CN215458955U - Injection frame of injecing - Google Patents

Abstract

The utility model discloses an injection frame for injection, which solves the technical problems of large workload, difficult operation, time and labor waste in piglet injection operation in the prior art. The utility model provides a needle injection frame which comprises a fixed base, a needle injection dragging block and an injector holding block, wherein the needle injection dragging block and the injector holding block are matched with a handheld injector, the injector holding block is of an L-shaped structure and comprises a vertical holding block and a transverse sliding bottom block, an inward pressing plate and a handle at the rear part of the handheld injector are clamped in a bent part of the L-shaped structure of the injector holding block, the front part of the handheld injector is abutted against the upper part of the needle injection dragging block, and the rear end of the needle injection dragging block is elastically connected with the vertical holding block of the injector holding block through an elastic connecting device. Can be widely applied to the technical field of livestock breeding.

Description

Injection frame of injecing

Technical Field

The utility model relates to the technical field of livestock breeding, in particular to an injection frame for injection.

Background

At present, the poultry breeding technology enters a new stage. The pig raising industry is an important industry in agriculture in China. Has important function for guaranteeing the safe supply of meat food. The breeding of the piglets is the most key growth stage in the growth process of the pigs, and as the piglets have unique growth and development rules and physiological characteristics, multiple stresses such as environmental stress, nutritional stress, immaturity of immunity and the like easily occur, so that the newborn piglets are sickly and have high mortality.

Therefore, in the breeding process, the piglets need to be injected with epidemic prevention vaccines or nutritional supplements, but most of the piglets are injected by using a common injector, and the pigs are easy to violently move during injection, so that the injection work is influenced, the burden of workers is increased, and the existing large-scale breeding requirements cannot be met.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects and shortcomings in the prior art, the utility model provides the injection frame for injection, which has simple and ingenious structural design, is time-saving and labor-saving, can be used for carrying out injection operation on piglets, obviously improves the working efficiency, meets the requirement of large-scale breeding, realizes the accurate control on the injection amount of the injection and obviously improves the safety.

In order to achieve the purpose, the utility model is realized by the following technical scheme: the utility model provides a needle injection frame, which comprises a fixed base, a needle injection dragging block and an injector holding block, wherein the needle injection dragging block and the injector holding block are matched with a handheld injector, the injector holding block is of an L-shaped structure and comprises a vertical holding block and a transverse sliding bottom block, an inward pressing plate and a handle at the rear part of the handheld injector are clamped in a bent part of the L-shaped structure of the injector holding block, the front part of the handheld injector is abutted against the upper part of the needle injection dragging block, and the rear end of the needle injection dragging block is elastically connected with the vertical holding block of the injector holding block through an elastic connecting device;

the rear end of the transverse sliding bottom block is also fixedly connected with a vertical fixed support, and the vertical fixed support is provided with a backrest bearing which is abutted with a handle of the handheld injector;

the upper surface of the transverse sliding bottom block is provided with a first groove inwards in a concave mode, a first sliding block is arranged in the first groove, and the lower portion of the transverse sliding bottom block is connected with the first groove of the fixed base in a front-back sliding mode through a first sliding rail matched with the first sliding block.

Preferably, elastic connection device injects into the pad spring location axle and the syringe needle injection pad reset spring including the syringe needle that matches each other, the one end that the syringe needle injected into pad spring location axle is fixed in vertical holding the piece with adding, its other end stretches into in the syringe needle injects into the inside first horizontal through-hole of pad, the rear end that is located first horizontal through-hole is equipped with injects into pad reset spring assorted second recess with the syringe needle, the syringe needle injects into pad reset spring cup joints outside the syringe needle injection pad spring location axle, and its front end joint is in the second recess, the syringe needle injects into the pad and carries out the spacing slip of axial along syringe needle injection pad spring location axle.

