CN210756367U - Condenser pipe straightening and pipe cutting all-in-one machine - Google Patents

Abstract

The utility model discloses a condenser pipe straightening and pipe cutting integrated machine, which comprises a base and a driving shaft, wherein a back plate is installed at the top of the base, a motor is fixedly connected to one side of the back plate, an output shaft of the motor is welded with a driving wheel, the outer side wall of the driving wheel is connected with a third driven wheel through belt transmission, a driving shaft is welded to one side of the third driven wheel, which is close to the back plate, one end of the driving shaft penetrates through the back plate and extends to the outside of the back plate, and a driving gear is welded to the end of the driving shaft, which; through external pressure gyro wheel, interior pressure gyro wheel, push down the gyro wheel and go up the gyro wheel combined action tentatively flare-outing the condenser body, the motor drives the driving gear, and the transmission is first from driving wheel, driven gear and second from the driving wheel, and the condenser body is further straightened with lower belt in the moving last belt, and the condenser body passes through T type through-hole, and the pneumatic cylinder drives the cutter and pushes down, cuts off the condenser body, and automated operation, finished product quality is high.

Description

Condenser pipe straightening and pipe cutting all-in-one machine

Technical Field

The utility model relates to a condenser pipe technical field specifically is a condenser pipe all-in-one of cutting of flare-outing.

Background

A condenser, a component of a refrigeration system, belongs to a heat exchanger, and can convert gas or vapor into liquid to transfer heat in a tube to air near the tube in a quick mode. The condenser operation is exothermic and therefore the condenser temperature is high. Power plants use a number of condensers to condense the steam exiting the turbines. Condensers are used in refrigeration plants to condense refrigeration vapors such as ammonia and freon. The petrochemical industry uses condensers to condense hydrocarbons and other chemical vapors. In the distillation process, the apparatus for converting the vapor to a liquid is also referred to as a condenser. All condensers operate by removing heat from the gas or vapor. The refrigerating principle of a common refrigerator is that a compressor compresses a working medium from low-temperature low-pressure gas into high-temperature high-pressure gas, the high-temperature high-pressure gas is condensed into medium-temperature high-pressure liquid through a condenser, and the medium-temperature high-pressure liquid is throttled by a throttle valve and becomes low-temperature low-pressure liquid. The low-temperature low-pressure liquid working medium is sent into the evaporator, absorbs heat in the evaporator and evaporates to become low-temperature low-pressure steam, and the low-temperature low-pressure steam is sent into the compressor again, so that the refrigeration cycle is completed. The condenser tube needs to be straightened and cut during the production process of the condenser. At present, the straightening and cutting of a condenser pipe body are generally operated in a manual mode, some defective products are inevitably produced in the manual operation, and the product quality is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a condenser pipe all-in-one of surely straightening to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a condenser pipe straightening and pipe cutting integrated machine comprises a base and a driving shaft, wherein a back plate is installed at the top of the base, a motor is fixedly connected to one side of the back plate, a driving wheel is welded to an output shaft of the motor, a third driven wheel is connected to the outer side wall of the driving wheel through belt transmission, a driving shaft is welded to one side, close to the back plate, of the third driven wheel, one end of the driving shaft penetrates through the back plate and extends to the outside of the back plate, a driving gear is welded to one end, away from the third driven wheel, of the driving shaft, a fourth driven wheel is welded to the outer side wall of the driving shaft, the fourth driven wheel is connected with a fifth driven wheel through belt reverse transmission, a driven shaft is welded to one side of the fifth driven wheel, one end, away from, the lateral wall of driving gear is provided with the belt, the driving gear is connected with first follow driving wheel through last belt transmission, first follow driving wheel rotates through the pivot and connects in one side of backplate, the inboard bottom transmission of going up the belt is connected with the central point that two above belts are quantity for spacing gyro wheel of symmetry central symmetry, one side of spacing gyro wheel rotates through the pivot and connects in one side of backplate.

