CN215774827U - Cow neck clamp - Google Patents

Abstract

The utility model relates to a cow neck clamp which comprises a support unit, a driving unit, a limiting unit, a driven unit and a clamping unit, wherein the driving unit is arranged on the support unit; the first ends of the two active units are arranged on the support unit, and the second ends of the two active units penetrate through the side wall of the support unit and are positioned outside the side wall of the support unit; the two limiting units are arranged in the bracket unit, correspond to the first ends of the corresponding active units and are arranged in a matched manner; the two driven units are arranged on the bracket unit and are meshed and connected with the first end of the driving unit; the two clamping units are oppositely arranged on two side walls of the bracket unit, and the first ends of the clamping units are fixedly connected with the first ends of the corresponding driven units and used for clamping the neck of the cow; the cow neck clamp is simple in structure, and solves the problems that the conventional cow neck clamp cannot clamp and fix a cow according to the height of the cow and the conventional neck clamp is inconvenient for feeding and detecting the cow.

Description

Cow neck clamp

Technical Field

The utility model relates to the technical field of livestock breeding equipment, in particular to a cow neck clamp.

Background

In the feeding process of a large-scale dairy farm, in order to meet the requirements of fine feeding and personalized management of dairy cows, some dairy cows often need to be observed and quantitatively fed and controlled in a close distance, so that the necks of the dairy cows need to be clamped by the clamp to prevent the dairy cows from leaving, the requirements of fixed-point timing feeding, blood sample collection or medicine irrigation and the like are met, and the clamp at the neck is a neck clamp.

The existing full-automatic cow neck clamp is inconvenient to meet the personalized requirements and has higher cost; in addition, current manual cow neck presss from both sides, simple structure can't carry out the centre gripping according to the height of milk cow to the milk cow fixed, and carries out the centre gripping to the neck of milk cow under the fixed condition, and most neck presss from both sides all from top to bottom carries out the centre gripping to the milk cow to can extrude the throat of milk cow, the milk cow feed of not being convenient for, this can cause certain influence to the health of milk cow and detection undoubtedly.

At present, can't carry out the centre gripping to the milk cow according to the height of milk cow to current cow neck clamp and fix and current neck clamp is not convenient for the milk cow feed and the problem that detects to the milk cow centre gripping, has not yet provided effectual solution.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a cow neck clamp aiming at the defects in the prior art, and at least solves the problems that the existing cow neck clamp cannot clamp and fix a cow according to the height of the cow and the existing neck clamp is inconvenient for feeding and detecting the cow when clamping the cow.

In order to achieve the above object, the present invention provides a cow neck clip, comprising:

the support unit, the support unit is the square font, the support unit includes:

the two moving grooves are respectively formed in the inner parts of the two side walls of the support unit;

the two driven grooves are respectively formed in the inner parts of the two side walls of the two support units, are positioned on one side of the corresponding moving groove and are communicated with the corresponding moving groove;

the two driving grooves are formed in the inner parts of the two side walls of the support unit, are positioned on one side of the corresponding moving groove and are communicated with the corresponding driven grooves;

the two sliding grooves are respectively formed in the side wall of the support unit and communicated with the corresponding moving grooves;

the first ends of the two active units are arranged in the corresponding active grooves, and the second ends of the two active units penetrate through the side walls of the corresponding active grooves and are positioned outside the side walls of the support units;

the two limiting units are arranged inside the corresponding active grooves, correspond to the first ends of the corresponding active units, are arranged in a matched mode, and are used for limiting the active units;

the first ends of the two driven units are arranged in the corresponding moving grooves, and the second ends of the two driven units are arranged in the corresponding driven grooves and are meshed with the first ends of the driving units;

the two clamping units are arranged on two side walls of the support unit relatively, and first ends of the clamping units are fixedly connected with first ends of the driven units correspondingly and used for clamping the neck of the cow.

Further, in the cow neck clamp, the driven unit includes:

the rack element is vertically and slidably arranged inside the moving groove and is fixedly connected with the first end of the corresponding clamping unit;

and the driven wheel is rotatably arranged inside the driven groove and is respectively meshed and connected with the rack element and the first end of the driving unit.

