CN111390050A

CN111390050A - Honeycomb briquette ball iron clamp forming and manufacturing device

Info

Publication number: CN111390050A
Application number: CN202010172408.2A
Authority: CN
Inventors: 徐世晨
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-13
Filing date: 2020-03-13
Publication date: 2020-07-10
Anticipated expiration: 2040-03-13
Also published as: CN111390050B

Abstract

The invention discloses a honeycomb briquette iron clamp forming and manufacturing device, relates to the technical field of forging equipment, and solves the problems that an existing forging device needs workers to deeply participate in operation, multiple manufacturing processes are needed to be carried out in sequence, the iron clamps need to be rotated and moved for multiple times during the process, the operation is complicated and inconvenient, time and labor are wasted, and the manufacturing efficiency is low. A honeycomb briquette iron clamp forming and manufacturing device comprises a base, a rotary pressing plate and a sector gear, wherein a mounting rack is supported and welded at the front end of the base, a servo motor is installed on the upper half section of a left vertical supporting plate in front of the mounting rack in a locking manner, and a driven gear is rotatably sleeved at the top end of each of a left vertical supporting plate and a right vertical supporting plate of the mounting rack; the rotary pressing plate and the sector gear are correspondingly provided with two positions. The arc length of the outer brim of the sector gear is just the circumference of the driven gear, and the sector gear can drive the driven gear to rotate in a meshing way for a circle, so that the complete reciprocating action of two rotating pressing plates or two pressing pipes is ensured to be completed.

Description

Honeycomb briquette ball iron clamp forming and manufacturing device

Technical Field

The invention relates to the technical field of iron clamp manufacturing equipment, in particular to a honeycomb briquette iron clamp forming and manufacturing device.

Background

At present, one end of most of honeycomb briquette clamping iron clamps is generally manufactured into a designated shape by workers, so that the workers can quickly clamp honeycomb briquettes, when the workers hammer and forge the iron clamps, the left hand of the worker needs to hold one end of the iron clamp first, the right hand of the worker needs to hold an iron hammer, when the left hand of the worker holds one end of the iron clamp, the right hand of the worker needs to swing the iron hammer up and down, the right hand of the worker can break and separate an iron rod in the iron clamp outwards, after two iron rods in the iron clamp are broken and separated outwards, the right hand of the worker can temporarily stop swinging the iron hammer up and down, then the left hand of the worker puts the upper iron rod on a cylindrical mold, after one iron rod is positioned on the cylindrical mold, the right hand of the worker can swing the iron hammer up and down again to break the iron rod to form a shape, if the worker needs to break the other lower iron rod, the worker needs to rotate the left hand to make the iron clamp positioned below the iron hammer, the worker repeats the above-mentioned operation once more and can pound the iron set of below into appointed shape also, so the workman needs more steps just can accomplish the work of preparation pincers, urgently needs a making devices of pincers.

The ubiquitous operation that needs workman's degree of depth to participate in of current pincers manufacturing installation, and need a plurality of preparation flows to go on in proper order, the iron pincers that need rotate many times during, complex operation inconvenience, waste time and energy, the problem that the preparation is inefficient.

Disclosure of Invention

The invention aims to provide a honeycomb briquette ball iron clamp forming and manufacturing device, which solves the problems that the adoption of the method in the background art needs deep participation of workers for operation, needs a plurality of manufacturing processes to be carried out in sequence, needs to rotate and move the iron clamp for a plurality of times during the process, is complicated and inconvenient to operate, wastes time and energy and has low manufacturing efficiency.

In order to achieve the purpose, the invention provides the following technical scheme: a honeycomb briquette iron clamp forming and manufacturing device comprises a base, a rotary pressing plate and a sector gear, wherein a mounting rack is supported and welded at the front end of the base, a servo motor is installed on the upper half section of a left vertical supporting plate in front of the mounting rack in a locking manner, and a driven gear is rotatably sleeved at the top end of each of a left vertical supporting plate and a right vertical supporting plate of the mounting rack; a vertical support mounting plate is welded on the right side of the rear half section of the base, two arc-shaped backup plates are vertically and alternately supported and welded on the end face of the inner side of the vertical support mounting plate, and the coal ball iron tongs are inserted and placed in a clamping space between the two arc-shaped backup plates in an open state; the rotary pressing plate and the sector gear are correspondingly provided with two positions.

Preferably, a rotating shaft penetrates through the top end section of the two vertical supports at the front side of the mounting frame in a supporting mode, the rotating shaft is in shaft connection transmission with the servo motor, and the two sector gears are sleeved and welded on the rotating shaft at intervals corresponding to each other in an up-and-down mode; the two sector gears can be alternately in rotating contact with and meshed with the two driven gears.

