CN115138755B - Punching mechanism for producing condensed water disc - Google Patents

Abstract

The invention discloses a punching mechanism for producing a condensed water tray, which relates to the technical field of condensed water tray production, and comprises a rack and a telescopic shaft assembly, wherein a drill bit is detachably connected to the telescopic shaft assembly, and the punching mechanism also comprises: a punching assembly: which slides in a radial direction on the drive shaft; the radial adjusting component: the punching component is arranged on the transmission shaft and is connected with the punching component; the radial adjusting assembly is used for adjusting the position of the punching assembly in the radial direction of the transmission shaft so as to punch holes with different inner diameters. According to the invention, the punching assembly is driven by the radial adjusting assembly to slide in the radial direction of the telescopic shaft assembly, so that the punching assembly extends outwards or contracts inwards in the radial direction of the telescopic assembly, the punching assembly is further moved on the transmission shaft assembly, and the inner diameters of water inlet holes and water outlet holes with different sizes are punched by adjusting the radius of the punching assembly.

Description

Punching mechanism for producing condensed water disc

Technical Field

The invention relates to the technical field of condensed water tray production, in particular to a punching mechanism for producing a condensed water tray.

Background

The condensed water tray is an air conditioner water storage device, and a water pump in the air conditioner uninterruptedly pumps purified water in the water tank and uniformly sends the purified water to the wet curtain through the water separator. When outdoor air is attracted by a powerful fan and passes through an evaporation heat exchanger, water-soluble peculiar smell in the air, dust impurities are all filtered by water flow and washed to a water tank, when an air conditioner works at normal temperature in a refrigerating or dehumidifying mode, 1 liter of condensed water can be discharged every two hours, the larger the power is, the more the water discharge is, a water storage device is needed for discharging water, a condensed water tray is a good water treatment device of the air conditioner, the water tray is formed at one time, all the water trays have good tightness, the water tray is required to be stable during air conditioner installation, otherwise, water overflow can be caused, and therefore a water inlet and a water outlet need to be washed out on the side wall of the condensed water flat tray by means of a punching mechanism after the condensed water tray is integrally formed.

The applicant's prior application: the authorization notice number is: CN 21639700U, grant announcement day 2022.04.29, in the utility model patent of the name "a condensate water dish punching device", it includes processing platform and first pneumatic cylinder, and the processing bench is provided with the leading truck relatively, is provided with first rack on the leading truck and meshes the gear with first rack mutually, and the bottom of processing platform is provided with the connecting rod relatively, and the one end of connecting rod is connected with the output of first pneumatic cylinder, and the other end is connected with the gear, and one of first rack is served and is provided with the limiting plate. The utility model provides a condensate water dish punching device, in the stroke that the board punches a hole to the condensate water dish displacement of punching a hole, the connecting rod passes through the first rack of gear linkage and is prior to punching pipe and condensate water dish looks butt to when punching a hole the board to the condensate water dish, the limiting plate supports earlier on the outer wall of condensate water dish, weaken and even avoided directly punching a hole among the prior art and make the condensate water dish take place the problem of deformation, the board of punching a hole punches a hole to the condensate water dish in the subsequent stroke of first pneumatic cylinder output afterwards.

Among the prior art to above-mentioned patent, punching device's the in-process that punches a hole at the condensate water dish, can select the condensate water dish of different models according to the model of air conditioner, and then just need dash out different internal diameter inlet openings and apopore, consequently the drill bit that can change different models as required at the in-process user who punches a hole realizes the regulation to the internal diameter of drilling, it is comparatively troublesome at the operation process of changing the drill bit, make the drill bit dash out inlet opening and the apopore of different internal diameters as required at being difficult to of user's process.

