CN221067010U - Nut feeding clamp and feeding device - Google Patents

Abstract

The application provides a nut feeding clamp and a nut feeding device, wherein the nut feeding clamp comprises a positioning plate; the pressing plate is arranged above the positioning plate and can be driven to move in a direction away from or close to the positioning plate; the first feeding assemblies comprise first pressing rods, first feeding sleeves and switching pieces, wherein the switching pieces are used for connecting the first pressing rods with first ejection rods arranged in the first feeding sleeves so as to enable the first pressing rods to form a certain angle with the first ejection rods; the fixed block connected with the first pressing rod is arranged below the pressing plate, the limiting plate for the free end of the first feeding sleeve to pass through is arranged below the positioning plate, so that the first ejection rod is driven by the pressing plate and the first pressing rod to move axially along the first feeding sleeve, feeding operation of nuts required by multiple angles can be achieved, and production efficiency is high.

Description

Nut feeding clamp and feeding device

Technical Field

The application belongs to the technical field of nut feeding, and particularly relates to a nut feeding clamp and a nut feeding device.

Background

In the injection molding industry, the injection molding part needs to be combined with the nut in the injection molding process for obtaining a finished product, for example, when a plastic sleeve is produced, the nut needs to be placed in an injection molding device in advance, and after the injection molding operation is finished, the nut is used for obtaining the finished product of the plastic sleeve.

At present, a nut feeding machine is generally used for carrying out nut feeding operation, and a plurality of nuts are arranged on an injection molding part, so that the nut feeding machine is required to put a plurality of nuts on the injection molding device to manufacture a complete injection molding part finished product, but the feeding mode cannot realize multi-angle nut feeding of different types, so that the nut feeding operation is complex and time-consuming, and the production efficiency is low. Therefore, how to realize nut feeding at different angles and improve the production efficiency is a problem to be solved urgently.

Disclosure of utility model

The application provides a nut feeding clamp and a nut feeding device, which are used for solving the problem of how to realize nut feeding at different angles and improving production efficiency.

In order to solve the technical problem, the application provides a nut feeding clamp, which comprises:

A positioning plate;

The pressing plate is arranged above the positioning plate and can be driven to move in a direction away from or close to the positioning plate;

the first feeding assemblies comprise first pressing rods, first feeding sleeves and switching pieces, wherein the switching pieces are used for connecting the first pressing rods with first ejection rods arranged in the first feeding sleeves so as to enable the first pressing rods to form a certain angle with the first ejection rods; the fixed block connected with the first pressing rod is arranged below the pressing plate, and the limiting plate for the free end of the first feeding sleeve to pass through is arranged below the positioning plate, so that the first ejection rod moves along the axial direction of the first feeding sleeve under the driving of the pressing plate and the first pressing rod.

As a further improvement of the application, the application also comprises a plurality of second feeding components;

The second feeding assembly comprises a second pressing rod arranged below the pressing plate and a second feeding sleeve arranged below the limiting plate, wherein the second pressing rod penetrates through the positioning plate and the limiting plate and then is connected with a second ejection rod arranged in the second feeding sleeve, so that the second ejection rod moves in the direction away from or close to the positioning plate in the second feeding sleeve under the driving of the pressing plate and the second pressing rod.

As a further improvement of the application, a first pressing inclined plane is arranged on one side of the fixed block connected with the first pressing rod, a first limiting inclined plane is arranged on one side of the limiting plate, which is used for the first feeding sleeve to pass through, in an extending manner, and a certain angle is formed between the first pressing rod and the first ejection rod by matching the first pressing inclined plane and the first limiting inclined plane;

The positioning plate is provided with a guide groove for the fixed block to move along the direction close to the positioning plate at the position corresponding to the projection of the fixed block in the vertical direction.

As a further improvement of the application, the first feeding assembly comprises a plurality of first feeding sleeves and first ejection rods arranged in each first feeding sleeve;

The first limiting inclined plane is provided with a guide block for a plurality of first feeding sleeves to pass through, one end of each first ejection rod passes through the guide block and then is connected with the corresponding adapter, and the other end of each first ejection rod passes through the corresponding first feeding sleeve.

