CN217722383U - A neck presss from both sides system for cattle farm - Google Patents

Abstract

The utility model relates to a neck presss from both sides system for cattle farm, press from both sides device, locking device and synchronizer including frame set, neck. The advantage is that a plurality of cattle groups can be arranged in a row by arranging the frame device; the neck clamping device is matched with the frame device to clamp the neck of the cow; the neck clamp device is locked by arranging the locking device, so that the cattle can be continuously clamped; through setting up synchronizer, when needs lock the flocks of cattle, the staff keeps away from the flocks of cattle through the tip of operation synchronizer, realize the synchronous locking to the flocks of cattle, when having solved among the prior art staff to lock the huge flocks of cattle, the clamping structure that the ox neck that needs to rotate in proper order pressed from both sides only locks the ox operation to single ox, lead to consumeing a large amount of human cost's technical problem, and the staff need not be close to the ox when locking the ox, and the security has been improved.

Description

A neck presss from both sides system for cattle farm

Technical Field

The utility model relates to a farming-grazing cultivation technical field especially relates to a neck presss from both sides system for cattle farm.

Background

In modern animal husbandry management, cattle needs to be subjected to routine blood drawing physical examination, vaccine injection, health care and treatment; artificial insemination and pregnancy test are required for cows in the reproductive period. Prevent milk cow heat stress summer, need add the spraying to the ox in the cowshed, when carrying out aforementioned operation, need utilize the ox neck to press from both sides and baoding the ox.

Traditional cow neck presss from both sides the setting in one side of feed bunk, and under the normal condition, the milk cow can be attracted by the fodder and walk close to the feed bunk, stretches into the head on the upper portion that the neck pressed from both sides, triggers automatic cow locking mechanism during low head ingestion. However, if the cattle does not have a head-lowering behavior, the automatic cattle locking mechanism cannot be triggered, and at the moment, when the cattle herd passes the head of the cattle through the cattle locking area of the cattle neck clamp due to ingestion, a worker needs to walk to the side of a single cattle and rotate the clamping structure of the cattle neck clamp, so that the neck of the cattle is clamped. Usually, the herd of cattle quantity that uses the plant of ox neck clamp is bigger, only locks the ox operation to single ox like this and need consume a large amount of human costs, and the staff need be close to the ox when locking the ox only, and personnel have the safety risk.

At present, when locking the huge flocks of cattle of quantity to the staff, the clamping structure that the ox neck was pressed from both sides need be rotated in proper order and only lock the ox operation to single ox, has consumed a large amount of human labor, and the staff need be close to the ox when locking the ox only, has the technical problem of safe risk, has not properly solved yet.

SUMMERY OF THE UTILITY MODEL

The utility model aims at not enough among the prior art, provide a neck presss from both sides system for cattle farm to when solving the staff and locking huge flocks of cattle, the clamping structure that needs to rotate the ox neck in proper order and press from both sides only locks the ox operation to single ox, has consumeed a large amount of human labor, and the staff need be close to the ox when locking the ox only, has the technical problem of safe risk.

In order to achieve the purpose, the utility model adopts the technical proposal that:

the utility model provides a neck presss from both sides system for cattle farm, include:

a frame device vertically disposed at a level of the cattle farm;

the neck clamping devices are arranged on the frame device and are respectively connected with the frame device in a rotating way;

the locking device is arranged at the top of the frame device and is in rotary connection with the frame device, and the locking device realizes locking and unlocking of the neck clamp device through rotating relative to the frame device so as to clamp and release the neck of the cow;

the synchronizing device is arranged between the plurality of neck clamping devices and the frame device, is respectively connected with the plurality of neck clamping devices in a rotating mode, and is used for enabling the plurality of neck clamping devices to synchronously act to the locking device to lock the plurality of neck clamping devices through operating the end portions of the synchronizing device so as to synchronously clamp the neck portions of the plurality of cattle positioned on the frame device.

In some of these embodiments, the frame means comprises:

the base unit is arranged on the horizontal plane of the cattle farm;

the top plate unit is arranged above the base unit in parallel and is sleeved with the neck clamping device;

the first vertical rod units are linearly arranged and arranged between the base unit and the top plate unit, and are used for being matched with the corresponding neck clamping devices to clamp the neck of the cow;

the second vertical rod units are distributed between the base unit and the top plate unit in a linear arrangement manner, and the second vertical rod units and the corresponding first vertical rod units are arranged in parallel;

the rotary connecting units are vertically arranged on the corresponding second vertical rod units, the first ends of the rotary connecting units are connected with the corresponding second vertical rod units, and the second ends of the rotary connecting units are rotatably connected with the corresponding neck clamping devices;

the first supporting units are linearly arranged at the top of the top plate unit, are rotatably connected with the locking device and are used for rotatably supporting the locking device;

the second supporting units are symmetrically arranged on the side wall of the top plate unit and are used for supporting the synchronizing device;

and the third supporting units are distributed on the side wall of the top plate unit and connected with the synchronizing device.

In some of these embodiments, the frame device further comprises:

the third vertical rod units are distributed between the base unit and the top plate unit in a linear arrangement mode, and the third vertical rod units are arranged between the corresponding first vertical rod units and the corresponding second vertical rod units in parallel.

