CN112851094B - Cleaning machine for inner wall of pipe body - Google Patents

Abstract

The invention discloses a cleaning machine for the inner wall of a pipe body, which comprises a frame, wherein two groups of transmission chains are arranged on the frame, each transmission chain comprises a transmission wheel and a transmission belt, a clamping support frame is arranged between the two transmission belts, a clamping cylinder is arranged on the clamping support frame, a cleaning and shaping gearbox is arranged on the frame, a cleaning and shaping device is arranged on the cleaning and shaping gearbox, a driving shaft which is in power connection with a power machine is arranged on the frame, a driving half gear is connected to the driving shaft, a driving column is arranged on the frame, a rack is connected to the driving column, a driving arm is arranged on the driving arm, a driving head is arranged on the driving arm, a rotating driving box is arranged on the frame, a plurality of driving columns are arranged on the transmission wheels, a driving wheel shaft is arranged on the rotating driving box, a driving shifting column which intermittently shifts the driving column so that the transmission wheel intermittently rotates, and a semicircular ring which enables the transmission wheel to keep a static state is arranged on the driving wheel shaft. The invention has the advantages of high cleaning and shaping speed, high quality and high labor efficiency.

Description

Cleaning machine for inner wall of pipe body

Technical Field

The invention relates to a cleaning machine for the inner wall of a pipe body.

Background

The prior single-layer glass cup manufacturing method mainly comprises an integral molding method, namely, firstly manufacturing a glass tube, clamping and supporting two ends of the glass tube by using the glass tube as a raw material, synchronously rotating the two ends of the glass tube, locally heating the middle part of the glass tube by flame until glass is softened, heating the glass to 820-1500 ℃, and slowly cutting the glass tube from the middle of a heating area by a blade made of a heat-resistant material which has a thickness smaller than the width of the heating area and does not have affinity with glass, so that one glass tube gradually forms two glass cups with cup bottoms; the method has high manufacturing efficiency, low production cost and good forming quality of the glass. In the process for forming the glass tube by the integral molding method, the tube opening is easy to be heated and deform, so that the process is needed to be realized by a later shaping process, and the traditional method is to shape the glass tube manually, so that the labor efficiency is low.

In addition, when many tubes or cups need to be reused, the inner walls of the tubes or cups need to be completely cleaned and washed, and no automatic device suitable for cleaning the inner walls and the tube openings of the tubes exists.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the pipe inner wall cleaning machine which can automatically shape or/and clean the inner wall of the pipe orifice, and through a repeated rolling mode, the diameter size of the pipe can be ensured, the inner wall cleaning treatment can be also carried out, and the labor efficiency is greatly improved.

In order to solve the technical problems, the invention provides a pipe inner wall cleaning machine with the following structure, which comprises a frame and is characterized in that: the machine frame is provided with two groups of transmission chains which are transversely and oppositely arranged, the transmission chains comprise at least two transmission wheels which are longitudinally arranged, a plurality of transmission belts which are longitudinally arranged are sleeved outside the transmission wheels, a plurality of clamping support frames which are arranged at intervals are arranged between the two transmission belts, clamping cylinders which are used for clamping pipe fittings and can slide up and down are arranged on the clamping support frames, the machine frame is provided with a cleaning and shaping gearbox which is arranged between the two transmission chains, the cleaning and shaping gearbox is provided with a cleaning and shaping device which extends upwards, the machine frame is provided with a power machine, the machine frame is provided with a driving shaft which is in power connection with the power machine, the cleaning and shaping gearbox is in power connection with the driving shaft, the driving shaft is connected with a driving half gear with a set length of insection, the machine frame is provided with a driving column which can slide up and down, the driving column is connected with a rack which can be meshed with a gear section of the driving semi-gear, the driving column is provided with a driving arm which extends to the upper part between two driving chains, the driving arm is provided with a driving head which extends downwards and can drive the clamping cylinder to slide downwards, the frame is provided with a rotating driving box which is in power connection with the cleaning and shaping gearbox, the driving wheel is provided with a plurality of driving columns which are evenly distributed along the driving wheel, the rotating driving box is provided with a driving wheel shaft which is in power connection with the driving box, the driving wheel shaft is provided with a driving shifting column which intermittently shifts the driving column to enable the driving wheel to intermittently rotate, and the driving wheel shaft is provided with a semicircular ring which can prop against the driving column when the driving shifting column does not shift the driving column to enable the driving wheel to keep a static state.