As a further improvement of the application, the end part of the first feeding sleeve is provided with a first nut cylinder for placing nuts, and the nuts to be assembled arranged in the first nut cylinder are pressed to the corresponding positions of the die through the first ejection rod;

And/or the end part of the second feeding sleeve is provided with a second nut cylinder for placing nuts, and the nuts to be assembled arranged in the second nut cylinder are pressed to the corresponding positions of the die through the second ejector rod.

As a further improvement of the application, a plurality of guide posts are arranged between the positioning plate and the pressing plate, one ends of the guide posts are arranged on the top of the pressing plate in a sliding way, and the other ends of the guide posts penetrate through the pressing plate and are connected with the positioning plate.

As a further improvement of the application, a plurality of buffer rods are arranged between the positioning plate and the pressing plate, one ends of the buffer rods are arranged on the top of the pressing plate in a sliding way, and the other ends of the buffer rods penetrate through the pressing plate and are connected with the positioning plate;

The outer side wall cover of buffer rod is equipped with buffer spring, the locating plate top is seted up and is supplied buffer spring takes place the buffering recess of deformation.

As a further improvement of the present application, the present application further comprises a pressing handle which is erected above the pressing plates and can be driven to move in a direction away from or close to the positioning plates, and pressing members which are arranged between the pressing plates and between the positioning plates;

One end of the pressing piece is arranged at the top of the positioning plate, the other end of the pressing piece penetrates through the top of the pressing plate and then is arranged below the pressing handle, the bottom of the pressing handle is abutted to the pressing piece through pressing the pressing handle, and the pressing plate is driven to move along the direction away from or close to the positioning plate.

As a further improvement of the application, a plurality of positioning extension plates are arranged on the edge of the positioning plate in an extending way, and a mold positioning column for fixing the positioning plate above a mold is arranged at the bottom of each positioning extension plate.

The application also provides a nut feeding device, which comprises the nut feeding clamp, a die arranged below the nut feeding clamp, and a plurality of nuts to be assembled which are arranged in the nut feeding clamp, wherein the nuts to be assembled are pressed to the corresponding positions of the die by pressing the nut feeding clamp.

Compared with the prior art, the nut feeding clamp and the feeding device provided by the embodiment of the application have the advantages that the plurality of first feeding components are arranged between the pressing plate and the positioning plate, a certain angle is formed between the first pressing rod and the first ejection rod, and the first ejection rod presses the nuts to be assembled, which are arranged in the first nut cylinder, to the corresponding positions of the die at a certain angle under the driving of the pressing plate, so that the assembling action of the multi-angle nuts is realized; the second material loading components are arranged, the pressing plate drives the second material ejection rod to press the nuts to be assembled arranged in the second material loading sleeve to the corresponding positions of the die in the vertical direction, so that the nut assembling action in the vertical direction is realized; the buffer rod and the buffer spring are arranged between the pressing plate and the positioning plate, so that the influence of rebound of the pressing plate on the nut assembly effect in the pressing process is avoided; during application, nuts of different types are only required to be placed in the first nut cylinder and the second nut cylinder, feeding of nuts required by multiple types at multiple angles can be achieved through one-time pressing action, operation is simple and convenient, time and labor are saved, and working efficiency of a production line is improved.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a nut feeding fixture according to an embodiment of the present application;

Fig. 2 is a schematic structural diagram of a second feeding assembly in a nut feeding fixture according to an embodiment of the present application;

Fig. 3 is a schematic structural view of a second pressing rod in a nut feeding fixture according to an embodiment of the present application;

Fig. 4 is a side view of a nut feeding fixture provided by an embodiment of the present application;

Fig. 5 is a schematic diagram of a pressing direction of a nut feeding fixture according to an embodiment of the present application.