Preferably, the vertical support mounting plate comprises swing rods, a pressure pipe and push rods, two swing rods are correspondingly rotatably supported on the end face of the inner side of the vertical support mounting plate up and down, the tail ends of the two swing rods are rotatably connected with one push rod, and the tail ends of the two push rods are rotatably connected together through one connecting seat; the head ends of the two swing rods are fixedly welded with a pressure pipe, and the two pressure pipes can be rotatably clamped in the two arc-shaped backup plates.

Preferably, the driven gear comprises a connecting rod and a ratchet wheel, the outer edge positions of the inner side end faces of the two driven gears are respectively and rotatably connected with one connecting rod, and the center of the outer side end faces of the two driven gears is respectively and fixedly provided with one ratchet wheel

Preferably, the right side positions of the two arc-shaped backup plates are respectively provided with a notch, the two notches are communicated and combined together to form a rectangular vacant slot, and the connecting rod on the right side is arranged in the rectangular vacant slot in a swinging mode.

Preferably, the arc-shaped backup plate comprises a positioning block and a supporting baffle plate, the left ends of the rectangular empty slots at the right sides of the two arc-shaped backup plates are welded with the supporting baffle plate at one position in a sealing manner, and the supporting baffle plate supports and connects the upper arc-shaped backup plate and the lower arc-shaped backup plate together; the middle of the supporting baffle is supported and welded with a positioning block at the left side, and the two rotating pressing plates are connected to the positioning block in a vertically expanding and rotating manner.

Preferably, the rotary pressing plate comprises expanding rods, two expanding rods are rotatably connected to the middle sections of the back parts of the rotary pressing plate, and the tail ends of the two expanding rods are rotatably connected together through a connecting seat.

Preferably, the head ends of the left and right connecting rods are correspondingly and rotatably connected with the two expanding support rods and the tail end connecting seats of the two push rods.

Compared with the prior art, the invention has the beneficial effects that:

1. the arc length of the outer brim of the sector gear is just the perimeter of the driven gear, and the sector gear can drive the driven gear to rotate in a meshing way for a circle, so that the complete reciprocating action of two rotating pressing plates or two pressing pipes is ensured to be completed;

2. the two rotary pressing plates and the two pressing pipes can alternately act in sequence through the transmission meshing of the two sector gears, firstly, the two rotary pressing plates are expanded to rotate to push and separate two crossed clamp rods at the front end of the coalball iron clamp and bend the crossed clamp rods to abut against the two arc-shaped backup plates, and then the two pressing pipes are connected to act to rotate the two clamp rods to abut against and bend the crossed clamp rods to complete the manufacturing of the iron clamp;

3. through a reasonably optimized linkage structure, the two rotary pressing plates and the two pressure pipes can be intermittently controlled and driven to alternately act through one motor, so that the kinetic energy of the motor is fully utilized, the setting number of power sources is reduced, the manufacturing cost is reduced, and the device has better practicability and is easy to popularize.

Drawings

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

FIG. 2 is a schematic three-dimensional structure of the present invention;

FIG. 3 is a schematic view of a plug-in mounting structure of a briquette iron tongs according to the present invention;

FIG. 4 is a schematic view of the rotational connection of two swing rods according to the present invention;

FIG. 5 is a schematic view of two positions of the rotary platen of the present invention;

FIG. 6 is a schematic structural view of two arc-shaped backup plates according to the present invention;

FIG. 7 is a schematic three-dimensional structure of two arc-shaped backup plates according to the present invention;

FIG. 8 is an enlarged view of the portion A of FIG. 2 according to the present invention;

in the figure: 1. a base; 2. a vertical support mounting plate; 201. a swing rod; 202. pressing a pipe; 203. a push rod; 3. a mounting frame; 4. a servo motor; 5. a driven gear; 501. a connecting rod; 502. a ratchet wheel; 6. an arc-shaped backup plate; 601. positioning blocks; 602. supporting a baffle plate; 7. a briquette iron clamp; 8. rotating the pressing plate; 801. expanding a support rod; 9. a sector gear.

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.

