CN220068580U - Beehive with statistics honeybee attendance - Google Patents

Abstract

The utility model discloses a beehive with function of counting bee attendance, which comprises a powder removing device, wherein one side of the beehive is provided with a powder removing device; the pollen removing device comprises a pollen removing plate and a bee outlet piece, wherein the pollen removing plate is provided with at least two bee outlet pieces; the photoelectric sensor is arranged on the bee outlet piece and used for monitoring whether bees go out through the bee outlet piece; the control module is provided with a counter, is arranged in the beehive and is in communication connection with the photoelectric sensor; the terminal processor is provided with a display and is in communication connection with the control module; and the rain shielding piece is arranged above the pollen removing device and is used for shielding the pollen removing device and the bee outlet piece from rain. The utility model has the characteristics of counting the attendance of the bees in the beehive, preventing rainwater from entering the beehive during raining, and the like.

Description

Beehive with statistics honeybee attendance

Technical Field

The utility model relates to a beehive, in particular to a beehive with function of counting the attendance of bees.

Background

Macadimia nuts are planted on a large scale in China, and the growth cycle of the macadimia nut trees is generally as follows: fruit is harvested in 9 months of the last year, fertilizer is harvested in 10 months, the fertilizer is trimmed in 11 middle ten days, flower buds are differentiated from the bottom of 11 months to the beginning of 12 months, white exposure, flower buds and inflorescences are formed from the bottom of 12 months to the beginning of 1 month, wherein the early maturing variety starts to bloom in 2 months, the middle maturing variety starts to bloom in 3 months, the late maturing variety starts to bloom in 3 months and the late maturing variety starts to bloom in 4 months.

Currently, pollination of macadimia nuts is mainly performed by means of artificial liquid pollination and insect pollination. The insect vector is mainly bee. In the flowering period of the macadimia nut garden, a plurality of honeybeehives can be distributed in the macadimia nut plantation in order to improve the pollination achievement rate, so that the number of bees is increased, and a large number of bees are collected to improve the pollination achievement rate. Applicant's prior application patent "a pollen removal device convenient for bee pollen removal and beehive using the same", patent number: ZL202121092407.3 solves the problem of pollen removal of bees, and effectively reduces the amount of pollen brought into the beehive by bees, thereby reducing the amount of pollen stored by bees on the beehives. But a new problem is generated in the practical application process, and the counting function is not provided. In order to research and examine the causal relationship between the bee attendance and the macadimia nut pollination success rate and fruit setting rate, the bee attendance condition and the meal collecting quantity are required to be observed. The existing beehive does not have the function, so that the attendance of bees is difficult to examine and the data is difficult to learn. Thus, in view of the shortcomings of the prior art, there is a need for a beehive with statistical bee attendance.

Disclosure of Invention

The utility model aims at overcoming the defects of the prior art and provides a beehive with the function of counting the attendance of bees.

In order to achieve the above object of the present utility model, the following technical scheme is adopted:

a beehive with function of counting bee attendance comprises a powder removing device arranged on one side of the beehive; the pollen removing device comprises a pollen removing plate and a bee outlet piece, wherein the pollen removing plate is provided with at least two bee outlet pieces; the photoelectric sensor is arranged on the bee outlet piece and used for monitoring whether bees go out through the bee outlet piece; the control module is provided with a counter, is arranged in the beehive and is in communication connection with the photoelectric sensor; the terminal processor is provided with a display and is in communication connection with the control module; and the rain shielding piece is arranged above the pollen removing device and is used for shielding the pollen removing device and the bee outlet piece from rain.

Further, the rain shielding piece comprises a roller, two ends of the roller are arranged in the beehive through supporting seats, and the roller is rotationally connected with the supporting seats; the sealing piece is sleeved on the roller; the baffle is arranged on the roller; and the baffle is connected with the beehive through the plurality of supporting pieces.

Further, the beehive with the function of counting the bee attendance also comprises a supporting shaft; the supporting shaft penetrates through the supporting seat and is connected with the roller.

Further, the support base comprises a bracket and a support; the support is installed in the one end of support, the support is installed in the beehive.

Further, the prop up the piece and include the pull rod, the one end of pull rod is connected with the first support of installing on the beehive, and the other end is connected with the second support of installing on the baffle.