Reference numerals illustrate:

10-positioning plates; 11-limiting plates; 12-a first limiting inclined plane; 13-a guide groove; 14-positioning an extension plate; 15-a mold positioning column; 20-pressing the plate; 21-a fixed block; 22-a first pressing ramp; 23-a guide block; 30-a first feeding component; 31-a first pressing rod; 32-a first feeding sleeve; 33-an adapter; 34-a first ejector pin; 35-a first nut cylinder; 40-a second feeding assembly; 41-a second pressing rod; 42-a second feeding sleeve; 43-a second nut cylinder; 50-guiding columns; 51-a buffer rod; 52-a buffer spring; 53-a buffer groove; 54-pressing the handle; 55-pressing piece.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be described in further detail with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

In the description of the present application, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise. All directional indications (such as up, down, left, right, front, back … …) in the embodiments of the present application are merely used to explain the relative positional relationship, movement, etc. between the components in a particular gesture (as shown in the drawings), and if the particular gesture changes, the directional indication changes accordingly. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

In order that the present disclosure may be more fully described and fully understood, the following description is provided by way of illustration of embodiments and specific examples of the present application; this is not the only form of practicing or implementing the application as embodied. The description covers the features of the embodiments and the method steps and sequences for constructing and operating the embodiments. However, other embodiments may be utilized to achieve the same or equivalent functions and sequences of steps.

Referring to fig. 1-5, in order to solve the problem of how to realize nut feeding at different angles and improve production efficiency in the prior art, an embodiment of the application provides a nut feeding clamp and a nut feeding device. Referring to fig. 1, a schematic structural diagram of a nut feeding fixture according to an embodiment of the present application is provided, the nut feeding fixture includes a positioning plate 10 and a pressing plate 20 disposed above the positioning plate 10, wherein the pressing plate 20 can be driven to move in a direction away from or close to the positioning plate 10, and the pressing plate 20 is disposed above the positioning plate 10 in fig. 1, so that it can be understood that the pressing plate 20 is driven to move in a vertical direction relative to the positioning plate 10.

It should be noted that the driven movement includes manual driving or driving by a motor or other mechanical structure, and any structure is possible as long as the pressing plate 20 can be moved in a direction away from or toward the positioning plate 10, which is not limited in the present application.

Still include a plurality of first material loading subassembly 30 that are used for placing the nut and press the nut to the mould corresponding position, please continue to refer to fig. 1, this first material loading subassembly 30 includes first press pole 31, first material loading sleeve 32 and adaptor 33, be provided with first liftout pole 34 in the first material loading sleeve 32, this first liftout pole 34's one end setting can be along the axial displacement of first material loading sleeve 32 in first material loading sleeve 32, this first liftout pole 34's the other end extends first material loading sleeve 32 and is connected with adaptor 33, first press pole 31 is also connected with adaptor 33.

In the embodiment of the present application, the first ejector rod 34 and the first pressing rod 31 are connected through the adapter 33, so that a certain angle is formed between the first pressing rod 31 and the first ejector rod 34, and the fixed block 21 connected with the first pressing rod 31 is disposed below the pressing plate 20, so that one end of the first pressing rod 31 is connected with the fixed block 21, the other end of the first pressing rod 31 is connected with the adapter 33, and the first pressing rod 31 and the adapter 33 are limited below the pressing plate 20.

With continued reference to fig. 5, a schematic diagram of a pressing direction of a nut feeding fixture according to an embodiment of the present application may be observed that a limiting plate 11 through which a free end of a first feeding sleeve 32 passes is disposed below a positioning plate 10, so that a first feeding rod 34 moves along an axial direction of the first feeding sleeve 32 under the driving of the pressing plate 20 and the first pressing rod 31, that is, when the pressing plate 20 is driven downward, a downward driving force is converted to a first feeding rod 24 connected to the first pressing rod 31 through a fixing block 21, a first pressing rod 31 connected to the fixing block 21, and an adapter 33 connected to the adapter 33, so that the nut disposed in the first feeding sleeve 32 can be pressed to a corresponding position of a mold at a certain inclination angle according to a requirement because a certain angle is formed between the first pressing rod 31 and the first feeding rod 34.