In some of these embodiments, the neck clip device comprises:

a neck clamp unit rotatably connected with the frame device;

the first limiting units are arranged at the tops of the corresponding neck clamp units and sleeved on the frame device, the first limiting units are rotatably connected with the synchronizing device, and when the neck of a cow is clamped by the neck clamp units, the locking devices lock the tops of the first limiting units;

the homing unit is arranged at the bottom of the corresponding neck clamp unit and used for enabling the neck clamp unit to home when the neck clamp unit does not clamp the neck of the cow any more.

In some of these embodiments, the first stopper unit includes:

a bottom plate element, the bottom end of which is connected with the top end of the corresponding neck clamp unit;

two side plate elements symmetrically arranged on two sides of the bottom plate element, wherein the bottom ends of the side plate elements are connected with the bottom plate element;

the first limiting element is arranged between the two side plate elements and is respectively connected with the top ends of the two side plate elements, and when the neck of the cow is clamped by the neck clamp unit, the locking device locks the first limiting element;

the first rotating element is arranged inside one side plate element along the thickness direction of the side plate element and is in rotating connection with the synchronizing device.

In some of these embodiments, the locking device comprises:

the rotating rod unit is arranged at the top of the frame device and is in rotating connection with the frame device;

the first locking units are linearly arranged on the rotating rod unit and are in rotating connection with the rotating rod unit;

the second locking units are linearly arranged on the rotating rod unit and are rotatably connected with the rotating rod unit, and the second locking units are symmetrically arranged with the corresponding first locking units;

wherein when the locking device locks the neck clip device, the first stopper unit of the neck clip device is positioned between the first locking unit and the corresponding second locking unit.

In some of these embodiments, the locking device further comprises:

a fourth supporting unit provided to the rotating lever unit;

and the second limiting unit is rotatably arranged in the fourth supporting unit, is detachably connected with the frame device and is used for limiting the rotating rod unit.

In some of these embodiments, the frame device further comprises:

and the third limiting unit is arranged at the top of the first supporting unit of the frame device positioned at the outermost side and used for limiting the locking device.

In some of these embodiments, the synchronization apparatus comprises:

the synchronizing unit is arranged on the same side of the plurality of neck clip devices and is respectively in rotary connection with the plurality of neck clip devices;

the first sliding units are symmetrically arranged at two ends of the synchronizing unit and are connected with the synchronizing unit;

the second sliding unit is obliquely arranged corresponding to the position of the first sliding unit and is connected with the frame device, and the second sliding unit is connected with the first sliding unit in a sliding manner;

and the end parts of the synchronous units are operated to enable the first sliding unit to slide from the lower part of the second sliding unit to the higher part, and meanwhile, the plurality of neck clamping devices synchronously act until the locking devices lock the plurality of neck clamping devices one by one, so that the neck parts of the plurality of cattle positioned on the frame device are synchronously clamped.

In some of these embodiments, the synchronization unit comprises:

a synchronization element disposed on one side of the plurality of neck clip devices;

a plurality of second rotating elements which are rotatably connected with the corresponding neck clip devices;

the connecting elements are respectively connected with the corresponding second rotating element and the corresponding synchronous element and penetrate through the corresponding neck clamp devices.

In some of these embodiments, the first sliding unit includes:

the two first sliding elements are symmetrically arranged at two ends of the synchronization unit, first ends of the first sliding elements are connected with the synchronization unit, and the first sliding elements are connected with the second sliding unit in a sliding manner;

and the second limiting elements are connected with the second ends of the corresponding first sliding elements and used for limiting the first sliding elements in the sliding process of the corresponding first sliding elements relative to the second sliding units.

In some of these embodiments, the second sliding unit includes:

and the two second sliding elements are obliquely arranged corresponding to the positions of the first sliding units and are connected with the frame device, and the second sliding elements are connected with the first sliding units in a sliding manner.

The utility model adopts the above technical scheme, compare with prior art, have following technological effect:

the utility model discloses a neck clip system for a cattle farm, which enables a plurality of cattle groups to be arranged in a row by arranging a frame device; the neck clamping device is matched with the frame device to clamp the neck of the cow; the neck clamp device is locked by arranging the locking device, so that the cattle can be continuously clamped; through setting up synchronizer, when needs lock the flocks of cattle, the staff keeps away from the flocks of cattle through the tip of operation synchronizer, realize the synchronous locking to the flocks of cattle, when having solved among the prior art staff to lock the huge flocks of cattle, the clamping structure that the ox neck that needs to rotate in proper order pressed from both sides only locks the ox operation to single ox, lead to consumeing a large amount of human cost's technical problem, and the staff need not be close to the ox when locking the ox, and the security has been improved.

Drawings

Fig. 1 is a schematic view of a neck clip system for a cattle farm according to an embodiment of the present invention;

fig. 2 is a schematic view (one) of a frame arrangement according to an embodiment of the present invention;

fig. 3 is a schematic view of a neck clip device according to an embodiment of the present invention;

fig. 4 is a schematic view of a first spacing unit according to an embodiment of the invention;

fig. 5 is a schematic view (one) of a locking device according to an embodiment of the present invention;

fig. 6 is a schematic diagram of a synchronization device according to an embodiment of the present invention;

fig. 7 is a schematic diagram of a synchronization unit according to an embodiment of the invention;

fig. 8 is a schematic view of a first sliding unit according to an embodiment of the invention;

fig. 9 is a schematic view of a second sliding unit according to an embodiment of the present invention;

fig. 10 is a schematic view (two) of a frame arrangement according to an embodiment of the invention;

fig. 11 is a schematic view (two) of a locking device according to an embodiment of the present invention;

fig. 12 is a schematic view (iii) of a frame arrangement according to an embodiment of the invention.