As further preferable in the present technical solution: the lateral wall of driven gear is provided with down the belt, driven gear is connected with the second through belt drive down and follows the driving wheel, the second rotates through the pivot from one side of driving wheel and connects in one side of backplate, the inside wall top transmission of belt is connected with the central point that the quantity is two following belts for the spacing gyro wheel of symmetry central symmetry down.

As further preferable in the present technical solution: one side of backplate is rotated through the pivot and is connected with quantity for three evenly distributed's the gyro wheel that pushes down, one side that the backplate is close to the gyro wheel that pushes down is rotated through the pivot and is connected with quantity for four evenly distributed's last gyro wheel, it is located the top of last gyro wheel to push down the gyro wheel.

As further preferable in the present technical solution: the utility model discloses a portable solar cell module, including backplate, the top of backup pad is connected with the external pressure gyro wheel that quantity is three evenly distributed through the pivot rotation, the top of backup pad is connected with the internal pressure gyro wheel that quantity is three evenly distributed through the pivot rotation.

As further preferable in the present technical solution: the welding of one side of backplate has the pneumatic cylinder, the output shaft welding of pneumatic cylinder has the body of rod, the cutter has been alleviated to the bottom of the body of rod, the backplate has the stopper near one side welding of pneumatic cylinder, T type through-hole has been seted up to the inside of stopper.

As further preferable in the present technical solution: the utility model discloses a glass plate, including base, switch, pneumatic cylinder and motor, the top welding of base has the casing, the switch is installed to one side of casing, circular through-hole has all been seted up to the both sides of casing, the glass plate is installed to one side that circular through-hole was kept away from to the casing, the electrical output of switch respectively with the electrical input electric connection of pneumatic cylinder and motor, the semicircular groove has been seted up to the lateral wall of going up belt and lower belt.

Compared with the prior art, the beneficial effects of the utility model are that: through external pressure gyro wheel, interior pressure gyro wheel, push down the gyro wheel and go up the gyro wheel combined action tentatively flare-outing the condenser body, the motor drives the driving gear, and the transmission is first from driving wheel, driven gear and second from the driving wheel, and the condenser body is further straightened with lower belt in the moving last belt, and the condenser body passes through T type through-hole, and the pneumatic cylinder drives the cutter and pushes down, cuts off the condenser body, and automated operation, finished product quality is high.

Drawings

Fig. 1 is a schematic structural view of the inside of the housing of the present invention;

fig. 2 is a schematic top view of the present invention;

fig. 3 is a schematic perspective view of the present invention;

fig. 4 is a schematic view of the fourth driven wheel according to the present invention.

In the figure: 1. a back plate; 2. a base; 3. a driving gear; 4. a drive shaft; 5. limiting an upper roller; 6. a belt is arranged; 7. a first driven wheel; 8. pressing down the roller; 9. externally pressing the roller; 10. a driven gear; 11. a driven shaft; 12. limiting a lower roller; 13. a second driven wheel; 14. pressing the roller upwards; 15. a support plate; 16. a T-shaped through hole; 17. a limiting block; 18. a cutter; 19. a rod body; 20. a hydraulic cylinder; 21. a motor; 22. a driving wheel; 23. a third driven wheel; 24. a fourth driven wheel; 25. a semicircular groove; 26. pressing the roller in the inner pressure; 27. a switch; 28. a circular through hole; 29. a glass plate; 30. a housing; 31. a fifth driven wheel; 32. and (6) a belt is arranged.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example (b):

referring to fig. 1-4, the present invention provides a technical solution: a condenser pipe straightening and pipe cutting all-in-one machine comprises a base 2 and a driving shaft 4, a back plate 1 is installed at the top of the base 2, a motor 21 is fixedly connected to one side of the back plate 1, a driving wheel 22 is welded to an output shaft of the motor 21, a third driven wheel 23 is connected to the outer side wall of the driving wheel 22 through belt transmission, a driving shaft 4 is welded to one side, close to the back plate 1, of the third driven wheel 23, one end of the driving shaft 4 penetrates through the back plate 1 and extends to the outside of the back plate 1, a driving gear 3 is welded to one end, far away from the third driven wheel 23, of the driving shaft 4, a fourth driven wheel 24 is welded to the outer side wall of the driving shaft 4, the fourth driven wheel 24 is connected with a fifth driven wheel 31 through belt reverse transmission, a driven shaft 11 is welded to one side of the, the lateral wall of driving gear 3 is provided with belt 6, and driving gear 3 is connected with first from driving wheel 7 through belt 6 transmission, and first from driving wheel 7 rotates through the pivot and connects in one side of backplate 1, and the inboard bottom transmission of belt 6 is connected with the central point that the number is two above belt 6 and is spacing gyro wheel 5 of symmetry central symmetry, and one side of spacing gyro wheel 5 rotates through the pivot and connects in one side of backplate 1.