Disclosure of Invention

The invention aims to provide a punching mechanism for producing a condensed water tray, which aims to overcome the defects in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme:

the utility model provides a mechanism of punching a hole for condensate pan production, includes frame and telescopic shaft subassembly, the last drill bit that is connected with of detachable of telescopic shaft subassembly still includes: a punching assembly: which slides in a radial direction on the drive shaft; the radial adjusting component: the punching component is arranged on the transmission shaft and is connected with the punching component; the radial adjusting assembly is used for adjusting the position of the punching assembly in the radial direction of the transmission shaft so as to punch holes with different inner diameters.

Preferably, the punching assembly comprises a plurality of second sliding blocks which are connected in a sliding manner in the radial direction of the telescopic shaft assembly, each second sliding block is internally connected with a supporting rod in a sliding manner, and each supporting rod is rotatably connected with a grinding wheel;

preferably, each second sliding block is connected with each supporting rod through a second spring.

Preferably, the radial adjustment assembly has a first stroke for adjusting outward extension of each punch assembly in the axial center of the telescopic shaft assembly and a second stroke for adjusting inward contraction in the axial center of the telescopic shaft assembly.

Preferably, the method further comprises the following steps: the drill bit self-locking device comprises a locking assembly, wherein the locking assembly carries out self-locking on the drill bit in the inserted stroke of the drill bit, and the radial adjusting assembly drives the locking assembly to unlock the drill bit in the second stroke so as to replace the drill bit.

Preferably, the radial adjustment assembly comprises a drive unit and a transmission unit;

the transmission unit is used for driving each punching assembly to slide upwards in the radial direction of the telescopic shaft assembly.

Preferably, the transmission unit comprises a driving ring which is rotatably connected to the telescopic shaft assembly, and the driving ring is hinged to each second slide block through an arc-shaped rod.

Preferably, the driving unit comprises a driving block connected in a sliding manner in the radial direction of the telescopic shaft assembly, the driving block is hinged with the driving ring through a transmission rod, and the driving block is driven by the screw rod.

Preferably, the locking assembly comprises two insertion blocks which are connected with each other in a sliding mode in the radial direction of the telescopic shaft assembly, and each insertion block is connected with the telescopic shaft assembly through a first spring.

Preferably, the two insertion blocks are connected through a driving member, and the driving member is used for driving each insertion block to unlock.

Preferably, the drill bit is provided with a plug-in post, the plug-in post is provided with two plug-in holes, and each plug-in hole is arranged in one-to-one correspondence with each plug-in block.

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

according to the invention, the punching assembly is driven by the radial adjusting assembly to slide in the radial direction of the telescopic shaft assembly, so that the punching assembly extends outwards or contracts inwards in the radial direction of the telescopic assembly, the punching assembly is further moved on the transmission shaft assembly, and the inner diameters of water inlet holes and water outlet holes with different sizes are punched by adjusting the radius of the punching assembly.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

This document provides an overview of various implementations or examples of the technology described in this disclosure, and is not a comprehensive disclosure of the full scope or all features of the disclosed technology.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

FIG. 1 is a schematic view of the overall structure of a punching mechanism for producing a condensate water tray according to the present invention;

FIG. 2 is a schematic view of a motor installation of a punching mechanism for condensate pan production according to the present invention;

FIG. 3 is a schematic view of the mounting structure of a driving plate of a punching mechanism for producing a condensed water plate according to the present invention;

FIG. 4 is a schematic structural view of a clamping block of the punching mechanism for producing the condensed water tray according to the present invention;

FIG. 5 is a schematic view of a second transmission shaft of the punching mechanism for producing a condensed water tray according to the present invention;

FIG. 5a is an enlarged view of a portion of A in FIG. 5 according to the present invention;

FIG. 5b is a schematic view of the installation of the driving member of the present invention;

FIG. 5c is an enlarged view of a portion of B in FIG. 5B;

FIG. 6 is a schematic view of the mounting structure of the drill bit of the present invention;

FIG. 6a is an enlarged view of a portion of C in FIG. 6 according to the present invention;

FIG. 7 is a schematic view of the punch assembly installation configuration of the present invention;

FIG. 8 is a schematic diagram of the construction of the drill bit of the present invention;

FIG. 9 is a schematic diagram of a specific structure of a punching assembly according to the present invention;

fig. 10 is a schematic structural view of a second transmission shaft according to the present invention.