Referring to fig. 1 to 8, an embodiment of the present invention includes: a honeycomb briquette iron clamp forming and manufacturing device comprises a base 1, a rotary pressing plate 8 and a sector gear 9, wherein the front side of the top of the base 1 is welded with a mounting rack 3, the upper half section of a vertical supporting plate on the left side of the mounting rack 3 is provided with a servo motor 4 through a bolt, a rotary shaft is supported and penetrated between the top end sections of two vertical supports on the front side of the mounting rack 3 and is in shaft connection transmission with the servo motor 4, the top end of the middle vertical supporting plate on the left side and the right side of the mounting rack 3 is rotatably connected with a driven gear 5, the rear side of the top of the base 1 is welded with a vertical supporting mounting plate 2, the inner side end surface of the vertical supporting mounting plate 2 is welded with two arc-shaped backup plates 6, the two arc-shaped backup plates 6 are arranged at intervals from top to bottom, the briquette iron clamp 7 is inserted into a clamping space between the two arc-shaped backup plates 6 in an opening state, the rotary pressing plate 8 and the sector gear 9 are arranged at two positions, the rotary pressing, two sector gears 9 are sleeved and welded on a rotating shaft at 180 degrees corresponding up and down intervals, the two sector gears 9 can be alternatively in contact and meshing with the two driven gears 5 in a rotating mode, the arc length of the outer brim of each sector gear 9 is just the circumference of the driven gear 5, the sector gears 9 can drive the driven gears 5 to rotate in a meshing mode for a circle, one complete reciprocating action of two rotating pressing plates 8 or two pressing pipes 202 is guaranteed to be completed, through the coding control of a servo driver, the servo motor 4 can accurately control the two driven gears 5 to enable the driven gears to rotate for 360 degrees, namely stop rotating after rotating for one circle, each arc-shaped backup plate 6 comprises a positioning block 601 and a supporting baffle plate 602, the left ends of rectangular empty grooves at the right sides of the two arc-shaped backup plates 6 are sealed and welded with the supporting baffle plate 602, the upper arc-shaped backup plates 6 and the lower arc-shaped backup plates are supported and connected together through the supporting baffle plate 602, the positioning block 601 is welded at the, and the two rotary pressing plates 8 are connected to the positioning block 601 in a vertically expanding and rotating manner.

The vertical support mounting plate 2 comprises a swing rod 201, a pressure pipe 202 and a push rod 203, two swing rods 201 are rotatably supported on the inner side end face of the vertical support mounting plate 2, the two swing rods 201 are vertically corresponding, the tail ends of the two swing rods 201 are rotatably connected with one push rod 203, the tail ends of the two push rods 203 are rotatably connected together through one connecting seat, the head ends of the two swing rods 201 are fixedly welded with one pressure pipe 202, the two pressure pipes 202 are rotatably clamped in two arc backup plates 6, two oscillating bars 201, two pressure pipes 202, two push rods 203, a right connecting rod 501 and a right driven gear 5 form a double-rocker crank-connecting rod mechanism, under the back-and-forth reciprocating drive of the driven gear 5, the two push rods 203 can synchronously push the two pressure pipes 202, so that the two pressure pipes 202 push and bend two crossed clamping rods at the front end and clamp the two crossed clamping rods in the two arc-shaped backup plates 6, and the bending molding of the clamping rods is completed.

The driven gear 5 comprises a connecting rod 501 and ratchet wheels 502, the outer edge positions of the inner side end faces of the two driven gears 5 are rotatably connected with one connecting rod 501, the right side positions of the two arc-shaped backup plates 6 are respectively provided with one notch, the two notches are communicated and combined together to form a rectangular empty slot, the connecting rod 501 on the right side is arranged in the rectangular empty slot in a swinging mode, the rectangular empty slot provides a margin space for the vertical swinging of the connecting rod 501 on the right side, the ratchet wheels 502 are fixedly arranged at the centers of the outer side end faces of the two driven gears 5, the two ratchet wheels 502 can position the two driven gears 5 to avoid reverse rotation of the driven gears 5, the two rotating pressing plates 8 are kept in a closed and contracted state, and the two pressing pipes 202 are kept in an expanded and opened state.

The rotary pressing plate 8 comprises expanding support rods 801, the middle sections of the back parts of the two rotary pressing plates 8 are respectively and rotatably connected with one expanding support rod 801, the tail ends of the two expanding support rods 801 are rotatably connected together through one connecting seat, the head ends of the left connecting rod 501 and the right connecting rod 501 are correspondingly and rotatably connected with the tail end connecting seats of the two expanding support rods 801 and the two push rods 203, the two rotary pressing plates 8, the two expanding support rods 801, the left connecting rod 501 and the left driven gear 5 jointly form a crank connecting rod pushing and bending mechanism, under the forward and backward reciprocating driving of the driven gear 5, the two expanding support rods 801 can synchronously push the two rotary pressing plates 8 to expand and open, and push and bend the two crossed clamping rods at the front end to be propped against the two arc-shaped backup plates 6 separately, so that the two crossed clamping rods are bent and separated.