The axis of the driving wheel shaft is eccentrically arranged relative to the driving wheel, a poking notch is arranged between two ends of the semicircular ring, and the driving poking column extends into the poking notch.

Two clamping support shafts which are arranged at intervals are correspondingly arranged on the two conveyor belts, one end of the clamping support frame is hinged to one clamping support shaft, a strip hole is formed in the other end of the clamping support frame, and the other clamping support shaft penetrates through the strip hole and can slide along the strip hole.

The clamping cylinder comprises a clamping cylinder body connected to the clamping support frame through a clamping spring, and a sleeve capable of enabling the outer wall of the pipe body to be processed to be arranged on the clamping cylinder body.

The cleaning and shaping device comprises a cleaning shaft which is connected to the cleaning and shaping gearbox and extends upwards, and the cleaning shaft is connected with a cleaning brush and a shaping roller which extend upwards and can be connected with the cleaning shaft alternatively.

The cleaning and shaping gearbox is connected with a cylindrical barrel body, and the cleaning brush and the shaping roller are both positioned in the cylindrical barrel body.

The driving column is provided with a square driving frame, two racks are arranged on the driving column and are respectively connected to two opposite frame edges of the driving frame, and the driving shaft stretches into the frame and is meshed with one rack only when the driving half gear rotates.

The rack is provided with a driving top spring which can drive the driving column to reset upwards.

After the structure is adopted, the pipe body to be treated is placed in the clamping cylinder, the driving shaft is driven to rotate by the power machine, the driving wheel shaft is driven to rotate, the driving shifting column on the driving wheel shaft intermittently shifts the driving column on the driving wheel, so that the driving wheel intermittently rotates, when the driving shifting column does not shift the driving column, the semicircular ring can prop against the driving column, so that the driving wheel keeps a static state, after the driving wheel rotates for a set angle, the clamping cylinder for clamping the pipe body is positioned right above the cleaning and shaping device, the driving semi-gear is driven to rotate under the driving shaft, so that the driving column is driven to slide up and down, when the clamping cylinder is positioned above the cleaning and shaping device, the driving column slides down, so that the cleaning and shaping device is positioned in the pipe body, and therefore, the pipe mouth of the pipe body can be cleaned or/and shaped, in the shaping process, the semicircular ring can prop against the driving column, namely, the driving head is not driven to rotate, after shaping or cleaning is finished, the clamping cylinder slides up and resets, the driving column on the driving column is driven to drive the driving wheel to rotate for a set angle, and the driving wheel slides up and drives the driving wheel, and repeats the actions, so that continuous pipe mouth cleaning and/or shaping work can be realized. Through the power mechanism, the pipe body sleeve can be used for carrying out the rotation, lifting and cleaning and shaping work of the pipe body, so that the power is greatly saved, the cleaning and shaping speed is high, the quality is high, and the labor efficiency is greatly improved.

As can be seen from the description of the use process of the invention, the invention has the advantages of high cleaning and shaping speed, high quality and high labor efficiency.