Further, a first pressing inclined plane 22 is arranged on one side, connected with the first pressing rod 31, of the fixing block 21, a first limiting inclined plane 12 is arranged on one side, penetrating through the first pressing rod 31, of the limiting plate 11, penetrating through the first pressing sleeve 32, and due to the fact that the first pressing rod 31 is connected with the first pressing inclined plane 22, the first limiting inclined plane 12 is penetrated through the first pressing sleeve 32, a certain angle can be formed between the first pressing rod 31 and the first material ejection rod 34 in a matched mode through the arrangement of the first pressing inclined plane 22 and the first limiting inclined plane 12.

Because the first pressing rod 31 and the first ejection rod 34 form different angles, the inclination degree of the first pressing inclined surface 22 and the inclination degree of the first limiting inclined surface 12 also need to be correspondingly adjusted according to the requirement in cooperation with the angle between the first pressing rod 31 and the first ejection rod 34 during practical application.

With continued reference to fig. 1, since the fixing block 21 disposed at the bottom of the pressing plate 20 moves downward along with the pressing plate 20 during the downward movement, in order to avoid that the relative distance reserved between the fixing block 21 and the positioning plate 10 is insufficient to support the first ejector rod 34 to eject the nut disposed in the first feeding sleeve 32, the positioning plate 10 is provided with the guide groove 13 for moving the fixing block 21 along the direction close to the positioning plate 10 at the position corresponding to the projection of the fixing block 21 in the vertical direction, and at this time, the fixing block 21 moves downward along the guide groove 13 when the pressing plate 20 is pressed downward, so that the normal upward and downward movement of the pressing plate 20 is not affected.

As an alternative embodiment, the embodiment of the present application provides two first feeding assemblies 30 forming different angles, and please continue to refer to the first feeding assembly 30 on the left side of fig. 3, when a certain angle is formed between the first pressing rod 31 and the first ejecting rod 34, the adaptor 33 is relatively disposed below the positioning plate 10, and when referring to the first feeding assembly on the right side of fig. 3, when a certain angle is formed between the first pressing rod 31 and the first ejecting rod 34, the adaptor 33 is relatively disposed between the positioning plate 10 and the pressing plate 20; therefore, in practical application, in order to realize the assembly of nuts with different angles, the inclination degree of the first pressing inclined plane 22, the inclination degree of the first limiting inclined plane 12 and the relative setting position of the adaptor 33 are adjusted correspondingly according to the needs, and the specific setting number of the first feeding components 30 and the assembly angle capable of realizing the nuts are not further limited.

Further, referring to fig. 2, a schematic structural diagram of a second feeding assembly 40 in a nut feeding fixture according to an embodiment of the present application is provided, the nut can be pressed to a corresponding position of a mold in a vertical direction by the second feeding assembly 40, the second feeding assembly 40 includes a second pressing rod 41 disposed below the pressing plate 20 and a second feeding sleeve 42 disposed below the limiting plate 11, a second ejection rod (not shown in the drawing) is disposed in the second feeding sleeve 42, and the second pressing rod 41 passes through the positioning plate 10 and the limiting plate 11 and is connected with the second ejection rod disposed in the second feeding sleeve 42, so that the second ejection rod is driven by the pressing plate 20 and the second pressing rod 41 to move in a direction away from or close to the positioning plate 10 in the second feeding sleeve 42, that is, when the pressing plate 20 is pressed downward, the second pressing rod 41 can be driven to drive the second pressing rod 41 to push the nut disposed in the second feeding sleeve 42 to a corresponding position of the mold in a vertical direction.

In one embodiment of the present application, the first feeding assembly 30 includes a plurality of first feeding sleeves 32 and first ejector pins 34 disposed in each first feeding sleeve 32, and the first limiting slope 12 is provided with a guide block 23 through which the plurality of first feeding sleeves 32 pass, that is, one end of the plurality of first ejector pins 34 passes through the guide block 23 and then is connected to the adaptor 33, and the other end of the plurality of first ejector pins 34 passes through the corresponding first feeding sleeve 32, so that nuts disposed in the plurality of first feeding sleeves 32 are simultaneously pressed to corresponding positions of the mold through one pressing action.