Description of reference numerals:

1. a frame; 1.10, a first transmission shaft; 1.12, a second transmission shaft; 1.1200, a second chute; 1.1201, a limit pin; 1.1202, mounting grooves; 1.1203, a first spring; 1.121, punching components; 1.1211 and a second sliding block; 1.1212, a second spring; 1.1213, support bar; 1.1214, a grinding wheel; 1.122, drive ring; 1.1220, a limit groove; 1.123, a driving rod; 1.124, a screw; 1.125, a driving block; 1.126, driving piece; 1.1260, kidney slot; 1.127, a plug block; 1.1270, connecting groove; 1.128, arc-shaped rod; 1.13, clamping blocks; 1.130, a limiting rod; 1.14, a drill bit; 1.141, a plug column; 1.142, a plug hole; 1.20, a driving wheel; 1.21, a transmission belt; 1.30, a first bevel gear; 1.32, a second bevel gear; 1.32, a driving disc; 1.33, a transmission rod; 1.50, a conveying belt; 1.51, a first conveying wheel; 1.52, a second conveying wheel; 2. an electric motor.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be described clearly and completely with reference to the drawings of the embodiments of the present disclosure. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without any inventive step, are within the scope of protection of the disclosure.

Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of the word "comprising" or "comprises", and the like, in this disclosure is intended to mean that the elements or items listed before that word, include the elements or items listed after that word, and their equivalents, without excluding other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may also include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used only to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Referring to fig. 1-10, the invention provides a punching mechanism for producing a condensed water tray, which comprises a rack 1 and a telescopic shaft assembly, wherein a drill bit 1.14 is detachably connected to the telescopic shaft assembly, and the punching mechanism further comprises: punching assembly 1.121: which slides in a radial direction on the drive shaft;

the radial adjusting component: the punching component is arranged on the transmission shaft and is connected with the punching component 1.121;

the radial adjusting assembly is used for adjusting the position of the punching assembly 1.121 in the radial direction of the transmission shaft so as to punch holes with different inner diameters.

Specifically, the rack 1 is used for installing a drilling assembly, the telescopic shaft assembly is installed on the rack 1 and reciprocates linearly in the horizontal direction or the vertical direction, the drill bit 1.14 is driven to reciprocate linearly in the horizontal direction or the vertical direction through the telescopic shaft assembly, and meanwhile, the drill bit 1.14 is driven to rotate, so that two sides of the condensed water disc are respectively drilled;

as shown in fig. 10, the telescopic shaft assembly includes two first transmission shafts 1.10 rotatably connected to the rack 1 and a second transmission shaft 1.12 externally sleeved on the first transmission shafts 1.10, the first transmission shafts 1.10 are respectively located at two sides of the rack 1, the first transmission shafts 1.10 are circumferentially provided with a plurality of keys, the interior of the second transmission shafts 1.12 is circumferentially provided with a plurality of key slots adapted to the keys, so that the first transmission shafts 1.10 and the second transmission shafts 1.12 keep synchronous motion, and as the first transmission shafts 1.10 and the second transmission shafts 1.12 are sleeved, the first transmission shafts 1.10 and the second transmission shafts 1.12 are slidably connected with each other;

the end of each second transmission shaft 1.12 is detachably connected to a drill bit 1.14, and in the prior art, since the drill bit 1.14 is worn during drilling, the drill bit 1.14 is generally detachably connected, which is convenient for a user to replace the drill bit 1.14, and thus the disassembling method of the drill bit 1.14 in this embodiment is not described in detail;

the punching assembly 1.121 is installed on the telescopic shaft assembly, the punching assembly 1.121 moves upwards in the radial direction on the second transmission shaft 1.12, and the radius of the punching assembly 1.121 is changed by outwards extending or inwards contracting the punching assembly 1.121 in the radial direction of the second transmission shaft 1.12, so that water inlets or water outlets with different inner diameters can be punched;

