CN219028354U - Feeding bottle handle mouth of a river cutting device - Google Patents

Abstract

The utility model relates to a cutting device for a water gap of a feeding bottle handle, which comprises a workbench, a cutting assembly and a rotation control assembly; two shaft rods are symmetrically arranged on the workbench, and a supporting cap for placing a feeding bottle handle is arranged on each shaft rod; the cutting assembly comprises a cutting blade arranged at the top of the supporting cap; the rotary control assembly comprises a rotary shaft sleeve for controlling the rotary cutting of the cutting blade, a movable push rod arranged between two shaft rods and a driving source for controlling the movable push rod to move forwards and backwards; the rotary shaft sleeve is sleeved on the shaft rod, and the movable push rod and the rotary shaft sleeve are in meshed transmission. According to the water gap cutting device, the rotation control assembly is utilized to simultaneously control the rotation of the two cutting blades, and simultaneously, the water gaps of the two feeding bottle handles arranged on the support cap are cut, so that the cutting efficiency is high, and the cutting is complete.

Description

Feeding bottle handle mouth of a river cutting device

Technical Field

The utility model relates to the technical field of water gap cutting equipment, in particular to a feeding bottle handle water gap cutting device.

Background

At present, after the feeding bottle handle is injection molded, a water gap is remained on the inner side surface of the feeding bottle handle, and the feeding bottle handle is in an irregular shape, so that the remained water gap is generally required to be cut off manually. The efficiency of manual water gap removal is slower, omission is easy, the water gap bucket of each feeding bottle handle cannot be ensured to be removed completely, and the defective rate is greatly improved.

How to design a cutting device suitable for feeding bottle handles, and the mouth of a river cuts efficiently, ensures that the mouth of a river of every feeding bottle handle is all got rid of completely, becomes the technical problem that the urgent needs of this field were solved.

Disclosure of Invention

The utility model aims to solve the defects of the prior art and provides a feeding bottle handle water gap cutting device which is high in water gap cutting efficiency and capable of ensuring complete water gap cutting.

The technical scheme adopted by the utility model is as follows: a feeding bottle handle mouth of a river cutting device, includes:

the feeding bottle feeding machine comprises a workbench, wherein two shaft rods are symmetrically arranged on the workbench, and a supporting cap for placing a feeding bottle handle is arranged on each shaft rod;

the cutting assembly comprises a cutting blade arranged at the top of the supporting cap;

the rotary control assembly comprises a rotary shaft sleeve for controlling the rotary cutting of the cutting blade, a movable push rod arranged between two shaft rods and a driving source for controlling the movable push rod to move forwards and backwards; the rotary shaft sleeve is sleeved on the shaft rod, and the movable push rod and the rotary shaft sleeve are in meshed transmission.

Preferably, the two sides of the movable push rod are provided with driving racks, the two rotary shaft sleeves are provided with arc driven racks at one ends close to the movable push rod, and the driving racks and the arc driven racks are meshed and driven to drive the rotary shaft sleeves to rotate by taking the shaft rod as the shaft.

Preferably, a transmission rod is arranged on the rotary shaft sleeve, one end of the transmission rod is embedded into the rotary shaft sleeve, and the other end of the transmission rod is fixedly connected with the cutting blade.

Preferably, a blade rotating shaft is arranged at the center of the supporting cap, one end of the cutting blade is sleeved on the blade rotating shaft, and the other end of the cutting blade is fixedly connected with the transmission rod and extends to the edge of the supporting cap.

Preferably, the top of the supporting cap is provided with a sector concave position for placing the cutting blade.

Preferably, the support cap is provided with a first limit strip hole for the transmission rod to pass through at the position of the sector concave position.

Preferably, the shaft lever is penetrated with a limiting rod, two limiting strip holes II for limiting the rotation angle of the rotating shaft sleeve are symmetrically formed in the side face of the rotating shaft sleeve, and two ends of the limiting rod penetrate through the two limiting strip holes II respectively.

