the stamp shell, the stamp shell is provided with an ink adding port, the outer surface of the stamp pad is a stamp face, the stamp face protrudes out of the stamp shell, the stamp pad and the stamp face of the photosensitive stamp are made of photosensitive materials, and the stamp face is formed into a film without exposure.

6. An auxiliary measuring device for the length and width of a mulberry leaf according to claim 4 or 5, wherein the photosensitive stamp further comprises an oil storage pad, the oil storage pad is arranged in the stamp shell, and a rubber screen is arranged between the oil storage pad and the stamp pad and fixedly arranged with the stamp shell.

7. An auxiliary measuring device for the length and width of a mulberry leaf according to claim 6, wherein said light-sensitive stamp further comprises a rubber pad disposed on an open end of said stamp shell and surrounding an outer peripheral edge of said stamp pad.

8. An auxiliary measuring device for the length and width of mulberry leaves according to claim 7, wherein the paper is a plurality of plain coated papers or plain white papers with marks.

9. An auxiliary measuring device for the length and width of a mulberry leaf as claimed in any one of claims 1 to 2, 4 to 5 or 7 to 8 further comprising a first string and a second string respectively provided on the lower surface of the pad and the upper surface of the impression shell for finger wear to control the relative movement of the photosensitive stamp and the pad.

10. An auxiliary measuring device for the length and width of mulberry leaves as claimed in any one of claims 1 to 2, 4 to 5 or 7 to 8, further comprising an electric push rod, a cross beam for fixing the electric push rod above the photosensitive stamp, a switch for controlling the electric push rod to stretch and retract, and a third set of ropes for wearing fingers or palms.