Preferably, the two sides of the syringe needle injection dragging block are respectively and fixedly provided with a second transverse slide rail, the two sides of the vertical clamping block are respectively and symmetrically and fixedly provided with a third transverse slide rail slide block coated outside the second transverse slide rail, and a second transverse slide block matched with the second transverse slide rail is fixedly arranged inside the third transverse slide rail slide block.

Preferably, a fourth transverse sliding rail sliding block fixedly connected with the needle injection dragging block is further arranged on the outer side of the third transverse sliding rail sliding block, and the fourth transverse sliding rail sliding block and the second transverse sliding rail sliding along the third transverse sliding rail sliding block and the second transverse sliding block respectively along the back and forth movement of the needle injection dragging block.

Preferably, a needle injection starting device is fixedly arranged at the bottom of the needle injection dragging block and comprises a needle injection in-place limitation relieving driving block;

the fixed base positioned in the front of the injector holding block is also provided with a needle head injection in-place limiting shaft through connection of a first vertical supporting frame, the upper part of the needle head injection in-place limiting shaft is fixedly connected with a needle head injection in-place limiting and separating block through matching with the upper end of the first vertical supporting frame, the lower part of the needle head injection in-place limiting shaft is inserted into a limiting groove of the fixed base, two sides of the needle head injection in-place limiting and separating block are respectively connected with a deep groove ball bearing, after the needle head injection in-place limiting and separating driving block tail wedge structure is inserted into the deep groove ball bearing, the bottom of the needle head injection in-place limiting shaft is gradually lifted up through the tail wedge structure and separated from the limiting groove, the injector holding block can move backwards together with the needle head injection holding block, and the inward pressing plate and the handle of the hand-held injector are extruded.

Preferably, the front end of the needle injection drag block is provided with a ferrule matched with the injection needle, and the injection needle extends into the ferrule from the rear end of the needle injection drag block.

Preferably, one side of the upper part of the vertical fixed support is provided with a backrest bearing matched with a handle of the handheld injector, the backrest bearing is arranged on the vertical fixed support through an adjustable support, and when the handheld injector is clamped into the injection frame for injection, the handle of the handheld injector is abutted against the backrest bearing.

Preferably, the other side of the vertical fixed support is provided with a backrest adjusting differential head which penetrates through the vertical fixed support and is connected with the backrest bearing.

Preferably, adjusting bolts respectively penetrating through the vertical fixed support and connected with the two side plates of the adjustable support are further arranged on the two sides of the backrest adjusting differential head, and a backrest adjusting compression spring is further sleeved on each adjusting bolt.

Preferably, the vertical holding block is further provided with a needle injection front end limiting shaft, and the fourth transverse sliding rail sliding block is further provided with a transverse limiting hole matched with the needle injection front end limiting shaft and used for limiting the front-back movement position of the fourth transverse sliding rail sliding block.

The utility model provides an injection frame. The method has the following beneficial effects:

(1) the injection frame for injection has the advantages of ingenious structural design, simple and ingenious structural design, time and labor saving for injection operation of piglets, remarkable improvement of working efficiency and capability of meeting the requirement of large-scale breeding.

(2) The injection frame provided by the utility model has the advantages that the injection amount of the injection is accurately controlled through the matching design of the positioning and adjusting structure, and the safety of injection operation is also obviously improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the partial cross-sectional view of FIG. 1;

FIG. 3 is a schematic left side view of FIG. 1;

FIG. 4 is a schematic structural view of a cross-sectional view A-A of FIG. 3;

FIG. 5 is a schematic view of the hand-held syringe of FIG. 1 with the hand-held syringe removed;

FIG. 6 is a schematic structural view of the perspective view of FIG. 5;

FIG. 7 is a schematic structural view of a cross-sectional view B-B of FIG. 1;

fig. 8 is a schematic structural view of a cross-sectional view E-E in fig. 1.