the radial adjusting component: the radial adjusting assembly is arranged on the second transmission shaft 1.12 and is used for driving the punching assembly 1.121 to extend outwards or contract inwards in the radial direction of the second transmission shaft 1.12, the radial adjusting assembly enables a mechanism for converting circular motion into linear reciprocating motion to pass through, the mechanism for converting the circular motion into the linear reciprocating motion in the prior art is a gear-rack transmission mechanism, and a crank-rocker mechanism or other mechanisms for converting the circular motion into the linear reciprocating motion are also applicable to the embodiment;

in the using process, the radial adjusting assembly rotates to drive the punching assembly 1.121 to extend outwards or contract inwards in the radial direction of the second transmission shaft 1.12 in the radial direction, so that the position of the punching assembly 1.121 in the radial direction of the transmission shaft is changed, and the drill bit 1.14 can punch water inlets or water outlets with different inner diameters in the process of punching the condensed water disc. According to the invention, the punching assembly 1.121 is driven by the radial adjusting assembly to slide in the radial direction of the telescopic shaft assembly, so that the punching assembly 1.121 extends outwards or contracts inwards in the radial direction of the telescopic assembly, further the punching assembly 1.121 moves on the transmission shaft assembly, and the inner diameters of water inlet holes and water drain holes with different sizes are punched by adjusting the radius of the punching assembly 1.121.

Referring to fig. 5-7 and fig. 9, in another embodiment of the present invention, the punching assembly 1.121 includes a plurality of second sliding blocks 1.1211 slidably connected in a radial direction of the telescopic shaft assembly, a supporting rod 1.1213 is slidably connected in each second sliding block 1.1211, and a grinding wheel 1.1214 is rotatably connected on each supporting rod 1.1213;

each second slider 1.1211 is connected with each support rod 1.1213 through a second spring 1.1212.

Specifically, the telescopic shaft assembly comprises two first transmission shafts 1.10 which are rotatably connected to the rack 1 and a second transmission shaft 1.12 which is externally sleeved on the first transmission shafts 1.10, the first transmission shafts 1.10 are respectively positioned on two sides of the rack 1, the first transmission shafts 1.10 are circumferentially provided with a plurality of keys, the inside of the second transmission shafts 1.12 is annularly provided with a plurality of key slots matched with the keys, so that the first transmission shafts 1.10 and the second transmission shafts 1.12 keep synchronous motion, and the first transmission shafts 1.10 and the second transmission shafts 1.12 are in sleeve connection, so that the first transmission shafts 1.10 and the second transmission shafts 1.12 are mutually connected in a sliding manner;

the punching assembly 1.121 is disposed on the second transmission shaft 1.12, a plurality of second sliding grooves 1.1200 adapted to the second sliding blocks 1.1211 are disposed around the end surface of the second transmission shaft 1.12 in the radial direction, each of the second sliding blocks 1.1211 is disposed in one-to-one correspondence with the second sliding groove 1.1200, as shown in fig. 9, a supporting rod 1.1213 is slidably connected inside the second sliding block 1.1211, a groove adapted to the supporting rod 1.1213 is disposed inside the second sliding block 1.1211, a second spring 1.1212 is fixedly connected in the groove, one end of the second spring 1.1212 is fixedly connected to the supporting rod 1.1213, and an end of the supporting rod 1.1213 is rotatably connected to a grinding wheel 1.1214.

