CN210884144U - Die body transfer equipment - Google Patents

Abstract

The utility model discloses a die body transfer apparatus, die body are the lower mould, including first die body elevating gear, second die body elevating gear, die body transfer device and die body advancing device, first die body elevating gear locates mould orbit's upstream side, is used for promoting die body transfer device carries the die body, die body advancing device be used for with on the first die body elevating gear the die body promotes extremely mould orbit, second die body elevating gear locates mould orbit's downstream side, be used for with the mould orbit is unloaded the die body send extremely die body transfer device. The utility model provides a die body transfer apparatus, its degree of automation is high, need not artifical the participation basically among the equipment operation process, can reduce intensity of labour to improve production efficiency.

Description

Die body transfer equipment

Technical Field

The utility model relates to a mould uses technical field, concretely relates to die body transfer apparatus.

Background

Utilize the mould to carry out the in-process of producing, still relate to the transportation of die body usually behind the drawing of patterns operation to realize the cyclic utilization of die body, at present, the transportation of die body needs the manual work to assist the operation more, and the transportation is wasted time and energy, and intensity of labour is great, and is unfavorable for production efficiency's improvement.

Therefore, how to provide a solution to overcome the above-mentioned drawbacks remains a technical problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a die body transfer apparatus, its degree of automation is high, and artifical the participation is less, can improve production efficiency to a great extent.

In order to solve the technical problem, the utility model provides a die body transfer apparatus, the die body is the lower mould, including first die body elevating gear, second die body elevating gear, die body transfer device and die body advancing device, first die body elevating gear locates mould orbit's upstream side, is used for promoting die body transfer device carries the die body, die body advancing device be used for with on the first die body elevating gear the die body promotes extremely mould orbit, second die body elevating gear locates mould orbit's downstream side is used for with the die body is delivered to mould orbit.

The utility model provides a die body transfer equipment, the accessible is located the first die body elevating gear of mould orbit upstream side, is located the second die body elevating gear of mould orbit downstream side, mould operation device and die body advancing device and is realized the transportation of drawing of patterns back die body, and the degree of automation of equipment is high, need not artifical the participation basically among the equipment operation process, can reduce intensity of labour to improve production efficiency.

The utility model discloses still provide another kind of die body transfer apparatus, the die body is last mould, including first die body elevating gear, second die body elevating gear, die body transfer device and die body advancing device, compound die station is located to first die body elevating gear for accept die body transfer device carries the die body, and control the die body carries out the compound die with the lower mould, drawing of patterns station is located to second die body elevating gear for promote after the drawing of patterns the die body, die body advancing device be used for with on the second die body elevating gear the die body promotes extremely die body transfer device.

Optionally, the die body propelling device is a stand-alone device and comprises a bracket and a propelling part mounted on the bracket, and the propelling part comprises a telescopic part.

Optionally, the telescopic part is provided with a push plate, and the pushing part can push the mold body through the push plate.

Optionally, still include die body position monitoring switch, be used for the monitoring first die body elevating gear second die body elevating gear is last the position of die body, first die body elevating gear second die body elevating gear die body transfer device die body advancing device all with die body position monitoring switch signal connection.

Optionally, the first mold body lifting device and the second mold body lifting device both comprise a lifting driving piece, the lifting driving piece comprises a driving part, a driving end of the driving part is connected with a lifting seat, and the lifting seat can receive the mold body.

Optionally, the number of the lifting driving pieces of the first die body lifting device and the second die body lifting device is two, the two lifting driving pieces of the same die body lifting device are arranged at intervals along the transverse direction, each lifting seat is provided with a positioning block capable of extending out or retracting back in the transverse direction, and the positioning blocks can fix the die bodies in the extending state.

Optionally, the positioning block includes a first positioning block and a second positioning block, and in an extended state, the second positioning block is configured to support the mold body so as to support the mold body, and the first positioning block can clamp the mold body.

Optionally, the die body transfer device is a belt conveyor and is arranged above or below the die running track.