In the figure: 1. the injection device comprises a handheld injector, 2, a second transverse sliding rail, 3, a second transverse sliding block, 4, a needle injection front end limiting shaft, 5, a backrest adjusting compression spring, 6, a needle injection dragging block, 7, a backrest bearing, 8, a backrest adjusting differential head, 9, a first sliding rail, 10, a first sliding block, 11, an injector clamping block, 12, a needle injection in-place limiting shaft, 13, a needle injection in-place limiting and disengaging block, 14, a needle injection in-place limiting and disengaging driving block, 15, a needle injection dragging block spring positioning shaft, 16, a needle injection dragging block reset spring, 17, a first groove, 18, a ferrule, 19, a first transverse through hole, 20, a third transverse sliding rail sliding block, 21, a fourth transverse sliding rail sliding block, 22, a fixed base, 23, a vertical fixed support, 101, an inward pressing plate and 102, a handle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, e.g., as meaning permanently attached, removably attached, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring to fig. 1 to 8, the present invention provides a technical solution:

the utility model provides a needle injection frame, which comprises a fixed base 22, a needle injection support block 6 and an injector support block 11, wherein the needle injection support block 6 and the injector support block 11 are matched with a handheld injector 1, the injector support block 11 is of an L-shaped structure and comprises a vertical support block and a transverse sliding bottom block, an inward pressing plate 101 and a handle 102 at the rear part of the handheld injector 1 are clamped in a bent part of the L-shaped structure of the injector support block 11, the front part of the handheld injector 1 is abutted against the upper part of the needle injection support block 6, and the rear end of the needle injection support block 6 is elastically connected with the vertical support block of the injector support block 11 through an elastic connecting device; the front end that the syringe needle injected into drags piece 6 is equipped with syringe needle assorted lasso 18, and syringe needle from the syringe needle inject into drag piece 6 the rear end stretch into lasso 18 inside, on the one hand, prevent that the syringe needle from leaking into drags 6 front ends of piece and causing the potential safety hazard easily at the syringe needle, on the other hand, can also according to actual injection needs, press after the accurate positioning again, labour saving and time saving is showing and is improving work efficiency.

The rear end of the transverse sliding bottom block is also fixedly connected with a vertical fixed support 23, and the vertical fixed support 23 is provided with a backrest bearing 7 which is abutted with a handle 102 of the handheld injector 1;

the upper surface of the transverse sliding bottom block is provided with a first groove 17 which is inwards recessed, a first sliding block 10 is arranged in the first groove 17, and the lower part of the transverse sliding bottom block can be connected with the first groove 17 of the fixed base 22 in a front-back sliding mode through a first sliding rail 9 matched with the first sliding block 10.

Elastic connection device is including the syringe needle injection of mutual matching drags a spring location axle 15 and syringe needle injection drags a reset spring 16, the one end that syringe needle injection drags a spring location axle 15 is fixed in vertical holding the piece, its other end stretches into syringe needle injection drags in the inside first horizontal through-hole 19 of piece 6, the rear end that lies in first horizontal through-hole 19 is equipped with and injects into the second recess that drags a reset spring 16 assorted with the syringe needle, syringe needle injection drags a reset spring 16 cup joints outside syringe needle injection drags a spring location axle 15, and its front end joint is in the second recess, syringe needle injection drags a 6 and carries out the spacing slip of axial along syringe needle injection drags a spring location axle 15, ensure that syringe needle injection drags a 6 and move along syringe needle injection drags a spring location axle 15, make whole needle and injection process accurate control, show improvement work efficiency.

According to the injection frame for injection, when vaccines or nutrients are injected to piglets, the piglets can be lifted by one person and pressed at the front end of the injection frame for injection, so that the injection process can be completed, the injection operation on the piglets is time-saving and labor-saving, the working efficiency is obviously improved, and the requirements of large-scale and mechanized pig farms are met.