Further, the beehive with the function of counting the bee attendance also comprises a bolt; the pull rod is connected with the first support and the second support through bolts respectively.

Further, the beehive with the function of counting the bee attendance also comprises a temperature sensor and a numbering area; the temperature sensor is arranged in the beehive and is used for monitoring the temperature in the beehive; the top of beehive is equipped with the serial number district, the serial number district is used for the sign number, and the number that every beehive corresponds is input in the terminal processor.

Further, the beehive with the function of counting the bee attendance comprises a base; the powder removing plate is provided with bases with the same number as the number of the bee outlet pieces, the bases are provided with base holes, and the bee outlet pieces are movably inserted into the base holes.

Further, the bee outlet piece comprises a short cylinder, an outlet cylinder, a limiting ring and a plurality of supporting rods; the diameter of the short cylinder is equal to or more than that of the outlet cylinder; the short cylinder and the outlet cylinder are mutually spaced, the axes of the short cylinder and the outlet cylinder are mutually aligned, and the short cylinder and the outlet cylinder are connected through a plurality of support rods; a limiting ring is arranged at one end, close to the outlet cylinder, of the short cylinder; and a limiting groove is formed in one end, far away from the beehive, of the base hole, and the short cylinder is inserted into the base hole to the bottom of the limiting groove, where the limiting ring abuts against the limiting groove.

Further, the powder removing plate is provided with a plurality of sinking grooves, the bottom surface of the sinking grooves is provided with a plurality of powder removing holes which are arranged at intervals in parallel, and one side of the sinking grooves is provided with a material guiding plate which is obliquely arranged.

Compared with the prior art, the utility model has the advantages that:

the utility model can count the attendance quantity of bees in the beehive to acquire data, and can prevent rainwater from entering the beehive through the pollen removing plate and the bee outlet piece in rainy days. The photoelectric sensor is used for monitoring bees going out through the bee outlet piece; the counter records according to the data signals transmitted by the photoelectric sensor to the control module, and the counter accumulates, records and counts the statistics, so that the number of bees in the beehive to be on duty can be calculated; the control module can transmit the relevant attendance information to the terminal processor, and the terminal processor displays the attendance data information through the display. The rain shielding piece is arranged at the top of the pollen removing plate and the bee outlet piece and covers the pollen removing plate and the bee outlet piece, so that rainwater can be prevented from being sprayed to the pollen removing plate and the bee outlet piece, and the rainwater can be prevented from entering the beehive through the pollen removing plate and the bee outlet piece.

Drawings

In order to more clearly illustrate the embodiments of the present utility model 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. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a schematic diagram of a beehive with statistics of bee attendance according to the present utility model;

FIG. 2 is a schematic view of an expanded structure of the present utility model;

FIG. 3 is a schematic structural diagram of a powder removing substrate according to the present utility model;

FIG. 4 is a schematic view of the powder removing part of the present utility model;

the names and serial numbers of the components in the figure: the device comprises a 1-powder removing device, an 11-settling tank, a 12-powder removing plate, a 13-powder removing hole, a 14-base, a 15-base hole, a 151-limiting groove, a 16-bee outlet piece, a 161-short cylinder, a 162-supporting rod, a 163-outlet cylinder, a 164-limiting ring, a 17-material guiding plate, a 18-second base hole, a 2-beehive, a 3-photoelectric sensor, a 31-photoelectric emitter, a 32-photoelectric receiver, a 4-terminal processor, a 5-control module, a 6-temperature sensor, a 7-supporting piece, a 71-first supporting seat, a 72-bolt, a 73-pull rod, a 74-second supporting seat, an 8-sealing piece, a 9-roller, a 91-supporting shaft, a 10-supporting seat, a 101-supporting seat, a 102-supporting seat, a 20-baffle, a 30-counter and a 40-numbering area.

Detailed Description

In order to make the technical solution of the present utility model better understood by those skilled in the art, the technical solution of the present utility model will be clearly and completely described with reference to the accompanying drawings and examples, and it is apparent that the described examples are only a part of examples of the present utility model, and all other examples obtained by those skilled in the art without making any inventive effort are intended to be within the scope of the present utility model.