Wherein the reference numerals are:

1000. a frame means; 1010. a base unit; 1020. a top plate unit; 1030. a first vertical bar unit; 1040. a second vertical bar unit; 1050. a rotating connection unit; 1060. a first supporting unit; 1070. a second supporting unit; 1080. a third supporting unit; 1090. a third vertical bar unit; 1100. a third limiting unit;

2000. a neck clip device; 2010. a neck clip unit; 2020. a first limit unit; 2021. a floor element; 2022. a lateral plate element; 2023. a first spacing element; 2024. a first rotating element; 2030. a homing unit;

3000. a locking device; 3010. a rotating lever unit; 3020. a first locking unit; 3030. a second locking unit; 3040. a fourth supporting unit; 3050. a second limiting unit;

4000. a synchronization device; 4010. a synchronization unit; 4011. a synchronization element; 4012. a second rotating member; 4013. a connecting element; 4020. a first sliding unit; 4021. a first sliding member; 4022. a second stop element; 4030. a second sliding unit; 4031. a second slide element.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, in the case of no conflict, the embodiments and features of the embodiments of the present invention may be combined with each other.

The present invention will be further described with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.

Example 1

As an exemplary embodiment of the present invention, as shown in fig. 1, a neck clip system for cattle farms includes a frame device 1000, a plurality of neck clip devices 2000, a locking device 3000, and a synchronizing device 4000. Wherein the frame device 1000 is vertically disposed at a horizontal level of the cattle farm; the plurality of neck clamping devices 2000 are arranged on the frame device 1000 and are respectively connected with the frame device 1000 in a rotating way; the locking device 3000 is arranged on the top of the frame device 1000 and is rotatably connected with the frame device 1000, and the locking device 3000 realizes locking and unlocking of the neck clamping device 2000 by rotating relative to the frame device 1000, so as to clamp and release the neck of the cow; the synchronization device 4000 is disposed between the neck clamping devices 2000 and the frame device 1000, and is rotatably connected to the neck clamping devices 2000, respectively, so that the neck clamping devices 2000 are synchronously operated to the locking device 3000 to lock the neck clamping devices 2000 by operating the end of the synchronization device 4000, thereby synchronously clamping the necks of the cattle positioned in the frame device 1000.

Specifically, the number of the neck clip devices 2000 is determined according to the number of cattle to be gripped in the same row, and the number of the neck clip devices 2000 is the same as the number of cattle to be gripped in the same row.

As shown in fig. 2, the frame device 1000 includes a base unit 1010, a top plate unit 1020, a plurality of first vertical rod units 1030, a plurality of second vertical rod units 1040, a plurality of pivotal connection units 1050, a plurality of first support units 1060, a second support unit 1070, and a plurality of third support units 1080. Wherein the base unit 1010 is disposed at a horizontal plane of the cattle farm; the top plate unit 1020 is arranged above the base unit 1010 in parallel, and the top plate unit 1020 is sleeved with a plurality of neck clamp devices 2000; a plurality of first vertical rod units 1030 are distributed between the base unit 1010 and the top plate unit 1020 in a linear arrangement manner, and are used for matching the first vertical rod units 1030 with the corresponding neck clamping devices 2000 to clamp the neck of the cow; the second vertical rod units 1040 are linearly arranged and arranged between the base unit 1010 and the top plate unit 1020, and the second vertical rod units 1040 and the corresponding first vertical rod units 1030 are arranged in parallel; the rotary connecting units 1050 are vertically disposed on the corresponding second vertical rod units 1040, first ends of the rotary connecting units 1050 are connected to the corresponding second vertical rod units 1040, and second ends of the rotary connecting units 1050 are rotatably connected to the neck clip devices 2000; the first support units 1060 are linearly arranged on the top of the top plate unit 1020, and are rotatably connected with the locking device 3000 to rotatably support the locking device 3000; the second support units 1070 are symmetrically disposed at sidewalls of the top plate unit 1020, and are used to support the synchronizing unit 4010; a plurality of third supporting units 1080 are distributed on the side wall of the top plate unit 1020 and connected to the synchronization device 4000.

The length of the base unit 1010 is greater than the length of the synchronization device 4000.

In some of these embodiments, the base unit 1010 is a rectangular parallelepiped structure.

In some of these embodiments, the base unit 1010 is removably attached to the horizontal surface of the cattle farm by fastening bolts and nuts.

In some of these embodiments, the base unit 1010 is cast directly by concrete at the level of the cattle farm.

In some of these embodiments, base unit 1010 is a base.

The length of the top plate unit 1020 is equal to the length of the base unit 1010.

In some of these embodiments, the top plate unit 1020 has a rectangular parallelepiped structure.

In some of these embodiments, the ceiling unit 1020 is a ceiling.

In some of these embodiments, the number of first vertical rod units 1030, second vertical rod units 1040, pivotal connection units 1050, and first support units 1060 is the same as the number of neck clip devices 2000.