The two sides of the needle injection dragging block 6 are respectively and fixedly provided with a second transverse slide rail 2, the two sides of the vertical clamping block are respectively and symmetrically provided with a third transverse slide rail slide block 20 coated outside the second transverse slide rail 2, and a second transverse slide block 3 matched with the second transverse slide rail 2 is fixedly arranged inside the third transverse slide rail slide block 20. The outer side of the third transverse sliding rail sliding block 20 is also provided with a fourth transverse sliding rail sliding block 21 fixedly connected with the needle injection dragging block 6, the fourth transverse sliding rail sliding block 21 and the second transverse sliding rail 2 both inject the back and forth movement of the dragging block 6 along with the needle, and respectively slide along the third transverse sliding rail sliding block 20 and the second transverse sliding block 3, so that the further accurate control of the back and forth movement position of the needle injection dragging block 6 is realized, the phenomenon of looseness in the back and forth movement process is prevented, the accurate control of the injection process is ensured, and the actual use requirements are better met.

Still be equipped with the syringe needle on the vertical piece of holding that adds and pour into front end spacing axle 4 into, still be equipped with on the fourth transverse sliding rail slider 21 with the syringe needle pour into the 4 assorted horizontal spacing holes of front end spacing axle into, syringe needle pour into front end spacing axle 4 and insert horizontal spacing downthehole for the back-and-forth movement position of restriction fourth transverse sliding rail slider 21, further ensure, the syringe needle is pricked before pouring into and is injected the effective control of needle and injection process, ensure the accuracy of whole injection process injection volume.

The utility model provides an injection frame, wherein a needle injection starting device is fixedly arranged at the bottom of a needle injection dragging block 6 and comprises a needle injection in-place limiting and releasing driving block 14, a needle injection in-place limiting shaft 12 is also connected and arranged on a fixed base 22 positioned at the front part of an injector holding block 11 through a first vertical supporting frame, the upper part of the needle injection in-place limiting shaft 12 is fixedly connected with a needle injection in-place limiting and releasing block 13 matched with the upper end of the first vertical supporting frame, the lower part of the needle injection in-place limiting shaft 12 is inserted into a limiting groove of the fixed base 22, deep groove ball bearings are respectively connected with the two sides of the needle injection in-place limiting and releasing block 13, and when a tail wedge structure of the needle injection in-place limiting and releasing driving block 14 is inserted under the deep groove ball bearings, the needle is gradually lifted up to the bottom of the lifting limiting shaft 12 through the tail wedge structure, After the injection device is separated from the limiting groove, the injector clamping block 11 can move backwards along with the needle injection dragging block 6 and the fixed base 22, the injector clamping block 11 and the vertical fixed support 23 extrude the inward pressing plate 101 and the handle 102 of the handheld injector 1 together, and liquid in the handheld injector 1 can be accurately injected into a piglet body.

One side of the upper part of the vertical fixed support 23 is provided with a backrest bearing 7 matched with the handle 102 of the handheld injector 1, the backrest bearing 7 is arranged on the vertical fixed support 23 through an adjustable support, and when the handheld injector 1 is clamped into an injection frame, the handle 102 of the handheld injector 1 is abutted to the backrest bearing 7. The other side of the vertical fixed support 23 is provided with a backrest adjusting differential head 8 which passes through the vertical fixed support and is connected with the backrest bearing 7. Be located back adjustment differential head 8 both sides still to be equipped with and run through vertical fixing support 23 respectively, and the adjusting bolt who is connected with adjustable support's both sides board, adjusting bolt is last still to have cup jointed back adjustment compression spring 5, through back adjustment compression spring 5, adjusting bolt and back adjustment differential head 8, to the accurate adjustment of position between back bearing 7 and the handle 102, the realization carries out accurate control to the liquid volume of hand-held type syringe 1 injection, satisfy the in-service use demand, but application range is wide.