Optionally, the phantom transfer device comprises a transverse transfer track and a longitudinal transfer track.

Drawings

Fig. 1 is a schematic diagram of an embodiment of a mold body transfer apparatus provided in the present invention;

FIG. 2 is a side view of FIG. 1;

FIG. 3 is a schematic structural diagram of a mold body propelling device;

FIG. 4 is a view of the structure of the lifting driving member and the mold body;

figure 5 is a schematic diagram of another embodiment of a phantom transfer apparatus according to the present invention.

The reference numerals in fig. 1-5 are illustrated as follows:

22 die body;

31 a first die body lifting device, 311a lifting driving piece, 311a lifting seat, 311a-1 a first positioning block, 311a-2 a second positioning block, 32 a second die body lifting device, 33 die body transfer device, 331 transverse transfer track, 332 longitudinal transfer track, 34 die body pushing device, 341 bracket, 342 pushing part, 342a telescopic part 343 and a pushing plate;

a1 mould orbit.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and specific embodiments.

The terms "first", "second", and the like, as used herein are used for convenience only to describe two or more structures or components that are the same or similar in structure, and do not denote any particular limitation on the order.

Here, the moving direction of the mold on the mold moving track is taken as a longitudinal direction, and in a horizontal plane, a direction perpendicular to the longitudinal direction is taken as a transverse direction.

Referring to fig. 1-5, fig. 1 is a schematic diagram of a specific embodiment of a mold body transfer apparatus provided in the present invention, fig. 2 is a side view of fig. 1, fig. 3 is a schematic diagram of a structure of a mold body propulsion device, fig. 4 is a structural diagram of a lifting driving member and a mold body, and fig. 5 is a schematic diagram of another specific embodiment of a mold body transfer apparatus provided in the present invention.

Example one

As shown in fig. 1, the utility model provides a die body transfer equipment, this die body can be the lower mould, including first die body elevating gear 31, second die body elevating gear 32, die body transfer device 33 and die body advancing device 34, the upstream side of mould orbit A1 is located to first die body elevating gear 31, a die body 22 for promoting die body transfer device 33 and carry, it is preferred to promote this die body 22 to the parallel and level with mould orbit A1 mutually, die body advancing device 34 is used for promoting die body 22 on the first die body elevating gear 31 to mould orbit A1, the downstream side of mould orbit A1 is located to second die body elevating gear 32, a die body 22 for unloading mould orbit A1 delivers to die body transfer device 33.

The utility model provides a die body transfer device, the accessible is located the first die body elevating gear 31 of mould orbit A1 upstream side, is located the second die body elevating gear 32 of mould orbit A1 downstream side, mould operation device 33 and die body advancing device 34 and is realized the transportation of drawing of patterns back die body, and the degree of automation of equipment is high, need not artifical the participation basically among the equipment operation process, can reduce intensity of labour to improve production efficiency.

The die body transfer device 33 can be a belt conveyor, a roller conveyor and the like, can be arranged below the die running track a1, and can be matched with the first die body lifting device 31, the second die body lifting device 32 and the die body pushing device 34 to form an annular loop of the die body 22 so as to realize the recycling of the die body 22; the scheme has the advantages that the space below the mold running track A1 is fully utilized, the compactness of the equipment is high, and the occupied area of the equipment can be small. The die body transfer device 33 may be operated intermittently so as to adapt to the operation strokes of the first die body lifting device 31 and the second die body lifting device 32, or may be operated continuously, which is determined by combining the actual operation condition.

In addition to this, the mold body transfer device 33 may be disposed on one lateral side of the mold track a1, and in particular, with reference to fig. 5, in which the mold body 22 can be transferred in a horizontal plane after being separated from the mold product (the product produced by the mold), and the mold transfer device 33 may include a lateral transfer track 331 and a longitudinal transfer track 332.