In some of these embodiments, first montant unit 1030 and second montant unit 1040 are each cylindrical in structure.

In some of these embodiments, first vertical rod element 1030, second vertical rod element 1040 are round rods.

When the neck of the cow is clamped, the first vertical rod unit 1030 and the neck clamping device 2000 are positioned at two sides of the neck of the cow, and the first vertical rod unit 1030 is matched with the neck clamping device 2000 to clamp the cow; the second vertical rod unit 1040 provides a support point for the rotating connection unit 1050 to facilitate mounting of the neck clip device 2000; meanwhile, the first vertical rod unit 1030 and the second vertical rod unit 1040 achieve connection between the top plate unit 1020 and the base unit 1010, and clamping stability of the neck of the cow is guaranteed.

In some of these embodiments, the rotational connection unit 1050 includes two support plate elements and a rotational connection element. The support plate elements are of a cuboid structure, and the first ends of the two support plate elements are connected with the corresponding second vertical rod units 1040; the rotating connection element is a cylindrical structure, is disposed between the second ends of the two support plate elements, and is rotatably connected with the neck clamp device 2000.

In some of these embodiments, the first support unit 1060 includes a first support plate element and a support hole element. Wherein, the first supporting plate element is in a cuboid structure, and the bottom end of the first supporting plate element is connected with the top plate unit 1020; the support hole element is opened in the first support plate element along the thickness direction of the first support plate element, and is rotatably connected with the locking device 3000, so as to rotatably support the locking device 3000.

In some of these embodiments, the second support unit 1070 includes two second support plate elements. The second supporting plate member has a rectangular parallelepiped structure, and one side of the second supporting plate member is connected to a side wall of the top plate unit 1020.

In some embodiments, the number of the third support units 1080 is not less than 4, two third support units 1080 are disposed on the first side of the synchronization apparatus 4000, and the two third support units 1080 are long and short; two third supporting units 1080 are disposed on the second side of the synchronization apparatus 4000, and the two third supporting units 1080 are long and short.

In some of these embodiments, the third support unit 1080 is a support bar.

As shown in FIG. 3, the neck clamp device 2000 includes a neck clamp unit 2010, a first stopper unit 2020, and a homing unit 2030. Wherein the neck clamp unit 2010 is rotatably connected with the frame device 1000; the first limiting units 2020 are arranged at the tops of the corresponding neck clamp units 2010 and are sleeved on the frame device 1000, the first limiting units 2020 are rotatably connected with the synchronization device 4000, and when the neck of the cow is clamped by the neck clamp units 2010, the top of the first limiting units 2020 is locked by the locking device 3000; a homing unit 2030 is provided at the bottom of the corresponding neck clip unit 2010 for homing the neck clip unit 2010 when the neck of the cow is no longer gripped by the neck clip unit 2010.

Specifically, the neck clamp unit 2010 is rotatably connected with the rotary connection unit 1050; the first position-limiting unit 2020 is disposed at the top of the corresponding neck clamp unit 2010 and sleeved on the top plate unit 1020.

In some of these embodiments, the number of neck clamp units 2010 is dependent on the number of bulls to be clamped in the same row, and the number of neck clamp units 2010 is the same as the number of bulls to be clamped in the same row.

In some of these embodiments, the number of neck clamp units 2010 is no less than 3.

In some of these embodiments, the number of the first stopper units 2020, the homing units 2030 is the same as the number of the neck clamp units 2010.

In some of these embodiments, the neck clamp unit 2010 is of cylindrical construction.

Preferably, the neck clamp unit 2010 is of a cylindrical structure or a square cylindrical structure.

In some of these embodiments, the neck clamp unit 2010 includes a neck clamp element and a circular through-hole element. Wherein, the neck clip element is in a cylindrical structure; the circular through hole element is arranged on the neck clamp element.

In some of these embodiments, the neck clamp unit 2010 is made of a metallic material including, but not limited to, stainless steel, iron.

In some of these embodiments, the neck clamp unit 2010 is made of wood.

In some of these embodiments, the first stopper 2020, the homing unit 2030 and the neck clamp unit 2010 are made of the same material.

As shown in fig. 4, the first stopper unit 2020 includes a bottom plate element 2021, two side plate elements 2022, a first stopper element 2023, and a first rotating element 2024. Wherein the bottom end of the base element 2021 is connected to the top end of the corresponding neck clamp unit 2010; two side panel elements 2022 are symmetrically disposed on both sides of the bottom panel element 2021, and the bottom ends of the side panel elements 2022 are connected to the bottom panel element 2021; the first limiting element 2023 is arranged between the two side plate elements 2022 and is respectively connected with the top ends of the two side plate elements 2022, and when the neck of the cow is clamped by the neck clamp unit 2010, the locking device 3000 locks the first limiting element 2023; the first rotating element 2024 is disposed inside the side plate element 2022 along the thickness direction of the side plate element 2022, and is rotatably connected to the synchronization device 4000.

In particular, the head plate unit 1020 is located between the bottom plate element 2021, the two side plate elements 2022 and the first stopper element 2023.

In some of these embodiments, floor element 2021 is of rectangular parallelepiped construction.

In some of these embodiments, the bottom center of the floor element 2021 is at the neck clamp unit 2010 connection, and the floor area of the floor element 2021 is greater than the top area of the neck clamp unit 2010.