The working principle is as follows: when the device is used, firstly, the coalball iron tongs 7 is inserted into a clamping space between two arc-shaped backup plates 6 in an opening state, then a starting switch of the servo motor 4 is pressed, the servo motor 4 drives two sector gears 9 to rotate, the left sector gear 9 is firstly contacted with the left driven gear 5 to be meshed and rotated, under the forward and backward reciprocating driving of the left driven gear 5, two expanding rods 801 can synchronously push two rotating pressing plates 8 to be expanded and opened, two crossed clamping rods at the front end are pushed and folded to be separately abutted against the two arc-shaped backup plates 6, along with the continuous rotation of the servo motor 4, the right sector gear 9 is then contacted with the right driven gear 5 to be meshed and rotated, under the forward and backward reciprocating driving of the right driven gear 5, the two expanding rods 801 can synchronously push the two rotating pressing plates 8 to be expanded and opened, and push the two crossed clamping rods at the front end to be separately bent and abutted against the two arc-shaped backup plates 6, thus, the manufacturing of the iron clamp is completed.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a honeycomb briquette ball pincers shaping making devices which characterized in that: the automatic transmission device comprises a base (1), a rotating pressing plate (8) and a sector gear (9), wherein a mounting rack (3) is supported and welded at the front end of the base (1), a servo motor (4) is installed on the upper half section of a left vertical supporting plate in front of the mounting rack (3) in a locking mode, and a driven gear (5) is rotatably sleeved at the top end of each of a left middle vertical supporting plate and a right middle vertical supporting plate of the mounting rack (3); a vertical support mounting plate (2) is welded on the right side of the rear half section of the base (1), two arc-shaped backup plates (6) are vertically and alternately supported and welded on the end face of the inner side of the vertical support mounting plate (2), and the coalball iron tongs (7) are inserted and placed in a clamping space between the two arc-shaped backup plates (6) in an opening state; the rotary pressing plate (8) and the sector gear (9) are correspondingly provided with two positions.

2. The device for forming and manufacturing the briquette pincer as claimed in claim 1, wherein: a rotating shaft penetrates through the top end sections of the two vertical supports on the front side of the mounting rack (3), the rotating shaft is in shaft connection transmission with the servo motor (4), and the two sector gears (9) are sleeved and welded on the rotating shaft at 180-degree corresponding intervals; the two sector gears (9) can alternately be in rotating contact with and meshed with the two driven gears (5).

3. The device for forming and manufacturing the briquette pincer as claimed in claim 2, wherein: the vertical support mounting plate (2) comprises swing rods (201), a pressure pipe (202) and push rods (203), two swing rods (201) are correspondingly rotatably supported on the end face of the inner side of the vertical support mounting plate (2) up and down, the tail ends of the two swing rods (201) are rotatably connected with one push rod (203), and the tail ends of the two push rods (203) are rotatably connected together through one connecting seat; the head ends of the two swing rods (201) are fixedly welded with a pressure pipe (202), and the two pressure pipes (202) can be rotatably clamped in the two arc-shaped backup plates (6).

4. The device for forming and manufacturing the briquette pincer as claimed in claim 3, wherein: the driven gear (5) comprises a connecting rod (501) and a ratchet wheel (502), the outer edge positions of the end faces of the inner sides of the two driven gears (5) are respectively and rotatably connected with one connecting rod (501), and the ratchet wheel (502) is fixedly arranged at the center of the end faces of the outer sides of the two driven gears (5).

5. The device for forming and manufacturing the briquette pincer as claimed in claim 4, wherein: the right sides of the two arc-shaped backup plates (6) are respectively provided with a notch, the two notches are communicated and combined together to form a rectangular empty slot, and the connecting rod (501) on the right side is arranged in the rectangular empty slot in a swinging mode.

6. The device for forming and manufacturing the briquette pincer as claimed in claim 5, wherein: the arc-shaped backup plate (6) comprises a positioning block (601) and a supporting baffle plate (602), the left ends of the rectangular empty grooves on the right sides of the two arc-shaped backup plates (6) are welded with the supporting baffle plate (602) in a sealing way, and the supporting baffle plate (602) supports and connects the upper arc-shaped backup plate and the lower arc-shaped backup plate (6) together; the middle of the supporting baffle (602) is supported and welded to the left side of the positioning block (601), and the two rotating pressing plates (8) are connected to the positioning block (601) in an up-down expanding and rotating mode.

7. The device for forming and manufacturing the briquette pincer as claimed in claim 6, wherein: the rotary pressing plate (8) comprises expanding rods (801), the middle section of the back of the rotary pressing plate (8) at two positions is rotatably connected with one expanding rod (801), and the tail ends of the two expanding rods (801) are rotatably connected together through one connecting seat.

8. The device for forming and manufacturing the briquette pincer as claimed in claim 7, wherein: the head ends of the left and right connecting rods (501) are correspondingly connected with the tail end connecting seats of the two expanding rods (801) and the two push rods (203) in a rotating way.