The mold track a1 may be powered by itself, for example, the mold track a1 may be provided with a driving roller or a driving belt, etc. to drive the mold body 22 located thereon and the clamped mold to automatically displace downstream, in which case, the required propelling force of the mold body propelling device 34 may be small, and it may be integrated on the first mold body lifting device 31.

The mold track a1 may be unpowered, and in this case, the mold track a1 may only provide track support, in which case, the mold body propulsion device 34 is required to drive the mold body 22 on the mold track a1 and the closed mold to displace downstream, and a greater propulsion force is required due to the large number of mold bodies 22 and molds on the mold track a1 and their abutment.

For this purpose, the mold body advancing device 34 may be provided as a separate device to provide a larger advancing force, as shown in fig. 3, the mold body advancing device 34 may include a bracket 341 and an advancing part 342 mounted to the bracket 341, the advancing part 342 may include a telescopic part 342a, a push plate 343 may be mounted to a rear end of the telescopic part 342a, and the advancing part 342 may push the mold body 22 to be displaced by the push plate 343. The propelling member 342 may be an air cylinder, a hydraulic cylinder, or the like, and the expansion portion 342a may be a piston rod.

In fact, the die body propelling device 34 is adopted to push the die body 22 and the die on the die operation track a1 to displace, so that the upstream die body 22 can push the downstream die body 22, and it is more favorable to ensure that two adjacent die bodies 22, two adjacent die bodies 22 and two adjacent dies abut against each other, so as to fully utilize the longitudinal space of the die operation track a 1.

The number of the propelling members 342 may be one or more, and is specifically related to the magnitude of the propelling force required. When the number of the propelling members 342 is plural, the telescopic portion 342a of each propelling member 342 may be provided with an independent pushing plate 343, or each telescopic portion 342a may share the same pushing plate 343.

The first mold body lifting device 31 and the second mold body lifting device 32 may be provided with a mold body position monitoring switch (not shown in the figure) for monitoring the positions of the mold body 22 on the first mold body lifting device 31 and the second mold body lifting device 32, and the first mold body lifting device 31, the second mold body lifting device 32 and the mold body pushing device 34 may be in signal connection with the mold body position monitoring switch, so as to operate according to the position signal measured by the mold body position monitoring switch.

Taking a mold body position monitoring switch arranged on the first mold body lifting device 31 as an example, the mold body position monitoring switch may include a first position switch, a second position switch and a third position switch, wherein the first position switch is configured to monitor a vertical position of the mold body 22 on the first mold body lifting device 31, and when the first position switch monitors that the mold body 22 is lifted to be flush with the mold operation track a1, the mold body propelling device 34 may be activated to push the mold body 22 to move toward the mold operation track a 1; the second position switch is used for monitoring the longitudinal position of the die body 22 after the lifting operation of the first die body lifting device 31, when the second position switch monitors that the die body 22 moves to the die running track a1, the die body pushing device 34 can retract, and the lifting seat 311a (see the following description) of the first die body lifting device 31 can descend; the third position switch is used for monitoring the longitudinal position of the mold body 22 on the mold body transfer device 33 moving towards the lifting seat 311a after the lifting seat 311a of the first mold body lifting device 31 is lowered, and when it is monitored that the mold body 22 moves to the lifting seat 311a, the first mold body lifting device 31 can lift the lifting seat 311 a.

The first position switch, the second position switch and the third position switch can all adopt travel switches, so that the position signal of the die body 22 is transmitted by utilizing the collision between the die body 22 and a contact on the travel switches when the die body 22 moves to a specific position; of course, the position switches may be non-contact switches in the form of infrared or ultrasonic waves, as long as the position of the mold body 22 can be accurately monitored.

In the above scheme, three die body position monitoring switches are provided at the first die body lifting device 31, and in fact, one or two die body position monitoring switches may be provided, and at this time, each die body position monitoring switch may simultaneously integrate multiple position monitoring functions; taking two examples, the die body position monitoring switch may only have a first position monitoring switch and a second position monitoring switch, and the first position monitoring switch may be used to monitor the vertical position of the die body 22, and may also be used to monitor the longitudinal position of the die body 22 on the lifting seat 311a after the lifting seat 311a is lowered.