Drawings

The following detailed description of specific embodiments of the invention refers to the accompanying drawings, which illustrate in further detail:

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a schematic top view of the structure of FIG. 1;

FIG. 3 is a schematic view of the structure taken along line A-A of FIG. 1;

FIG. 4 is a schematic view of the structure taken along line C-C of FIG. 1;

FIG. 5 is a schematic view of the structure taken along line B-B in FIG. 2;

FIG. 6 is a schematic view of the structure taken along line E-E in FIG. 3;

FIG. 7 is a schematic diagram of the driving of the driver to rotate the driving wheel in the embodiment of FIG. 1;

fig. 8 is a schematic diagram illustrating the operation of the clamping support frame according to the embodiment of fig. 1 when rotating along with the driving belt.

Detailed Description

With reference to fig. 1 and 2, the present invention provides a pipe orifice cleaning and shaping machine, which comprises a frame 1, the structure of the frame 1 can refer to the structure shown in fig. 1, and of course, other shapes can be designed according to the needs, and the purpose of the invention is to support and fix various components on the frame, not limited to the structure shown in the drawings. The machine frame 1 is provided with two sets of transmission chains which are transversely and oppositely arranged, each transmission chain comprises at least two transmission wheels 2 which are longitudinally arranged, a plurality of transmission wheels 2 are sleeved with a transmission belt 3 which is longitudinally arranged, in the embodiment, the transmission belt is a transmission chain, a structure of the transmission belt can be adopted, a plurality of clamping support frames 4 which are arranged at intervals are arranged between the two transmission belts 3, the clamping support frames 4 are provided with clamping cylinders 5 which are used for clamping pipe fittings and can slide up and down, in the embodiment, each clamping cylinder 5 comprises a clamping cylinder body which is connected to the clamping support frames 4 through a clamping spring, a sleeve which can clamp the outer wall of a pipe body to be processed is arranged on the clamping cylinder body, namely, as shown in the figure, the sleeve is positioned on the inner side of the transmission belt 3, after the pipe body is clamped in the sleeve, when the sleeve is driven to move inwards by power, the clamping spring stretches, otherwise, the sleeve returns outwards (is separated from cleaning or shaping work) under the action of the clamping spring. The automatic transmission device is characterized in that a power machine 21 is arranged on the frame, a driving shaft 8 which is in power connection with the power machine is arranged on the frame, a rotary driving box 12 which is in power connection with the driving shaft 8 is arranged on the frame, a plurality of driving columns 11 which are uniformly distributed along the driving wheel 2 are arranged on the driving wheel, a driving wheel shaft 13 which is in power connection with the rotary driving box 12 is arranged on the rotary driving box, a driving shifting column 14 which intermittently shifts the driving columns to enable the driving wheel to intermittently rotate is arranged on the driving wheel shaft, and a semicircular ring 15 which can prop against the driving columns when the driving shifting columns do not shift the driving columns to enable the driving wheel to keep a static state is arranged on the driving wheel shaft. The axis of the driving wheel shaft 13 is eccentrically arranged relative to the driving wheel 2, as is obvious from fig. 1 and 3, the axis of the driving wheel shaft 13 is offset from the center of the driving wheel, a poking gap is formed between two ends of the semicircular ring, the driving poking post 14 stretches into the poking gap, that is, the driving wheel shaft 13 is arranged on a driving disc in a penetrating manner, the semicircular ring 15 is connected to the outer circumferential surface of the driving disc, the driving poking post 14 is connected to the end part of the driving wheel shaft and extends from the poking gap of the semicircular ring, when the driving wheel shaft 13 rotates under the action of power, and is combined with fig. 4 and 7, after the driving wheel shaft rotates, the arc-shaped outer surface of the semicircular ring just abuts against the two adjacent driving posts in the process from the first small image to the second small image in fig. 7, so that the driving wheel is in a static state, when the second small image of fig. 7 moves towards the third small image and the driving wheel shaft continues to rotate, the poking gap is gradually positioned between the two adjacent driving posts 11, and the driving poking post 14 is exposed out of the outer circumferential surface of the driving wheel shaft, and the driving wheel shaft 14 can continuously rotate along with the rotation of the second small image, so that the driving wheel shaft is kept at a certain angle, and the driving wheel shaft is kept to rotate along with the second round position, and the second round position is kept to rotate, and the adjacent round shaft is kept to rotate, and the outer surface of the driving shaft continuously.