Example 1:

as shown in fig. 1 to 4, a beehive with a function of counting the attendance of bees comprises a beehive 2, one side of which is provided with a pollen removing device 1; the pollen removing device comprises a pollen removing plate 12 and a bee outlet piece 16, wherein the pollen removing plate 12 is provided with at least two bee outlet pieces 16; the photoelectric sensor 3 is arranged on the bee outlet piece and is used for monitoring whether bees go out through the bee outlet piece 16; the control module 5 is provided with a counter 30, is arranged on the beehive 2 and is in communication connection with the photoelectric sensor 3; the terminal processor 4 is provided with a display and is in communication connection with the control module 5; the rain shielding member is arranged above the pollen removing device 1 and is used for shielding the pollen removing device 1 and the bee outlet member 16 from rain.

One structure of the photoelectric sensor 3 includes a photoelectric emitter 31 and a photoelectric receiver 32, the photoelectric emitter 31 generates photoelectric to the photoelectric receiver 32 at any time, and the photoelectric receiver 32 receives a photoelectric signal emitted from the photoelectric emitter 31. When bees go out through the bee outlet piece 16, the photoelectric receiver 32 can not receive the photoelectric signals in a short time, and the photoelectric receiver 32 transmits monitoring information to the control module in real time. Thus, whenever the photo receiver 32 does not receive a photo signal once, it is said that a bee is going out through the port of the bee exit piece; the counter 30 on the control module 5 performs cumulative recording once. The control module transmits the counting information on the counter to the terminal processor, the terminal processor analyzes and processes the corresponding counting information and displays the corresponding counting information on the display, and the breeding personnel can know the number of bees attendance by checking the data information on the display.

It will be appreciated that the terminal processor 4 may be placed in a housing where the farmers overlap, and that the terminal processor may view the number of bees attendance in each beehive at the same time.

Example 2:

compared with example 1, the only difference is that: a construction of a rain shield is presented.

As shown in fig. 1, the rain shield comprises a roller 9, a sealing member 8, a baffle 20 and a plurality of support members 7. The two ends of the roller 9 are arranged on the beehive 2 through supporting seats 10, and the roller 9 is rotationally connected with the supporting seats 10; the sealing element 8 is sleeved on the roller 9; the baffle 20 is arranged on the roller 9; the baffle 20 is connected to the hive 2 by a plurality of struts 7.

The roller 9 is sleeved with the sealing piece 8, and the sealing piece 8 can enable the roller to be in airtight contact with the beehive, so that rainwater is prevented from flowing into the powder removing device through a gap between the roller and the beehive.

A baffle 20 is positioned on top of the de-powdering device 1 and the bee outlet 16. As shown in fig. 1, the baffle 20 can completely cover the pollen removing device 1 and the bee outlet member 16. The baffle 20 can be mounted obliquely relative to the beehive to facilitate timely removal of rainwater.

It should be noted that the sealing member may be made of rubber or silica gel. Rubber and silica gel have flexibility. The sealing piece is fixedly sleeved on the roller.

Example 3:

compared with example 2, the only difference is that: a movable connection structure of the supporting shaft and the supporting seat is provided.

The supporting shaft 91 penetrates through the supporting seat 10 and is connected with the roller 9.

The roller 9 is rotatable relative to the support base 10 by means of a support shaft 91.

Example 4:

compared with example 3, the only difference is that: a structure of the support base is provided.

As shown in fig. 1, the support base 10 includes a bracket 101 and a support 102; the support 102 is mounted at one end of the support 101, and the support 101 is mounted to the beehive 2.

It will be appreciated that, when installed, both ends of the roller 9 are rotatably connected to the respective seats 102 by means of the support shafts 91.

Example 5:

the only difference compared to examples 3 or 4 is that: a construction of the support is presented.

As shown in fig. 1, the supporting member 7 includes a pull rod 73, one end of the pull rod 73 is connected to a first support 71 mounted on the hive, and the other end is connected to a second support 72 mounted on the baffle 20.

The baffle 20 is mounted on the beehive 2 in an inclined manner by a plurality of pull rods, a first support 71 and a second support 72.

Example 6:

compared with example 5, the only difference is that: a structure is provided in which a pull rod is detachably connected to a support.

As shown in fig. 1, the tie rod 73 is connected to the first support 71 and the second support 74 by bolts 72, respectively.