It is to be understood that the die body position monitoring switch provided in the second die body lifting device 32 is similar to the die body position monitoring switch provided in the first die body lifting device 31, and will not be described repeatedly herein.

Further, a controller (not shown in the figure) may be further included, the controller may be in signal connection with the above-mentioned die body position monitoring switch, the first die body lifting device 31 and the die body pushing device 34, and the controller may receive a signal of the die body position monitoring switch in real time, so as to control the first die body lifting device 31, the second die body lifting device 32 and the die body pushing device 34 to operate. It will be appreciated that the controller may not be present, and the corresponding phantom position monitoring switches may be in signal communication with the first phantom lifting device 31, the second phantom lifting device 32, and the phantom advancing device 34.

Referring to fig. 4, the first mold body lifting device 31 may include a lifting driving member 311, where the lifting driving member 311 may specifically include a power component capable of generating linear displacement, such as an air cylinder, a hydraulic oil cylinder, etc., and a driving end (a piston rod) thereof may be connected with a lifting seat 311a, and the lifting seat 311a may be capable of receiving the mold body 22 so as to drive the mold body 22 to displace; it is understood that the lifting driving member 311 may include a frame in addition to the power member and the lifting base 311a, and the structure of the frame may be set according to the requirement, which is not limited herein.

The number of the lifting driving members 311 of the first mold body lifting device 31 may be two, as shown in fig. 2, the two lifting driving members 311 may be arranged at intervals in the transverse direction, each lifting seat 311a may be provided with a positioning block capable of extending or retracting in the transverse direction, and in the extended state, the positioning block may be capable of being fixedly moved to the mold body 22 of the lifting seat 311 a. It should be noted that each lifting driving member 311 may include one or more power components, and the driving end of each power component may be individually connected to the lifting seat 311a, or the same lifting seat 311a may be used.

The positioning blocks may include a first positioning block 311a-1 and a second positioning block 311a-2, wherein in the extended state, the second positioning block 311a-2 is used for supporting the mold body 22, and the first positioning block 311a-1 is capable of clamping the mold body 22. The "clamping" may be a vertical clamping (as shown in fig. 4), in which the first positioning block 311a-1 is required to cooperate with the second positioning block 311a-2 for clamping, or a horizontal clamping, in which two first positioning blocks 311a-1 of two spaced lifting seats 311a in the horizontal direction are required to cooperate for clamping.

The number of the first positioning block 311a-1 and the second positioning block 311a-2 on each lifting seat 311a may be one or more, which is specifically related to the length of the positioning blocks in the longitudinal direction, and no matter what design is adopted, it is only required to ensure that the die body 22 can be reliably fixed by the first positioning block 311a-1 and the second positioning block 311a-2, so that the lifting seat 311a can drive the die body 22 to stably lift. It can be understood that the extension or retraction of the positioning block requires the provision of a driving member, and in the embodiment of the present invention, the driving member for driving the positioning block to displace may be a cylinder, a hydraulic cylinder, or the like disposed in the transverse direction.

With reference to fig. 1 and 4, with the lifting seat 311a in the above form, when the mold body 22 is moved to the position corresponding to the lifting seat 311a by the mold body transferring device 33, the second positioning block 311a-2 firstly extends out and is engaged with the lower surface of the mold body 22, then the first positioning block 311a-1 extends out to clamp the mold body 22, and then the lifting driving member 311 can drive the lifting seat 311a to lift; when the mold body 22 is lifted to the desired position, the first positioning block 311a-1 is first retracted to release the clamping of the mold body 22, and the mold body pushing device 34 can be activated to push the mold body 22 on the lifting seat 311a to the mold running track a 1; thereafter, the mold body pushing device 34 may be retracted, and the second positioning block 311a-2 may also be retracted, so as to avoid interference with the mold body 22 on the mold body transferring device 33 when the lifting seat 311a moves downward.