In this embodiment, specifically: the outer side wall of the driven gear 10 is provided with a lower belt 32, the driven gear 10 is connected with a second driven wheel 13 through the transmission of the lower belt 32, one side of the second driven wheel 13 is connected with one side of the back plate 1 through the rotation of a rotating shaft, the top of the inner side wall of the lower belt 32 is connected with two limiting lower rollers 12 which are symmetrical with the central points of the lower belts 32 as the center of symmetry in a transmission manner, and the lower belts 32 can be in a stretched straight state when being operated through the arrangement of the limiting lower rollers 12.

In this embodiment, specifically: one side of backplate 1 rotates through the pivot to be connected with quantity for three evenly distributed's push down gyro wheel 8, and one side that backplate 1 is close to push down gyro wheel 8 rotates through the pivot to be connected with quantity for four evenly distributed's last push down gyro wheel 14, and push down gyro wheel 8 is located the top of push down gyro wheel 14, goes up push down gyro wheel 14 and push down gyro wheel 8 combined action and tentatively straightens the condenser body.

In this embodiment, specifically: one side welding of backplate 1 has backup pad 15, and backup pad 15's top is rotated through the pivot and is connected with quantity for three evenly distributed's external pressure gyro wheel 9, and backup pad 15's top is rotated through the pivot and is connected with quantity for three evenly distributed's interior pressure gyro wheel 26, and interior pressure gyro wheel 26 and external pressure gyro wheel 9 combined action tentatively straighten the condenser body.

In this embodiment, specifically: one side welding of backplate 1 has the pneumatic cylinder 20, and the output shaft welding of pneumatic cylinder 20 has the body of rod 19, and the cutter 18 has been alleviated to the bottom of the body of rod 19, and one side welding that backplate 1 is close to pneumatic cylinder 20 has stopper 17, and T type through-hole 16 has been seted up to stopper 17's inside, and pneumatic cylinder 20 drives the body of rod 19 and cutter 18, cuts off the condenser body.

In this embodiment, specifically: the top welding of base 2 has casing 30, switch 27 is installed to one side of casing 30, circular through-hole 28 has all been seted up to casing 30's both sides, casing 30 keeps away from one side of circular through-hole 28 and installs glass board 29, switch 27's electrical output respectively with the electrical input end electric connection of pneumatic cylinder 20 and motor 21, semicircular groove 25 has been seted up to the lateral wall of last belt 6 and lower belt 32, circular through-hole 28 is used for sending into or send out the condenser body, the setting up of glass board 29 makes things convenient for the staff to survey the inside behavior of casing 30.

In this embodiment, the hydraulic cylinder 20 is a CTY hydraulic cylinder.

In this embodiment, the motor 21 is an MSD315-002D motor.