Referring to fig. 1 to 6, the frame 1 is provided with a cleaning and shaping gearbox 6 located between two transmission chains, the cleaning and shaping gearbox 6 is provided with an upward extending cleaning and shaping device, in this embodiment, the cleaning and shaping device includes a cleaning shaft 18 connected to the cleaning and shaping gearbox 6 and extending upward, the cleaning shaft 18 is connected with a cleaning brush and a shaping roller which extend upward and can be connected with the cleaning shaft, the cleaning brush can perform cleaning work, the shaping roller can extend into a pipe opening to perform rounding, that is, the cleaning or shaping work is implemented when the cleaning shaft 18 rotates. The cleaning and shaping gearbox 6 is connected with a cylindrical barrel body, the cleaning brush and the shaping roller are all located in the cylindrical barrel body, so that dust can be prevented from flying, when rolling and shaping are needed, the cylindrical barrel body can be propped against the outer wall of the tube body, and the shaping roller rotates and extrudes the inner wall of the tube body, so that rolling and shaping functions are realized. The cleaning and shaping gearbox 6 is in power connection with a driving shaft 8, a driving half gear 9 with a set length insection is connected to the driving shaft 8, a driving column 10 capable of sliding up and down is arranged on the rack, a rack capable of being meshed with a gear section of the driving half gear is connected to the driving column, a driving arm 101 extending to the upper part between two transmission chains is arranged on the driving column 10, a driving head which extends downwards and can drive the clamping cylinder to slide downwards is arranged on the driving arm 101, a square driving frame 20 is arranged on the driving column 10, two racks are respectively connected to two opposite frame edges of the driving frame, the driving shaft 8 extends into the frame and is meshed with one rack when the driving half gear rotates, a driving top spring 19 capable of driving the driving column 10 to reset upwards is arranged on the rack 1, the structure can realize continuous up-down movement of the driving head, accordingly, the driving head is ensured to push a tube body on the clamping cylinder 5 to slide downwards, and the effect of the driving top spring can enable the pushing to be more accurate and convenient. In this embodiment, the rotary drive box 12 is in power connection with the cleaning and reshaping gearbox 6. When the cleaning and shaping device is arranged above the cleaning and shaping device, the driving semi-gear is driven by the driving shaft to rotate so as to drive the driving column to slide up and down, and when the clamping cylinder is arranged above the cleaning and shaping device, the driving head drives the clamping cylinder to slide down so that the cleaning and shaping device is arranged in the pipe body, and therefore the pipe orifice of the pipe body can be cleaned or/and shaped.

Referring to fig. 1 to 7 and referring to fig. 8, two clamping support shafts 17 are correspondingly arranged on the two conveyor belts 3 at intervals, one end of the clamping support frame 4 is hinged to one of the clamping support shafts 17, a long strip hole is formed in the other end of the clamping support frame 4, and the other clamping support shaft 17 penetrates through the long strip hole and can slide along the long strip hole. By adopting the structure, the curved section of the conveyor belt can be stably bypassed by the clamping support frame 4, and soft operation is realized.

The invention realizes the intermittent transportation of the clamping cylinder 5 under the drive of a set of power mechanism when the invention is operated, and the driving head drives the clamping cylinder to slide downwards only when the clamping cylinder 5 is positioned above the cleaning and shaping device, and the driving head is far away from the clamping cylinder when the driving poking column 14 drives the driving wheel 2 to rotate, so that the corresponding relation of the action is realized, and the parameters of the set angle and the transmission speed ratio can be set according to the description of the action and the technical common knowledge of the person skilled in the art, thereby realizing the corresponding action.

The invention can be used for cleaning the pipe body and shaping the inner cavities of other pipes.