In the using process, the radial adjusting assembly rotates to drive the punching assembly 1.121 to extend outwards or contract inwards in the radial direction of the second transmission shaft 1.12, so that the position of the punching assembly 1.121 in the radial direction of the transmission shaft is changed until the punching assembly 1.121 is moved to the set preset position, at the moment, the drill 1.14 punches the two opposite side walls of the condensed water disc, the second transmission shaft 1.12 horizontally moves in the punching process, and the second transmission shaft 1.12 drives the punching assembly 1.121 to move until the punching assembly 1.121 is in contact with the condensed water disc, the contact force of the quality inspection of the grinding wheel 1.1214 and the condensed water disc is increased in the contact process, so that the grinding wheel 1.1214 drives the supporting rod 1.1213 to move in the second sliding block 1.1211 to compress the second spring 1.1212, and in the grinding process, the force of the second spring 1.1212 makes the grinding wheel 1.1214 be in a state under the action of the grinding wheel 1.1214, and the grinding wheel 1.1214 slowly returns to the local water disc to be in a certain range of deformation caused by the contact of the water disc during grinding process.

Referring to fig. 5-7, in another embodiment provided by the present invention, a radial adjustment assembly includes a drive unit and a transmission unit;

the transmission unit is used for driving each punching assembly 1.121 to slide upwards in the radial direction of the telescopic shaft assembly.

The transmission unit comprises a driving ring 1.122 which is rotationally connected to the telescopic shaft assembly, and the driving ring 1.122 and each second slider 1.1211 are hinged through an arc-shaped rod 1.128.

The driving unit comprises a driving block 1.125 which is connected with the telescopic shaft component in a sliding mode in the radial direction, the driving block 1.125 is hinged with a driving ring 1.122 through a transmission rod 1.33, and the driving block 1.125 is driven by a screw rod 1.124.

Specifically, as shown in fig. 7, a plurality of limiting grooves 1.1220 are circumferentially formed on the circumferential side of the driving ring 1.122, a plurality of limiting pins 1.1201 matched with the limiting grooves 1.1220 are circumferentially formed on the end surface of the second transmission shaft 1.12, each limiting pin is arranged in one-to-one correspondence with each limiting groove 1.1220, an arc-shaped rod 1.128 is hinged between each second slider 1.1211 and the driving block 1.125, that is, one end of each arc-shaped rod 1.128 is hinged on the driving ring 1.122, and the other end of each arc-shaped rod 1.128 is hinged on the second slider 1.1211 arranged in correspondence therewith;

a driving block 1.125 is connected to the second transmission shaft 1.12 in a sliding manner in the radial direction, a screw rod 1.124 is connected to the second transmission shaft 1.12 in a rotating manner in the radial direction, the screw rod 1.124 is connected to the driving block 1.125 through a thread, a transmission rod 1.33 is hinged between the driving block 1.125 and the driving ring 1.122, one end of the transmission rod 1.33 is hinged to the driving block 1.125, and the other end of the transmission rod 1.33 is hinged to the hinged driving ring 1.122.

In the using process, when a user needs to adjust the punching assembly 1.121, the user manually rotates the screw rod 1.124, and when the user rotates the screw rod 1.124 clockwise, the screw rod 1.124 drives the driving block 1.125 to move from the edge position of the second transmission shaft 1.12 toward the axis position of the second transmission shaft 1.12, at this time, the driving block 1.125 drives the transmission rod 1.33 to move, and further the transmission rod 1.33 drives the driving ring 1.122 to rotate, so that the driving ring 1.122 drives each arc-shaped rod 1.128 glued thereon to rotate in the rotating process, and further each arc-shaped rod 1.128 drives the second slider 1.1211 matched therewith to move toward the edge position of the second transmission shaft 1.12, thereby adjusting the punching assembly 1.121, and facilitating the user to punch water inlets and water outlets with different inner diameters according to needs.

Referring to FIGS. 5-8, the present invention provides in one embodiment that the radial adjustment assembly has a first stroke that adjusts each punch assembly 1.121 to extend outwardly about the axis of the telescoping shaft assembly and a second stroke that adjusts each punch assembly 1.121 to retract inwardly about the axis of the telescoping shaft assembly.

Wherein, still include: the locking subassembly, the locking subassembly carries out the auto-lock to drill bit 1.14 in the stroke that drill bit 1.14 inserted, and radial adjusting part drives the locking subassembly in the second stroke and unlocks drill bit 1.14 in order to realize changing drill bit 1.14.