The injection frame provided by the utility model has the following specific using and operating processes:

when the hand-held injector 1 works, after the hand-held injector is arranged on the injection frame, the position between the backrest bearing 7 and the handle 102 is accurately adjusted by adjusting the backrest adjusting compression spring 5, the adjusting bolt and the backrest adjusting differential head 8 according to the injection amount of injection required actually, so that the accurate selection control of the injection amount is realized;

preparing a proper amount of vaccine liquid medicine or nutritional supplement liquid according to the growth state of a pig needing to be injected with the vaccine or nutritional supplement, transferring the vaccine liquid medicine or nutritional supplement liquid into a liquid storage bottle of the handheld injector 1, and allowing the liquid medicine or nutritional supplement liquid to flow into the first tube body through the insertion needle, so as to adjust the liquid medicine or nutritional supplement liquid to have an injection state;

a worker lifts the piglet by one person, and pushes the piglet backwards after aligning the injection part with the ferrule 18 at the front end of the needle injection drag block 6, firstly, the needle injection drag block 6 is retreated and moves backwards, and the injection needle of the handheld injector 1 is inserted into the piglet body; and continuously pushing backwards, after the tail wedge-shaped structure of the needle head injection in-place limitation release driving block 14 is inserted into the deep groove ball bearing, the bottom of the needle head injection in-place limitation shaft 12 is gradually lifted and separated from the limitation groove through the tail wedge-shaped structure, the syringe clamping block 11 can move backwards together with the needle head injection dragging block 6 and the fixed base 22, the syringe clamping block 11 and the vertical fixed support 23 extrude the inward pressing plate 101 and the handle 102 of the handheld syringe 1 together, and liquid in the handheld syringe 1 is accurately injected into a piglet body.

After the injection is finished once, no backward thrust is applied, firstly, the elastic deformation between the inward pressing plate 101 and the handle 102 of the extrusion hand-held injector 1 is restored to the original position, the vertical fixed support 23 and the injector holding block 11 both move forwards, after the vertical fixed support 23 is restored to the original position, the needle injection drag block 6 continues to move forwards along the needle injection drag block spring positioning shaft 15 to be restored to the original position under the action of the elastic thrust produced after the needle injection drag block return spring 16 is compressed, in the process, the tail wedge structure of the position limitation relieving drive block is drawn out from the bottom of the position limiting shaft, the needle injection in-place limitation separation block 13 is descended after losing the support, the needle injection in-place limitation shaft 12 is descended along with the needle injection in-place limitation shaft, the lower part of the needle injection in-place limitation shaft is inserted into the limitation groove of the fixed base 22, when the needle injection drag block return spring 16 is restored to the original position, the needle injection block 6 is also returned to its original position to await the next injection.

In conclusion, the injection frame for injection has simple and ingenious structural design, saves time and labor for the injection operation of piglets, obviously improves the working efficiency and meets the requirement of large-scale cultivation; through the matching design of the positioning and adjusting structure, the injection volume of the injection can be accurately controlled, and the safety of injection operation is also obviously improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (10)

1. A needle injection frame is characterized by comprising a fixed base, a needle injection dragging block and an injector clamping block, wherein the needle injection dragging block and the injector clamping block are matched with a handheld injector, the injector clamping block is of an L-shaped structure and comprises a vertical clamping block and a transverse sliding bottom block, an inward pressing plate and a handle at the rear part of the handheld injector are clamped in a bent part of the L-shaped structure of the injector clamping block, the front part of the handheld injector is abutted against the upper part of the needle injection dragging block, and the rear end of the needle injection dragging block is elastically connected with the vertical clamping block of the injector clamping block through an elastic connecting device;

the rear end of the transverse sliding bottom block is also fixedly connected with a vertical fixed support, and a backrest bearing which is abutted with a handle of the handheld injector is arranged on the vertical fixed support;

the upper surface of the transverse sliding bottom block is provided with a first groove in an inwards recessed mode, a first sliding block is arranged in the first groove, and the lower portion of the transverse sliding bottom block is connected with the first groove of the fixed base in a front-back sliding mode through a first sliding rail matched with the first sliding block.