Other embodiments of the present invention are also possible, and other technical solutions formed in the claims are not repeated, so that the present invention is not limited by the above embodiments, and equivalent changes and component replacement based on the above embodiments of the present invention are all within the scope of the present invention.

Claims (5)

1. The utility model provides a cleaning machine for the inner wall of a pipe body, which comprises a frame (1) and is characterized in that: two groups of transmission chains which are transversely and oppositely arranged are arranged on the stand (1), each transmission chain comprises at least two transmission wheels (2) which are longitudinally arranged, a plurality of transmission belts (3) which are longitudinally transmitted are sleeved outside the transmission wheels (2), a plurality of clamping support frames (4) which are arranged at intervals are arranged between the two transmission belts (3), clamping cylinders (5) which are used for clamping pipe fittings and can slide up and down are arranged on the clamping support frames (4), a cleaning and shaping gearbox (6) which is arranged between the two transmission chains is arranged on the stand (1), an upward-extending cleaning and shaping device is arranged on the cleaning and shaping gearbox (6), a power machine is arranged on the stand, a driving shaft (8) which is connected with power of the power machine is arranged on the stand, the cleaning and shaping gearbox (6) is connected with the driving shaft (8) in a power mode, a driving half-gear (9) which is provided with set length tooth patterns is connected on the driving shaft (8), racks which can be meshed with gear sections of the driving half-gear are arranged on the driving columns (10), a cleaning and shaping device which is arranged on the driving column (101) which is arranged on the driving column is stretched out, a plurality of driving shafts (101) which are arranged on the driving ring (12) which is arranged on the stand and can be uniformly stretched out along the driving shaft (101), the rotary driving box (12) is provided with a driving wheel shaft (13) which is in power connection with the rotary driving box, the driving wheel shaft is provided with a driving shifting column (14) which intermittently shifts a plurality of driving columns so as to enable the driving wheel to intermittently rotate, and the driving wheel shaft is provided with a semicircular ring (15) which can be propped against the plurality of driving columns when the driving shifting column does not shift the plurality of driving columns so as to enable the driving wheel to keep a static state; the cleaning and shaping device comprises a cleaning shaft (18) which is connected to the cleaning and shaping gearbox (6) and extends upwards, and the cleaning shaft (18) is connected with a cleaning brush and a shaping roller which extend upwards and can be alternatively connected with the cleaning brush; the cleaning and shaping gearbox (6) is connected with a cylindrical barrel body, and the cleaning brush and the shaping roller are both positioned in the cylindrical barrel body; the axis of the driving wheel shaft (13) is eccentrically arranged relative to the driving wheel (2), a poking gap is formed between two ends of the semicircular ring, and the driving poking column extends into the poking gap.

2. The pipe inner wall cleaning machine as claimed in claim 1, wherein: two clamping support shafts (17) which are arranged at intervals are correspondingly arranged on the two conveyor belts (3), one end of the clamping support frame (4) is hinged to one clamping support shaft (17), a strip hole is formed in the other end of the clamping support frame (4), and the other clamping support shaft (17) penetrates through the strip hole and can slide along the strip hole.

3. The pipe inner wall cleaning machine as claimed in claim 1, wherein: the clamping cylinder (5) comprises a clamping cylinder body which is connected to the clamping support frame (4) through a clamping spring, and a sleeve capable of enabling the outer wall of the pipe body to be processed to be arranged on the clamping cylinder body.

4. A pipe inner wall cleaning machine as claimed in any one of claims 1 to 3, wherein: the driving column (10) is provided with square driving frames (20), two racks are arranged on the driving column in total and are respectively connected to two opposite frame edges of the driving frames, and the driving shaft (8) stretches into the frames and is meshed with one rack only when the driving half gear rotates.

5. A pipe inner wall cleaning machine as claimed in any one of claims 1 to 3, wherein: the frame (1) is provided with a driving top spring (19) which can drive the driving column (10) to reset upwards.

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