Further, in the cow neck clamp, the active unit includes:

the rotating shaft is arranged on the side wall of the driving groove in a sliding mode, a first end of the rotating shaft is arranged inside the driving groove, and a second end of the rotating shaft is located outside the support unit;

the driving wheel is arranged inside the driving groove, is coaxial and rotatably connected with the rotating shaft, and is meshed and connected with the second end of the driven unit, a rotating groove is formed in the first end of the driving wheel, a limiting groove is formed in the second end of the driving wheel, and the limiting groove corresponds to the corresponding limiting unit;

and a first end of the crank element is arranged in the driving groove and matched with the rotating groove, and a second end of the crank element penetrates through the side wall of the driving groove and is positioned outside the support unit.

Further, in the cow neck clamp, the active unit further includes:

an operation block disposed at a second end of the rotation shaft.

Further, in the cow neck clamp, the limiting unit comprises:

the limiting piece is arranged in the driving groove, sleeved with the first end of the driving unit and used for limiting the driving unit;

the reset spring is sleeved at the first end of the driving unit, the first end of the reset spring is fixedly connected with the side wall of the driving groove, and the second end of the reset spring is fixedly connected with the limiting part.

Further, in the cow neck clamp, the clamping unit includes:

the first end of the telescopic rod is fixedly connected with the first end of the driven unit;

the grip block, the grip block set up in the second end of telescopic link for the neck of centre gripping milk cow.

Further, in the cow neck clamp, the clamping unit further includes:

the buffer layer covers the clamping plate and is arranged at one end, far away from the telescopic rod, of the clamping plate.

Further, in the cow neck clamp, the telescopic rod comprises:

the first end of the outer rod is fixedly connected with the first end of the driven unit;

the telescopic groove is formed in the second end of the outer rod;

the first end of the inner rod is sleeved inside the telescopic groove, and the second end of the inner rod is fixedly connected with the clamping plate.

Further, in the cow neck clamp, the telescopic rod further comprises:

the first gear holes are formed in the first end of the inner rod along the length direction of the inner rod;

the second gear hole is formed in the side wall of the telescopic groove and corresponds to the corresponding first gear hole;

and the limiting rod is arranged inside the second gear hole and corresponds to the first gear hole.

Further, in the cow neck clamp, the holder unit includes:

and the brush elements are arranged on two sides of the corresponding sliding groove and used for preventing external substances from entering the moving groove.

By adopting the technical scheme, compared with the prior art, the utility model has the following technical effects:

(1) according to the cow neck clamp, the driving unit and the driven unit drive the clamping unit to move up and down, so that cows with different heights can be clamped and fixed, the driving unit is limited by the limiting element, the clamping unit is limited and fixed, and the clamping unit is prevented from sliding down automatically;

(2) the clamping unit can stretch and retract to change the length of the clamping unit, so that the milk cows with different neck widths can be clamped and fixed from the left side and the right side, and the throats of the milk cows are prevented from being squeezed;

(3) the cow neck clamp provided by the utility model is simple in structure, solves the problems that the existing cow neck clamp cannot clamp and fix cows according to the heights of the cows and the existing neck clamp is inconvenient for the cows to feed and detect, and has good practical value and popularization and application value.

Drawings

FIG. 1 is a schematic structural view of a cow neck clip according to the present invention;

FIG. 2 is a partial cross-sectional view (one) of the cow neck clip of the present invention;

FIG. 3 is a schematic view of the structure of part A in FIG. 2;

FIG. 4 is a partial cross-sectional view of the cow neck clip of the present invention (II);

FIG. 5 is a schematic view of the structure of the portion B in FIG. 3;

FIG. 6 is a partial cross-sectional view of the cow neck clip of the present invention (III);

FIG. 7 is a schematic view of the structure of the portion C in FIG. 6;

FIG. 8 is a partial cross-sectional view of the extension pole of the present invention;

wherein the reference symbols are:

100. a holder unit; 110. a moving groove; 120. a driven groove; 130. an active slot; 140. a chute; 150. a brush element;

200. an active unit; 210. a rotating shaft; 220. a driving wheel; 221. a rotating tank; 222. a limiting groove; 230. a crank element; 240. an operation block;

300. a limiting unit; 310. a limiting member; 320. a return spring;

400. a driven unit; 410. a rack member; 420. a driven wheel;

500. a clamping unit; 510. a telescopic rod; 511. an outer rod; 512. a telescopic groove; 513. an inner rod; 520. a clamping plate; 530. a buffer layer; 540. a first gear hole; 550. a second gear hole; 560. a limiting rod.