It should be noted that, since the first mold body lifting device 31 only needs to drive the mold body 22 to lift, under the action of its own gravity, even if there is no clamping of the first positioning block 311a-1, the mold body 22 can be displaced along with the second positioning block 311a-2 more stably; that is, the lift seat 311a of the first mold block lifting device 31 may be provided with only the second positioning block 311 a-2.

The second mold body lifting device 32 has a structure substantially identical to that of the first mold body lifting device 31, and may also include the lifting driving element 311, the mold body position monitoring switch, etc., but since the second mold body lifting device 32 drives the mold body 22 to descend, in order to avoid the influence of the inertia force on the mold body 22, the first positioning block 311a-1 and the second positioning block 311a-2 are preferably simultaneously present on the lifting seat 311a, so as to clamp the mold body 22; the mold body position monitoring switch of the second mold body lifting device 32 may be used to monitor whether the mold body 22 moves from the mold track a1 to the lifting seat 311a, whether the mold body 22 descends along with the lifting seat 311a to the mold body transfer device 33, and whether the mold body 22 completely separates from the lifting seat 311a and moves along with the mold body transfer device 33.

In addition, in the above solution, the first mold body lifting device 31 and the second mold body lifting device 32 both include two lifting driving members 311, and the two lifting driving members 311 are disposed at intervals along the transverse direction, in fact, only one lifting driving member 311 may be included, the one lifting driving member 311 may be located on one transverse side of the mold body transferring device 33, or may be located on one longitudinal side of the mold body transferring device 33, as long as it can stably drive the mold body 22 to lift and does not interfere with the mold body transferring device 33 and the mold running track a 1.

Example two

Referring to fig. 5, the utility model provides still another kind of die body transfer apparatus, this die body can be for last mould, including first die body elevating gear 31, second die body elevating gear 32, die body transfer device 33 and die body advancing device 34, the compound die station is located to first die body elevating gear 31 for accept die body 22 that die body transfer device 33 carried, and control die body 22 and lower mould carry out the compound die, drawing of patterns station is located to second die body elevating gear 32, a die body 22 for promote after the drawing of patterns, it promotes this die body 22 to the looks parallel and level with die body transfer device 33 to be preferred, die body advancing device 34 is used for promoting die body 22 on the second die body elevating gear 32 to die body transfer device 33.

The structure can also improve the automation degree of transferring the upper die and the production efficiency, wherein the structures of the die body lifting structure, the transferring device, the propelling device and the like can refer to the first embodiment and are not described in detail herein.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (18)

1. The utility model provides a die body transfer apparatus, characterized in that, the die body is the lower mould, includes first die body elevating gear (31), second die body elevating gear (32), die body transfer device (33) and die body advancing device (34), the upstream side of mould orbit (A1) is located in first die body elevating gear (31), is used for promoting die body transfer device (33) is carried die body (22), die body advancing device (34) be used for with on first die body elevating gear (31) die body (22) promote extremely mould orbit (A1), second die body elevating gear (32) are located the downstream side of mould orbit (A1), be used for with mould orbit (A1) is lifted off die body (22) are sent to die body transfer device (33).

2. The phantom transport apparatus according to claim 1, wherein the phantom advancing device (34) is a stand-alone device comprising a stent (341) and an advancing member (342) mounted to the stent (341), the advancing member (342) comprising a telescoping portion (342 a).

3. The phantom transport apparatus according to claim 2, wherein the telescoping section (342a) is fitted with a push plate (343), the advancing means (342) being capable of advancing the phantom (22) through the push plate (343).

4. The die body transfer equipment according to claim 1, further comprising a die body position monitoring switch for monitoring the positions of the die bodies (22) on the first die body lifting device (31) and the second die body lifting device (32), wherein the first die body lifting device (31), the second die body lifting device (32), the die body transfer device (33) and the die body propulsion device (34) are in signal connection with the die body position monitoring switch.