Further, referring to fig. 3, for a schematic structural diagram of a second pressing rod 41 in a nut feeding fixture according to an embodiment of the present application, in order to more conveniently put a nut into the nut feeding fixture before a pressing action, a first nut cylinder 35 for placing the nut is disposed at an end of a first feeding sleeve 32, a nut to be assembled disposed in the first nut cylinder 35 is pressed to a corresponding position of a mold by a first ejection rod 34, a second nut cylinder 43 for placing the nut is also disposed at an end of a second feeding sleeve 42, and the nut to be assembled disposed in the second nut cylinder 43 is pressed to a corresponding position of the mold by a second ejection rod.

It should be noted that, the first nut cylinder 35 and the second nut cylinder 43 used in the present application are commonly used nut cylinders in the market, and the end portions thereof have structures capable of being elastically deformed, so that the nuts can be plugged into the nut cylinders manually during use, and then the nuts to be assembled arranged in the nut cylinders are pressed to the corresponding positions of the mold by the first ejector rod 34 and/or the second ejector rod, so that the specific structures of the nut cylinders are not repeated herein.

With continued reference to fig. 4, in order to provide a side view of the nut feeding fixture according to the embodiment of the present application, a plurality of guide posts 50 are disposed between the positioning plate 10 and the pressing plate 20, one end of each guide post 50 is slidably disposed on the top of the pressing plate 20, the other end of each guide post 50 is connected to the positioning plate 10 after passing through the pressing plate 20, and a guiding function is achieved by the plurality of guide posts 50 during the up-down movement of the pressing plate 20, although a plurality of telescopic guide posts 50 may also be disposed between the positioning plate 10 and the pressing plate 20.

In a specific embodiment provided by the application, a plurality of buffer rods 51 are further arranged between the positioning plate 10 and the pressing plate 20 and used for providing buffering for the pressing plate 20 in the pressing process, so that the influence of rebound of the pressing plate 20 on the assembly effect of a final die nut is avoided, one ends of the buffer rods 51 are slidably arranged on the top of the pressing plate 20, the other ends of the buffer rods 51 penetrate through the pressing plate 20 and then are connected with the positioning plate 10, meanwhile, buffer springs 52 are sleeved on the outer side walls of the buffer rods 51, buffer grooves 53 for deformation of the buffer springs 52 are formed in the top of the positioning plate 10, the buffer springs 52 are compressed into the buffer grooves 53 in the pressing process, and buffering is provided for the buffer rods 51 and the pressing plate 20 in the stretching or rebound process.

As an alternative embodiment, the present application also provides a pressing handle 54 which is erected above the pressing plate 20 and can be driven to move in a direction away from or close to the positioning plate 10, the pressing plate 20 can be driven manually by pressing the handle 54, and a pressing piece 55 is provided between the pressing plates 20 and between the positioning plates 10, one end of the pressing piece 55 is provided at the top of the positioning plate 10, the other end of the pressing piece 55 passes through the top of the pressing plate 20 and is provided below the pressing handle 54, and the pressing handle 54 and the pressing piece 55 are not in direct contact when the pressing piece 55 is not driven; when the pressing plate 20 needs to be driven, the bottom of the pressing handle 54 is brought into contact with the pressing member 55 by manually pressing the pressing handle 54, and the pressing plate 20 is driven to move in the direction approaching the positioning plate 10. Of course, the above is only a preferable mechanical structure for moving the pressing plate 20 in a direction away from or towards the positioning plate by manual driving, and other driving modes may be selected for practical application, which is not limited by the present application.

Further, it can be observed that the edges of the positioning plate 10 are also provided with a number of positioning extension plates 14 extending, the bottom of each positioning extension plate 14 being provided with a mould positioning post 15 for fixing the positioning plate 10 above the mould. This is because when the nut feeding clamp is actually applied, the nut feeding clamp and the mold are required to be relatively fixed, and the nut is required to be assembled above the mold, for example, a plurality of mold positioning columns 15 are arranged at the bottom edge of the positioning plate 10, the nut feeding clamp is relatively clamped at the upper position of the mold through the mold positioning columns 15, and then the nuts plugged in the first nut cylinder 35 and the second nut cylinder 43 are assembled to the position to be assembled of the mold in a pressing manner through manual driving of the pressing plate 20.