In some of these embodiments, the floor element 2021 is a floor.

The two side plate elements 2022 form a U-shaped structure on the bottom plate element 2021.

The height of the lateral panel element 2022 is greater than the length of the base panel element 2021, and the width of the lateral panel element 2022 is equal to the width of the base panel element 2021.

In some of these embodiments, the lateral panel element 2022 is of rectangular parallelepiped construction.

In some of these embodiments, the side panel element 2022 is triangular/curved/trapezoidal in longitudinal cross-section at the upper portion and rectangular at the lower portion.

In some of these embodiments, the lateral plate element 2022 is a lateral plate.

The length of the first stop element 2023 is equal to the length of the bottom element 2021, and the diameter of the first stop element 2023 is smaller than the minimum width of the side element 2022.

In some of these embodiments, the first stop element 2023 is of cylindrical construction.

In some of these embodiments, the first stop element 2023 is a stop bar.

In some of these embodiments, the first rotating element 2024 is a cylindrical structure.

In some of these embodiments, the first rotating element 2024 includes a rotating slot and a connecting slot. The rotating groove is formed inside one side plate element 2022 along the thickness direction of the side plate element 2022, is used for accommodating the synchronization device 4000, and is rotatably connected with the synchronization device 4000; the connecting groove opens from the outside to the inside to the side plate element 2022 and communicates with the rotating groove, and has a diameter smaller than that of the rotating groove for the synchronization device 4000 to pass through.

In some of these embodiments, the longitudinal section of the homing unit 2030 is square frame-shaped or arc-shaped, and after the locking device 3000 unlocks the first stopper element 2023, the homing unit 2030 shifts the center of gravity of the neck clip device 2000, and the neck clip unit 2010 rotates with respect to the rotation connection unit 1050 to return to the home position; the longitudinal section of the homing unit 2030 is formed in a square frame shape or an arc shape, so that the weight thereof is not overweight, the cow can lower the head to touch the neck clip unit 2010 while shifting the center of gravity of the neck clip device 2000, the neck clip unit 2010 can rotate relative to the rotation connection unit 1050, and finally the first stopper element 2023 is stopped by the locking device 3000.

In some of these embodiments, the homing unit 2030 is located in the same vertical plane as the corresponding neck clamp unit 2010.

As shown in fig. 5, the locking device 3000 includes a rotating lever unit 3010, a plurality of first locking units 3020, and a plurality of second locking units 3030. Wherein, the rotation rod unit 3010 is disposed on the top of the frame device 1000 and is connected to the frame device 1000 in a rotation manner; a plurality of first locking units 3020 are linearly arranged on the rotation lever unit 3010 and are rotatably connected to the rotation lever unit 3010; a plurality of second locking units 3030 are linearly arranged on the rotating rod unit 3010 and are rotatably connected with the rotating rod unit 3010, and the second locking units 3030 are symmetrically arranged with the corresponding first locking units 3020; wherein the first stopper 2020 is located between the first locking unit 3020 and the corresponding second locking unit 3030 when the locking device 3000 locks the neck clip device 2000.

Specifically, the rotation lever unit 3010 is provided on the top of the top plate unit 1020 and is rotatably connected to the first support unit 1060.

Further, a first stop element 2023 is located between the first locking unit 3020 and the corresponding second locking unit 3030.

In some embodiments, the first locking unit 3020 and the second locking unit 3030 may be used as locking fittings in a cow neck clamp of the prior art.

In some of these embodiments, the number of first locking units 3020 and second locking units 3030 is the same as the number of neck clamp units 2010.

As shown in fig. 6, the synchronization apparatus 4000 includes a synchronization unit 4010, a first slide unit 4020, and a second slide unit 4030. Wherein, the synchronizing unit 4010 is disposed at the same side of the plurality of neck clamping devices 2000 and is respectively connected with the plurality of neck clamping devices 2000 in a rotating manner; the first sliding units 4020 are symmetrically arranged at two ends of the synchronization unit 4010 and connected with the synchronization unit 4010; the second sliding unit 4030 is obliquely arranged corresponding to the position of the first sliding unit 4020 and is connected with the frame device 1000, and the second sliding unit 4030 is connected with the first sliding unit 4020 in a sliding manner; by operating the end of the synchronizing unit 4010, the first sliding unit 4020 is slid from the lower position to the upper position of the second sliding unit 4030, and simultaneously, the plurality of neck clamps 2000 are synchronously operated to the locking device 3000 to lock the plurality of neck clamps 2000 one by one, thereby synchronously clamping the neck portions of the plurality of cattle positioned on the frame device 1000.

Specifically, the synchronizing unit 4010 is disposed on the same side of the first limiting units 2020, and is rotatably connected to the first limiting units 2020 respectively; the second sliding unit 4030 is connected to a number of third support units 1080.

As shown in fig. 7, the synchronizing unit 4010 includes a synchronizing member 4011, a plurality of second rotating members 4012, and a plurality of connecting members 4013. Wherein, the synchronizing element 4011 is disposed at one side of the first position-limiting unit 2020; the second rotating element 4012 is rotatably connected with the corresponding first limiting unit 2020; the connecting element 4013 is connected to the corresponding second rotating element 4012 and the corresponding synchronizing element 4011, and the connecting element 4013 penetrates through the corresponding first limiting unit 2020.