The pull rod 73 is movably connected with the first support 71 and the second support 74 respectively through bolts. The bolts on the first support 71 and the second support 74 are screwed, and the pull rod is fixedly connected with the first support 71 and the second support 74. The bolts on the first support 71 and the second support 74 are loosened, and the pull rod is detachably separated from the first support 71 and the second support 74.

Example 7:

the only difference compared to any of examples 1-6 is that: to facilitate monitoring of the temperature inside the beehive, a temperature sensor 6 is added.

A temperature sensor 6 is mounted to the beehive 2 for monitoring the temperature inside the beehive 2. The temperature sensor 6 is in communication with the control module 5. The temperature sensor 6 monitors the obtained data signals and transmits the data signals to the control module 5, the control module 5 processes and analyzes the data signals and then transmits the data signals to the terminal processor 4, and the terminal processor 4 displays the received data signals on a display, so that the temperature in the beehive can be conveniently known by the breeding personnel.

Each beehive is numbered in order to facilitate knowing the respective temperature of the beehives. The numbering section 40 on the beehive 2 is used to identify the number, and the number corresponding to each beehive 2 is entered into the terminal processor 4. Therefore, one temperature sensor corresponds to the number on one beehive, so that the temperature of each beehive can be checked on a display in time by breeding personnel.

Example 8:

the only difference compared to any of examples 1-7 is that: to facilitate the mounting of the bee outlet member to the stripper plate, a base 14 is added. As shown in fig. 1, the powder removing plate 12 is provided with bases 14 which are equal to the bee outlet pieces 16 in number, the bases 14 are provided with base holes 15, and the bee outlet pieces 16 are movably inserted into the base holes 15.

Example 9:

compared with example 8, the only difference is that: a structure of the bee outlet member is given.

As shown in fig. 1-4, the bee outlet member 16 comprises a short barrel 161, an outlet barrel 163, a stop collar 164 and a plurality of support bars 162; the diameter of the short cylinder 161 is 2-3 times that of the outlet cylinder 163; the short cylinder 161 and the outlet cylinder 163 are spaced from each other with their axes aligned with each other and connected by a plurality of support rods 162; a limiting ring 164 is arranged at one end of the short cylinder 161 close to the outlet cylinder 163; the end of the base hole 15 far away from the beehive 2 is provided with a limit groove 151, and the short cylinder 161 is inserted into the base hole 15 until the limit ring 164 abuts against the bottom of the limit groove 151.

The photoelectric sensor 3 is mounted on the outlet cylinder 163, the photoelectric emitter 31 is mounted on the top of the outlet cylinder 163, and the photoelectric receiver 32 is mounted on the bottom of the outlet cylinder 163 corresponding to the photoelectric emitter 31.

As shown in fig. 1 to 4, the short cylinder 161 and the outlet cylinder 163 are connected by a plurality of support rods 162, and the plurality of support rods 162 form a horn-like structure. The horn structure can prevent bees from crowding in the bee outlet piece, and can be beneficial to the single bees to go out through the outlet cylinder 163, and can be beneficial to improving the monitoring of the photoelectric sensor 3 to obtain more accurate data.

Example 10:

the only difference compared to any of examples 1-9 is that: a powder removing structure of the powder removing plate is provided.

As shown in fig. 1-4, the powder removing plate 12 is provided with a plurality of sinking grooves 11, the bottom surface of the sinking groove 11 is provided with a plurality of powder removing holes 13 which are arranged at intervals in parallel, and one side of the sinking groove 11 is provided with a material guiding plate 17 which is arranged in an inclined manner.

The pollen removing holes 13 on the pollen removing plate 12 are used as passages for the bees to enter the beehive, and when the bees enter the beehive through the pollen removing holes, the pollen removing holes scrape off part or all pollen groups on the pollen carrying feet of the bees, so that the pollen amount brought into the beehive by the bees can be effectively reduced, and the pollen removed is downwards guided by the guide plate, so that the pollen is prevented from accumulating in the pollen removing holes. The pollen removing holes are used for removing pollen, so that the stored pollen amount of bees on the honeycomb is reduced, the bees are promoted to collect pollen outwards, the number of times of pollen collection of bees when the bees go out is increased, and the number of pollinations to flowers when the bees collect pollen is increased.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being within the scope of the utility model, obvious variations or modifications may be made thereto.