With continued reference to fig. 5, it will be seen that, when the pressing plate 20 is driven downward, the downward driving force is converted to the first ejector rod 24 connected to the first pressing rod 31 through the fixed block 21 and the first pressing rod 31 by the adapter 33, so as to move along the axial direction of the first feeding sleeve 32, and since a certain angle is formed between the first pressing rod 31 and the first ejector rod 34, the nuts disposed in the first feeding sleeve 32 can be pressed to the corresponding positions of the mold at a certain inclination angle according to the requirement; also when the pressing plate 20 is driven downwards, the second material ejection rod is driven by the pressing plate 20 and the second pressing rod 41 to move in the second feeding sleeve 42 along the direction close to the positioning plate 10, that is, when the pressing plate 20 is pressed downwards, the second pressing rod 41 can be driven to drive the second material ejection rod to press the nuts arranged in the second feeding sleeve 42 to the corresponding positions of the die along the vertical direction, so that the nuts in the multi-angle direction can be assembled through one pressing.

In one embodiment of the present application, the first feeding assemblies 30 with two different angles and the second feeding assembly 40 with a vertical direction are respectively disposed on the left and right sides of the pressing plate 20, so that the nuts to be assembled can be pressed to the corresponding positions of the mold from 5 different angles.

Based on the nut feeding clamp, the application further provides a nut feeding device, which comprises the nut feeding clamp, a die arranged below the nut feeding clamp, a plurality of nuts placed in the nut feeding clamp and to be assembled, and the nuts to be assembled are pressed to corresponding positions of the die by pressing the nut feeding clamp.

As an alternative implementation manner, when the nut feeding device is actually applied, a plurality of nuts to be assembled in different types are needed to be plugged into the first nut cylinder 35 and the second nut cylinder 43 in a manual or mechanical mode, then the nut feeding clamp is clamped at the upper position of the die relatively through the die positioning column 15, and the nuts plugged into the first nut cylinder 35 and the second nut cylinder 43 are assembled to the positions to be assembled of the die in a pressing mode through manual driving of the pressing plate 20, so that the operation efficiency of nut assembly is improved.

According to the nut feeding clamp and the feeding device, the plurality of first feeding assemblies are arranged between the pressing plate and the positioning plate, a certain angle is formed between the first pressing rod and the first ejection rod, and the first ejection rod presses the nuts to be assembled, which are arranged in the first nut cylinder, to the corresponding positions of the die at a certain angle under the driving of the pressing plate, so that the multi-angle nut is assembled; the second feeding assemblies are arranged, the pressing plate is driven to drive the second ejection rod to press the nuts to be assembled arranged in the second feeding sleeve to the corresponding positions of the die in the vertical direction, and therefore the nut assembling action in the vertical direction is achieved; the buffer rod and the buffer spring are arranged between the pressing plate and the positioning plate, so that the influence of rebound of the pressing plate on the nut assembly effect in the pressing process is avoided; during application, nuts of different types are only required to be placed in the first nut cylinder and the second nut cylinder, feeding of nuts required by multiple types at multiple angles can be achieved through one-time pressing action, operation is simple and convenient, time and labor are saved, and working efficiency of a production line is improved.

It will be understood that the technical features of the above embodiments may be combined in any way, and for brevity of description, all of the possible combinations of the technical features of the above embodiments are not described, however, they should be considered as the scope of the description of the present specification as long as there is no contradiction between the combinations of the technical features.

The above embodiments are merely exemplary embodiments employed to illustrate the principles of the present application, however, the present application is not limited thereto. Various modifications and improvements may be made by those skilled in the art without departing from the spirit and substance of the application, and are also considered to be within the scope of the application.

Claims (10)

1. Nut material loading anchor clamps, a serial communication port includes:

A positioning plate;

The pressing plate is arranged above the positioning plate and can be driven to move in a direction away from or close to the positioning plate;

the first feeding assemblies comprise first pressing rods, first feeding sleeves and switching pieces, wherein the switching pieces are used for connecting the first pressing rods with first ejection rods arranged in the first feeding sleeves so as to enable the first pressing rods to form a certain angle with the first ejection rods; the fixed block connected with the first pressing rod is arranged below the pressing plate, and the limiting plate for the free end of the first feeding sleeve to pass through is arranged below the positioning plate, so that the first ejection rod moves along the axial direction of the first feeding sleeve under the driving of the pressing plate and the first pressing rod.