Detailed Description

In order to facilitate an understanding of the utility model, the utility model is described in more detail below with reference to the accompanying drawings and specific examples. It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present. As used in this specification, the terms "upper," "lower," "inner," "outer," "vertical," "horizontal," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the utility model and simplicity in description, and do not indicate or imply that the referenced devices or elements must be in a particular orientation, constructed and operated in a particular orientation, and are not to be considered limiting of the utility model. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items. Furthermore, the technical features mentioned in the different embodiments of the utility model described below can be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 to 3, the cow neck clamp of the present invention includes a support unit 100, a driving unit 200, a limiting unit 300, a driven unit 400, and a clamping unit 500, wherein the support unit 100 is used for mounting the driven unit 400, the driving unit 200, the limiting unit 300, and the clamping unit 500; the driving unit 200 is disposed inside the supporting unit 100 and is used for driving the driven unit 400 to work; the limiting unit 300 is disposed inside the bracket unit 100 and is used for limiting the driving unit 200 to stop the rotation of the driving unit 200; the driven unit 400 is disposed inside the bracket unit 100, and is engaged with the driving unit 200 to drive the clamping unit 500 to move up and down; the holding unit 500 is disposed inside the holder unit 100, and is used for holding the neck of the cow.

The bracket unit 100 is square-shaped and is used for providing a mounting and supporting platform for mounting the driving unit 200, the limiting unit 300, the driven unit 400 and the clamping unit 500.

The rack unit 100 includes two moving slots 110, two driven slots 120, two driving slots 130, and two sliding slots 140.

The two moving grooves 110 are respectively opened inside both side walls of the holder unit 100, and the moving grooves 110 are used to mount the corresponding driven units 400, and allow the first ends of the driven units 400 to move up and down inside the moving grooves 110.

The two driven grooves 120 are respectively opened inside two side walls of the two rack units 100, are located at one side of the corresponding moving groove 110, and are communicated with the corresponding moving groove 110, and the driven groove 120 is used for installing a second end of the corresponding driven unit 400.

The two driving grooves 130 are opened inside two sidewalls of the rack unit 100, are located at one side of the corresponding moving groove 110, and are communicated with the corresponding driven grooves 120, and the driving grooves 130 are used for installing the corresponding driving units 200.

The two sliding grooves 140 are respectively formed in the side walls of the rack unit 100 and are communicated with the corresponding moving grooves 110, and the sliding grooves 140 are used for mounting the first end of the clamping unit 500 and facilitating the clamping unit 500 to move up and down along the sliding grooves 140.

Wherein the opening of the chute 140 is directed to the inside of the holder unit 100.

The first ends of the two driving units 200 are disposed in the corresponding driving grooves 130 and engaged with the second ends of the corresponding driven units 400, the second ends of the two driving units 200 penetrate through the sidewalls of the corresponding driving grooves 130 and are located outside the sidewalls of the supporting frame unit 100, and the driving units 200 are used for driving the corresponding driven units 400 to work, so that the driven units 400 drive the clamping units 500 to move up and down.

The two limiting units 300 are disposed inside the corresponding active grooves 130, and are disposed corresponding to and matching with the first ends of the corresponding active units 200, so as to limit the active units 200, thereby preventing the active units 200 from rotating by themselves when the clamping unit 500 moves to a specific position, which causes the clamping unit 500 to continue to move upwards or downwards and cannot clamp and fix the neck of the cow.

The first ends of the two driven units 400 are disposed inside the corresponding moving grooves 110, the second ends of the two driven units 400 are disposed inside the corresponding driven grooves 120, and the driven units 400 are used for driving the clamping unit 500 to move up and down under the driving of the driving unit 200.

The two clamping units 500 are oppositely disposed on two sidewalls of the bracket unit 100, and a first end of each clamping unit 500 is fixedly connected to a first end of the corresponding driven unit 400, so as to clamp the neck of the cow.

As shown in fig. 4 to 7, the driving unit 200 includes a rotating shaft 210, a driving wheel 220 and a crank element 230, wherein the rotating shaft 210 is used for rotatably disposing the driving wheel 220 inside the driving groove 130; the driving wheel 220 is disposed inside the driving groove 130 and configured to rotate inside the driving groove 130 to drive the driven unit 400 to work; the crank element 230 is disposed inside the driving groove 130 for driving the driving wheel 220 to rotate.

The rotation shaft 210 is slidably disposed on a sidewall of the driving groove 130, a first end of the rotation shaft 210 is disposed inside the driving groove 130, a second end of the rotation shaft 210 is disposed outside the holder unit 100, and the rotation shaft 210 is used to enable the driving pulley 220 to rotate inside the driving groove 130.