The locking assembly comprises two insertion blocks 1.127 which are connected in a sliding mode in the radial direction of the telescopic shaft assembly, and each insertion block 1.127 is connected with the telescopic shaft assembly through a first spring 1.1203.

The two plug blocks 1.127 are connected through a driving member 1.126, and the driving member 1.126 is used for driving each plug block 1.127 to unlock.

The drill bit 1.14 is provided with an inserting column 1.141, the inserting column 1.141 is provided with two inserting holes 1.142, and each inserting hole 1.142 is arranged corresponding to each inserting block 1.127 one by one.

Specifically, as shown in fig. 5, two mounting grooves 1.1202 adapted to the insertion block 1.127 are annularly formed in the end surface of the second transmission shaft 1.12, each mounting groove 1.1202 is arranged in one-to-one correspondence with each insertion block 1.127, the inner wall of each mounting groove 1.1202 is fixedly connected with a first spring 1.1203, the other end of each first spring 1.1203 is fixedly connected to the insertion block 1.127 arranged in correspondence therewith, each insertion block 1.127 is provided with a connecting groove 1.1270 adapted to the driving rod 1.123, so that the driving member 1.126 is slidably connected to each insertion block 1.127 through the connecting groove 1.1270, and the driving member 1.126 moves to drive each insertion block 1.127 to move so as to unlock the drill bit 1.14 and replace the drill bit 1.14, and a mounting hole adapted to the insertion column 1.141 is formed in the axial position of the second transmission shaft 1.12;

as shown in fig. 5 and 6a, a waist-shaped groove 1.1260 is formed on the driving member 1.126, and a pin shaft matched with the waist-shaped groove 1.1260 is fixedly connected to the driving block 1.125, so that the driving member 1.126 and the driving block 1.125 are connected in a relative sliding manner.

As shown in fig. 8, an inserting column 1.141 is disposed on the drill bit 1.14, two inserting holes 1.142 are disposed on the inserting column 1.141, each inserting hole 1.142 is disposed corresponding to each inserting block 1.127, and the front view of the inserting column 1.141 is a conical structure.

In the using process, as shown in fig. 5, when the drill bit 1.14 is installed in use, at this time, the driving element 1.126 is located at the position shown in fig. 5, a user makes the positions of the insertion holes 1.142 on the insertion column 1.141 and the insertion blocks 1.127 correspond one to one, inserts the insertion column 1.141 into the installation hole on the second transmission shaft 1.12, makes the circumferential side of the insertion column 1.141 abut against the insertion blocks 1.127, further makes the insertion blocks 1.127 stressed, further makes the insertion blocks 1.127 move in the installation groove 1.1202 and simultaneously compresses the first spring 1.1203 until the insertion blocks 1.127 are aligned with the insertion holes 1.142 on the insertion column 1.141, and makes the insertion blocks 1.127 reset under the action of the first spring 1.1203, further makes the insertion blocks 1.127 inserted into the insertion holes 1.142, thereby implementing the installation of the drill bit 1.14;

when a user needs to disassemble the drill bit 1.14, the driving member 1.126 is located at the position shown in fig. 5 and 5a, at this time, the user manually rotates the screw rod 1.124 counterclockwise, so that the screw rod 1.124 drives the driving block 1.125 to move towards the edge position of the second transmission shaft 1.12, and further the driving block 1.125 drives the driving member 1.126 to move, and the driving member 1.126 drives each plug-in block 1.127 to move towards the edge position of the second transmission shaft 1.12 in the moving process, so that each plug-in block 1.127 is disengaged from the plug-in hole 1.142 of the plug-in post 1.141, and further the drill bit 1.14 is unlocked.

Referring to fig. 1-4, the present invention provides in one embodiment, further comprising: a conveying assembly: the condensed water tray is arranged on the frame 1 and used for conveying the condensed water tray;

a clamping component: the device is arranged on a rack 1 and used for clamping a condensed water disc, and a telescopic component is arranged on a clamping component;

after conveying mechanism carries the condensate water dish to predetermined position for make the telescopic shaft subassembly drive drill bit 1.14 and punch a hole to the condensate water dish when the centre gripping subassembly presss from both sides tightly the condensate water dish.