2. The injection rack of claim 1, wherein the elastic connection device comprises a needle injection support spring positioning shaft and a needle injection support return spring, the needle injection support spring positioning shaft and the needle injection support return spring are matched with each other, one end of the needle injection support spring positioning shaft is fixed in the vertical holding block, the other end of the needle injection support spring positioning shaft extends into a first transverse through hole in the needle injection support, a second groove matched with the needle injection support return spring is formed in the rear end of the first transverse through hole, the needle injection support return spring is sleeved outside the needle injection support spring positioning shaft, the front end of the needle injection support return spring is clamped in the second groove, and the needle injection support is axially limited and slides along the needle injection support spring positioning shaft.

3. The injection rack according to claim 2, wherein second transverse slide rails are fixedly arranged on two sides of the needle injection dragging block, third transverse slide rail sliders are symmetrically and fixedly arranged on two sides of the vertical holding block and cover the second transverse slide rails, and second transverse slide blocks matched with the second transverse slide rails are fixedly arranged in the third transverse slide rail sliders.

4. A needle injection rack according to claim 3, wherein a fourth transverse slide rail slider fixedly connected to the needle injection block is further provided on the outer side of the third transverse slide rail slider, and the fourth transverse slide rail slider and the second transverse slide rail both slide along the third transverse slide rail slider and the second transverse slide rail respectively along with the forward and backward movement of the needle injection block.

5. The needle injection rack according to claim 2, wherein a needle injection starting device is fixedly arranged at the bottom of the needle injection dragging block, and comprises a needle injection in-place limiting and unlocking driving block;

the fixed base positioned at the front part of the injector holding block is also connected with a needle head injection in-place limiting shaft through a first vertical supporting frame, the upper part of the needle head injection in-place limiting shaft is fixedly connected with the needle head injection in-place limiting separation block matched with the upper end of the first vertical supporting frame, the lower part of the needle head injection in-place limiting shaft is inserted into the limiting groove of the fixed base, two sides of the needle head injection in-place limiting and separating block are respectively connected with a deep groove ball bearing, after the tail wedge-shaped structure of the needle head injection limiting and removing driving block is inserted into the lower part of the deep groove ball bearing, after the needle head is injected into the bottom of the limiting shaft to be gradually lifted and separated from the limiting groove through the tail wedge-shaped structure, the injector clamping block can move backwards along with the needle injection dragging block, and the inward pressing plate and the handle of the hand-held injector are squeezed.

6. A needle injection carrier according to claim 1, wherein said needle injection block is provided at a forward end thereof with a collar adapted to receive a needle, and said needle extends from a rearward end of said needle injection block into an interior of said collar.

7. A needle injection frame according to claim 1, characterized in that one side of the upper portion of the vertical fixing support is provided with the backrest bearing matched with the handle of the hand-held injector, the backrest bearing is arranged on the vertical fixing support through an adjustable support, and when the hand-held injector is clamped into the needle injection frame, the handle of the hand-held injector is abutted against the backrest bearing.

8. A needle injection rack according to claim 7, wherein the other side of the vertical fixing support is provided with a backrest adjustment differential head which passes through the vertical fixing support and is connected with the backrest bearing.

9. A needle injection frame according to claim 8, wherein adjusting bolts respectively penetrating through the vertical fixing support and connected with the two side plates of the adjustable support are further arranged on the two sides of the backrest adjusting differential head, and a backrest adjusting compression spring is further sleeved on each adjusting bolt.

10. A needle injection rack according to claim 4, characterized in that the vertical holding block is further provided with a needle injection front end limiting shaft, and the fourth transverse sliding rail sliding block is further provided with a transverse limiting hole matched with the needle injection front end limiting shaft for limiting the front-back movement position of the fourth transverse sliding rail sliding block.

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