Wherein the rotation shaft 210 can slide relative to the sidewall of the driving groove 130, but cannot rotate.

For example, the rotation shaft 210 may be slid but not rotated on the side wall of the driving groove 130 by providing sliders on both sides of the rotation shaft 210, forming a fixing groove on the side wall of the driving groove 130, and fitting the rotation shaft 210 on the side wall of the driving groove 130 such that the sliders are positioned inside the fixing groove.

The driving wheel 220 is disposed inside the driving groove 130, is coaxially and rotatably connected to the rotating shaft 210, and is engaged with the second end of the driven unit 400, the rotating groove 221 is disposed at the first end of the driving wheel 220, the limiting groove 222 is disposed at the second end of the driving wheel 220, the limiting groove 222 corresponds to the corresponding limiting unit 300, and the driving wheel 220 can rotate around the rotating shaft 210 to drive the driven unit 400 to work.

Wherein the driving pulley 220 can rotate inside the driving groove 130 supported by the rotation shaft 210 and the crank member 230.

The first end of the crank element 230 is disposed inside the driving slot 130 and is matched with the rotating slot 221, the second end of the crank element 230 passes through the sidewall of the driving slot 130 and is located outside the rack unit 100, and the crank element 230 is used for driving the driving wheel 220 to rotate.

The crank element 230 is rotatably connected to the sidewall of the driving slot 130, for example, the second end of the crank element 230 is sleeved with a bearing, and the bearing is embedded in the sidewall of the driving slot 130, so that the crank element 230 and the sidewall of the driving slot 130 rotate relatively.

Specifically, when the driving unit 200 operates, a worker inserts the first end of the crank element 230 into the rotation slot 221, and then rotates the crank element 230, so that the crank element 230 drives the driving pulley 220 to rotate around the rotation shaft 210.

Further, in order to adjust the rotating shaft 210, the driving unit 200 further includes an operation block 240, the operation block 240 is disposed at the second end of the rotating shaft 210, and the operation block 240 is used to adjust the rotating shaft 210, so that the rotating shaft 210 drives the limiting unit 300 to enter the limiting groove 222, so that the limiting unit 300 limits the driving wheel 220.

As shown in fig. 7, the limiting unit 300 includes a limiting member 310 and a return spring 320, wherein the limiting member 310 is disposed inside the driving groove 130, and is disposed around the rotating shaft 210, and is configured to enter the limiting groove 222 under the action of the rotating shaft 210 to limit the driving wheel 220; the return spring 320 is sleeved on the rotating shaft 210 and is respectively fixedly connected to the sidewall of the driving groove 130 and the limiting member 310, so as to separate the limiting member 310 from the limiting groove 222 to release the driving wheel 220.

The limiting member 310 is disposed inside the active slot 130 and sleeved on the first end of the active unit 200 for limiting the active unit 200.

Specifically, the limiting member 310 is sleeved on the rotating shaft 210 of the driving unit 200 and can slide along with the rotating shaft 210 to enter or leave the limiting groove 222 of the driving wheel 220.

For example, when the active unit 200 is limited, the worker pushes the rotating shaft 210 to slide toward the driving wheel 220, and then the rotating shaft 210 drives the limiting member 310 to enter the limiting groove 222 to limit the driving wheel 220, and at this time, the limiting groove 222 presses the limiting member 310 to prevent the limiting member 310 from being separated from the limiting groove 222 under the action of the return spring 320.

The return spring 320 is disposed at a first end of the driving unit 200, the first end of the return spring 320 is fixedly connected to a sidewall of the driving groove 130, a second end of the return spring 320 is fixedly connected to the limiting member 310, and the return spring 320 is used to reset the limiting member 310 to release the driving wheel 220.

Specifically, in the case that the driving wheel 220 needs to be released, the operator uses the crank element 230 to apply a reverse rotational force to the driving wheel 220, so that the limiting groove 222 of the driving wheel 220 does not press the limiting member 310, and at this time, the limiting member 310 leaves the limiting groove 222 under the action of the return spring 320.

As shown in fig. 5, the driven unit 400 includes a rack member 410 and a driven wheel 420, wherein the rack member 410 is disposed inside the moving slot 110 and is fixedly connected to a first end of the clamping unit 500 for driving the clamping unit 500 to move up and down; the driven wheel 420 is disposed inside the driven groove 120, and is engaged with the rack element 410 and the driving wheel 220, respectively, for driving the rack element 410 to move up and down under the driving of the driving wheel 220.