Preferably, a decorative cover is arranged at the top of the supporting cap.

Preferably, the supporting cap is provided with a notch for clamping the water gap of the feeding bottle handle at the corresponding position of the cutting blade.

Preferably, the movable push rod extends to the other end opposite to the driving source to form a guide rod, the workbench is provided with a positioning block, and the positioning block is provided with a positioning hole for the guide rod to pass through.

Preferably, the driving source is provided with a connecting push rod at one end connected with the movable push rod, and the movable push rod is provided with a clamping hole which is suitable for the connecting push rod at the connecting position of the driving source.

Compared with the prior art, the utility model has the following advantages: according to the water gap cutting device, the rotation control assembly is utilized to simultaneously control the rotation of the two cutting blades, and simultaneously, the water gaps of the two feeding bottle handles arranged on the support cap are cut, so that the cutting efficiency is high, and the cutting is complete.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic view of the internal structure of the present utility model with the dust cap removed.

Fig. 3 is a partial exploded view of the present utility model.

Fig. 4 is a schematic view of the location of the cutting assembly mounted on the support cap.

Fig. 5 is a top view of the present utility model with the dust cap removed.

The reference numerals in the figures are:

the device comprises a 1-workbench, a 2-cutting assembly, a 21-cutting blade, a 22-blade rotating shaft, a 3-rotating control assembly, a 31-rotating shaft sleeve, a 311-arc driven rack, a 312-limit strip hole II, a 32-movable push rod, a 321-driving rack, a 322-guide rod, a 323-clamping hole, a 33-driving source, a 331-connecting push rod, a 34-driving rod, a 4-shaft rod, a 41-limit rod, a 5-supporting cap, a 51-notch, a 52-fan-shaped concave position, a 53-limit strip hole I, a 54-decorative cover, a 6-protective fence, a 7-positioning block, a 71-positioning hole and an 8-dustproof cover.

Detailed Description

In order to enhance the understanding of the present utility model, the present utility model will be further described in detail with reference to the embodiments and drawings. The utility model can be implemented by the following modes:

referring to fig. 1-5, a feeding bottle handle water gap cutting device comprises a workbench 1, a cutting assembly 2 and a rotation control assembly 3.

The workbench 1 is symmetrically provided with two shaft rods 4, the shaft rods 4 are provided with supporting caps 5 for placing feeding bottle handles, and the supporting caps 5 are suitable for the feeding bottle handles in size and shape. The water gap cutting device of the embodiment needs to be matched with a mechanical arm for use. Because the injection molding machine is of a dual-mode design, namely, two symmetrically placed feeding bottle handles can be molded by one injection molding, the supporting caps 5 on the two shaft rods 4 of the embodiment are of a symmetrical design, so that the manipulator can directly absorb the two feeding bottle handles just molded by injection molding from the injection molding machine and transfer the two feeding bottle handles to the supporting caps 5.

The cutting assembly 2 comprises a cutting blade 21 arranged at the top of the support cap 5; the center of the supporting cap 5 is provided with a blade rotating shaft 22, one end of the cutting blade 21 is sleeved on the blade rotating shaft 22, and the other end extends to the edge of the supporting cap 5. The supporting cap 5 is provided with a notch 51 for clamping the water gap of the feeding bottle handle at the corresponding position of the cutting blade 21. Because the feeding bottle handle is carried to the supporting cap 5 from the injection molding machine through the manipulator, when the feeding bottle handle is sleeved on the supporting cap 5, the water gap of the feeding bottle handle is just clamped in the notch 51 of the supporting cap 5, so that the cutting blade 21 rotates to cut.