2. The nut feed jig as defined in claim 1, further comprising a plurality of second feed assemblies;

The second feeding assembly comprises a second pressing rod arranged below the pressing plate and a second feeding sleeve arranged below the limiting plate, wherein the second pressing rod penetrates through the positioning plate and the limiting plate and then is connected with a second ejection rod arranged in the second feeding sleeve, so that the second ejection rod moves in the direction away from or close to the positioning plate in the second feeding sleeve under the driving of the pressing plate and the second pressing rod.

3. The nut feeding clamp according to claim 1, wherein a first pressing inclined surface is arranged on one side, connected with the first pressing rod, of the fixed block, a first limiting inclined surface is arranged on one side, penetrating through the first feeding sleeve, of the limiting plate in an extending mode, and a certain angle is formed between the first pressing rod and the first ejection rod through the first pressing inclined surface and the first limiting inclined surface in a matching mode;

The positioning plate is provided with a guide groove for the fixed block to move along the direction close to the positioning plate at the position corresponding to the projection of the fixed block in the vertical direction.

4. A nut charging fixture as defined in claim 3, being characterized in that said first charging assembly includes a plurality of first charging sleeves and a first ejector pin disposed within each of said first charging sleeves;

The first limiting inclined plane is provided with a guide block for a plurality of first feeding sleeves to pass through, one end of each first ejection rod passes through the guide block and then is connected with the corresponding adapter, and the other end of each first ejection rod passes through the corresponding first feeding sleeve.

5. The nut feeding jig as defined in claim 2, wherein the end of the first feeding sleeve is provided with a first nut cylinder for placing nuts, and nuts to be assembled arranged in the first nut cylinder are pressed to corresponding positions of the die by the first ejector rod;

And/or the end part of the second feeding sleeve is provided with a second nut cylinder for placing nuts, and the nuts to be assembled arranged in the second nut cylinder are pressed to the corresponding positions of the die through the second ejector rod.

6. The nut feeding clamp according to claim 1, wherein a plurality of guide posts are arranged between the positioning plate and the pressing plate, one ends of the guide posts are slidably arranged on the top of the pressing plate in a penetrating manner, and the other ends of the guide posts are connected with the positioning plate after penetrating through the pressing plate.

7. The nut feeding clamp according to claim 1, wherein a plurality of buffer rods are further arranged between the positioning plate and the pressing plate, one ends of the buffer rods are arranged on the top of the pressing plate in a sliding penetrating mode, and the other ends of the buffer rods penetrate through the pressing plate and then are connected with the positioning plate;

The outer side wall cover of buffer rod is equipped with buffer spring, the locating plate top is seted up and is supplied buffer spring takes place the buffering recess of deformation.

8. The nut feeding jig as defined in claim 1, further comprising a pressing handle provided above said pressing plates and drivingly movable in a direction away from or toward said positioning plates, and pressing members provided between said pressing plates and between said positioning plates;

One end of the pressing piece is arranged at the top of the positioning plate, the other end of the pressing piece penetrates through the top of the pressing plate and then is arranged below the pressing handle, the bottom of the pressing handle is abutted to the pressing piece through pressing the pressing handle, and the pressing plate is driven to move along the direction away from or close to the positioning plate.

9. The nut feeding fixture as defined in claim 1, being characterized in that a plurality of positioning extension plates are extended from the edges of the positioning plates, and a mold positioning column for fixing the positioning plates above the mold is provided at the bottom of each positioning extension plate.

10. Nut loading attachment, including the nut material loading anchor clamps of any one of claims 1-9, characterized by also including setting up the mould of nut material loading anchor clamps below, and the nut that the several was put to be assembled in the nut material loading anchor clamps, press the nut material loading anchor clamps through pressing the nut and press the nut that the several was to be assembled to the corresponding position department of mould.