Claims (10)

1. A beehive with statistics of bee attendance, characterized in that: comprising

The beehive comprises a beehive body (2), wherein a powder removing device (1) is arranged on one side of the beehive body (2), the powder removing device (1) comprises a powder removing plate (12) and bee outlet pieces (16), and at least two bee outlet pieces (16) are arranged on the powder removing plate (12);

the photoelectric sensor (3) is arranged on the bee outlet piece and is used for monitoring whether bees go out through the bee outlet piece (16);

the control module (5) is provided with a counter (30) and is arranged on the beehive (2) and is in communication connection with the photoelectric sensor (3);

the terminal processor (4) is provided with a display and is in communication connection with the control module (5); and

The rain shielding piece is arranged above the pollen removing device (1) and is used for shielding the pollen removing device (1) and the bee outlet piece (16) from rain.

2. The beehive with statistical bee attendance of claim 1, wherein: the rain shielding member comprises

The two ends of the roller (9) are arranged on the beehive (2) through supporting seats (10), and the roller (9) is rotationally connected with the supporting seats (10);

a sealing element (8), wherein the sealing element (8) is sleeved on the roller (9);

the baffle plate (20), the said baffle plate (20) is installed to the roller (9); and

The baffle plate (20) is connected with the beehive (2) through the plurality of supporting pieces (7).

3. The beehive with statistical bee attendance as claimed in claim 2, wherein: also comprises a supporting shaft (91);

the supporting shaft (91) penetrates through the supporting seat (10) and is connected with the roller (9).

4. The beehive with statistical bee attendance as claimed in claim 2, wherein: the supporting seat (10) comprises a bracket (101) and a support (102);

the support (102) is arranged at one end of the support (101), and the support (101) is arranged on the beehive (2).

5. The beehive with statistical bee attendance as claimed in claim 2, wherein: the supporting piece (7) comprises a pull rod (73), one end of the pull rod (73) is connected with a first support (71) arranged on the beehive, and the other end of the pull rod is connected with a second support (74) arranged on the baffle plate (20).

6. The beehive with statistical bee attendance as claimed in claim 5, wherein: also comprises a bolt (72);

the pull rod (73) is connected with the first support (71) and the second support (74) through bolts (72) respectively.

7. The beehive with statistical bee attendance of claim 1, wherein: also comprises a temperature sensor (6) and a numbering zone (40);

the temperature sensor (6) is arranged in the beehive (2) and is used for monitoring the temperature in the beehive (2);

the top of beehive (2) is equipped with serial number district (40), serial number district (40) are used for the sign number, and the number that every beehive (2) corresponds is input in terminal processor (4).

8. The beehive with statistical bee attendance of claim 1, wherein: also comprises a base (14);

the powder removing plate (12) is provided with bases (14) with the same quantity as the bee outlet pieces (16), the bases (14) are provided with base holes (15), and the bee outlet pieces (16) are movably inserted into the base holes (15).

9. The beehive with statistical bee attendance of claim 8, wherein: the bee outlet piece (16) comprises a short cylinder (161), an outlet cylinder (163), a limiting ring (164) and a plurality of supporting rods (162);

the diameter of the short cylinder (161) is 2-3 times of the diameter of the outlet cylinder (163);

the short cylinder (161) and the outlet cylinder (163) are mutually spaced, and the axes of the short cylinder and the outlet cylinder are mutually aligned and are connected through a plurality of support rods (162);

a limiting ring (164) is arranged at one end, close to the outlet cylinder (163), of the short cylinder (161);

one end, far away from the beehive (2), of the base hole (15) is provided with a limiting groove (151), and the short cylinder (161) is inserted into the base hole (15) to the bottom of the limiting groove (151) where the limiting ring (164) abuts.

10. The beehive with statistical bee attendance of claim 1, wherein:

the powder removing plate (12) is provided with a plurality of sinking grooves (11), the bottom surface of the sinking grooves (11) is provided with a plurality of powder removing holes (13) which are arranged at intervals in parallel, and one side of the sinking grooves (11) is provided with a material guiding plate (17) which is obliquely arranged.