The rack element 410 is vertically and slidably disposed inside the moving slot 110 and fixedly connected to the first end of the corresponding clamping unit 500, and the rack element 410 is driven by the driven wheel 420 to move up and down inside the moving slot 110, and then drives the clamping unit 500 to move up and down, so that the clamping unit 500 can clamp cows with different heights.

The driven wheel 420 is rotatably disposed inside the driven groove 120 and is respectively engaged with the driving wheel 220 and the rack element 410, and the driven wheel 420 is driven by the driving wheel 220 to rotate and is used for driving the rack element 410 to move up and down inside the moving groove 110.

As shown in fig. 4, the clamping unit 500 includes a telescopic rod 510 and a clamping plate 520, wherein the telescopic rod 510 is fixedly connected to the first end of the driven unit 400, and is driven by the driven unit 400 to move up and down; the clamping plate 520 is disposed at the second end of the telescopic rod 510 for clamping the neck of the cow.

The first end of the telescopic rod 510 is fixedly connected with the first end of the driven unit 400, that is, the first end of the telescopic rod 510 is fixedly connected with the rack element 410, and is driven by the rack element 410 to move up and down so as to clamp and fix the neck of the cows with different heights.

The clamping plate 520 is disposed at the second end of the telescopic rod 510 for clamping the neck of the cow.

Further, in order to avoid the cow from being injured by the clamping plate 520, the clamping unit 500 further includes a buffer layer 530, and the buffer layer 530 covers an end of the clamping plate 520 away from the telescopic rod 510.

The buffer layer 530 includes, but is not limited to, a rubber layer and a sponge layer.

Further, in order to clamp cows with different neck widths, as shown in fig. 8, the telescopic rod 510 comprises an outer rod 511, a telescopic slot 512 and an inner rod 513, wherein a first end of the outer rod 511 is fixedly connected with a first end of the driven unit 400 and is used for moving up and down along with the driven unit 400; the telescopic groove 512 is formed in the second end of the outer rod 511 and used for installing the inner rod 513; the inner rod 513 is disposed inside the telescopic slot 512, and is used to extend or shorten the length of the telescopic rod 510, so that the clamping plate 520 clamps necks with different widths.

A first end of the outer lever 511 is fixedly connected to a first end of the driven unit 400, that is, the first end of the outer lever 511 is fixedly connected to the rack member 410, and the outer lever 511 is adapted to move up and down with the rack member 410.

A telescopic slot 512 is opened at the second end of the outer rod 511 for mounting the inner rod 513.

The first end of the inner rod 513 is sleeved inside the telescopic slot 512, and the second end of the inner rod 513 is fixedly connected with the clamping plate 520, so as to extend or shorten the length of the telescopic rod 510.

Further, in order to fix the inner rod 513 and the outer rod 511, the telescopic rod 510 further includes a plurality of first gear holes 540, a second gear hole 550 and a limiting rod 560, wherein the plurality of first gear holes 540 are disposed in the inner rod 513 at intervals and used for fixing the inner rod 513 inside the telescopic slot 512; the second gear hole 550 is disposed inside the second gear hole 550, and is used for fixing the inner rod 513 inside the telescopic slot 512; the limiting rod 560 is disposed inside the second gear hole 550, and is used to enter the corresponding first gear hole 540, so as to fix the inner rod 513 inside the telescopic slot 512.

The first shift holes 540 are formed in the first end of the inner rod 513 along the longitudinal direction of the inner rod 513, and the first shift holes 540 are used for fixing the inner rod 513 inside the telescopic slot 512.

The second gear holes 550 are opened in the side walls of the telescopic slot 512, correspond to the corresponding first gear holes 540, and are used for fixing the inner rod 513 inside the telescopic slot 512.

The limiting rod 560 is disposed inside the second gear hole 550, and corresponds to the corresponding first gear hole 540, for matching the second gear hole 550 and the corresponding first gear hole 540 to fix the inner rod 513 inside the telescopic slot 512.

Specifically, in the case where the inner rod 513 is fixed inside the telescopic slot 512, the worker sequentially passes the stopper rod 560 through the second gear hole 550 and the corresponding first gear hole 540.