The rotation control assembly 3 comprises a rotation shaft sleeve 31 for controlling the cutting blade 21 to rotationally cut, a movable push rod 32 arranged between the two shaft rods 4, and a driving source 33 for controlling the movable push rod 32 to move forwards and backwards; the driving source 33 may be a cylinder. The rotary shaft sleeve 31 is movably sleeved on the shaft lever 4 and is positioned between the workbench 1 and the support cap 5. The rotary shaft sleeve 31 is provided with a transmission rod 34, one end of the transmission rod 34 is embedded into the rotary shaft sleeve 31, and the other end of the transmission rod is fixedly connected with the cutting blade 21. The movable push rod 32 and the rotary shaft sleeve 31 are in meshed transmission. The two sides of the movable push rod 32 are provided with driving racks 321, and one end of the rotary shaft sleeve 31, which is close to the movable push rod 32, is provided with an arc driven rack 311. The driving source 33 controls the movable push rod 32 to move forwards and backwards, so that the driving racks 321 on two sides of the movable push rod 32 are meshed with the arc driven racks 311 on the two rotary shaft sleeves 31 to drive the rotary shaft sleeves 31 to rotate by taking the shaft lever 4 as an axis, the rotary shaft sleeves 31 drive the driving rod 34 to rotate, and the driving rod 34 drives the cutting blade 21 to rotate by taking the blade rotary shaft 22 as an axis.

The top of the supporting cap 5 is provided with a sector-shaped concave position 52 for placing the cutting blade 21, and the sector-shaped concave position 52 can limit the rotation area of the cutting blade 21; the support cap 5 is provided with a first limit strip hole 53 for the transmission rod 34 to pass through at the position of the fan-shaped concave position 52, and the transmission rod 34 can only move within the range of the first limit strip hole 53. The shaft lever 4 is penetrated with a limiting rod 41, two limiting strip holes 312 for limiting the rotation angle of the rotating shaft sleeve 31 are symmetrically arranged on the side surface of the rotating shaft sleeve 31, and two ends of the limiting rod 41 penetrate through the two limiting strip holes 312 respectively. The limit lever 41 can only rotate within the range of the limit slit hole two 312. The first limiting strip hole 53 and the second limiting strip hole 312 are identical in length, and the rotation range of the rotating shaft sleeve 31 is limited. In the embodiment, the rotation range of the cutting blade 21 is limited by using three ways of the fan-shaped concave position 52, the first limiting strip hole 53 and the second limiting strip hole 312, so that the cutting effectiveness and the high efficiency are improved.

The top of the support cap 5 is provided with a decorative cover 54. The decorative cover 54 not only plays an aesthetic role, but also effectively prevents the operator from accidentally touching the cutter blade 21 to cause a safety accident. The periphery of the workbench 1 is provided with a protective guard 6, so that the cut water gap can be prevented from splashing everywhere. A dust cover 8 is arranged above the movable push rod 32.

The movable push rod 32 extends to a guide rod 322 at the other end opposite to the driving source 33, the workbench 1 is provided with a positioning block 7, and the positioning block 7 is provided with a positioning hole 71 for the guide rod 322 to pass through. The guide rods 322 and the positioning holes 71 can limit the moving direction of the movable push rod 32, so that the movable push rod 32 can accurately and simultaneously pull the two rotating shaft sleeves 31 to rotate. The driving source 33 is provided with a connecting push rod 331 at one end connected with the movable push rod 32, and the movable push rod 32 is provided with a clamping hole 323 which is adapted to the connecting push rod 331 at the connecting position of the driving source 33. The driving source 33 controls the connecting push rod 331 to move back and forth, thereby driving the movable push rod 32 to move back and forth.

Working principle: the manipulator directly sucks two feeding bottle handles which are just injection molded from the injection molding machine and transfers the feeding bottle handles to the support cap 5, so that water gaps of the two feeding bottle handles just fall into the notch 51 of the support cap 5. The driving source 33 drives the movable push rod 32 to move forwards through controlling the connecting push rod 331, meanwhile, the driving racks 321 on the two sides of the movable push rod 32 drive the arc driven racks 311 on the rotary shaft sleeve 31 to be meshed and driven, the rotary shaft sleeve 31 is driven to rotate by taking the shaft lever 4 as the shaft, the rotary shaft sleeve 31 drives the driving rod 34 to rotate, the driving rod 34 drives the cutting blade 21 to rotate by taking the blade rotating shaft 22 as the shaft, finally, the water gap on the inner side surface of the feeding bottle handle is cut, and after cutting is finished, the feeding bottle handle is reset, and the steps are repeated.