Specifically, the synchronizing element 4011 is disposed on one side of the plurality of side plate elements 2022; the second rotating element 4012 is rotationally connected with the corresponding first rotating element 2024; the connecting elements 4013 are respectively connected to the corresponding second rotating elements 4012 and the corresponding synchronizing elements 4011, and the connecting elements 4013 penetrate through the corresponding first rotating elements 2024.

More specifically, the second rotating element 4012 is accommodated inside the rotating groove of the first rotating element 2024 and rotates inside the rotating groove; the connection element 4013 passes through the connection slot of the first rotation element 2024.

The length of the synchronizing member 4011 is greater than the interval between the two neck clip units 2010 positioned at the outermost side.

In some of these embodiments, the synchronizing element 4011 has a rectangular parallelepiped structure.

In some of these embodiments, the synchronization element 4011 is a hand-held strip.

In some of these embodiments, the number of the second rotating elements 4012 is the same as the number of the first rotating elements 2024, i.e., the same as the number of the first limit units 2020.

In some of these embodiments, the second rotating element 4012 has a cylindrical structure.

In some of these embodiments, the diameter of the second rotating element 4012 is larger than the diameter of the connection slot of the first rotating element 2024.

In some of these embodiments, the thickness of second rotating element 4012 is less than or equal to the thickness of the rotating slot of first rotating element 2024.

When a worker operates the synchronizing element 4011, the synchronizing element 4011 is moved in a direction away from the side plate element 2022, the second rotating element 4012 is limited by the connecting groove of the first rotating element 2024, and in the process of operating the synchronizing element 4011 to perform subsequent actions, the synchronizing element 4011 is further ensured to drive the first limiting unit 2020.

In some of these embodiments, the second rotating element 4012 is a rotating block.

In some of these embodiments, the number of connecting elements 4013 is the same as the number of second rotating elements 4012.

The length of connecting element 4013 is greater than the depth of the connecting slot of first rotating element 2024.

In some of these embodiments, connecting element 4013 is in a cylindrical configuration.

In some of these embodiments, connecting element 4013 is a connecting rod.

As shown in fig. 8, the first sliding unit 4020 includes two first sliding elements 4021 and two second limiting elements 4022. The two first sliding elements 4021 are symmetrically arranged at two ends of the synchronizing unit 4010, a first end of the first sliding element 4021 is connected to the synchronizing unit 4010, and the first sliding element 4021 is connected to the second sliding unit 4030 in a sliding manner; second limiting elements 4022 are coupled to second ends of corresponding first sliding elements 4021 for limiting first sliding elements 4021 during sliding of corresponding first sliding elements 4021 relative to second sliding unit 4030.

Specifically, two first sliding elements 4021 are symmetrically disposed at two ends of the synchronizing element 4011, and a first end of the first sliding element 4021 is connected to the synchronizing element 4011.

The maximum width of the first slide element 4021 is less than the width of the synchronization element 4011.

In some of these embodiments, the diameter of the first slide element 4021 is less than the width of the synchronization element 4011.

In some of these embodiments, first slide element 4021 is of a cylindrical structure.

In some of these embodiments, first slide element 4021 is a slide bar.

The maximum width of the second stop element 4022 is greater than the maximum width of the first slide element 4021.

In some of these embodiments, the diameter of the second stop element 4022 is greater than the diameter of the first slide element 4021.

In some of these embodiments, the second limiting element 4022 is a cylindrical structure.

In some of these embodiments, second limiting element 4022 is a limiting block.

As shown in fig. 9, the second sliding unit 4030 includes two second sliding elements 4031. The second sliding element 4031 is obliquely arranged corresponding to the position of the first sliding unit 4020 and is slidably connected to the first sliding unit 4020.

Specifically, second slide element 4031 is angularly positioned to correspond to the position of first slide element 4021 and is slidably coupled to first slide element 4021.

In some of these embodiments, the angle of inclination of the second slider element 4031 with respect to the horizontal is determined according to the trajectory of the first stop element 2023 from the lowest to the highest.

In some of these embodiments, the second slide element 4031 is inclined at an angle of 0 to 50 degrees Celsius relative to horizontal.

In some of these embodiments, the second slide element 4031 is in the shape of a clip.

In some of these embodiments, second slide element 4031 is a sliding rail.

The utility model discloses a use method of neck clamp system as follows:

when the cow normally lowers the head, the cow neck is clamped and unlocked

When the neck of the cow enters between the first vertical rod unit 1030 and the neck clamp unit 2010, the cow lowers the head to feed to the feeding trough on one side of the base unit 1010 and further touches the corresponding neck clamp unit 2010, so that the corresponding neck clamp unit 2010 rotates relative to the rotating connecting unit 1050 until the first limiting element 2023 reaches between the corresponding first locking unit 3020 and second locking unit 3030, the first limiting element 2023 is limited by the first locking unit 3020 and second locking unit 3030, and the neck clamp unit 2010 and the first vertical rod unit 1030 are positioned on two sides of the cow to clamp the neck of the cow;

when the unlocking is needed, the staff rotates the rotating rod unit 3010, the first locking unit 3020 and the second locking unit 3030 rotate along with the rotating rod unit 3010, so that the first locking unit 3020 and the second locking unit 3030 no longer limit the first limiting element 2023, the first limiting element 2023 and the neck clamp unit 2010 are shifted due to the gravity center of the homing unit 2030, and rotate back to the original position under the action of gravity and inertia trend, and the neck of the cow can be taken out from between the first vertical rod unit 1030 and the neck clamp unit 2010.