5. The die body transfer apparatus according to any one of claims 1 to 4, wherein each of the first die body lifting device (31) and the second die body lifting device (32) comprises a lifting drive member (311), the lifting drive member (311) comprises a drive part, a lifting seat (311a) is connected to a drive end of the drive part, and the lifting seat (311a) can receive the die body (22).

6. The die body transfer apparatus according to claim 5, wherein the number of the lifting drive members (311) of the first die body lifting device (31) and the second die body lifting device (32) is two, the two lifting drive members (311) of the same die body lifting device are arranged at a transverse interval, each lifting seat (311a) is provided with a positioning block capable of extending out or retracting in the transverse direction, and in the extended state, the positioning block can fix the die body (22).

7. The die body transfer apparatus of claim 6, wherein the locating blocks comprise a first locating block (311a-1) and a second locating block (311a-2), the second locating block (311a-2) being configured to cradle the die body (22) in the extended state to support the die body (22), the first locating block (311a-1) being configured to clamp the die body (22).

8. The mold body transfer apparatus of claim 5, wherein the mold body transfer device (33) is a belt conveyor disposed above or below the mold track (A1).

9. The phantom transfer apparatus according to claim 5, wherein the phantom transfer device (33) comprises a transverse transfer track (431) and a longitudinal transfer track (432).

10. The utility model provides a die body transfer apparatus, its characterized in that, the die body is last mould, including first die body elevating gear (31), second die body elevating gear (32), die body transfer device (33) and die body advancing device (34), the compound die station is located in first die body elevating gear (31), is used for accepting die body transfer device (33) is carried die body (22) and control die body (22) carry out the compound die with the lower mould, drawing of patterns station is located in second die body elevating gear (32), is used for promoting after the drawing of patterns die body (22), die body advancing device (34) be used for with on second die body elevating gear (32) die body (22) promote extremely die body transfer device (33).

11. The phantom transport apparatus according to claim 10, wherein the phantom advancing device (34) is a stand-alone device comprising a stent (341) and an advancing member (342) mounted to the stent (341), the advancing member (342) comprising a telescoping portion (342 a).

12. The phantom transport apparatus according to claim 11, wherein the telescoping section (342a) is fitted with a push plate (343), the advancing means (342) being capable of advancing the phantom (22) through the push plate (343).

13. The die body transfer apparatus according to claim 10, further comprising a die body position monitoring switch for monitoring the positions of the die bodies (22) on the first die body lifting device (31) and the second die body lifting device (32), wherein the first die body lifting device (31), the second die body lifting device (32), the die body transfer device (33) and the die body propulsion device (34) are in signal connection with the die body position monitoring switch.

14. The die body transfer apparatus of any of claims 10-13, wherein the first die body lifting device (31) and the second die body lifting device (32) each comprise a lifting drive (311), the lifting drive (311) comprising a drive member, a lifting socket (311a) being connected to a drive end of the drive member, the lifting socket (311a) being capable of receiving the die body (22).

15. The die body transfer apparatus according to claim 14, wherein the number of the lifting drive members (311) of the first die body lifting device (31) and the second die body lifting device (32) is two, the two lifting drive members (311) of the same die body lifting device are arranged at a transverse interval, each lifting seat (311a) is provided with a positioning block capable of extending out or retracting in a transverse direction, and in an extended state, the positioning block can fix the die body (22).

16. The die body transfer apparatus of claim 15, wherein the locating blocks include a first locating block (311a-1) and a second locating block (311a-2), the second locating block (311a-2) being configured to cradle the die body (22) in the extended state to support the die body (22), the first locating block (311a-1) being configured to clamp the die body (22).

17. The phantom transfer apparatus according to claim 14, wherein the phantom transfer device (33) is a belt conveyor.

18. The phantom transfer apparatus according to claim 14, wherein the phantom transfer device (33) comprises a transverse transfer track (431) and a longitudinal transfer track (432).

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