Finally, it should be noted that: the foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (10)

1. A feeding bottle handle mouth of a river cutting device, characterized by comprising:

the feeding bottle feeding machine comprises a workbench (1), wherein two shaft rods (4) are symmetrically arranged on the workbench (1), and a supporting cap (5) for placing a feeding bottle handle is arranged on each shaft rod (4);

the cutting assembly (2), the said cutting assembly (2) includes setting up the cutting blade (21) on the top of the supporting cap (5);

the rotary control assembly (3), the rotary control assembly (3) comprises a rotary shaft sleeve (31) for controlling the rotary cutting of the cutting blade (21), a movable push rod (32) arranged between the two shaft rods (4), and a driving source (33) for controlling the movable push rod (32) to move forwards and backwards; the rotary shaft sleeve (31) is sleeved on the shaft lever (4), and the movable push rod (32) and the rotary shaft sleeve (31) are in meshed transmission.

2. The feeding bottle handle water gap cutting device according to claim 1, wherein driving racks (321) are arranged on two sides of the movable push rod (32), arc driven racks (311) are arranged at one ends of the two rotary shaft sleeves (31) close to the movable push rod (32), and the driving racks (321) and the arc driven racks (311) are meshed to drive the rotary shaft sleeves (31) to rotate by taking the shaft rod (4) as an axis.

3. A feeding bottle handle water gap cutting device according to claim 1 or 2, characterized in that the rotary shaft sleeve (31) is provided with a transmission rod (34), one end of the transmission rod (34) is embedded into the rotary shaft sleeve (31), and the other end is fixedly connected with the cutting blade (21).

4. A feeding bottle handle water gap cutting device according to claim 3, characterized in that a blade rotating shaft (22) is arranged at the center of the supporting cap (5), one end of the cutting blade (21) is sleeved on the blade rotating shaft (22), and the other end is fixedly connected with the transmission rod (34) and extends to the edge of the supporting cap (5).

5. A feeding bottle handle water gap cutting device according to claim 3, characterized in that the top of the supporting cap (5) is provided with a fan-shaped concave position (52) for placing a cutting blade (21); the support cap (5) is provided with a limiting strip hole I (53) for the transmission rod (34) to pass through at the position of the fan-shaped concave position (52).

6. The feeding bottle handle water gap cutting device according to claim 1, 2, 4 or 5, wherein the shaft lever (4) is penetrated with a limiting rod (41), two limiting strip holes (312) for limiting the rotation angle of the rotating shaft sleeve (31) are symmetrically arranged on the side surface of the rotating shaft sleeve (31), and two ends of the limiting rod (41) penetrate through the two limiting strip holes (312) respectively.

7. A feeding bottle handle nozzle cutting device according to claim 1 or 2 or 4 or 5, wherein the top of the support cap (5) is provided with a decorative cover (54).

8. A feeding bottle handle water gap cutting device according to claim 1 or 2 or 4 or 5, wherein the supporting cap (5) is provided with a notch (51) for clamping the feeding bottle handle water gap at the corresponding position of the cutting blade (21).

9. The feeding bottle handle water gap cutting device according to claim 1, 2, 4 or 5, wherein the movable push rod (32) is provided with a guide rod (322) extending from the other end opposite to the driving source (33), the workbench (1) is provided with a positioning block (7), and the positioning block (7) is provided with a positioning hole (71) for the guide rod (322) to pass through.

10. The feeding bottle handle water gap cutting device according to claim 9, wherein the driving source (33) is provided with a connecting push rod (331) at one end connected with the movable push rod (32), and the movable push rod (32) is provided with a clamping hole (323) which is suitable for the connecting push rod (331) at the connecting position of the driving source (33).

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