When the cow is abnormally heads down, the cow neck is clamped and unlocked

The worker manually operates the synchronizing element 4011 to slide the first sliding element 4021 from the lower position to the upper position of the corresponding second sliding element 4031, and simultaneously, the side plate elements 2022, the corresponding first limiting element 2023, the bottom plate element 2021 and the neck clamp unit 2010 synchronously operate until the first limiting elements 2023 reach the positions between the corresponding first locking unit 3020 and the corresponding second locking unit 3030, so as to synchronously lock the cattle groups in the same row;

when unlocking is needed, a worker rotates the rotating rod unit 3010 to enable the first limiting elements 2023 to be separated from the corresponding first locking unit 3020 and second locking unit 3030, the centers of gravity of the first limiting elements 2023 and the neck clamp unit 2010 are shifted due to the action of the homing unit 2030, the first limiting elements 2023 and the neck clamp unit 2010 are turned back to the original positions under the action of gravity and inertia trend, and the necks of all the cows in the same row can be taken out from between the first vertical rod unit 1030 and the neck clamp unit 2010 at the same time.

The utility model has the advantages that the frame device is arranged, so that a plurality of cattle groups can be arranged in a row; the neck clamping device is matched with the frame device to clamp the neck of the cow; the neck clamp device is locked by arranging the locking device, so that the cattle can be continuously clamped; through setting up synchronizer, when needs lock the flocks of cattle, the staff keeps away from the flocks of cattle through the tip of operation synchronizer, realize the synchronous locking to the flocks of cattle, when having solved among the prior art staff to lock the huge flocks of cattle, the clamping structure that the ox neck that needs to rotate in proper order pressed from both sides only locks the ox operation to single ox, lead to consumeing a large amount of human cost's technical problem, and the staff need not be close to the ox when locking the ox, and the security has been improved.

Example 2

This embodiment is a modification of embodiment 1.

As shown in fig. 10, the frame device 1000 further includes a plurality of third vertical rod units 1090. A plurality of third vertical rod units 1090 are linearly arranged and disposed between the base unit 1010 and the top plate unit 1020, and the third vertical rod units 1090 are disposed in parallel between the corresponding first vertical rod units 1030 and the corresponding second vertical rod units 1040.

In some of these embodiments, the third vertical rod unit 1090 is of a cylindrical structure.

In some of these embodiments, the number of third vertical-rod units 1090 is the same as the number of first vertical- rod units 1030, 1040.

In some of these embodiments, the third vertical rod unit 1090 is a round rod.

The advantage of this embodiment is that by providing the third vertical rod unit, the calf can be prevented from passing between the first vertical rod unit and the corresponding second vertical rod unit, and the stability of the whole frame device is also increased.

Example 3

This embodiment is a modification of embodiments 1 to 2.

As shown in fig. 11, the locking device 3000 further includes a fourth supporting unit 3040 and a second stopper unit 3050. The fourth support unit 3040 is provided at the rotation lever unit 3010; the second limiting unit 3050 is rotatably disposed on the fourth supporting unit 3040, and is configured to be detachably connected to the frame device 1000, so as to limit the rotation of the rotating rod unit 3010.

In some embodiments, the fourth support unit 3040 has a rectangular parallelepiped structure.

In some of these embodiments, the second stopper unit 3050 has a U-shaped structure.

In some embodiments, the second position-limiting unit 3050 is a position-limiting ring having an opening at one side, and the opening is rotatably connected to the fourth supporting unit 3040.

As shown in fig. 12, the frame device 1000 further includes a third spacing unit 1100. The third limiting unit 1100 is disposed on the top of the first supporting unit 1060 located at the outermost side, and is used for limiting the locking device 3000.

Specifically, the third limiting unit 1100 is detachably connected to the second limiting unit 3050, and is used for limiting the second limiting unit 3050.

In some embodiments, the third limiting unit 1100 has a rectangular parallelepiped structure.

In some of these embodiments, the third stopper unit 1100 is a stopper.

The advantage of this embodiment is that by providing the second and third limiting units, it is ensured that the locking device will not rotate at will after locking the neck clip device.

The above description is only an example of the preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and those skilled in the art should be able to realize the equivalent alternatives and obvious variations of the present invention.

Claims (10)

1. A neck clamp system for a cattle farm, comprising:

a frame device vertically disposed at a level of the cattle farm;

the neck clamping devices are arranged on the frame device and are respectively connected with the frame device in a rotating way;

the locking device is arranged at the top of the frame device and is in rotary connection with the frame device, and the locking device realizes locking and unlocking of the neck clamp device through rotating relative to the frame device so as to clamp and release the neck of the cow;

the synchronizing device is arranged between the plurality of neck clamping devices and the frame device, is respectively connected with the plurality of neck clamping devices in a rotating mode, and is used for enabling the plurality of neck clamping devices to synchronously act to the locking device to lock the plurality of neck clamping devices through operating the end portions of the synchronizing device so as to synchronously clamp the neck portions of the plurality of cattle positioned on the frame device.