Specifically, the conveying assembly comprises two first conveying wheels 1.51 which are rotatably connected to the rack 1, the two first conveying wheels 1.51 are horizontally arranged on the rack 1, a conveying belt 1.50 is arranged between the two first conveying wheels 1.51, one first conveying wheel 1.51 is driven by a motor 2, and the motor 2 is fixedly connected to the rack 1;

a second conveying wheel is arranged between the two conveying wheels, and the two first conveying wheels 1.51 and the second conveying wheels 1.52 are horizontally arranged;

as shown in fig. 3 and 4, the clamping assembly includes two clamping blocks 1.13 slidably connected to the frame 1, each clamping block 1.13 is rotatably connected to a second transmission shaft 1.12, the bottom end of each clamping block 1.13 has a first slider 1.131, one of the side walls of each clamping block 1.13 is fixedly connected to a through hole formed in each first slider 1.131 and adapted to the rotating shaft of the second conveying wheel 1.52, the rotating shaft of the second conveying wheel 1.52 passes through each first slider 1.131 and extends to the edge of the frame 1, the two ends of the second conveying wheel are coaxially and fixedly connected to a first bevel gear 1.30, the frame 1 is rotatably connected to a second bevel gear 1.32, the first bevel gear 1.30 is engaged with the second bevel gear 1.32, the first bevel gear 1.30 is a large gear, the second bevel gear 1.32 is a small gear, and the transmission ratio of the first bevel gear and the second bevel gear 1.32 is set according to the requirement;

the two opposite side walls of the rack 1 are respectively provided with a first chute 1.01 matched with the first sliding block 1.131, the first chute 1.01 penetrates through the working table surface of the rack 1, each second bevel gear 1.32 is rotatably connected to the rack 1, each second bevel gear 1.32 is coaxially and rotatably connected with a driving disc 1.32, the eccentric position of each driving disc 1.32 is hinged with a transmission rod 1.33, and the other end of each transmission rod 1.33 is respectively hinged to a first clamping block 1.13 correspondingly arranged to the transmission rod;

a first transmission shaft 1.10 is rotatably connected to the upper end of the first bevel gear 1.30 on the frame 1, and the first transmission shaft 1.10 is coaxially connected with a second transmission shaft 1.12;

the end parts of the second bevel gear 1.32 and the first transmission shaft 1.10 are both coaxially and fixedly connected with a transmission wheel 1.20, and a transmission belt 1.21 is sleeved between the two first transmission wheels 1.20.

In the using process, the radial adjusting assembly rotates to drive the punching assembly 1.121 to extend outwards or contract inwards in the radial direction of the second transmission shaft 1.12, so that the position of the punching assembly 1.121 in the radial direction of the transmission shaft is changed until the punching assembly 1.121 is moved to the set preset position, and then the drill bit 1.14 punches the two opposite side walls of the condensed water tray;

after the condensed water tray is conveyed to the corresponding positions of the two clamping blocks 1.13, the first bevel gears 1.30 drive the second bevel gears 1.32 to rotate, so that the second bevel gears 1.32 drive the driving disc 1.32 rotating disc coaxially and fixedly connected with the second bevel gears to further drive the driving disc 1.32 to drive the transmission rod 1.33 correspondingly arranged to move, further the transmission rod 1.33 is driven to move, and further the condensed water tray is clamped;