Further, in order to prevent foreign substances from entering the inside of the sliding groove 140 or the moving groove 110 and affecting the vertical sliding of the holding unit 500 or the rack member 410, the holder unit 100 includes a plurality of brush members 150, and the plurality of brush members 150 are disposed at both sides of the corresponding sliding groove 140 to prevent the foreign substances from entering the inside of the moving groove 110.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A cow neck clamp is characterized by comprising:

the support unit, the support unit is the square font, the support unit includes:

the two moving grooves are respectively formed in the inner parts of the two side walls of the support unit;

the two driven grooves are respectively formed in the inner parts of the two side walls of the two support units, are positioned on one side of the corresponding moving groove and are communicated with the corresponding moving groove;

the two driving grooves are formed in the inner parts of the two side walls of the support unit, are positioned on one side of the corresponding moving groove and are communicated with the corresponding driven grooves;

the two sliding grooves are respectively arranged on two side walls of the support unit and communicated with the corresponding moving grooves;

the first ends of the two active units are arranged in the corresponding active grooves, and the second ends of the two active units penetrate through the side walls of the corresponding active grooves and are positioned outside the side walls of the support units;

the two limiting units are arranged inside the corresponding active grooves, correspond to the first ends of the corresponding active units, are arranged in a matched mode, and are used for limiting the active units;

the first ends of the two driven units are arranged in the corresponding moving grooves, and the second ends of the two driven units are arranged in the corresponding driven grooves and are meshed with the first ends of the driving units;

the two clamping units are arranged on two side walls of the support unit relatively, and first ends of the clamping units are fixedly connected with first ends of the driven units correspondingly and used for clamping the neck of the cow.

2. The cow neck clamp according to claim 1, wherein the driven unit includes:

the rack element is vertically and slidably arranged inside the moving groove and is fixedly connected with the first end of the corresponding clamping unit;

and the driven wheel is rotatably arranged inside the driven groove and is respectively meshed and connected with the rack element and the first end of the driving unit.

3. The cow neck clamp according to claim 1, wherein the active unit comprises:

the rotating shaft is arranged on the side wall of the driving groove in a sliding mode, a first end of the rotating shaft is arranged inside the driving groove, and a second end of the rotating shaft is located outside the support unit;

the driving wheel is arranged inside the driving groove, is coaxial and rotatably connected with the rotating shaft, and is meshed and connected with the second end of the driven unit, a rotating groove is formed in the first end of the driving wheel, a limiting groove is formed in the second end of the driving wheel, and the limiting groove corresponds to the corresponding limiting unit;

and a first end of the crank element is arranged in the driving groove and matched with the rotating groove, and a second end of the crank element penetrates through the side wall of the driving groove and is positioned outside the support unit.

4. The cow neck clamp according to claim 3, wherein the active unit further comprises:

an operation block disposed at a second end of the rotation shaft.

5. The cow neck clamp according to claim 1, wherein the stopper unit comprises:

the limiting piece is arranged in the driving groove, sleeved with the first end of the driving unit and used for limiting the driving unit;

the reset spring is sleeved at the first end of the driving unit, the first end of the reset spring is fixedly connected with the side wall of the driving groove, and the second end of the reset spring is fixedly connected with the limiting part.

6. The cow neck clamp according to claim 1, wherein the clamping unit comprises:

the first end of the telescopic rod is fixedly connected with the first end of the driven unit;

the grip block, the grip block set up in the second end of telescopic link for the neck of centre gripping milk cow.

7. The cow neck clamp according to claim 6, wherein the clamping unit further comprises:

the buffer layer covers the clamping plate and is arranged at one end, far away from the telescopic rod, of the clamping plate.

8. The cow neck clamp of claim 6, wherein the telescoping rod comprises:

the first end of the outer rod is fixedly connected with the first end of the driven unit;

the telescopic groove is formed in the second end of the outer rod;

the first end of the inner rod is sleeved inside the telescopic groove, and the second end of the inner rod is fixedly connected with the clamping plate.

9. The cow neck clamp of claim 8, wherein the telescoping rod further comprises:

the first gear holes are formed in the first end of the inner rod along the length direction of the inner rod;

the second gear hole is formed in the side wall of the telescopic groove and corresponds to the corresponding first gear hole;

and the limiting rod is arranged inside the second gear hole and corresponds to the first gear hole.

10. A cow neck clamp according to claim 1, wherein the stand unit comprises:

and the brush elements are arranged on two sides of the corresponding sliding groove and used for preventing external substances from entering the moving groove.

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