2. The neck clamp system of claim 1 wherein the frame means comprises:

the base unit is arranged on the horizontal plane of the cattle farm;

the top plate unit is arranged above the base unit in parallel and is sleeved with the neck clamping device;

the first vertical rod units are distributed between the base unit and the top plate unit in a linear arrangement manner and are used for being matched with the corresponding neck clamping devices to clamp the neck of the cow;

the second vertical rod units are distributed between the base unit and the top plate unit in a linear arrangement manner, and the second vertical rod units and the corresponding first vertical rod units are arranged in parallel;

the rotary connecting units are vertically arranged on the corresponding second vertical rod units, the first ends of the rotary connecting units are connected with the corresponding second vertical rod units, and the second ends of the rotary connecting units are rotatably connected with the corresponding neck clamping devices;

the first support units are linearly arranged at the top of the top plate unit, are rotatably connected with the locking device and are used for rotatably supporting the locking device;

the second supporting units are symmetrically arranged on the side wall of the top plate unit and are used for supporting the synchronizing device;

and the third supporting units are distributed on the side wall of the top plate unit and are connected with the synchronizing device.

3. The neck clip system of claim 2 wherein the frame means further comprises:

the third vertical rod units are arranged between the base unit and the top plate unit in a linear arrangement mode, and the third vertical rod units are arranged between the corresponding first vertical rod units and the corresponding second vertical rod units in parallel.

4. The neck clip system of claim 1, wherein the neck clip device comprises:

a neck clamp unit rotatably connected with the frame device;

the first limiting units are arranged at the tops of the corresponding neck clamp units and sleeved on the frame device, the first limiting units are rotatably connected with the synchronizing device, and when the neck of a cow is clamped by the neck clamp units, the locking devices lock the tops of the first limiting units;

the homing unit is arranged at the bottom of the corresponding neck clamp unit and used for enabling the neck clamp unit to home when the neck clamp unit does not clamp the neck of the cow any more.

5. The neck clamp system of claim 4 wherein the first stopper unit comprises:

a bottom plate element, the bottom end of which is connected with the top end of the corresponding neck clamp unit;

two side plate elements, wherein the two side plate elements are symmetrically arranged on two sides of the bottom plate element, and the bottom ends of the side plate elements are connected with the bottom plate element;

the first limiting element is arranged between the two side plate elements and is respectively connected with the top ends of the two side plate elements, and when the neck of the cow is clamped by the neck clamp unit, the locking device locks the first limiting element;

the first rotating element is arranged inside one side plate element along the thickness direction of the side plate element and is in rotating connection with the synchronizing device.

6. The neck clamp system of claim 1 wherein the locking means comprises:

the rotating rod unit is arranged at the top of the frame device and is in rotating connection with the frame device;

the first locking units are linearly arranged on the rotating rod unit and are in rotating connection with the rotating rod unit;

the second locking units are linearly arranged on the rotating rod unit and are in rotating connection with the rotating rod unit, and the second locking units are symmetrically arranged with the corresponding first locking units;

wherein when the locking device locks the neck clip device, the first stopper unit of the neck clip device is positioned between the first locking unit and the corresponding second locking unit.

7. The neck clamp system of claim 6 wherein the locking device further comprises:

a fourth supporting unit provided to the rotating lever unit;

the second limiting unit is rotatably arranged on the fourth supporting unit, is detachably connected with the frame device and is used for limiting the rotating rod unit; and/or

The frame device further includes:

and the third limiting unit is arranged at the top of the first supporting unit of the frame device positioned at the outermost side and used for limiting the locking device.

8. The neck clamp system of claim 1 wherein the synchronization device comprises:

the synchronizing unit is arranged on the same side of the neck clamp devices and is respectively in rotating connection with the neck clamp devices;

the first sliding units are symmetrically arranged at two ends of the synchronizing unit and are connected with the synchronizing unit;

the second sliding unit is obliquely arranged corresponding to the position of the first sliding unit and is connected with the frame device, and the second sliding unit is connected with the first sliding unit in a sliding manner;

and the end parts of the synchronous units are operated to enable the first sliding unit to slide from the lower part of the second sliding unit to the higher part, and meanwhile, the plurality of neck clamping devices synchronously act until the locking devices lock the plurality of neck clamping devices one by one, so that the neck parts of the plurality of cattle positioned on the frame device are synchronously clamped.

9. The neck clamp system of claim 8, wherein the synchronization unit comprises:

a synchronization element disposed on one side of the plurality of neck clip devices;

a plurality of second rotating elements which are rotatably connected with the corresponding neck clip devices;

the connecting elements are respectively connected with the corresponding second rotating elements and the corresponding synchronous elements and penetrate through the corresponding neck clamp devices.

10. The neck clamp system of claim 8 wherein the first slide unit comprises:

the two first sliding elements are symmetrically arranged at two ends of the synchronization unit, first ends of the first sliding elements are connected with the synchronization unit, and the first sliding elements are connected with the second sliding unit in a sliding manner;

the two second limiting elements are connected with the second ends of the corresponding first sliding elements and used for limiting the first sliding elements in the sliding process of the corresponding first sliding elements relative to the second sliding units; and/or

The second sliding unit includes:

and the two second sliding elements are obliquely arranged corresponding to the positions of the first sliding units and are connected with the frame device, and the second sliding elements are connected with the first sliding units in a sliding manner.

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