Working principle or structural principle, during the use, send the condenser body into casing 30 through circular through-hole 28, crooked condenser body is through pushing down gyro wheel 8, external pressure gyro wheel 9, the combined action of interior pressure gyro wheel 26 and last pressure gyro wheel 14, tentatively straighten, turn on motor 21, motor 21 drives action wheel 22 and rotates, and then the transmission third is followed driving wheel 23, and then make driving shaft 4, driving gear 3 and the fourth rotate from driving wheel 24, and then make driven gear 10 rotate through driven shaft 11, thereby make first driven wheel 7 and second rotate from driving wheel 13, condenser body is driven and straighten to it to upper belt 6 and lower belt 32 in service, condenser body after straightening sends out casing 30 through T type through-hole 16 and circular through-hole 28, pneumatic cylinder 20 drives the body of rod 19 and cutter 18 and pushes down, cut off the condenser body.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a condenser pipe all-in-one of surely straightening, includes base (2) and driving shaft (4), its characterized in that: the novel multifunctional electric scooter is characterized in that a back plate (1) is installed at the top of the base (2), a motor (21) is fixedly connected to one side of the back plate (1), a driving wheel (22) is welded to an output shaft of the motor (21), a third driven wheel (23) is connected to the outer side wall of the driving wheel (22) through belt transmission, a driving shaft (4) is welded to one side, close to the back plate (1), of the third driven wheel (23), one end of the driving shaft (4) penetrates through the back plate (1) and extends to the outside of the back plate (1), a driving gear (3) is welded to one end, far away from the third driven wheel (23), of the driving shaft (4), a fourth driven wheel (24) is welded to the outer side wall of the driving shaft (4), a fifth driven wheel (31) is connected to the fourth driven wheel (24, driven shaft (11) are kept away from the fifth one end of following driving wheel (31) and are run through backplate (1) and extend to the outside of backplate (1), the one end welding of driven shaft (11) has driven gear (10), the lateral wall of driving gear (3) is provided with belt (6), driving gear (3) are connected with first from driving wheel (7) through last belt (6) transmission, first from rotating wheel (7) rotate through the pivot and connect in one side of backplate (1), the inboard bottom transmission of going up belt (6) is connected with the central point that two above belt (6) are quantity for spacing gyro wheel (5) of symmetry center symmetry, rotate through the pivot in one side of backplate (1) in one side of spacing gyro wheel (5).

2. The all-in-one machine for straightening and cutting the condensation pipe according to claim 1, characterized in that: the lateral wall of driven gear (10) is provided with down belt (32), driven gear (10) are connected with the second through belt (32) transmission down and follow driving wheel (13), the second rotates through the pivot from one side of driving wheel (13) and connects in one side of backplate (1), the inside wall top transmission of belt (32) down is connected with the central point that the following belt (32) that quantity is two is spacing gyro wheel (12) down for symmetry center symmetry.

3. The all-in-one machine for straightening and cutting the condensation pipe according to claim 1, characterized in that: one side of backplate (1) is rotated through the pivot and is connected with quantity for three evenly distributed's push down gyro wheel (8), one side that backplate (1) is close to push down gyro wheel (8) is rotated through the pivot and is connected with quantity for four evenly distributed's last push down gyro wheel (14), push down gyro wheel (8) are located the top of push up gyro wheel (14).

4. The all-in-one machine for straightening and cutting the condensation pipe according to claim 1, characterized in that: one side welding of backplate (1) has backup pad (15), the top of backup pad (15) is rotated through the pivot and is connected with quantity for three evenly distributed's external pressure gyro wheel (9), the top of backup pad (15) is rotated through the pivot and is connected with quantity for three evenly distributed's internal pressure gyro wheel (26).

5. The all-in-one machine for straightening and cutting the condensation pipe according to claim 1, characterized in that: one side welding of backplate (1) has pneumatic cylinder (20), the output shaft welding of pneumatic cylinder (20) has the body of rod (19), cutter (18) have been alleviated to the bottom of the body of rod (19), one side welding that backplate (1) is close to pneumatic cylinder (20) has stopper (17), T type through-hole (16) have been seted up to the inside of stopper (17).

6. The all-in-one machine for straightening and cutting the condensation pipe according to claim 1, characterized in that: the welding of the top of base (2) has casing (30), switch (27) are installed to one side of casing (30), circular through-hole (28) have all been seted up to the both sides of casing (30), one side that circular through-hole (28) were kept away from in casing (30) is installed glass board (29), the electrical property output of switch (27) respectively with the electrical property input electric connection of pneumatic cylinder (20) and motor (21), semicircular groove (25) have been seted up with the lateral wall of lower belt (32) to last belt (6).

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