at this time, the limiting rod 1.130 is used for limiting the conveying of the condensed water disc, the first bevel gear 1.30 drives the first transmission shaft 1.10 to rotate in the rotating process, the first transmission shaft 1.10 drives the second transmission shaft 1.12 to rotate, and the second transmission shaft 1.12 horizontally moves in the punching process, so that the second transmission shaft 1.12 drives the punching assembly 1.121 to move until the punching assembly 1.121 is in contact with the condensed water disc, the abutting force of the quality inspection of the grinding wheel 1.1214 and the condensed water disc is increased in the contact process, so that the grinding wheel 1.1214 drives the supporting rod 1.1213 to move in the second slider 1.1211 to compress the second spring 1.1212, and the abutting force between the grinding wheel 1.1214 and the condensed water disc is kept in a certain range under the action of the second spring 1.1212 in the grinding and punching process of the grinding wheel 1.1214, so that the condensed water disc is not deformed due to the local stress of the condensed water disc; thereby completing the whole punching process.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (2)

1. The utility model provides a mechanism of punching a hole for condensate water pan production, includes frame (1) and telescopic shaft subassembly, the last drill bit (1.14) that can dismantle of telescopic shaft subassembly is connected with, telescopic shaft subassembly includes that two rotate first transmission shaft (1.10) and the overcoat on frame (1) are in first transmission shaft (1.10) outside second transmission shaft (1.12), its characterized in that still includes: punch assembly (1.121): which slides in a radial direction on the drive shaft;

the radial adjusting component: the punching component is arranged on the transmission shaft and is connected with the punching component (1.121);

the radial adjusting assembly is used for adjusting the position of the punching assembly (1.121) in the radial direction of the transmission shaft so as to punch holes with different inner diameters;

the punching assembly (1.121) comprises a plurality of second sliding blocks (1.1211) which are connected in a sliding manner in the radial direction of the telescopic shaft assembly, a supporting rod (1.1213) is connected in each second sliding block (1.1211) in a sliding manner, and a grinding wheel (1.1214) is rotatably connected on each supporting rod (1.1213);

each second sliding block (1.1211) is connected with each supporting rod (1.1213) through a second spring (1.1212);

the radial adjusting assembly is provided with a first stroke for adjusting each punching assembly (1.121) to extend outwards at the axial center of the telescopic shaft assembly and a second stroke for adjusting each punching assembly (1.121) to contract inwards at the axial center of the telescopic shaft assembly;

the radial adjusting assembly comprises a driving unit and a transmission unit;

the transmission unit is used for driving each punching assembly (1.121) to slide in the radial direction of the telescopic shaft assembly;

the transmission unit comprises a driving ring (1.122) which is rotatably connected to the telescopic shaft assembly, and the driving ring (1.122) and each second slide block (1.1211) are hinged through an arc-shaped rod (1.128);

the driving unit comprises a driving block (1.125) which is connected with the telescopic shaft in a sliding way in the radial direction of the telescopic shaft, the driving block (1.125) is hinged with a driving ring (1.122) through a driving rod (1.123), and the driving block (1.125) is driven by a screw rod (1.124);

further comprising: the locking assembly self-locks the drill bit (1.14) in the insertion stroke of the drill bit (1.14), and the radial adjusting assembly drives the locking assembly to unlock the drill bit (1.14) in the second stroke so as to replace the drill bit (1.14);

the locking assembly comprises two insertion blocks (1.127) which are connected with each other in a sliding mode in the radial direction of the telescopic shaft assembly, and each insertion block (1.127) is connected with the telescopic shaft assembly through a first spring (1.1203);

the two insertion blocks (1.127) are connected through a driving piece (1.126), and the driving piece (1.126) is used for driving each insertion block (1.127) to unlock;

a kidney-shaped groove (1.1260) is formed in the driving piece (1.126), and a pin shaft matched with the kidney-shaped groove (1.1260) is fixedly connected to the driving block (1.125) so that the driving piece (1.126) and the driving block (1.125) are connected in a sliding mode relatively.

2. The punching mechanism for producing the condensed water tray as claimed in claim 1, wherein the drill bit (1.14) is provided with an insertion column (1, 141), the insertion column (1, 141) is provided with two insertion holes (1.142), and each insertion hole (1.142) and each insertion block (1.127) are arranged in a one-to-one correspondence manner.

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